Tag Archives: groove bearing

China Standard High Precision Flanged Cam Follower Bearing CZPT deep groove ball bearing

Product Description

CCFE2 1/2S CCFE2 1/2SB CFH2 1/2S CFH2 1/2SB CCFH2 1/2S  CCFH2 1/2SB CF2 3/4S CF2 3/4SB CCF2 3/4S CCF2 3/4SB CFE2 3/4S CFE2 3/4SB CCFE2 3/4S CCFE2 3/4SB CFH2 3/4S CFH2 3/4SB  CCFH2 3/4S CCFH2 3/4SB CF3 CF3B CCF3B CFE3B CCFE3 CCFE3B CFH3B CCFH3 CCFH3B CF3 1/4 CF3 1/4B CCFE3 1/4B CCFH3 1/4 CCFH3 1/4B CF3S CF3SB CCF3S CCF3SB CFE3S CFE3SB CCFE3S CCFE3SB CFH3S CCFH3S CCFH3SB CF3 1/4S CF3 1/4SB CCF3 1/4S CCFE3 1/4S CCFE3 1/4SB CCFH3 1/4S CCFH3 1/4SB CF3 1/2 CF3 1/2B CCFE3 1/2 CCFE3 1/2B CCFH31/2 CCFH3 1/2B CF4 CF4B CCF4 CCF4B CFE4 CFE4B CCFE4 CCFE4B CFH4 CFH4B CCFH4 CCFH4B CF3 1/2S CF3 1/2SB CCFE3 1/2S CCFE3 1/2SB CCFH3 1/2S CCFH3 1/2SB CF4S CF4SB CCF4S CCF4SB CFE4S CFE4SB CCFE4S CCFE4SB CFH4S CFH4SB CCFH4S CCFH4SB CF5SB CCF5SB CFH5SB CCFH5SB CF6SB CCF6SB CFH6SB CCFH6SB CCFH6SB CF7SB CCF7SB CFH7SB CCFH7SB CF8SB CCF8SB CF9SB CCF9SB CF10SB CCF10SB CF5S CCF5S CFH5S CCFH5S CF6S CCF6S CFH6S CCFH6S CF7S CCF7S CFH7S CCFH7S CF8S CCF8S CF9S CCF9S CF10S CCF10S BCF1/2S BCF1/2SB BCCF1/2S BCCF1/2SB BCFE1/2S BCFE1/2SB BCCFE1/2S BCCFE1/2SB BCF9/16S BCF9/16SB BCCF9/16S BCCF9/16SB BCFE9/16S BCFE9/16SB BCCFE9/16S BCCFE9/16SB BCF5/8S BCF5/8SB BCCF5/8S BCCF5/8SB BCFE5/8S BCFE5/8SB BCCFE5/8S BCCFE5/8SB BCF11/16S BCF11/16SB BCCF11/16S BCCF11/16SB BCFE11/16S BCFE11/16SB BCCFE11/16S BCCFE11/16SB BCF3/4S BCF3/4SB BCCF3/4S BCCF3/4SB BCFE3/4S BCFE3/4SB BCCFE3/4S BCCFE3/4SB BCF7/8S BCF7/8SB BCCF7/8S BCCF7/8SB BCFE7/8S BCFE7/8SB BCCFE7/8S BCCFE7/8SB BCF1S BCF1SB BCCF1S BCCF1SB BCFE1S BCFE1SB BCCFE1S BCCFE1SB  BCF1 1/8S BCF1 1/8SB BCCF1 1/8S BCCF1 1/8SB BCFE1 1/8S  BCFE1 1/8SB BCCFE1 1/8S BCCFE1 1/8SB BCF1 1/4S BCF1 1/4SB BCCF1 1/4S BCCF1 1/4SB BCFE1 1/4S BCFE1 1/4SB BCCFE1 1/4S BCCFE1 1/4SB BCF1 3/8S BCF1 3/8SB BCCF1 3/8S BCCF1 3/8SB BCFE1 3/8S BCFE1 3/8SB BCCFE1 3/8S BCCFE1 3/8SB BCF1 1/2S BCF1 1/2SB BCCF1 1/2S BCCF1 1/2SB BCFE1 1/2S BCFE1 1/2SB BCCFE1 1/2S BCCFE1 1/2SB BCF1 5/8S BCF1 5/8SB BCF1 5/8SB BCCF1 5/8SB BCFE1 5/8S BCFE1 5/8SB BCCFE1 5/8S BCCFE1 5/8SB BCF1 3/4S BCF1 3/4SB BCCF1 3/4S BCCF1 3/4SB BCFE1 3/4S  BCFE1 3/4SB BCCFE1 3/4S BCCFE1 3/4SB BCF1 7/8S BCF1 7/8SB BCCF1 7/8S BCCF1 7/8SB BCFE1 7/8S BCFE1 7/8SB BCCF2S MCFR13B

 

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   Product quality standards are guaranteed. Our products have got ISO 9001 & CE international quality management system. They all produced with best advanced technology.We are proactive and we offer only products complying with top standards of quality and warranty.
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Cage: With Cage
Rows Number: Double
Load Direction: Thrust Bearing
Style: With Outer Ring
Material: Bearing Steel
Type: Open
Samples:
US$ 2/Piece
1 Piece(Min.Order)

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Customization:
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cam folllow bearing

How do cam follower bearings improve the functionality of conveyors and material handling systems?

Cam follower bearings play a crucial role in improving the functionality of conveyors and material handling systems. Let’s explore in detail how cam follower bearings contribute to the efficient operation of these systems:

  • Precise Tracking and Guidance: Cam follower bearings provide precise tracking and guidance for conveyors and material handling systems. By following the profile of the cam, the bearings ensure that the moving components, such as rollers or belts, stay on the desired path. This precise tracking helps prevent misalignment, slippage, or jamming, ensuring smooth and reliable movement of materials along the conveyor or within the material handling system.
  • Smooth and Controlled Motion: Cam follower bearings enable smooth and controlled motion of conveyors and material handling systems. They transfer the rotational motion from the driving mechanism to the connected components, such as rollers or pulleys. This controlled motion allows for gentle acceleration, deceleration, and speed regulation, minimizing shocks, vibrations, and material spillage. The smooth and controlled motion enhances the overall efficiency, throughput, and safety of the system.
  • Load Support and Handling: Conveyors and material handling systems often carry significant loads, ranging from lightweight items to heavy bulk materials. Cam follower bearings are designed to provide robust load support and handling capabilities. They distribute the load evenly across the bearings, ensuring smooth and stable operation even under heavy loads. This load support feature minimizes wear and fatigue on the system components, prolonging their service life and reducing maintenance requirements.
  • Flexibility and Versatility: Cam follower bearings offer flexibility and versatility in conveyor and material handling system design. Their compact size and various mounting options allow for easy integration into different configurations, including straight, curved, or inclined conveyors. The ability to accommodate misalignments and deviations in the cam profile enables customization and adaptability to specific application requirements. This flexibility facilitates the efficient layout and optimization of conveyor and material handling systems.
  • Reduced Friction and Energy Consumption: Cam follower bearings incorporate rolling elements, such as rollers or needles, that reduce friction between the cam and the bearing. This rolling action minimizes energy losses and frictional heat generation, resulting in reduced power consumption and improved energy efficiency of the system. The reduced friction also contributes to the longevity of the bearings by minimizing wear and extending their operational life.
  • Reliability and Maintenance: Cam follower bearings are designed for reliable and low-maintenance operation in demanding industrial environments. They are constructed with durable materials and undergo stringent quality control processes to ensure their reliability. The minimal maintenance requirements of cam follower bearings help reduce downtime and increase the overall availability of conveyors and material handling systems, improving productivity and operational efficiency.

In summary, cam follower bearings enhance the functionality of conveyors and material handling systems by providing precise tracking and guidance, enabling smooth and controlled motion, supporting and handling various loads, offering flexibility in system design, reducing friction and energy consumption, and ensuring reliability with low maintenance requirements. With these benefits, cam follower bearings contribute to the efficient and reliable operation of conveyors and material handling systems, optimizing material flow, productivity, and safety in industrial environments.

cam folllow bearing

How do different types of cam follower bearings, such as stud-type and yoke-type, differ in design and functionality?

Different types of cam follower bearings, such as stud-type and yoke-type, have distinct designs and functionalities that make them suitable for specific applications. Let’s explore the differences in design and functionality between these two types:

Stud-Type Cam Follower Bearings:

Stud-type cam follower bearings, also known as crowned or needle roller bearings, have a stud or bolt-like structure at the center of the bearing. Here are some key characteristics of stud-type cam follower bearings:

  • Design:
  • Stud-type cam follower bearings consist of an outer ring, a stud, a needle roller or cylindrical roller assembly, and a thick-walled outer ring or crowned outer ring. The stud is designed to provide a mounting point for the bearing and is typically threaded or equipped with a hexagonal socket for easy installation.

  • Functionality:
  • Stud-type cam follower bearings are designed for applications where the bearing needs to directly support a load and provide a point of attachment. The stud can be fastened to a structure or mating component, allowing the bearing to transmit radial loads, axial loads, or both. These bearings are often used in applications that require high radial load capacity, such as machine tools, printing presses, or industrial equipment.

  • Advantages:
  • Stud-type cam follower bearings offer advantages such as easy installation and removal due to the threaded or hexagonal stud design. They provide a compact and robust solution for applications that require high load-carrying capacity and precise motion control. The crowned outer ring design helps distribute load evenly and promotes proper alignment.

  • Considerations:
  • One consideration with stud-type cam follower bearings is the need for proper alignment and support of the stud to prevent excessive stress or misalignment. Adequate lubrication is also important to ensure smooth operation and prolong bearing life.

Yoke-Type Cam Follower Bearings:

Yoke-type cam follower bearings, also known as roller followers, have a yoke-shaped mounting structure. Here are some key characteristics of yoke-type cam follower bearings:

  • Design:
  • Yoke-type cam follower bearings consist of an outer ring, a yoke or stud, a roller assembly, and a thick-walled outer ring. The yoke-shaped structure provides a mounting point for the bearing and often has a hole or threaded section for attachment to a supporting structure. The roller assembly, which can be needle rollers or cylindrical rollers, rides on the outer ring.

  • Functionality:
  • Yoke-type cam follower bearings are designed for applications where the bearing needs to follow or track a contoured or irregular surface. The yoke allows the bearing to articulate and maintain contact with the surface while transmitting radial loads, axial loads, or both. These bearings are commonly used in applications such as cam mechanisms, conveyor systems, or track rollers.

  • Advantages:
  • Yoke-type cam follower bearings offer advantages such as the ability to track irregular surfaces or contours, making them suitable for applications where controlled motion and precise tracking are required. They provide excellent radial load-carrying capacity and are often used in applications with moderate to high loads.

  • Considerations:
  • One consideration with yoke-type cam follower bearings is the need for proper lubrication to reduce friction and wear. The yoke and roller assembly should be adequately supported to prevent excessive stress or deflection.

Overall, stud-type and yoke-type cam follower bearings differ in their mounting structures and intended applications. Stud-type bearings are suitable for applications where direct load support and attachment points are required, while yoke-type bearings excel in applications where tracking irregular surfaces and controlled motion are crucial. The specific design and functionality of each type make them well-suited for different mechanical systems and industries.

cam folllow bearing

What advantages do cam follower bearings offer compared to other bearing types?

Cam follower bearings offer several advantages compared to other bearing types, making them suitable for specific applications where their unique features are beneficial. Here are the key advantages of cam follower bearings:

  • Cam Following Capability:
  • The primary advantage of cam follower bearings is their ability to accurately follow the profile of a cam. This feature allows them to convert the rotary motion of the cam into linear or oscillating motion with precision. The cam follower bearing maintains contact with the cam’s surface, ensuring consistent and controlled movement. This capability is particularly useful in applications where the motion needs to be translated or transformed, such as in cam-driven mechanisms, sliding doors, or lifting systems.

  • High Load Capacity:
  • Cam follower bearings are designed to handle high loads, making them suitable for applications that require robust support and load-carrying capacity. The design of cam follower bearings, especially heavy-duty versions, allows them to withstand heavy radial and axial loads. This makes them suitable for demanding applications such as material handling equipment, automotive systems, and machinery where substantial forces are involved.

  • Shock and Impact Resistance:
  • Cam follower bearings are known for their ability to absorb shocks and impacts due to their robust construction and rolling element design. The rolling elements, whether rollers or needles, distribute the load evenly along their length, minimizing localized stress concentrations. This characteristic enables cam follower bearings to handle sudden changes in load or impact loads without compromising performance or causing premature failure. Applications with dynamic loads or intermittent forces can benefit from the shock-resistant nature of cam follower bearings.

  • Versatile Mounting Options:
  • Cam follower bearings offer versatile mounting options, allowing flexibility in their integration into mechanical systems. They are available in different configurations, including stud-type and yoke-type designs, which offer various mounting possibilities. Stud-type cam followers can be directly attached to a structure or component using a threaded stud, while yoke-type cam followers feature an integral flange that provides guidance and support. This versatility in mounting options makes cam follower bearings adaptable to different system designs and requirements.

  • Suitability for High-Speed Applications:
  • Cam follower bearings are well-suited for high-speed applications due to their rolling element design. The rolling elements, whether cylindrical rollers or needle rollers, reduce friction and enable smooth rolling motion. This allows cam follower bearings to operate at higher speeds while maintaining low heat generation and minimizing wear. Their ability to handle high speeds makes them suitable for applications such as automated machinery, robotics, and automotive systems where rapid and precise motion is required.

  • Compact Design:
  • Cam follower bearings typically have a compact design, which is advantageous in applications where space is limited. The compact size allows for easier integration into tight spaces or assemblies, making them ideal for applications with size constraints. Their small footprint and lightweight construction contribute to overall system efficiency and reduce unnecessary bulk.

In summary, cam follower bearings offer several advantages compared to other bearing types. Their ability to accurately follow the profile of a cam, high load capacity, shock and impact resistance, versatile mounting options, suitability for high-speed applications, and compact design make them a preferred choice in applications that require precise motion control, robust support, and reliable performance.

China Standard High Precision Flanged Cam Follower Bearing CZPT   deep groove ball bearingChina Standard High Precision Flanged Cam Follower Bearing CZPT   deep groove ball bearing
editor by CX 2024-05-08

China OEM Roller Bearing Track Roller Cam Follower Bearing Nutr58110 Nutr70/169 Nutr209 Nutr210 Needle Roller Bearing Manufacturer deep groove ball bearing

Product Description

More model of Needle Roller Bearing 

Related Information

NEEDLE ROLLER BEARINGS
SERIES INNER DIAMETER
K Series 3mm-130mm
HK Series 3mm-60mm
SCE Series 0.125-3.500
BK Series 3mm-60mm
BCE Series 0.125-3.500
HF Series 4mm-35mm
HFL Series 8mm-35mm
NK Series 5mm-100mm
NKI Series 5mm-100mm
NA4900 Series 10mm-100mm
RNA4900 Series 10mm-100mm
NA6900 Series 10mm-100mm
RNA6900 Series 10mm-100mm
AXK Series 6mm-160mm
AS Series 6mm-160mm

  Drawn cup needle roller bearings        
  Bearing Number Boundary dimensions(mm) Basic load ratings(N) Limiting speeds(rpm) Mass(g)
    Fw D C Cr Cor Oil (Approx.)
HK Series HK0408TN 4 8 8 1540 1070 4000 1.6
  HK0509 5 9 9 2200 1790 36000 2
  HK05X09X08 5 9 8 2200 1790 36000 1.9
  HK0607 6 10 7 1600 1400 30000 1.8
  HK0608 6 10 8 1830 1550 32000 2.1
  HK0609 6 10 9 2650 2400 3000 2.2
  HK0611 6 10 11 1700 1500 29000 2.3
  HK06X12X08 6 12 8 2230 2571 33000 2.5
  HK0708 7 11 8 2800 2150 27000 2.2
  HK0709 7 11 9 2800 2150 27000 2.3
  HK07X12X08 7 12 8 3300 3220 37000 2.2
  HK07X12X09 7 12 9 3400 3150 37000 2.4
  HK0808 8 12 8 2550 2400 21000 2.7
  HK571 8 12 10 3700 3450 21000 3
  HK08X14X10 8 14 10 3800 3950 25000 5.35
  HK08X14X12 8 14 12 4100 4320 25000 6.6
  HK 0571 9 13 8 3650 4050 25000 3
  HK571 9 13 10 4050 4250 25000 4
  HK571 9 13 11 4300 4700 25000 4.1
  HK571 9 13 12 5000 6000 25000 4.6
  HK09X15X10 9 15 10 5300 6300 25000 5.6
  HK1571 10 14 10 3900 4800 19000 4.1
  HK1012 10 14 12 5000 6300 19000 4.8
  HK1015 10 14 15 6700 7800 19000 6
  HK10X13X08 10 13 8 4100 4800 20000 3.5
  HK10X15X15 10 15 15 6800 8800 18000 6.5
  HK10X16X10 10 16 10 6800 8800 18000 6.5
  HK10X16X12 10 16 12 6800 8800 18000 7.5
  HK10X16X15 10 16 15 6800 8800 19000 11
  HK10X17X15 10 17 15 7200 8000 19000 11.5
  HK10X18X12 10 18 12 7200 8000 19000 8.5
  HK1208 12 16 8 7200 8000 19000 3.3
  HK1210 12 16 10 4150 5800 19000 4.6
  HK1212 12 16 12 3800 5100 15000 5.6
  HK12X17X12 12 17 12 5100 7000 15000 7.5
  HK12X17X15 12 17 15 5100 7000 15000 9.5
  HK12X17X18 12 17 18 5100 7000 15000 11
  HK12X18X12 12 18 12 5500 6300 17000 9.1
  HK12X18X14 12 18 14 6500 6300 15000 10.6
  HK12X19X12 12 19 12 6800 7400 15000 10
  HK1311 13 19 11 6300 6300 14000 8.5
  HK1312 13 19 12 6200 7100 17000 8.9
  HK13.5X20X12 13.5 20 12 6250 7590 16000 10.8
  HK1410 14 20 10 6700 7000 16000 8.3
  HK1412 14 20 12 6800 7500 16000 10.5
  HK1416 14 20 16 7300 9000 14000 13.9
  HK1512 15 21 12 7000 8400 14000 11.1
  HK1514 15 21 14 8500 10400 13000 12.7
  HK1515 15 21 15 9100 11400 13000 14.2
  HK1516 15 21 16 9800 11400 14000 15
  HK1522 15 21 22 10400 16500 14000 20.4
  HK15X20X12 15 20 12 5800 6000 14000 8.4
  HK15X20X16 15 20 16 6000 6200 14000 11.4
  HK15X20X20 15 20 20 6100 6400 14000 13.8
  HK15X22X12 15 22 12 14300 18400 13000 12.5
  HK15X22X12.5 15 22 12.5 14300 18400 13000 13.5
  HK1614 16 22 14 8800 9900 12000 14.4
  HK1616 16 22 16 15710 14300 14000 15.8
  HK1617 16 22 17 12900 17200 12000 18
  HK1622 16 22 22 11100 17400 14000 21.7
  HK16X21X06 16 21 6 4200 5300 12000 5.5
  HK16X21X09 16 21 9 4400 5600 12000 7.5
  HK1612 16 22 12 7100 9200 14000 11.7
  HK1712 17 23 12 6900 9300 13000 12.2
  HK1714 17 23 14 6800 15710 10000 14
  HK1716 17 23 16 8500 12500 10000 15.9
  HK1718 17 23 18 9500 10600 10000 19
  HK17X21.5X15 17 21.5 15 6300 8600 11000 10
  HK17X24X15 17 24 15 11200 12800 10000 17
  HK17X25X14 17 25 14 13100 14700 10000 17.7
  HK17X25X15.5 17 25 15.5 9320 10400 10000 20
  HK17X25X18 17 25 18 9500 10600 11000 23.5
  HK17X25X18-RS  17 25 18 10500 12600 13000 23.5
  HK1812 18 24 12 7100 9900 12000 13.1
  HK1816 18 24 16 106500 15300 12000 17.5
  HK19X27X16 19 27 16 8100 9500 10500 23
  HK2571 20 26 10 5900 7200 10000 11.8
  HK2011 20 26 11 7500 9200 9000 12
  HK2012 20 26 12 7600 15710 10000 14.1
  HK2014 20 26 14 9700 18100 9000 15.7
  HK2016 20 26 16 11700 29100 10000 19.3
  HK2018 20 26 18 7900 12800 9000 23.3
  HK2571 20 26 20 13700 24000 10000 24.1
  HK2571 20 26 25 9100 14800 9900 28
  HK2030 20 26 30 21800 40000 15710 34.7
  HK20X27X18 20 27 18 26000 47200 9900 78
  HK20X27X20 20 27 20 26300 47800 9900 82
  HK20X27X30 20 27 30 28500 48800 9900 94
  HK20X28X16 20 28 16 29600 49800 9900 28.5
  HK20X29X18 20 29 18 30900 54600 9900 41
  HK2210 22 28 10 7200 9500 1571 12.3
  HK2212 22 28 12 8100 10400 1571 15
  HK2216 22 28 16 11400 18100 1571 20.9
  HK2220 22 28 20 14500 25000 1571 26.2
  HK2230 22 28 30 17500 30400 9000 32
  HK22X28X7.5TN 22 28 7.5 5200 7000 1571 8.8
  HK22X29X25 22 29 25 18100 31500 9000 37
  HK22X29X30 22 29 30 19400 33100 9000 43
  HK22X30X14 22 30 14 19800 34000 9000 21.9
  HK24X30X7.5TN 24 30 7.5 5800 7200 10000 10.6
  HK2512 25 32 12 10000 14200 9000 20
  HK2514 25 32 14 13600 18700 9000 21.9
  HK2516 25 32 16 13600 20000 9000 27.3
  HK2518 25 32 18 17500 25800 9000 28.2
  HK2520 25 32 20 17900 30000 9000 34.1
  HK2525 25 32 25 22200 36700 9000 40
  HK2526 25 32 26 22500 42000 9000 44.8
  HK2538 25 32 38 30000 58000 9000 64.7
  HK25X33X10 25 33 10 34800 69600 9000 17
  HK25X33X15 25 33 15 35700 70000 9000 27.4
  HK25X35X20 25 35 20 36100 78650 9000 44.9
  HK2816 28 35 16 15400 22500 8700 30.1
  HK2818 28 35 18 18500 29300 8700 31.7
  HK2820 28 35 20 18900 32000 8700 37.6
  HK3012 30 37 12 15710 16200 8100 24
  HK3016 30 37 16 15200 27000 8100 32
  HK3018 30 37 18 19200 31500 8100 33.6
  HK3571 30 37 20 19700 33500 8100 40.1
  HK3026 30 37 26 24000 50000 8100 52.9
  HK3038 30 37 38 32500 74000 8100 76.1
  HK30X38X12 30 38 12 38100 80000 8100 28
  HK30X38X16 30 38 16 39000 82000 8100 32.7
  HK30X38X24 30 38 24 39910 88800 8100 49
  HK30X38X32 30 38 32 38890 88700 8100 69
  HK3224 32 38 24 25500 52000 7300 50.7
  HK3232 32 39 32 22600 54300 7100 66.4
  HK32X38X11 32 38 11 19700 43200 7800 17
  HK32X40X32 32 39 32 27990 59890 7100 72.7
  HK3512 35 40 12 12100 19300 7100 27.7
  HK3516 35 42 16 15700 27500 7100 36.9
  HK3520 35 42 20 20800 41000 7100 46.1
  HK35X43X16 35 42 16 24200 47100 7100 37
  HK35X43X25 35 42 25 24440 48200 6200 60.5
  HK35X43X32 35 43 32 24870 48880 6200 80
  HK35X45X12 35 45 12 24870 48880 6200 31
  HK36X42X12 36 42 12 15000 21000 6200 23
  HK38X48X30 38 48 30 16100 24100 6000 102
  HK4012 40 47 12 14000 24300 6300 31.1
  HK4016 40 47 16 20000 38500 6300 41.4
  HK4571 40 47 20 25500 52000 6300 51.8
  HK40X50X32 40 50 32 23000 42000 6000 114.3
  HK40X50X38 40 50 38 24100 43000 6000 130.8
  HK4512 45 52 12 12900 22500 5800 34.8
  HK4516 45 52 16 19300 3800 5800 46.2
  HK4520 45 52 20 22000 51000 5800 56
  HK45X55X38 45 55 38 27600 61000 5300 135
  HK5012 50 58 12 23600 57200 5300 44.2
  HK5571 50 58 20 28000 60000 5300 72
  HK5571 50 58 25 34500 80000 5300 90.1
  HK50X57X16 50 57 16 15200 32500 5300 51.2
  HK50X60X38 50 60 38 27770 63100 4600 140
  HK5520 55 63 20 29500 59900 4600 78
  HK5525 55 63 25 33200 69980 4600 109
  HK5528 55 63 28 39090 98000 4600 111
  HK6012 60 68 12 12400 29000 4100 49.2
  HK6571 60 68 20 30500 72000 4100 86
  HK6032 60 68 32 50000 131000 4100 136
BK Series BK0408TN 4 8 8 1540 1070 40000 1.8
  BK0509 5 9 9 2200 1790 36000 2.1
  BK0608 6 10 8 1830 1550 32000 2.2
  BK0609 6 10 9 2650 2400 3000 2.6
  BK0709 7 11 9 2800 2150 27000 2.9
  BK0808 8 12 8 2550 2400 21000 3
  BK571 8 12 10 3700 3450 21000 3.4
  BK08X14X10 8 14 10 3800 3950 25000 5.8
  BK 0571 9 13 8 3650 4050 25000 3.4
  BK571 9 13 10 4050 4250 25000 4.3
  BK571 9 13 12 5000 6000 25000 4.9
  BK1571 10 14 10 3900 4800 19000 4.3
  BK1012 10 14 12 5000 6300 19000 5
  BK1015 10 14 15 6700 7800 19000 6.2
  BK10X16X10 10 16 10 6800 8800 18000 6.8
  BK1210 12 16 10 4150 5800 19000 5.2
  BK1212 12 16 12 3800 5100 15000 6.2
  BK12X18X12 12 18 12 5500 6300 17000 10.3
  BK1312 13 19 12 6200 7100 17000 11.2
  BK1410 14 20 10 6700 7000 16000 12.1
  BK1512 15 21 12 7000 8400 14000 12.7
  BK1515 15 21 15 9800 11400 14000 15.3
  BK1516 15 21 16 9800 11400 14000 16.5
  BK1522 15 21 22 10400 16500 14000 22
  BK1612 16 22 12 7100 9200 14000 13.8
  BK1616 16 22 16 15710 14300 14000 17.6
  BK1622 16 22 22 11100 17400 14000 23.4
  BK1712 17 23 12 6900 9300 136000 14.5
  BK1812 18 24 12 7100 9900 12000 14.9
  BK1816 18 24 16 10600 15300 12000 19.9
  BK2571 20 26 10 5900 7200 10000 14
  BK2012 20 26 12 7600 15710 10000 16.7
  BK2016 20 26 16 11700 29100 10000 22.3
  BK2571 20 26 20 13700 24000 10000 27.1
  BK2030 20 26 30 21800 40000 15710 37.4
  BK2212 22 28 12 8100 10400 1571 18.1
  BK2216 22 28 16 11400 18100 1571 24.3
  BK2220 22 28 20 14500 25000 1571 29.9
  BK2512 25 32 12 10000 14200 9000 23.2
  BK2516 25 32 16 13600 50000 9000 31
  BK2520 25 32 20 17900 30000 9000 38.7
  BK2526 25 32 26 22500 42000 9000 49
  BK2538 25 32 38 30000 58000 9000 69
  BK2816 28 35 16 15400 22500 8700 34.1
  BK2820 28 35 20 18900 32000 8700 43
  BK3012 30 37 12 15710 16200 8100 27.9
  BK3016 30 37 16 15200 27000 8100 37.1
  BK3571 30 37 20 19700 33500 8100 46.5
  BK3026 30 37 26 24000 50000 8100 59.4
  BK3038 30 37 38 32500 74000 8100 82.5
  BK3512 35 42 12 12100 19300 7100 32.9
  BK3516 35 42 16 15700 27500 7100 43.8
  BK3520 35 42 20 20800 41000 7100 54.8
  BK4012 40 47 12 14000 24300 6300 38.2
  BK4016 40 47 16 20000 38500 6300 51
  BK4571 40 47 20 25500 52000 6300 62
  BK4516 45 52 16 19300 38000 5800 56
  BK4520 45 52 20 22000 51000 5800 72
  BK4512 45 52 12 12900 22500 5800 45
  BK5571 50 58 20 28000 60000 5300 87.3
  BK5571 50 58 25 34500 80000 5300 109
  BK5520 55 63 20 29500 59900 4600 93.8
  BK5528 55 63 28 39090 98000 4600 132
  BK6012 60 68 12 12400 29000 4100 77
  BK6571 60 68 20 30500 72000 4100 105
  BK6032 60 68 32 50000 131000 4100 164
BA Series BA55 7.94 12.7 7.92 1917 1703 38400 3.4
  BHA68 9.52 15.88 12.77 6004 6093 30000 5
  BA87 12.7 17.46 11.13 1976 2500 18000 6.6
  BA1210 19.05 25.4 15.88 11386 16413 16000 16
  BA1212 19.05 25.4 19.05 14144 21706 16000 21
  BA1816 22.22 34.92 25.4 20700 34500 13000 29
SCE Seires SCE1012 15.88 22.22 19.05 10800 13440 18000 20
  SCE108 15.88 22.22 12.7 8559 12060 18000 12
  SCH1012 15.88 22.22 19.05 10800 13440 18000 20
  SCE1212 19.05 25.4 19.05 14144 21706 16000 21
  SCE1214PP 19.05 25.4 22.22 16140 23800 16000 23
  SCE1616PP 25.4 31.75 25.4 22729 43505 11000 44
M Series M-681 9.52 14.29 12.7 4581 5515 29900 4.3
55 Series 55000X22 19.05 30.17 47.6 18000 25000 16000 36
HK-RS Series HK571-RS 8 12 10 2250 2100 19000 2.9
  HK09X13X12-RS 8 13 12 3800 4300 19000 4
  HK1012-RS 10 14 12 4100 5000 19000 4.2
  HK1214-RS 12 18 14 6100 7000 15000 10.7
  HK13X19X12-RS 13 19 12 6800 7580 12000 8.9
  HK1414-RS 14 20 14 6100 7500 13000 12
  HK1514-RS 15 21 14 6800 8800 11000 12.6
  HK1518-RS 15 21 18 9500 11400 10000 16
  HK1614-RS 16 22 14 7200 9200 10000 15.1
  HK17X25X14-RS 17 25 14 8000 9800 10000 17.7
  HK17X25X15.5-RS 17 25 15.5 9320 10400 13000 20
  HK17X25X20-RS 17 25 20 11600 13200 13000 26.2
  HK1814-RS 18 24 14 7800 9900 13000 15.1
  HK2012-RS 20 26 12 9500 11900 9200 11.7
  HK2018-RS 20 26 18 12700 25710 8200 21.4
  HK20X29X18-RS 20 29 18 8700 9980 7800 28.8
  HK2212-RS 22 28 12 8310 10000 9000 14
  HK2214-RS 22 28 14 9000 12400 7800 18.3
  HK2218-RS 22 28 18 10400 25710 7800 23.5
  HK2518-RS 25 32 18 13600 20000 6900 31
  HK3018-RS 30 37 18 16200 26000 5300 36.6
  HK3518-RS 35 42 18 16700 30500 4900 37.4
  HK4018-RS 40 47 18 19000 30500 4200 47.3
  HK4518-RS 45 52 18 20300 41000 3800 54.2
  HK5571-RS 50 58 24 30000 61000 3200 77.2
HK-2RS Series HK571-2RS 8 12 12 2250 2100 19000 3.5
  HK1014-2RS 10 14 14 4100 5000 15000 5.2
  HK1216-2RS 12 18 16 6100 7000 12000 11.5
  HK1416-2RS 14 20 16 6100 7500 11000 14
  HK1516-2RS 15 21 16 6800 8800 10000 14.3
  HK1520-2RS 15 21 20 9500 11400 10000 18
  HK1616-2RS 16 22 16 7200 9200 10000 15.1
  HK1620-2RS 16 22 20 9900 12300 10000 16.8
  HK1625-2RS 16 22 25 9900 12300 10000 17
  HK1816-2RS 18 24 16 7800 9900 9200 17
  HK2016-2RS 20 26 16 8000 15710 9000 18.8
  HK2571-2RS 20 26 20 12700 25710 7800 23.5
  HK2216-2RS 22 28 16 9000 12400 7800 20.3
  HK2220-2RS 22 28 20 10400 25710 7800 25.5
  HK2516-2RS 25 32 16 9800 13200 6900 27.3
  HK2520-2RS 25 32 20 13600 20000 6900 33.1
  HK2524-2RS 25 32 24 17900 30000 6900 39.7
  HK2530-2RS 25 32 30 24500 43000 6900 47.3
  HK2820-2RS 28 35 20 11400 22500 5300 36.9
  HK3016-2RS 30 37 16 15710 16200 5300 28.5
  HK3571-2RS 30 37 20 16200 26000 5300 39.1
  HK3571-2RS 30 37 24 21000 38500 5300 49.7
  HK3516-2RS 35 42 16 15710 20300 4900 36.4
  HK3520-2RS 35 42 20 16700 30500 4900 41.1
  HK4016-2RS 40 47 16 11000 21300 4200 41.2
  HK4571-2RS 40 47 20 19000 30500 4200 50.2
  HK4520-2RS 45 52 20 20300 41000 3800 57.4
  HK5571-2RS 50 58 24 30000 61000 3200 84
HK-RS Series BK1414-RS 14 20 14 6100 7500 11000 14.1
  BK1514-RS 15 21 14 6800 8800 10000 14.4
  BK1614-RS 16 22 14 7200 9200 10000 15.3
  BK2018-RS 20 26 18 12700 25710 7800 24.4
  BK2518-RS 25 32 18 13600 20000 6900 35.3

 

Needle bearings are a small cylindrical type of roller bearings which are used to prevent friction between moving surfaces which have low rotational speeds. Needle roller bearings are usually used when space is at a premium as needle bearings are much more compact than ball bearings.This type of bearing is known for its smaller, rigid and more durable design, offering a smaller coefficient of friction, allowing them to transfer motion on rotating surfaces easily.

Product ttrb

 

Pro

 

 

Needle rollers are the load-carrying component of the bearing, and are the 1 common component of all needle roller bearing types. These allow the outer and inner rings to rotate almost friction-free. They are most frequently manufactured from a steel alloy.

 

Raceways (if present) serve to CZPT the rollers within the bearing. These items are commonly manufactured from carbon chromium steel or other alloys to improve hardness, fatigue resistance, and dimensional stability.

 

Bearing cages separate rollers to keep the load evenly distributed around the bearing. They also reduce bearing noise, improve rolling conditions, and prevent sliding. Additionally, they contain rollers within a single assembly. Steel is the most commonly used cage material in needle roller bearings. Plastic cages can be used where operating conditions permit. Lubrication and surface treatments can reduce the amount of heat generated from friction. Some drawn cup needle roller bearings are designed without a cage, and contain a full complement of needle rollers.

 

Needle Roller Bearings Applications

Needle roller bearings are used in a variety of applications, such as radial piston pumps, autmotive steering and braking systems, power tools, transmissions, engines, valve trains, copiers, fax machines, outboard engines, and lawn trimmers.

 

Packaging & Shipping

Please contact us for more pictures of different packing.

Universal Packing

Without any logo on bearings or packing.

JDZ Packing

With our brand JDZ on bearings and packing.

Customized Packing

Depends on buyer’s requirements.

Original Brand Packing

Bearing and packing are both original. Please contact us for pictures.

 
 

QUALITY ASSURANCE

100% Quality inspection to ensure the bearings are with good quality before shipping. 

Company Profile

 

 

ZheJiang CZPT Precision Bearing Co.,Ltd. was founded by ZheJiang Defa Bearing Co.,Ltd, factory is located in ZheJiang province, China. 
We are a bearing manufacturer integrating the research, development and sales of bearings, with a floor area of 18,000 square meters and a plant area of 8,800 square meters. Equipped with modern production equipment and advanced detection instruments. 

We can provide all types bearings and OEM service according to customers’ requirements. 

Our products are widely used in the automobile, agricultural, textile production, mining, printing and packing industries, in addition to various applications at airports, in air-conditioning systems, conveying devices, ships ad so on. Our products are being exported to more than 50 countries and regions overseas including Singapore, Thailand, Iran, Turkey, Poland, Italy, England, France, Russia, Germany, the United States, Australia, Argentina, Brazil as well as other countries and regions all over the world.

We are a trusted and reliable bearing supplier, choose us to be your good partner!

Quality Inspection
 

 

Our Advantages: 

1.  Professional production team with advanced production equipment and testing instruments. 
2.  Many years of export experience can provide customers with better service and problem-solving capabilities.
3.  Customers all over the world enable us to better understand the market and provide customers with suitable bearings.
4.  Sincerity, cooperation, mutual and provide good quality bearings for clients are the development idea of our company
5.  Quick delivery, shipping goods on time. Save more time and cost for all customers. 

 

More choices

FAQ

1. Q: Are you trading company or manufacturer ?
   A: We have our own factory , our type is factory + trade.

2. Q: Could you accept OEM and customize?
    A: Yes, we can customize products according to your sample or drawing.

3. Q: How long is your delivery time? 
    A: If stock, within 7 days to ship or based on your order quantity.

4. Q: Could you supply sample for free? 
    A: Yes, we can offer the sample for free,do you mind to buy a “ticket” for her?

More details, please contact with us. Thanks for your time !!!

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Cage: With Cage
Rows Number: Single
Load Direction: Radial Bearing
Style: Without Outer Ring, With Outer Ring, Without Inner Ring, With Inner Ring
Material: Bearing Steel
Type: Open
Samples:
US$ 0.1/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

cam folllow bearing

How do cam follower bearings contribute to the proper functioning of reciprocating machinery like engines?

Cam follower bearings play a crucial role in ensuring the proper functioning of reciprocating machinery, such as engines. Let’s explore how cam follower bearings contribute to the smooth operation of reciprocating machinery:

  • Transmitting Motion: Cam follower bearings are designed to follow the profile of a cam, which is a specially shaped component that converts rotary motion into reciprocating or oscillating motion. By maintaining contact with the cam’s surface, the cam follower bearing transfers the motion from the rotating cam to other components in the machinery, such as valves, pistons, or fuel injectors. This motion transmission is essential for proper engine operation, controlling valve timing, fuel injection, and other critical processes.
  • Supporting Load: Reciprocating machinery, including engines, generates significant forces and loads during operation. Cam follower bearings provide support and bear the loads exerted by the moving components, such as valves or pistons. They ensure the smooth and precise movement of these components, while also carrying the associated dynamic and static loads. Proper load support is crucial for maintaining the stability, accuracy, and longevity of reciprocating machinery.
  • Reducing Friction and Wear: Cam follower bearings incorporate rolling elements, such as rollers or needles, that reduce friction between the cam and the bearing. This rolling action minimizes the sliding contact and frictional heat generation, resulting in reduced wear on the bearing surfaces. By reducing friction and wear, cam follower bearings contribute to the efficient operation of reciprocating machinery, promoting energy efficiency and extending the bearing’s service life.
  • Absorbing Shock and Vibration: Reciprocating machinery, especially engines, generates significant shock and vibration due to the rapid acceleration and deceleration of components. Cam follower bearings are designed to absorb and dampen these shocks and vibrations, preventing their transmission to other parts of the machinery. This helps to reduce noise, minimize structural fatigue, and improve overall system stability, ensuring smooth and reliable operation.
  • Accommodating Misalignment: In reciprocating machinery, slight misalignments can occur due to manufacturing tolerances, thermal expansion, or dynamic loads. Cam follower bearings are designed to accommodate limited misalignments between the cam and the bearing, allowing for proper functioning even under these conditions. This flexibility helps to maintain the alignment and engagement between the cam and the bearing, ensuring efficient motion transmission and preventing excessive stress or premature failure.
  • Facilitating Lubrication: Proper lubrication is essential for the smooth operation and longevity of cam follower bearings and reciprocating machinery. Cam follower bearings are designed to retain lubricants, such as grease or oil, within the bearing assembly. They incorporate features like lubrication holes, grooves, or channels to facilitate the distribution of lubricant to the bearing surfaces. Effective lubrication minimizes friction, reduces wear, and helps dissipate heat, ensuring optimal performance and preventing damage to the bearing and associated components.

Overall, cam follower bearings play a vital role in the proper functioning of reciprocating machinery, such as engines. They transmit motion, support loads, reduce friction and wear, absorb shocks and vibrations, accommodate misalignments, and facilitate lubrication. By fulfilling these functions, cam follower bearings contribute to the efficient, reliable, and smooth operation of reciprocating machinery, enabling the performance and longevity of engines and other similar applications.

cam folllow bearing

What considerations are important when selecting the appropriate size and stud type for a cam follower bearing?

When selecting the appropriate size and stud type for a cam follower bearing, several considerations are important to ensure optimal performance and reliability. Let’s explore these considerations:

1. Load Requirements: Consider the anticipated load conditions that the cam follower bearing will be subjected to. Determine the maximum radial and axial loads that the bearing needs to support. This information is crucial in selecting a bearing with the appropriate load-carrying capacity to ensure reliable operation and prevent premature wear or failure.

2. Operating Speed: Take into account the anticipated operating speed of the cam follower bearing. Higher speeds can affect factors such as lubrication requirements, heat generation, and bearing fatigue life. Ensure that the selected bearing is suitable for the anticipated speed range to avoid issues such as excessive friction, overheating, or premature wear.

3. Environmental Conditions: Evaluate the environmental conditions in which the cam follower bearing will operate. Factors such as temperature, humidity, presence of contaminants, and exposure to corrosive substances can affect the bearing’s performance and lifespan. Select a bearing with appropriate materials, coatings, and seals that can withstand the specific environmental conditions to ensure long-term reliability.

4. Stud Type: Consider the stud type required for the application. Cam follower bearings typically come with different stud types, such as threaded studs, eccentric studs, or plain studs. The choice of stud type depends on factors such as the method of attachment, the need for adjustable positioning, or specific application requirements. Select the appropriate stud type that best suits the intended application.

5. Space Constraints: Assess the available space and clearance limitations in the application. Cam follower bearings come in various sizes and configurations. Ensure that the selected bearing and stud type fit within the available space without interference with other components or compromising the required motion range.

6. Lubrication: Consider the lubrication requirements of the cam follower bearing. Proper lubrication is essential for reducing friction, dissipating heat, and extending the bearing’s life. Some bearings require regular lubrication, while others may be pre-lubricated or sealed. Determine the lubrication method and frequency that align with the application’s needs and maintenance capabilities.

7. Alignment and Tracking: Evaluate the alignment and tracking requirements of the cam follower bearing. Depending on the application, the bearing may need to accurately track and follow a specific cam profile or track. Consider the design features of the bearing that provide proper alignment and tracking capabilities, such as integral flanges or adjusting mechanisms.

8. Maintenance and Serviceability: Take into account the maintenance and service requirements of the cam follower bearing. Consider factors such as accessibility for lubrication, inspection, or replacement. Select a bearing that allows for ease of maintenance and minimizes downtime during servicing operations.

9. Manufacturer and Quality: Choose a reputable manufacturer known for producing high-quality cam follower bearings. Ensure that the selected bearing complies with industry standards and undergoes rigorous quality control processes. This helps to ensure reliability, consistency, and availability of technical support when needed.

By considering these important factors, you can select the appropriate size and stud type for a cam follower bearing that meets the specific requirements of your application. This will result in optimal performance, longevity, and reliability of the bearing within the automation or machinery system.

cam folllow bearing

How does proper lubrication impact the performance and longevity of cam follower bearings?

Proper lubrication plays a critical role in enhancing the performance and longevity of cam follower bearings. Adequate lubrication helps reduce friction, dissipate heat, prevent wear, and minimize the risk of damage or premature failure. Let’s explore in detail how proper lubrication impacts the performance and longevity of cam follower bearings:

  • Friction Reduction:
  • Lubrication creates a thin film of lubricant between the rolling elements and the raceways of the cam follower bearing. This lubricating film reduces the friction between the contacting surfaces, allowing for smoother rolling motion. By minimizing friction, proper lubrication helps to optimize the efficiency of the bearing, reduce energy consumption, and minimize heat generation.

  • Wear Prevention:
  • Cam follower bearings are subjected to repeated cycles of loading and unloading, which can lead to surface contact and potential wear. The presence of an appropriate lubricant creates a protective barrier between the rolling elements and the raceways, preventing direct metal-to-metal contact. This lubricating film helps to minimize wear, pitting, and surface damage, thereby extending the bearing’s lifespan.

  • Heat Dissipation:
  • During operation, cam follower bearings generate heat due to friction and the mechanical forces involved. Proper lubrication helps dissipate this heat by carrying it away from the bearing’s contact surfaces. Efficient heat dissipation prevents excessive temperature rise, which can lead to thermal expansion, loss of lubrication properties, and accelerated wear. By maintaining appropriate operating temperatures, proper lubrication contributes to the longevity and reliability of the bearing.

  • Contamination Protection:
  • Lubrication acts as a barrier against contaminants such as dirt, dust, moisture, and other foreign particles. It helps to seal the bearing and prevent the ingress of contaminants into the bearing’s internal components. By keeping the rolling elements and raceways clean, proper lubrication reduces the risk of abrasive wear, corrosion, and damage caused by particle-induced stress concentrations.

  • Corrosion Prevention:
  • In environments where corrosion is a concern, such as high humidity or exposure to corrosive substances, proper lubrication helps protect the bearing against corrosion. The lubricant forms a protective layer that inhibits moisture and corrosive agents from reaching the bearing surfaces. This corrosion prevention capability ensures the integrity of the bearing’s components and prolongs its operational life.

  • Noise and Vibration Reduction:
  • Proper lubrication can contribute to reducing noise and vibration levels in cam follower bearings. The lubricating film helps to cushion the impact and dampen the vibrations caused by the rolling elements. This dampening effect minimizes noise generation and vibration transmission, resulting in smoother and quieter bearing operation.

  • Longevity and Reliability:
  • By providing effective lubrication, cam follower bearings experience reduced friction, wear, and heat, resulting in increased longevity and reliability. Proper lubrication ensures the bearing can withstand heavy loads, high speeds, and demanding operating conditions while maintaining its performance over an extended period. It helps prevent premature failure, minimizes the risk of unplanned downtime, and contributes to the overall productivity of the application.

In summary, proper lubrication is essential for optimizing the performance and longevity of cam follower bearings. It reduces friction, prevents wear, dissipates heat, protects against contamination and corrosion, reduces noise and vibration, and enhances the bearing’s overall reliability. By selecting the appropriate lubricant and following the recommended lubrication intervals, cam follower bearings can operate efficiently, withstand demanding conditions, and provide extended service life.

China OEM Roller Bearing Track Roller Cam Follower Bearing Nutr58110 Nutr70/169 Nutr209 Nutr210 Needle Roller Bearing Manufacturer   deep groove ball bearingChina OEM Roller Bearing Track Roller Cam Follower Bearing Nutr58110 Nutr70/169 Nutr209 Nutr210 Needle Roller Bearing Manufacturer   deep groove ball bearing
editor by CX 2024-04-30

China factory Stud Type Curve Track Roller Cam Follower Needle Roller Bearing Nukr35 Nukre35 deep groove ball bearing

Product Description

Welcome to HangZhou XIHU (WEST LAKE) DIS. FLIGHT SEIKO MACHINERY CO.,LTD !
We offer a wide variety of precision machining capabilities including high quality precision machined parts,
Mechanical assemblies,and cutom fabrication for automobile,textile machinery,construction machinery etc.
Our manufacturing and process capabilities are ISO9000 Certified.
 

Heavy duty needle roller bearing is composed of 1 or 2 rings and needle roller group with cage. According to different applications, it can be divided into bearings with or without inner rings. Therefore, the solid ring needle roller bearing can meet the requirements of light weight, small space occupation and high power transmission. The solid ring needle roller bearing has smaller volume and higher bearing capacity. Structure type outer ring double rib (or double lock ring) with cage needle roller bearing Na, NAV, NKI type can be respectively installed with inner ring and outer ring (with lock ring, full set of needle roller and cage), with high authorized speed, which can be divided into single row and double row. If the shaft cannot be used as a raceway, i.e. if it is not possible or economical to grind the shaft for hardening, this type of needle roller bearing with inner ring can be used

 

Characteristic of heavy duty needle roller bearing

Designation

Shaft

Mass

Dimensions(mm)

Basic Load Ratings

Limiting

P.No.

Diameter

 

FW

D

C

r

Cr

Cor

Speed

 

mm

g

 

 

 

Min.

Kn

Kn

rpm

NK 5/10TN

5

3.1

5

10

10

0.15

2.5

2

37000

NK 6/10TN

6

4.7

6

12

10

0.15

2.33

2.2

33000

NK 6/12TN

6

5.7

6

12

12

0.15

3.3

3.45

33000

NK 7/10TN

7

6.9

7

14

10

0.3

3.33

3.15

31000

NK 8/12TN

8

8.7

8

15

12

0.3

4.1

4.3

29000

NK 9/12TN

9

10.3

9

16

12

0.3

4.75

5.3

28000

Custom size requirement are also available

 

Our advantage:
1.The original 100% factory, more than 10 years’ production experience
2.Produce and process products according to your drawings and requirement.
3.All kinds of surface treatment available,such as anodizing,power coating,painting,polishing and etc.
4.Our professional R&D and QC team can strictily control the product quality to meet your requirement.
5.Our products are of high quality at cheap price,and delivered on time.
 

Manufacturing strength & Vehicle processing line

1.Professional operators

2.Adopting advanced CNC machine tools in Japan

3.Totally enclosed production workshop

4.Experienced managers

5.Digital control production line

6.Advanced level of technology

 

 

Production Detection

1.Complete testing facilities

2.Perfect measurement methods

3.Perfect production detection methods

4.Strong QC team,conduct comprehensive quality control
 

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Cage: With Cage
Rows Number: Customized
Load Direction: Heavy Duty Needle Roller Bearing
Style: Customized
Material: Customized
Type: Customized
Samples:
US$ 0/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

cam folllow bearing

What role do cam follower bearings play in applications requiring precise movement and guidance?

Cam follower bearings play a critical role in applications that require precise movement and guidance. Let’s explore in detail the significance of cam follower bearings in such applications:

  • Precision Motion Control: Cam follower bearings are designed to accurately follow the profile of a cam, providing precise and controlled movement. They ensure that the motion of the cam is transferred with minimal deviation or backlash to the connected components. This level of precision is crucial in applications that require accurate positioning, such as robotics, machine tools, printing presses, and automated assembly systems.
  • Guidance and Tracking: Cam follower bearings provide guidance and tracking capabilities, allowing for smooth and controlled motion along a defined path. The cam’s profile determines the desired trajectory, and the cam follower bearing ensures that the connected components follow this path accurately. This is particularly valuable in applications where components need to move along complex or customized paths, such as packaging machinery, conveyors, or material handling systems.
  • Repeatability and Accuracy: The precise nature of cam follower bearings enables high repeatability and accuracy in motion. They ensure that the same motion or path can be replicated consistently, which is essential in applications that require precise positioning or synchronized movements. Cam follower bearings help achieve tight tolerances, minimizing errors and variations in motion, resulting in improved product quality and process efficiency.
  • Load Carrying Capacity: Despite their focus on precision, cam follower bearings are also designed to carry significant loads. They provide support and distribute loads from the connected components, ensuring stable and reliable operation. This is vital in applications that require both precise movement and the ability to handle substantial forces, such as industrial automation, material cutting or forming machines, and heavy-duty equipment.
  • Compact Design: Cam follower bearings are known for their compact and space-saving design. They offer a compact solution for achieving precise movement and guidance, making them suitable for applications with limited space or where weight reduction is a consideration. Their compactness allows for integration into various systems and equipment without compromising the overall size or functionality.
  • Reliability and Durability: Cam follower bearings are engineered to withstand demanding operating conditions and provide long-term reliability. They are constructed with high-quality materials and advanced manufacturing techniques to ensure durability, resistance to wear, and extended service life. This reliability is crucial in applications requiring precise movement and guidance, as any failure or deviation can have significant consequences on the overall performance and accuracy of the system.

In summary, cam follower bearings play a vital role in applications that demand precise movement and guidance. They enable precision motion control, provide accurate guidance and tracking, ensure repeatability and accuracy, carry substantial loads, offer a compact design, and deliver reliability and durability. With their unique capabilities, cam follower bearings contribute to the success of various industries, including robotics, automation, manufacturing, and many other applications where precise, controlled motion is essential.

cam folllow bearing

What considerations are important when selecting the appropriate size and stud type for a cam follower bearing?

When selecting the appropriate size and stud type for a cam follower bearing, several considerations are important to ensure optimal performance and reliability. Let’s explore these considerations:

1. Load Requirements: Consider the anticipated load conditions that the cam follower bearing will be subjected to. Determine the maximum radial and axial loads that the bearing needs to support. This information is crucial in selecting a bearing with the appropriate load-carrying capacity to ensure reliable operation and prevent premature wear or failure.

2. Operating Speed: Take into account the anticipated operating speed of the cam follower bearing. Higher speeds can affect factors such as lubrication requirements, heat generation, and bearing fatigue life. Ensure that the selected bearing is suitable for the anticipated speed range to avoid issues such as excessive friction, overheating, or premature wear.

3. Environmental Conditions: Evaluate the environmental conditions in which the cam follower bearing will operate. Factors such as temperature, humidity, presence of contaminants, and exposure to corrosive substances can affect the bearing’s performance and lifespan. Select a bearing with appropriate materials, coatings, and seals that can withstand the specific environmental conditions to ensure long-term reliability.

4. Stud Type: Consider the stud type required for the application. Cam follower bearings typically come with different stud types, such as threaded studs, eccentric studs, or plain studs. The choice of stud type depends on factors such as the method of attachment, the need for adjustable positioning, or specific application requirements. Select the appropriate stud type that best suits the intended application.

5. Space Constraints: Assess the available space and clearance limitations in the application. Cam follower bearings come in various sizes and configurations. Ensure that the selected bearing and stud type fit within the available space without interference with other components or compromising the required motion range.

6. Lubrication: Consider the lubrication requirements of the cam follower bearing. Proper lubrication is essential for reducing friction, dissipating heat, and extending the bearing’s life. Some bearings require regular lubrication, while others may be pre-lubricated or sealed. Determine the lubrication method and frequency that align with the application’s needs and maintenance capabilities.

7. Alignment and Tracking: Evaluate the alignment and tracking requirements of the cam follower bearing. Depending on the application, the bearing may need to accurately track and follow a specific cam profile or track. Consider the design features of the bearing that provide proper alignment and tracking capabilities, such as integral flanges or adjusting mechanisms.

8. Maintenance and Serviceability: Take into account the maintenance and service requirements of the cam follower bearing. Consider factors such as accessibility for lubrication, inspection, or replacement. Select a bearing that allows for ease of maintenance and minimizes downtime during servicing operations.

9. Manufacturer and Quality: Choose a reputable manufacturer known for producing high-quality cam follower bearings. Ensure that the selected bearing complies with industry standards and undergoes rigorous quality control processes. This helps to ensure reliability, consistency, and availability of technical support when needed.

By considering these important factors, you can select the appropriate size and stud type for a cam follower bearing that meets the specific requirements of your application. This will result in optimal performance, longevity, and reliability of the bearing within the automation or machinery system.

cam folllow bearing

What advantages do cam follower bearings offer compared to other bearing types?

Cam follower bearings offer several advantages compared to other bearing types, making them suitable for specific applications where their unique features are beneficial. Here are the key advantages of cam follower bearings:

  • Cam Following Capability:
  • The primary advantage of cam follower bearings is their ability to accurately follow the profile of a cam. This feature allows them to convert the rotary motion of the cam into linear or oscillating motion with precision. The cam follower bearing maintains contact with the cam’s surface, ensuring consistent and controlled movement. This capability is particularly useful in applications where the motion needs to be translated or transformed, such as in cam-driven mechanisms, sliding doors, or lifting systems.

  • High Load Capacity:
  • Cam follower bearings are designed to handle high loads, making them suitable for applications that require robust support and load-carrying capacity. The design of cam follower bearings, especially heavy-duty versions, allows them to withstand heavy radial and axial loads. This makes them suitable for demanding applications such as material handling equipment, automotive systems, and machinery where substantial forces are involved.

  • Shock and Impact Resistance:
  • Cam follower bearings are known for their ability to absorb shocks and impacts due to their robust construction and rolling element design. The rolling elements, whether rollers or needles, distribute the load evenly along their length, minimizing localized stress concentrations. This characteristic enables cam follower bearings to handle sudden changes in load or impact loads without compromising performance or causing premature failure. Applications with dynamic loads or intermittent forces can benefit from the shock-resistant nature of cam follower bearings.

  • Versatile Mounting Options:
  • Cam follower bearings offer versatile mounting options, allowing flexibility in their integration into mechanical systems. They are available in different configurations, including stud-type and yoke-type designs, which offer various mounting possibilities. Stud-type cam followers can be directly attached to a structure or component using a threaded stud, while yoke-type cam followers feature an integral flange that provides guidance and support. This versatility in mounting options makes cam follower bearings adaptable to different system designs and requirements.

  • Suitability for High-Speed Applications:
  • Cam follower bearings are well-suited for high-speed applications due to their rolling element design. The rolling elements, whether cylindrical rollers or needle rollers, reduce friction and enable smooth rolling motion. This allows cam follower bearings to operate at higher speeds while maintaining low heat generation and minimizing wear. Their ability to handle high speeds makes them suitable for applications such as automated machinery, robotics, and automotive systems where rapid and precise motion is required.

  • Compact Design:
  • Cam follower bearings typically have a compact design, which is advantageous in applications where space is limited. The compact size allows for easier integration into tight spaces or assemblies, making them ideal for applications with size constraints. Their small footprint and lightweight construction contribute to overall system efficiency and reduce unnecessary bulk.

In summary, cam follower bearings offer several advantages compared to other bearing types. Their ability to accurately follow the profile of a cam, high load capacity, shock and impact resistance, versatile mounting options, suitability for high-speed applications, and compact design make them a preferred choice in applications that require precise motion control, robust support, and reliable performance.

China factory Stud Type Curve Track Roller Cam Follower Needle Roller Bearing Nukr35 Nukre35   deep groove ball bearingChina factory Stud Type Curve Track Roller Cam Follower Needle Roller Bearing Nukr35 Nukre35   deep groove ball bearing
editor by CX 2024-04-26

China high quality Stud Cam Follower 22*14.5*26mm RV22c RV22e V Groove Track Roller Bearing bearing driver

Product Description

Product Description

Xihu (West Lake) Dis.way roller bearing is the main component of W type roller CZPT system, which is widely used in industrial robots, cutting equipment, moving CZPT rails, production lines and so on.

Feature
1.The outer ring of the roller is a W-shaped outer surface composed of 2 90-degree V-shapes. The inner or outer sides can be used separately to fit the 90-degree inner V or outer V guide, and the inner side can be used to fit the cylindrical guide.
2.The roller adopts the internal structure design of double row angular contact bearing and the thickened outer ring, so that the roller has a higher bearing capacity.
3.The roller is made of high-quality bearing steel, processed by heat treatment and precision grinding, and filled with high-quality multi-purpose grease with long life. The wheel is dustproof with metal dustproof cover or rubber sealing ring.

 

 

Product Parameters

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Rolling Body: Roller Bearings
The Number of Rows: Single
Outer Dimension: 10-90mm
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Order Sample

track roller bearing
Customization:
Available

|

Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

cam folllow bearing

How do cam follower bearings improve the functionality of conveyors and material handling systems?

Cam follower bearings play a crucial role in improving the functionality of conveyors and material handling systems. Let’s explore in detail how cam follower bearings contribute to the efficient operation of these systems:

  • Precise Tracking and Guidance: Cam follower bearings provide precise tracking and guidance for conveyors and material handling systems. By following the profile of the cam, the bearings ensure that the moving components, such as rollers or belts, stay on the desired path. This precise tracking helps prevent misalignment, slippage, or jamming, ensuring smooth and reliable movement of materials along the conveyor or within the material handling system.
  • Smooth and Controlled Motion: Cam follower bearings enable smooth and controlled motion of conveyors and material handling systems. They transfer the rotational motion from the driving mechanism to the connected components, such as rollers or pulleys. This controlled motion allows for gentle acceleration, deceleration, and speed regulation, minimizing shocks, vibrations, and material spillage. The smooth and controlled motion enhances the overall efficiency, throughput, and safety of the system.
  • Load Support and Handling: Conveyors and material handling systems often carry significant loads, ranging from lightweight items to heavy bulk materials. Cam follower bearings are designed to provide robust load support and handling capabilities. They distribute the load evenly across the bearings, ensuring smooth and stable operation even under heavy loads. This load support feature minimizes wear and fatigue on the system components, prolonging their service life and reducing maintenance requirements.
  • Flexibility and Versatility: Cam follower bearings offer flexibility and versatility in conveyor and material handling system design. Their compact size and various mounting options allow for easy integration into different configurations, including straight, curved, or inclined conveyors. The ability to accommodate misalignments and deviations in the cam profile enables customization and adaptability to specific application requirements. This flexibility facilitates the efficient layout and optimization of conveyor and material handling systems.
  • Reduced Friction and Energy Consumption: Cam follower bearings incorporate rolling elements, such as rollers or needles, that reduce friction between the cam and the bearing. This rolling action minimizes energy losses and frictional heat generation, resulting in reduced power consumption and improved energy efficiency of the system. The reduced friction also contributes to the longevity of the bearings by minimizing wear and extending their operational life.
  • Reliability and Maintenance: Cam follower bearings are designed for reliable and low-maintenance operation in demanding industrial environments. They are constructed with durable materials and undergo stringent quality control processes to ensure their reliability. The minimal maintenance requirements of cam follower bearings help reduce downtime and increase the overall availability of conveyors and material handling systems, improving productivity and operational efficiency.

In summary, cam follower bearings enhance the functionality of conveyors and material handling systems by providing precise tracking and guidance, enabling smooth and controlled motion, supporting and handling various loads, offering flexibility in system design, reducing friction and energy consumption, and ensuring reliability with low maintenance requirements. With these benefits, cam follower bearings contribute to the efficient and reliable operation of conveyors and material handling systems, optimizing material flow, productivity, and safety in industrial environments.

cam folllow bearing

What are the signs of wear or damage in cam follower bearings, and when should they be replaced?

Cam follower bearings can exhibit signs of wear or damage over time, which may indicate the need for replacement. Let’s explore the common signs of wear or damage in these bearings and discuss when they should be replaced:

1. Increased Noise: Unusual or excessive noise during operation, such as grinding, squeaking, or rumbling sounds, can be an indication of bearing wear. If the noise becomes noticeably louder or changes in pitch, it is advisable to inspect the bearing for potential damage.

2. Abnormal Vibration: Excessive vibration or noticeable changes in vibration patterns can be a sign of bearing wear or misalignment. Excessive vibration can lead to accelerated wear and potential failure of the bearing if not addressed promptly.

3. Irregular Motion: If the cam follower bearing exhibits irregular or inconsistent motion, such as sticking, jerking, or hesitation, it may indicate wear or damage. This can affect the smooth operation of the machinery and lead to decreased efficiency or performance issues.

4. Increased Friction: If the bearing experiences higher levels of friction, it may result in increased heat generation or uneven wear. Excessive friction can lead to premature wear of the bearing surfaces and compromise the overall performance of the machinery.

5. Visible Damage: Inspect the bearing for any visible signs of damage, such as cracks, pitting, spalling, or deformation. These visual indications may suggest that the bearing has reached its operational limits and requires replacement.

6. Loss of Lubrication: Insufficient lubrication or loss of lubricant film can lead to accelerated wear and damage in cam follower bearings. If there are signs of inadequate lubrication, such as dry or discolored surfaces, it is essential to address the lubrication issue and consider replacing the bearing if necessary.

7. Excessive Play or Clearance: Excessive axial or radial play in the bearing, or an increase in the clearance between the bearing components, can indicate wear or damage. Excessive play can affect the precision of motion and compromise the overall performance of the machinery.

When to Replace Cam Follower Bearings:

The exact timing for bearing replacement depends on various factors, including the severity of wear or damage, the criticality of the application, and the manufacturer’s guidelines. However, as a general guideline, cam follower bearings should be replaced under the following circumstances:

  • When any of the above-mentioned signs of wear or damage are observed.
  • If the bearing is approaching or has exceeded its predicted service life based on the manufacturer’s recommendations.
  • When routine inspections reveal significant wear or damage that may compromise the bearing’s performance or safety.
  • During scheduled maintenance or overhaul of the machinery, as part of a proactive replacement strategy.

It is crucial to consult the manufacturer’s guidelines, maintenance manuals, or seek the advice of a qualified engineer or technician to determine the appropriate timing for cam follower bearing replacement in specific applications.

By monitoring the signs of wear or damage, and addressing them promptly, the performance, reliability, and safety of the machinery can be maintained, minimizing the risk of unexpected failures or production disruptions.

cam folllow bearing

Can you explain the design principles of cam follower bearings and their functions?

Cam follower bearings are designed based on specific principles to ensure their efficient operation and fulfill their intended functions. Understanding these design principles is essential for comprehending how cam follower bearings work and how they serve their purposes. Here, we will explain the design principles of cam follower bearings and delve into their functions:

  • Design Principles of Cam Follower Bearings:
  • The design of cam follower bearings incorporates several key principles:

    • Cam Following: Cam follower bearings are designed to follow the contour or profile of a cam accurately. This design principle enables the bearing to maintain contact with the cam’s surface throughout its motion, ensuring smooth and precise tracking. The outer diameter of the bearing, which houses the rolling elements, is designed to match the shape of the cam.
    • Rolling Element Bearings: Cam follower bearings utilize rolling elements, such as cylindrical rollers or needle rollers, to reduce friction and facilitate motion. These rolling elements are positioned between the cam’s surface and the bearing’s outer diameter. The use of rolling elements enables smooth rolling motion and reduces wear, allowing for efficient operation even at high speeds.
    • Stud or Shaft Mounting: Cam follower bearings are designed with a stud or shaft for mounting purposes. The stud is often threaded to facilitate easy installation and secure attachment to a structure or component. The stud or shaft provides the necessary support and stability for the bearing assembly, allowing it to roll along the cam’s surface.
    • Cage or Retainer: Cam follower bearings typically incorporate a cage or retainer to hold the rolling elements in place. The cage prevents the rolling elements from contacting each other, ensuring proper spacing and distribution of load. It also helps to maintain alignment and prevent the rolling elements from skewing under load, enhancing the bearing’s overall performance and longevity.
    • Sealing and Lubrication: Cam follower bearings may include sealing arrangements to protect the internal components from contaminants and retain lubrication. Seals or shields can be incorporated to prevent the ingress of dirt, moisture, or other foreign particles. Proper lubrication is crucial for reducing friction, dissipating heat, and preventing premature wear or damage to the bearing components.
  • Functions of Cam Follower Bearings:
  • The design principles of cam follower bearings enable them to perform several important functions:

    • Cam Tracking: The primary function of cam follower bearings is to accurately follow the profile of a cam. By maintaining contact with the cam’s surface, the bearing converts the rotational motion of the cam into linear or oscillating motion. This function is essential in various applications where motion needs to be translated, transformed, or guided.
    • Motion Conversion: Cam follower bearings play a crucial role in converting rotary motion into linear or oscillating motion. This function is particularly useful in mechanisms that require precise and controlled movement, such as in cam-driven systems, sliding mechanisms, or lifting devices.
    • Load Support: Cam follower bearings are designed to support high loads. They provide a stable and robust platform for carrying radial and axial loads, ensuring the smooth operation of the associated components. This function is critical in applications that involve heavy loads, such as material handling equipment, automotive systems, or machinery.
    • Motion Control: Cam follower bearings contribute to motion control by providing stability and guidance. They help regulate the speed, direction, and timing of the motion, ensuring consistent and coordinated movement. This function is essential in applications that require precise positioning, synchronization, or sequencing of components.
    • Durability and Reliability: Cam follower bearings are designed to withstand challenging operating conditions. Their robust construction, along with the use of high-quality materials, ensures durability and reliability even in demanding environments. This function is vital for applications where reliability, longevity, and minimal downtime are paramount.

In summary, the design principles of cam follower bearings revolve around accurate cam following, the use of rolling element bearings, stud or shaft mounting, cage or retainer incorporation, and sealing and lubrication arrangements. These design principles enable cam follower bearings to fulfill their functions, including cam tracking, motion conversion, load support, motion control, and providing durability and reliability in various mechanical applications.

China high quality Stud Cam Follower 22*14.5*26mm RV22c RV22e V Groove Track Roller Bearing   bearing driverChina high quality Stud Cam Follower 22*14.5*26mm RV22c RV22e V Groove Track Roller Bearing   bearing driver
editor by CX 2024-04-26

China Hot selling Inch Size Deep Groove Ball Bearing 1622 for Cam Follower deep groove ball bearing

Product Description

1.Product Specification:

The type of  deep groove ball bearing 16 series component materials used in automobile, tractor, machinery, motor, water pump, agricultural machinery and textile machinery. Its wide application, simple design, non – separation, suitable for high – speed, reliable operation, low maintenance costs.The tight consistency between deep raceway and groove and ball enables deep raceway ball bearings to withstand axial loads in both directions in addition to radial loads.

2.Product Detail:

Products Name Deep Groove Ball Bearing 1622
Size (d*D*W) 14*34*11 mm
Precision P0,P6,P5,P4
Sealing Open,Z,ZZ,RZ,RS,2RS
Radial play C2,C0, C3
Material Chrome Steel, Stainless Steel,Bearing Steel,Ceramic
Feature Low noise, High quality,Long operating life
Resistance to wear,Smooth
Quality Standard ISO9, 63192752
Fax:
Address: Mayan Industry Zone, Henghe Town, HangZhou, HangZhou, China

11.FAQ of Deep Groove Ball Bearing

1.Q:Are you a factory or trading company?
   A:Kent Bearing is specialized in manufacturing and exporting bearings,
      and we have our own  factory and warehouse.
2.Q:Can I get some samples and do you offer the sample free?
   A:Yes, sure, Kent Bearing are honored to offer you samples.
3.Q: How about the shipping?
   A: We can arrange the shipment or you may have the forwarder.
4.Q: Could you tell me the material of our bearing?
   A: We have chrome steel, and stainless steel, ceramic and plastic material
5.Q: Can we get support if we have our own market position?

   A:  Please inform us detailed information about your market,we will dicuss
        and propose helpful suggestion for you and to find the best solution for you.
 OEM POLICY
 1.We can printing your brand (logo,artwork)on the shield or laser engraving your brand
    on the shield.
 2.We can custom your packaging according to your design.
 3.All copyright own by clients and we promised don’t disclose any info.

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Size: 14*34*11 mm
Aligning: Non-Aligning Bearing
Separated: Unseparated
Rows Number: Single
Load Direction: Radial Bearing
Material: Bearing Steel
Samples:
US$ 1/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

cam folllow bearing

Can you explain the role of seals and shields in protecting cam follower bearings from contaminants?

Seals and shields play a crucial role in protecting cam follower bearings from contaminants. They act as barriers, preventing the entry of harmful particles, liquids, or gases into the bearing assembly. Let’s explore the role of seals and shields in detail:

Seals:

Seals are components designed to create a physical barrier between the internal components of the cam follower bearing and the external environment. They help to prevent the ingress of contaminants, such as dust, dirt, moisture, and other foreign substances. The role of seals in protecting cam follower bearings from contaminants includes:

  • Dust and Dirt Protection: Seals act as a shield against airborne dust and dirt particles that can enter the bearing and cause abrasive wear, premature fatigue, or damage to the rolling elements and raceways. They keep the interior of the bearing clean and free from harmful contaminants.
  • Moisture and Liquid Protection: Seals provide a barrier against moisture and liquid ingress, protecting the bearing from corrosion, rust, and lubricant contamination. They help maintain the integrity of the lubricating film and prevent the formation of corrosive substances that can degrade the bearing surfaces.
  • Chemical and Gas Protection: Certain applications may involve exposure to chemicals or gases that can be detrimental to the bearing’s performance and longevity. Seals are designed to resist the penetration of these substances, safeguarding the bearing from chemical attack or degradation.
  • Grease Retention: Seals help retain lubricating grease within the bearing, preventing it from leaking out and ensuring proper lubrication of the rolling elements and raceways. This promotes smooth operation, reduces friction, dissipates heat, and extends the bearing’s service life.

Shields:

Shields, also known as retainers or covers, are protective components that shield the rolling elements and raceways of the cam follower bearing from external contaminants. They are typically made of metal or plastic and are positioned close to the bearing’s inner ring or stud. The role of shields in protecting cam follower bearings from contaminants includes:

  • Physical Barrier: Shields act as a physical barrier, intercepting solid particles, debris, or larger contaminants that could otherwise come into contact with the rolling elements and raceways. They prevent direct contact, reducing the risk of damage, wear, or premature failure of the bearing.
  • Easy Access for Lubrication: Shields are often designed with small openings or reliefs to allow for easy access to lubrication points. This facilitates the replenishment or relubrication of the bearing without the need for shield removal, ensuring continued protection against contaminants while maintaining proper lubrication.
  • Enhanced Bearing Performance: By protecting the rolling elements and raceways, shields help maintain the precision and performance of the cam follower bearing. They minimize the risk of surface damage, maintain proper geometry, and reduce the potential for increased friction or vibration that could affect the bearing’s accuracy and efficiency.

Both seals and shields are essential in protecting cam follower bearings from contaminants, ensuring reliable operation and extending the bearing’s service life. The specific type and design of seals and shields may vary depending on the application requirements, environmental conditions, and the level of protection needed. It is important to select the appropriate sealing and shielding solutions to match the operating conditions and contaminants present in the application.

cam folllow bearing

How do cam follower bearings contribute to the efficient operation of printing and packaging machinery?

Cam follower bearings play a crucial role in ensuring the efficient operation of printing and packaging machinery. Let’s explore how these bearings contribute to the smooth functioning of such equipment:

1. Precise Motion Control: Printing and packaging machinery often require precise and synchronized motion control to perform tasks such as feeding, cutting, folding, or labeling. Cam follower bearings facilitate this precise motion control by:

  • Transmitting the rotational motion from the driving source to various moving parts of the machinery.
  • Maintaining accurate positioning and timing during the operation.
  • Enabling controlled linear or oscillating motion required for specific tasks.

2. High Load-Carrying Capacity: Printing and packaging machinery may involve handling substantial loads, such as heavy rolls of paper or packaging materials. Cam follower bearings offer excellent load-carrying capacity, allowing them to:

  • Support and bear the weight of moving components, ensuring smooth and stable operation.
  • Handle both radial and axial loads, accommodating the forces exerted during various stages of the machinery’s operation.

3. Durability and Reliability: The demanding nature of printing and packaging processes requires robust and reliable components. Cam follower bearings contribute to the efficient operation by:

  • Being designed to withstand heavy loads, shocks, and vibrations commonly encountered in printing and packaging machinery.
  • Providing long service life and high resistance to wear, ensuring minimal downtime for maintenance or replacement.
  • Operating smoothly and consistently, even under high-speed conditions, to maintain the productivity and efficiency of the machinery.

4. Alignment and Compensation: Printing and packaging machinery often involves complex motion profiles or irregular surfaces. Cam follower bearings assist in the efficient operation of such machinery by:

  • Accommodating misalignments caused by variations in the cam profiles or tracks.
  • Compensating for minor deviations or irregularities in the surfaces they ride on, ensuring smooth and uninterrupted motion.
  • Tracking and following the contours of the components or materials being processed, allowing for precise and reliable operation.

5. Reduced Friction and Energy Efficiency: Efficient operation of printing and packaging machinery often involves minimizing energy consumption and reducing friction. Cam follower bearings contribute to energy efficiency by:

  • Incorporating designs that reduce friction and power losses during motion.
  • Utilizing advanced lubrication systems and materials to minimize friction and wear.
  • Enabling smooth and low-friction movement, resulting in reduced energy requirements and improved overall efficiency.

In summary, cam follower bearings are essential components in printing and packaging machinery, contributing to efficient operation through precise motion control, high load-carrying capacity, durability, alignment compensation, and reduced friction. These bearings enable reliable and productive performance, ensuring the smooth functioning of printing and packaging processes in various industrial settings.

cam folllow bearing

Can you explain the design principles of cam follower bearings and their functions?

Cam follower bearings are designed based on specific principles to ensure their efficient operation and fulfill their intended functions. Understanding these design principles is essential for comprehending how cam follower bearings work and how they serve their purposes. Here, we will explain the design principles of cam follower bearings and delve into their functions:

  • Design Principles of Cam Follower Bearings:
  • The design of cam follower bearings incorporates several key principles:

    • Cam Following: Cam follower bearings are designed to follow the contour or profile of a cam accurately. This design principle enables the bearing to maintain contact with the cam’s surface throughout its motion, ensuring smooth and precise tracking. The outer diameter of the bearing, which houses the rolling elements, is designed to match the shape of the cam.
    • Rolling Element Bearings: Cam follower bearings utilize rolling elements, such as cylindrical rollers or needle rollers, to reduce friction and facilitate motion. These rolling elements are positioned between the cam’s surface and the bearing’s outer diameter. The use of rolling elements enables smooth rolling motion and reduces wear, allowing for efficient operation even at high speeds.
    • Stud or Shaft Mounting: Cam follower bearings are designed with a stud or shaft for mounting purposes. The stud is often threaded to facilitate easy installation and secure attachment to a structure or component. The stud or shaft provides the necessary support and stability for the bearing assembly, allowing it to roll along the cam’s surface.
    • Cage or Retainer: Cam follower bearings typically incorporate a cage or retainer to hold the rolling elements in place. The cage prevents the rolling elements from contacting each other, ensuring proper spacing and distribution of load. It also helps to maintain alignment and prevent the rolling elements from skewing under load, enhancing the bearing’s overall performance and longevity.
    • Sealing and Lubrication: Cam follower bearings may include sealing arrangements to protect the internal components from contaminants and retain lubrication. Seals or shields can be incorporated to prevent the ingress of dirt, moisture, or other foreign particles. Proper lubrication is crucial for reducing friction, dissipating heat, and preventing premature wear or damage to the bearing components.
  • Functions of Cam Follower Bearings:
  • The design principles of cam follower bearings enable them to perform several important functions:

    • Cam Tracking: The primary function of cam follower bearings is to accurately follow the profile of a cam. By maintaining contact with the cam’s surface, the bearing converts the rotational motion of the cam into linear or oscillating motion. This function is essential in various applications where motion needs to be translated, transformed, or guided.
    • Motion Conversion: Cam follower bearings play a crucial role in converting rotary motion into linear or oscillating motion. This function is particularly useful in mechanisms that require precise and controlled movement, such as in cam-driven systems, sliding mechanisms, or lifting devices.
    • Load Support: Cam follower bearings are designed to support high loads. They provide a stable and robust platform for carrying radial and axial loads, ensuring the smooth operation of the associated components. This function is critical in applications that involve heavy loads, such as material handling equipment, automotive systems, or machinery.
    • Motion Control: Cam follower bearings contribute to motion control by providing stability and guidance. They help regulate the speed, direction, and timing of the motion, ensuring consistent and coordinated movement. This function is essential in applications that require precise positioning, synchronization, or sequencing of components.
    • Durability and Reliability: Cam follower bearings are designed to withstand challenging operating conditions. Their robust construction, along with the use of high-quality materials, ensures durability and reliability even in demanding environments. This function is vital for applications where reliability, longevity, and minimal downtime are paramount.

In summary, the design principles of cam follower bearings revolve around accurate cam following, the use of rolling element bearings, stud or shaft mounting, cage or retainer incorporation, and sealing and lubrication arrangements. These design principles enable cam follower bearings to fulfill their functions, including cam tracking, motion conversion, load support, motion control, and providing durability and reliability in various mechanical applications.

China Hot selling Inch Size Deep Groove Ball Bearing 1622 for Cam Follower   deep groove ball bearingChina Hot selling Inch Size Deep Groove Ball Bearing 1622 for Cam Follower   deep groove ball bearing
editor by CX 2024-03-06

China factory Inch Size Track Rollers, Stud Type Cam Follower Bearings (CFH-6-SB, CFH-7-SB) deep groove ball bearing

Product Description

 

Product Description

Product Name Tracker roller bearing, Cam follower bearing
Precision Rating P6, P0, P5, P4, P2
Material Bearing Steel (GCr15)
Clearance  C1 C2 C3 
Vibration & Noisy Z1, Z2, Z3 V1, V2, V3
Features Inch Size, with Eccentric Collar, with Hexagon Hole
Application Machine Tools, Auto Parts, Power Generators,and other Industrial Applications
Certification ISO 9001: 2008
Packing 1. Neutral Packing Bearing 2. Industrial Packing 3. Commercial Packing Bearing 4. Customize

 

Product Parameters

 

Bearing No. Dimensions (mm) Basic Load Rating(KN) Limited Mass
Speed
Without seals Sealed Type D d C B B1 B2 G1 C Co rpm kg
CF-1/2-N-B CF-1/2-N-SB 12.7 4.83 8.73 22.23 12.7 6.35 3.44 3.84 12000 0.009
CF-1/2-B CF-1/2-SB 12.7 4.83 9.53 26.19 15.88 6.35 3.84 4.4 12000 0.01
CF-9/16-B CF-9/16-SB 14.29 4.83 9.53 26.19 15.88 6.35 4.3 5.3 10000 0.015
CF-5/8-N-B CF-5/8-N-SB 15.88 6.35 10.32 26.99 15.88 7.94 4.72 6.24 8800 0.019
CF-5/8-B CF-5/8-SB 15.88 6.35 11.11 30.96 19.05 7.94 5.2 7 8800 0.571
CF-11/16-B CF-11/16-SB 17.46 6.35 11.11 30.96 19.05 7.94 6.5 8.5 8000 0.03
CF-3/4-B CF-3/4-SB 19.05 9.53 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.037
CF-7/8-B CF-7/8-SB 22.23 9.53 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.048
CF-1-B CF-1-SB 25.4 11.11 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.076
CF-1 1/8-B CF-1 1/8-SB 28.58 11.11 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.087
CF-1 1/4-B CF-1 1/4-SB 31.75 12.7 19.05 51.59 31.75 7.94 15.88 19.2 25.9 4400 0.14
CF-1 3/8-B CF-1 3/8-SB 34.93 12.7 19.05 51.59 31.75 7.94 15.88 19.2 25.9 4400 0.163
CF-1 1/2-B CF-1 1/2-SB 38.1 15.88 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.235
CF-1 5/8-B CF-1 5/8-SB 41.28 15.88 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.27
CF-1 3/4-B CF-1 3/4-SB 44.45 19.05 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.379
CF-1 7/8-B CF-1 7/8-SB 47.63 19.05 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.426
CF-2-B CF-2-SB 50.8 22.23 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.64
CF-2 1/4-B CF-2 1/4-SB 57.15 22.23 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.774
CF-2 1/2-B CF-2 1/2-SB 63.5 25.4 38.1 96.04 57.15 14.29 28.58 54 102.3   1.126
CF-2 3/4-B CF-2 3/4-SB 69.85 25.4 38.1 96.04 57.15 14.29 28.58 54 102.3   1.316
CF-3-B CF-3-SB 76.2 31.75 44.45 108.7 63.5 15.88 31.75 72.3 155   1.905
CF-3 1/4-B CF-3 1/4-SB 82.55 31.75 44.45 108.7 63.5 15.88 31.75 72.3 155   2.17
CF-3 1/2-B CF-3 1/2-SB 88.9 34.93 50.8 121.4 69.85 17.46 34.93 104.8 196.7   2.878
CF-4-B CF-4-SB 101.6 38.1 57.15 146.8 88.9 19.05 38.1 138 278   4.253

 

Bearing No. Dimensions (mm) Solid Eccentric Basic Load Rating(KN) Limited Mass
Speed
Without Seals Sealed Type D C B B1 G1 d1 B3 e C Co rpm kg
CFE-1/2-B CFE-1/2-SB 12.7 9.53 26.19 15.88 6.35 6.35 9.53 0.25 3.84 4.4 12000 0.011
CFE-9/16-B CFE-9/16-SB 14.29 9.53 26.19 15.88 6.35 6.35 9.53 0.25 4.3 5.3 10000 0.016
CFE-5/8-B CFE-5/8-SB 15.88 11.11 30.96 19.05 7.94 9.53 11.11 0.38 5.2 7 8800 0.571
CFE-11/16-B CFE-11/16-SB 17.46 11.11 30.96 19.05 7.94 9.53 11.11 0.38 6.5 8.5 8000 0.033
CFE-3/4-B CFE-3/4-SB 19.05 12.7 35.72 22.23 9.53 12.7 12.7 0.38 7.12 10 6400 0.042
CFE-7/8-B CFE-7/8-SB 22.23 12.7 35.72 22.23 9.53 12.7 12.7 0.38 7.12 10 6400 0.054
CFE-1-B CFE-1-SB 25.4 15.88 42.07 25.4 12.7 15.88 12.7 0.76 10.64 18.5 5200 0.086
CFE-1 1/8-B CFE-1 1/8-SB 28.58 15.88 42.07 25.4 12.7 15.88 12.7 0.76 10.64 18.5 5200 0.097
CFE-1 1/4-B CFE-1 1/4-SB 31.75 19.05 51.59 31.75 15.88 17.46 15.88 0.76 19.2 25.9 4400 0.154
CFE-1 3/8-B CFE-1 3/8-SB 34.93 19.05 51.59 31.75 15.88 17.46 15.88 0.76 19.2 25.9 4400 0.177
CFE-1 1/2-B CFE-1 1/2-SB 38.1 22.23 61.12 38.1 19.05 22.23 19.05 0.76 23 32.7 3600 0.263
CFE-1 5/8-B CFE-1 5/8-SB 41.28 22.23 61.12 38.1 19.05 22.23 19.05 0.76 23 32.7 3600 0.298
CFE-1 3/4-B CFE-1 3/4-SB 44.45 25.4 70.64 44.45 22.23 25.4 22.23 0.76 28.7 45.4 3200 0.418
CFE-1 7/8-B CFE-1 7/8-SB 47.63 25.4 70.64 44.45 22.23 25.4 22.23 0.76 28.7 45.4 3200 0.466
CFE-2-B CFE-2-SB 50.8 31.75 83.34 50.8 25.4 30.16 25.4 0.76 37.3 65.8 2800 0.705
CFE-2 1/4-B CFE-2 1/4-SB 57.15 31.75 83.34 50.8 25.4 30.16 25.4 0.76 37.3 65.8 2800 0.839
CFE-2 1/2-B CFE-2 1/2-SB 63.5 38.1 96.04 57.15 28.58 34.93 28.58 0.76 54 102.3   1.227
CFE-2 3/4-B CFE-2 3/4-SB 69.85 38.1 96.04 57.15 28.58 34.93 28.58 0.76 54 102.3   1.417
CFE-3-B CFE-3-SB 76.2 44.45 108.7 63.5 31.75 44.45 31.75 1.52 72.3 155   2.095
CFE-3 1/4-B CFE-3 1/4-SB 82.55 44.45 108.7 63.5 31.75 44.45 31.75 1.52 72.3 155   2.36
CFE-3 1/2-B CFE-3 1/2-SB 88.9 50.8 121.4 69.85 34.93 46.04 34.93 1.52 104.8 196.7   3.072
CFE-4-B CFE-4-SB 101.6 57.15 146.8 88.9 38.1 50.8 50.8 1.52 138 278   4.607

 

Bearing No.

Dimensions (mm) Basic Load Rating(KN) Limited Mass
Speed
Hexagon Hole Sealed Type D d C B B1 B2 G1 C Co rpm kg
CFH-1/2-B CFH-1/2-SB 12.7 6.35 9.53 26.19 15.88 6.35 3.84 4.4 12000 0.012
CFH9/16B CFH9/16-SB 14.29 6.35 9.53 26.19 15.88 6.35 4.3 5.3 10000 0.015
CFH-5/8-B CFH-5/8-SB 15.88 7.94 11.11 30.96 19.05 7.94 5.2 7 8800 0.571
CFH11/16-B CFH-11/16-SB 17.46 7.94 11.11 30.96 19.05 7.94 6.5 8.5 8000 0.571
CFH-3/4-B CFH-3/4-SB 19.05 11.11 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.039
CFH-7/8-B CFH-7/8-SB 22.23 11.11 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.049
CFH-1-B CFH-1-SB 25.4 15.88 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.093
CFH-1 1/8-B CFH-1 1/8-SB 28.58 15.88 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.109
CFH-1 1/4-B CFH-1 1/4-SB 31.75 19.05 19.05 51.59 31.75 7.94 15.88 19.2 25.9 4400 0.176
CFH-1 3/8-B CFH-1 3/8-SB 34.93 19.05 19.05 51.59 31.75 7.94 15.88 19.2 25.9 4400 0.2
CFH-1 1/2-B CFH-11/2SB 38.1 22.23 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.296
CFH-1 5/8-B CFH-1 5/8-SB 41.28 22.23 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.329
CFH-1 3/4-B CFH-1 3/4-SB 44.45 25.4 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.463
CFH-1 7/8-B CFH-1 7/8-SB 47.63 25.4 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.508
CFH-2-B CFH-2-SB 50.8 28.58 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.722
CFH-2 1/4-B CFH-2 1/4-SB 57.15 28.58 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.858
CFH-2 1/2-B CFH-2 1/2-SB 63.5 31.75 38.1 96.04 57.15 14.29 28.58 54 102.3   1.26
CFH-2 3/4-B CFH-2 3/4-SB 69.85 31.75 38.1 96.04 57.15 14.29 28.58 54 102.3   1.46
CFH-3-B CFH-3-SB 76.2 38.1 44.45 108.7 63.5 15.88 31.75 72.3 155   2.031
CFH-3 1/4-B CFH-3 1/4-SB 82.55 38.1 44.45 108.7 63.5 15.88 31.75 72.3 155   2.291
CFH-3 1/2-B CFH-3 1/2-SB 88.9 44.45 50.8 121.4 69.85 17.46 34.93 104.8 196.7   3.13
CFH-4-B CFH-4-SB 101.6 50.8 57.15 146.8 88.9 19.05 38.1 138 278   4.75
  CFH-5-SB 127 63.5 69.85 200 128.6 22.23 65.07 214 422   9.54
  CFH-6-SB 152.4 76.2 82.55 236.5 152.4 25.4 76.2 276 500   16.2
  CFH-7-SB 177.8 88.9 95.25 292 195.25 31.75 104.8 347 665   24.6

 

Workshop

 

Packaging & Shipping

Bearings Package:

    1):Inner Plastic Bag+ Paper Box + Carton(+Pallet)

    2):Small sizes:Plastic Tube + Carton

    3):Big sizes:Wooden Case

 

Bearings Lead time:

   We will prepare your order as soon as possible

    1)2-3 days for ex-stock

    2)7-20 days for others

 

 Shipping & Delivery time:

   1) Less than 45 Kg:DHL TNT Fedex UPS express will be better,( 4-7 days delivered to your address)

   2) Between 45 to 200 Kg:Air transiportation will be better,( 5-14 days delivered to your airport)

   3) Over 200 Kg:Sea transportation will be better.( Cheapest,18-45 days to your port ).

 

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Rows Number: Single
Material: Gcr15
Precision: P0 P6 P5 P4 P2
Clearance: C0 C2 C3 C4 C5
Vibration: Z1V1 Z2V2 Z3V3
Lubricated: Oil or Grease
Customization:
Available

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cam folllow bearing

How do temperature variations and environmental conditions impact the performance of cam follower bearings?

Temperature variations and environmental conditions can significantly impact the performance of cam follower bearings. Let’s explore how these factors affect the bearings in detail:

Temperature Variations:

Temperature variations can have both direct and indirect effects on the performance of cam follower bearings:

  • Lubrication: Temperature changes can affect the viscosity and flow properties of lubricants used in cam follower bearings. High temperatures can cause lubricants to thin out, reducing their effectiveness in creating a protective film between the rolling elements and raceways. Conversely, low temperatures can cause lubricants to thicken, impeding their ability to flow and provide adequate lubrication. Insufficient or degraded lubrication can lead to increased friction, wear, and premature failure of the bearing.
  • Expansion and Contraction: Temperature variations cause the components of cam follower bearings to expand or contract. This can lead to changes in clearances, fit, and geometric tolerances within the bearing assembly. If not properly accounted for, excessive clearances or interference fits can affect the bearing’s load-carrying capacity, accuracy, and overall performance.
  • Thermal Stresses: Differential expansion and contraction due to temperature fluctuations can induce thermal stresses within the bearing components. These stresses can affect the dimensional stability, material fatigue properties, and overall structural integrity of the bearing. Excessive thermal stresses can lead to deformation, microcracking, or accelerated wear, compromising the performance and lifespan of the bearing.
  • Heat Dissipation: High operating temperatures in cam follower bearings can result in increased heat generation. If not effectively dissipated, excessive heat can lead to thermal overload, degraded lubrication, and accelerated wear. Proper heat dissipation mechanisms, such as cooling fins, lubricant circulation, or heat sinks, are necessary to maintain the bearing within acceptable temperature ranges and ensure optimal performance.

Environmental Conditions:

The environmental conditions in which cam follower bearings operate can also impact their performance:

  • Contaminant Ingress: Harsh environments with high levels of dust, dirt, moisture, or other contaminants pose a significant risk to cam follower bearings. Contaminants can enter the bearing assembly and cause abrasive wear, corrosion, or damage to the rolling elements and raceways. Seals and shields are used to protect the bearing from such contaminants, ensuring reliable operation and extending the bearing’s service life.
  • Corrosion and Chemical Exposure: Exposure to corrosive substances, chemicals, or aggressive media can degrade the bearing’s materials and surfaces. Corrosion can lead to pitting, surface roughness, or material deterioration, compromising the bearing’s load-carrying capacity and overall performance. Proper material selection, protective coatings, and sealing solutions are essential to mitigate the effects of corrosion and chemical exposure.
  • Humidity and Moisture: High humidity or exposure to moisture can promote the formation of water condensation or the absorption of moisture by the bearing components. This can lead to rust, oxidation, or lubricant contamination, impairing the bearing’s performance and lifespan. Effective sealing and proper maintenance practices are necessary to safeguard against the detrimental effects of humidity and moisture.
  • Extreme Environments: Cam follower bearings operating in extreme environments, such as high altitudes, underwater applications, or extreme temperatures, require specialized designs and materials. These extreme conditions can pose additional challenges, such as reduced oxygen levels, increased pressure differentials, or extreme temperature gradients. Bearings designed for such environments incorporate features to address these challenges and ensure reliable performance.

Considering temperature variations and environmental conditions is crucial when selecting cam follower bearings. It allows for the proper choice of materials, lubrication methods, sealing solutions, and protective measures to ensure optimal performance, longevity, and reliability in diverse operating conditions.

cam folllow bearing

Can you provide examples of scenarios where controlled motion and tracking are crucial with cam follower bearings?

In certain scenarios, controlled motion and tracking are crucial requirements, and cam follower bearings play a key role in fulfilling these demands. Let’s explore some examples where controlled motion and tracking are crucial, and cam follower bearings are essential:

  • High-Precision Manufacturing:
  • In high-precision manufacturing processes such as CNC machining, milling, or grinding operations, cam follower bearings are used to achieve controlled and precise motion. These bearings help guide and support the movement of cutting tools, workpieces, or robotic arms, ensuring accurate positioning, dimensional accuracy, and repeatability in the manufactured parts.

  • Robotic Systems:
  • Cam follower bearings are vital components in various robotic systems where controlled motion and tracking are crucial. These bearings are used in robot joints, arms, and end-effectors to provide precise movement and tracking capabilities. They enable robots to perform intricate tasks such as pick-and-place operations, assembly processes, and precise positioning in industries like automotive manufacturing, electronics assembly, and logistics.

  • Automatic Guided Vehicles (AGVs):
  • AGVs are autonomous vehicles used for material handling and transportation tasks in industries like warehousing, manufacturing, and logistics. Cam follower bearings are employed in the wheel assemblies of AGVs to provide controlled motion and tracking. These bearings allow the AGVs to navigate along predefined paths, follow markers or guide rails, and accurately position themselves for loading, unloading, or docking operations.

  • Conveyor Systems:
  • Conveyor systems in industries such as food processing, packaging, and material handling require controlled motion and tracking for efficient operation. Cam follower bearings are used in conveyor rollers and guides to ensure smooth and precise movement of products along the conveyor line. These bearings enable accurate tracking of the conveyed items, preventing misalignment, jams, and product damage.

  • Printing and Labeling Machines:
  • In printing and labeling machines, cam follower bearings are utilized to achieve controlled motion and tracking of the printing heads or labeling mechanisms. These bearings enable precise positioning of the printing or labeling components, ensuring accurate placement and alignment on the target surface. Controlled motion and tracking are essential in maintaining print quality, preventing misprints, and ensuring consistent label placement.

  • Textile Machinery:
  • Textile machinery such as looms, knitting machines, and embroidery machines require controlled motion and tracking for the production of high-quality textiles. Cam follower bearings are used in various components of these machines to guide the movement of threads, yarns, or fabric. These bearings help maintain proper tension, alignment, and synchronization, ensuring precise weaving, knitting, or embroidery patterns.

  • Camera and Imaging Systems:
  • Cam follower bearings are employed in camera and imaging systems that require controlled motion and tracking. These bearings support the movement of camera lenses, image sensors, or scanning mechanisms. By providing smooth and precise motion control, cam follower bearings contribute to accurate focusing, tracking of moving objects, and capturing high-quality images or scans.

  • Scientific and Laboratory Equipment:
  • In scientific and laboratory equipment, controlled motion and tracking are crucial for precise experiments and measurements. Cam follower bearings are used in equipment such as spectroscopes, microscopes, or positioning stages. These bearings enable controlled movement of samples, lenses, or measurement probes, ensuring accurate positioning, focus, and tracking in scientific research and analysis.

The above examples highlight various scenarios where controlled motion and tracking are crucial, and cam follower bearings are essential components. Whether in manufacturing, robotics, transportation, or precision equipment, cam follower bearings enable smooth, precise, and reliable motion, facilitating the achievement of desired outcomes in a wide range of applications.

cam folllow bearing

What are the common applications and industries where cam follower bearings are commonly used?

Cam follower bearings find application in various industries and are utilized in a wide range of mechanical systems that require high precision and reliable motion control. Here are some common applications and industries where cam follower bearings are commonly used:

  • Industrial Machinery:
  • Cam follower bearings are widely employed in industrial machinery, including machine tools, printing presses, packaging equipment, textile machinery, and robotics. They are utilized in these applications to provide smooth and precise motion control, support linear or rotational movements, and handle heavy loads.

  • Automotive:
  • In the automotive industry, cam follower bearings are utilized in various components and systems. They are found in engine camshafts, valve train mechanisms, fuel injection systems, and exhaust systems. Cam follower bearings help ensure proper valve timing, efficient fuel delivery, and smooth operation of engine components.

  • Aerospace and Aviation:
  • Cam follower bearings are utilized in the aerospace and aviation sectors for critical applications. They can be found in aircraft landing gear systems, flap mechanisms, flight control systems, and engine components. Cam follower bearings in these applications provide reliable and precise motion control, withstand high loads, and operate in demanding environments.

  • Material Handling:
  • Cam follower bearings are commonly used in material handling equipment such as conveyor systems, forklifts, cranes, and lifting mechanisms. They facilitate smooth and controlled movement of loads, handle heavy loads, and provide guidance and support for linear or rotational motion.

  • Construction and Heavy Equipment:
  • Cam follower bearings are utilized in construction and heavy equipment applications such as excavators, loaders, bulldozers, and compactors. They are employed in these machines for various functions, including track rollers, bucket mechanisms, steering systems, and articulating joints. Cam follower bearings in these applications enable efficient operation, withstand heavy loads, and provide durability in harsh conditions.

  • Medical and Laboratory Equipment:
  • Cam follower bearings are used in medical and laboratory equipment where precise motion control and smooth operation are critical. They can be found in applications such as medical imaging devices, laboratory automation systems, robotic surgical equipment, and precision instruments. Cam follower bearings in these applications ensure accurate positioning, smooth motion, and reliable performance.

  • Packaging and Printing:
  • In packaging and printing industries, cam follower bearings are utilized in machinery such as printing presses, labeling machines, cartoning machines, and packaging lines. They enable precise movement, register control, and consistent performance, contributing to high-quality printing and efficient packaging processes.

  • Textile and Garment Machinery:
  • Cam follower bearings are commonly used in textile and garment machinery for applications such as yarn guide systems, loom mechanisms, knitting machines, and fabric handling systems. They provide smooth and controlled motion, support high-speed operations, and contribute to the precise production of textiles and garments.

These are just a few examples of the many applications and industries where cam follower bearings are commonly used. Their versatility, reliability, and ability to provide precise motion control make them a valuable component in various mechanical systems across different sectors.

China factory Inch Size Track Rollers, Stud Type Cam Follower Bearings (CFH-6-SB, CFH-7-SB)   deep groove ball bearingChina factory Inch Size Track Rollers, Stud Type Cam Follower Bearings (CFH-6-SB, CFH-7-SB)   deep groove ball bearing
editor by CX 2024-02-21

China manufacturer CF8buur Cam Follower Bearing 8X19X32mm deep groove ball bearing

Product Description

Bearing Model CF8BUUR Bearings
Type Cam Follower Bearing 
Description Needle Roller Bearing 
HS Code 8482400000
Sizes 8x19x32mm
d 8 mm
D 19 mm
B/T 32 mm 
mass ***KG
Service IKO/Neutral/OEM
Package Original Packing Box + Carton Box
Payment Methods T/T, Western Union or Paypal
Delivery Time 3 working days
Stock Qty 6008 pcs(more on the way) 

At the moment, we still have 6008 pcs of  CF8BUUR bearings in warehouses please feel free to send me an email or Skype messages if you have request for  CF8BUUR bearings, we will spare no efforts to satisfy your requirements by rendering you the superior quality, the most competitive prices, premium service and any other specific need.
For more details of  CF8BUUR bearings, or if you still sourcing any other bearongs, linear blocks/rails, pls feel free to send me an  Email or Whatsapp messages.

HangZhou Droke Transmission Machinery Co.,Ltd which is bearing Business factory model in China.  
Below is some of our best sellers for your reference. 
Deep groove ball bearings 
Cylindrical roller bearings 
Full complement cylindrical roller bearings
Spherical roller bearings 
Needle roller bearings 
Thrust ball bearings 
Tapered roller bearings 
Angular contact ball bearings 
Self-aligning ball bearings 
Except bearing series we also  have Casting series as follow: 
High performance material casting Casting for commercial vehicle 
Casting for construction machinery 
Castings for agricultural equipment Special vehicle 
Casting Casting of robot Wind turbine casting 
Any interested, more information& SAMPLE will be provided for you reference. 

  /* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Cage: With Cage
Rows Number: Single
Load Direction: Thrust Bearing
Style: With Outer Ring
Material: Bearing Steel
Type: Closed
Samples:
US$ 10/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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cam folllow bearing

How do cam follower bearings improve the functionality of conveyors and material handling systems?

Cam follower bearings play a crucial role in improving the functionality of conveyors and material handling systems. Let’s explore in detail how cam follower bearings contribute to the efficient operation of these systems:

  • Precise Tracking and Guidance: Cam follower bearings provide precise tracking and guidance for conveyors and material handling systems. By following the profile of the cam, the bearings ensure that the moving components, such as rollers or belts, stay on the desired path. This precise tracking helps prevent misalignment, slippage, or jamming, ensuring smooth and reliable movement of materials along the conveyor or within the material handling system.
  • Smooth and Controlled Motion: Cam follower bearings enable smooth and controlled motion of conveyors and material handling systems. They transfer the rotational motion from the driving mechanism to the connected components, such as rollers or pulleys. This controlled motion allows for gentle acceleration, deceleration, and speed regulation, minimizing shocks, vibrations, and material spillage. The smooth and controlled motion enhances the overall efficiency, throughput, and safety of the system.
  • Load Support and Handling: Conveyors and material handling systems often carry significant loads, ranging from lightweight items to heavy bulk materials. Cam follower bearings are designed to provide robust load support and handling capabilities. They distribute the load evenly across the bearings, ensuring smooth and stable operation even under heavy loads. This load support feature minimizes wear and fatigue on the system components, prolonging their service life and reducing maintenance requirements.
  • Flexibility and Versatility: Cam follower bearings offer flexibility and versatility in conveyor and material handling system design. Their compact size and various mounting options allow for easy integration into different configurations, including straight, curved, or inclined conveyors. The ability to accommodate misalignments and deviations in the cam profile enables customization and adaptability to specific application requirements. This flexibility facilitates the efficient layout and optimization of conveyor and material handling systems.
  • Reduced Friction and Energy Consumption: Cam follower bearings incorporate rolling elements, such as rollers or needles, that reduce friction between the cam and the bearing. This rolling action minimizes energy losses and frictional heat generation, resulting in reduced power consumption and improved energy efficiency of the system. The reduced friction also contributes to the longevity of the bearings by minimizing wear and extending their operational life.
  • Reliability and Maintenance: Cam follower bearings are designed for reliable and low-maintenance operation in demanding industrial environments. They are constructed with durable materials and undergo stringent quality control processes to ensure their reliability. The minimal maintenance requirements of cam follower bearings help reduce downtime and increase the overall availability of conveyors and material handling systems, improving productivity and operational efficiency.

In summary, cam follower bearings enhance the functionality of conveyors and material handling systems by providing precise tracking and guidance, enabling smooth and controlled motion, supporting and handling various loads, offering flexibility in system design, reducing friction and energy consumption, and ensuring reliability with low maintenance requirements. With these benefits, cam follower bearings contribute to the efficient and reliable operation of conveyors and material handling systems, optimizing material flow, productivity, and safety in industrial environments.

cam folllow bearing

How do cam follower bearings contribute to the efficient operation of printing and packaging machinery?

Cam follower bearings play a crucial role in ensuring the efficient operation of printing and packaging machinery. Let’s explore how these bearings contribute to the smooth functioning of such equipment:

1. Precise Motion Control: Printing and packaging machinery often require precise and synchronized motion control to perform tasks such as feeding, cutting, folding, or labeling. Cam follower bearings facilitate this precise motion control by:

  • Transmitting the rotational motion from the driving source to various moving parts of the machinery.
  • Maintaining accurate positioning and timing during the operation.
  • Enabling controlled linear or oscillating motion required for specific tasks.

2. High Load-Carrying Capacity: Printing and packaging machinery may involve handling substantial loads, such as heavy rolls of paper or packaging materials. Cam follower bearings offer excellent load-carrying capacity, allowing them to:

  • Support and bear the weight of moving components, ensuring smooth and stable operation.
  • Handle both radial and axial loads, accommodating the forces exerted during various stages of the machinery’s operation.

3. Durability and Reliability: The demanding nature of printing and packaging processes requires robust and reliable components. Cam follower bearings contribute to the efficient operation by:

  • Being designed to withstand heavy loads, shocks, and vibrations commonly encountered in printing and packaging machinery.
  • Providing long service life and high resistance to wear, ensuring minimal downtime for maintenance or replacement.
  • Operating smoothly and consistently, even under high-speed conditions, to maintain the productivity and efficiency of the machinery.

4. Alignment and Compensation: Printing and packaging machinery often involves complex motion profiles or irregular surfaces. Cam follower bearings assist in the efficient operation of such machinery by:

  • Accommodating misalignments caused by variations in the cam profiles or tracks.
  • Compensating for minor deviations or irregularities in the surfaces they ride on, ensuring smooth and uninterrupted motion.
  • Tracking and following the contours of the components or materials being processed, allowing for precise and reliable operation.

5. Reduced Friction and Energy Efficiency: Efficient operation of printing and packaging machinery often involves minimizing energy consumption and reducing friction. Cam follower bearings contribute to energy efficiency by:

  • Incorporating designs that reduce friction and power losses during motion.
  • Utilizing advanced lubrication systems and materials to minimize friction and wear.
  • Enabling smooth and low-friction movement, resulting in reduced energy requirements and improved overall efficiency.

In summary, cam follower bearings are essential components in printing and packaging machinery, contributing to efficient operation through precise motion control, high load-carrying capacity, durability, alignment compensation, and reduced friction. These bearings enable reliable and productive performance, ensuring the smooth functioning of printing and packaging processes in various industrial settings.

cam folllow bearing

Can you explain the design principles of cam follower bearings and their functions?

Cam follower bearings are designed based on specific principles to ensure their efficient operation and fulfill their intended functions. Understanding these design principles is essential for comprehending how cam follower bearings work and how they serve their purposes. Here, we will explain the design principles of cam follower bearings and delve into their functions:

  • Design Principles of Cam Follower Bearings:
  • The design of cam follower bearings incorporates several key principles:

    • Cam Following: Cam follower bearings are designed to follow the contour or profile of a cam accurately. This design principle enables the bearing to maintain contact with the cam’s surface throughout its motion, ensuring smooth and precise tracking. The outer diameter of the bearing, which houses the rolling elements, is designed to match the shape of the cam.
    • Rolling Element Bearings: Cam follower bearings utilize rolling elements, such as cylindrical rollers or needle rollers, to reduce friction and facilitate motion. These rolling elements are positioned between the cam’s surface and the bearing’s outer diameter. The use of rolling elements enables smooth rolling motion and reduces wear, allowing for efficient operation even at high speeds.
    • Stud or Shaft Mounting: Cam follower bearings are designed with a stud or shaft for mounting purposes. The stud is often threaded to facilitate easy installation and secure attachment to a structure or component. The stud or shaft provides the necessary support and stability for the bearing assembly, allowing it to roll along the cam’s surface.
    • Cage or Retainer: Cam follower bearings typically incorporate a cage or retainer to hold the rolling elements in place. The cage prevents the rolling elements from contacting each other, ensuring proper spacing and distribution of load. It also helps to maintain alignment and prevent the rolling elements from skewing under load, enhancing the bearing’s overall performance and longevity.
    • Sealing and Lubrication: Cam follower bearings may include sealing arrangements to protect the internal components from contaminants and retain lubrication. Seals or shields can be incorporated to prevent the ingress of dirt, moisture, or other foreign particles. Proper lubrication is crucial for reducing friction, dissipating heat, and preventing premature wear or damage to the bearing components.
  • Functions of Cam Follower Bearings:
  • The design principles of cam follower bearings enable them to perform several important functions:

    • Cam Tracking: The primary function of cam follower bearings is to accurately follow the profile of a cam. By maintaining contact with the cam’s surface, the bearing converts the rotational motion of the cam into linear or oscillating motion. This function is essential in various applications where motion needs to be translated, transformed, or guided.
    • Motion Conversion: Cam follower bearings play a crucial role in converting rotary motion into linear or oscillating motion. This function is particularly useful in mechanisms that require precise and controlled movement, such as in cam-driven systems, sliding mechanisms, or lifting devices.
    • Load Support: Cam follower bearings are designed to support high loads. They provide a stable and robust platform for carrying radial and axial loads, ensuring the smooth operation of the associated components. This function is critical in applications that involve heavy loads, such as material handling equipment, automotive systems, or machinery.
    • Motion Control: Cam follower bearings contribute to motion control by providing stability and guidance. They help regulate the speed, direction, and timing of the motion, ensuring consistent and coordinated movement. This function is essential in applications that require precise positioning, synchronization, or sequencing of components.
    • Durability and Reliability: Cam follower bearings are designed to withstand challenging operating conditions. Their robust construction, along with the use of high-quality materials, ensures durability and reliability even in demanding environments. This function is vital for applications where reliability, longevity, and minimal downtime are paramount.

In summary, the design principles of cam follower bearings revolve around accurate cam following, the use of rolling element bearings, stud or shaft mounting, cage or retainer incorporation, and sealing and lubrication arrangements. These design principles enable cam follower bearings to fulfill their functions, including cam tracking, motion conversion, load support, motion control, and providing durability and reliability in various mechanical applications.

China manufacturer CF8buur Cam Follower Bearing 8X19X32mm   deep groove ball bearingChina manufacturer CF8buur Cam Follower Bearing 8X19X32mm   deep groove ball bearing
editor by CX 2024-02-16

China high quality Zl206 Drs, Zl5206 Drs Track Roller Bearing Stud Cam Follower for Textile Machinery deep groove ball bearing

Product Description

Zl206 Drs, Zl5206 Drs Track Roller Bearing Stud Cam Follower for Textile Machinery
 

Bearing Specification :

Model Number Zl206 Drs Bearing
Part Name Roller Bearing
Brand FSK / KBE / SKB / OEM
Material Bearing Steel
Number of Row Single Row
Dimensions(mm)(d*D*b) 30mm × 72mm × 38.7mm
Weight / Mass ( KG ) 0.457kg
HS Code  8482800000
Original Country Show CHINA

Bearings Drawing :

Bearings Detailed Pictures:

Same Series Bearings We Offer:

Bearing Number d D H m
ZL202-DRS 16 mm 40 mm 23.8 mm 80 g
ZL203-DRS 18 mm 47 mm 26.5 mm 120 g
ZL204-DRS 20 mm 52 mm 30.7 mm 170 g
ZL205-DRS 25 mm 62 mm 33.8 mm 250 g
ZL5201-DRS   35 mm 33.2 mm 90 g
ZL5202-DRS   40 mm 36.2 mm 120 g
ZL5203-DRS   47 mm 39.5 mm 190 g
ZL5204-DRS   52 mm 45.3 mm 250 g
ZL5205-DRS   62 mm 50.4 mm 380 g
ZL5206-DRS   72 mm 59 mm 550 g
ZL5207-DRS   80 mm 69.2 mm 710 g

Bearing Number Specification
d1 D B C R
ZL5201KRDU 14 35 33.2 15.9 R500
ZL5202KRDU 16 40 36.2 15.9 R500
ZL5203KRDU 18 47 39.5 17.5 R500
ZL5204KRDU 20 52 45.3 20.6 R500
ZL5205KRDU 25 62 50.4 20.6 R500
ZL5206KRDU 30 72 59 23.8 R500
ZL5207KRDU 35 80 69.2 27 R500

Other Bearings We Offer:

Hot Sales in our company
1. deep groove ball bearing 6000,6200,6300,6400,61800,61900,Z,RS,ZZ,2RS
2. spherical roller bearing 22200,22300,23000,24000,23100,24100,CA,CC,E,W33
3. cylindrical roller bearingN,NU,NJ,NN,NUP,E,ECP,ECM,ECJ
4. taper roller bearing 35710,30300,32200,32300,31300,32000
5. Aligning ball bearing 1200,1300,2200,2300,
6. needle roller bearing NA,NAV,NK,NKI,RNA,NK,RNAV,ZKLF,ZKLN,ZARF,ZARN
7. thrust ball bearing 51100,51200,51300,51400,E,M
8. angular contact ball bearing7000,7100,7200,7300,AC,BECBM,C
9. spherical plain bearing GE,GEG,GEEW,U,UC,UG,GX,GAC,SA,SABP

Our Advantage:

About FSK Factory Condition :

FAQ:
1.How can I get the bearing price?
Mike: You can leave your message on Alibaba, or conact us directly by email, , SkYPE, Viber. Tell us your quantity, usually 2-5 hours you will get the price.
2.How can I buy them?
Mike: You can place order on Alibaba, or pay the payment by Western Union, Paypal, T/T and L/C.
3. How long I can get these bearings?
Mike: for small order, we will delivery the bearings in 1-2 days after recive your payment. usually 3-5 days will arrive in your place by international express, such as DHL, TNT, UPS and so on. For big order, please contact us.
4.How to protect the bearing quality?
Mike: All procudts passed ISO9001:2008 and ISO14000 certificates. we can accept small sample order, you can check the quality.
5. Other service.
Mike: We can offer OEM service according to your demand.
 
FSK Bearing Company Advantages:
(1) We have first-class testing equipment to detect bearing various data parameters and control the quality of the bearing.
Whenever bearings must first detected whether the quality is qualified and the unqualified bearing will be eliminated directly.
So we can get the trust of a large number of customers, and supply them for several years.
(2) We have our own R & D capabilities, to help customers solve the problem of non-standard bearings.
We can also according to customer requirements change their own mark.
(3) Price, our manufacture ensure that our prices across China are quite competitive.
It is better for you to compare prices and quality among suppliers.
But everyone knows you can not buy the highest quality products with the lowest price,
but our product is the best quality if you use equal price.
 
FSK Cooperation Details
Delivery:
For Small weight or ungent ,we send by express UPS,DHL,FEDEX, or EMS,china post with Thracking number
For max production , we will ship by sea/air.
Payment Item:
TT, 30% deposit , 70% before shippment.
L/C At Sight
Paypal Or Western Union In advance
Service:
Trade Assurance
Payment Protection
Timely Delivery Guaranteed
Product Qualtity Protection

 

Zl206 Drs, Zl5206 Drs Track Roller Bearing Stud Cam Follower for Textile Machinery !

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Rolling Body: Roller Bearings
The Number of Rows: Single
Outer Dimension: Small and Medium-Sized (60-115mm)
Samples:
US$ 0.5/Piece
1 Piece(Min.Order)

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Customization:
Available

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Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

cam folllow bearing

Can you provide insights into recent advancements in cam follower bearing technology?

Recent years have witnessed several advancements in cam follower bearing technology, driven by the continuous pursuit of improved performance, durability, and efficiency. Here are some notable insights into the recent advancements in cam follower bearing technology:

  • Enhanced Materials: One significant advancement in cam follower bearing technology is the use of advanced materials. Manufacturers have been exploring new materials with improved properties such as higher strength, enhanced wear resistance, and better corrosion resistance. For example, the incorporation of high-performance materials like ceramic or composite elements in cam follower bearings has resulted in increased durability, reduced friction, and extended service life.
  • High-Speed Capability: Cam follower bearings have seen advancements in their ability to operate at higher speeds. With the demand for faster and more efficient machinery, cam follower bearings are now designed to withstand higher rotational speeds while maintaining precision and reliability. This improvement in high-speed capability allows for the optimization of performance in applications where rapid and accurate motion is required, such as high-speed automation, robotics, or printing presses.
  • Improved Lubrication: Lubrication plays a critical role in the performance and longevity of cam follower bearings. Recent advancements have focused on developing innovative lubrication solutions to enhance the bearing’s efficiency and reliability. For instance, the application of advanced lubricants with superior film formation properties and enhanced temperature resistance has resulted in reduced friction, improved wear protection, and extended maintenance intervals.
  • Optimized Design: Advances in design techniques have led to optimized cam follower bearing designs. Computer-aided design (CAD) tools and simulations have enabled engineers to refine the geometries and profiles of cam follower bearings for improved load distribution, reduced stress concentrations, and enhanced overall performance. These optimized designs help achieve higher load-carrying capacity, improved accuracy, and reduced noise levels.
  • Sealing and Contamination Protection: Cam follower bearings are often exposed to harsh environments and contaminants that can affect their performance. Recent advancements in sealing technologies have resulted in improved sealing solutions for cam follower bearings. Enhanced seals and protective coatings help prevent the ingress of contaminants such as dust, dirt, or moisture, thereby extending the bearing’s service life and reducing the risk of premature failure.
  • Condition Monitoring and Predictive Maintenance: Industry 4.0 and the rise of digitalization have also influenced cam follower bearing technology. The integration of sensors and monitoring systems allows for real-time condition monitoring of cam follower bearings. These systems can collect data on factors like temperature, vibration, and load, enabling predictive maintenance strategies. By detecting early signs of wear or potential failures, predictive maintenance helps optimize maintenance schedules, reduce downtime, and improve overall operational efficiency.

These recent advancements in cam follower bearing technology have significantly contributed to the improvement of performance, durability, and reliability in various industrial applications. The integration of advanced materials, high-speed capabilities, improved lubrication, optimized designs, sealing and contamination protection, and condition monitoring systems have all played a role in pushing the boundaries of cam follower bearing technology and meeting the evolving needs of modern machinery and equipment.

cam folllow bearing

How do different types of cam follower bearings, such as stud-type and yoke-type, differ in design and functionality?

Different types of cam follower bearings, such as stud-type and yoke-type, have distinct designs and functionalities that make them suitable for specific applications. Let’s explore the differences in design and functionality between these two types:

Stud-Type Cam Follower Bearings:

Stud-type cam follower bearings, also known as crowned or needle roller bearings, have a stud or bolt-like structure at the center of the bearing. Here are some key characteristics of stud-type cam follower bearings:

  • Design:
  • Stud-type cam follower bearings consist of an outer ring, a stud, a needle roller or cylindrical roller assembly, and a thick-walled outer ring or crowned outer ring. The stud is designed to provide a mounting point for the bearing and is typically threaded or equipped with a hexagonal socket for easy installation.

  • Functionality:
  • Stud-type cam follower bearings are designed for applications where the bearing needs to directly support a load and provide a point of attachment. The stud can be fastened to a structure or mating component, allowing the bearing to transmit radial loads, axial loads, or both. These bearings are often used in applications that require high radial load capacity, such as machine tools, printing presses, or industrial equipment.

  • Advantages:
  • Stud-type cam follower bearings offer advantages such as easy installation and removal due to the threaded or hexagonal stud design. They provide a compact and robust solution for applications that require high load-carrying capacity and precise motion control. The crowned outer ring design helps distribute load evenly and promotes proper alignment.

  • Considerations:
  • One consideration with stud-type cam follower bearings is the need for proper alignment and support of the stud to prevent excessive stress or misalignment. Adequate lubrication is also important to ensure smooth operation and prolong bearing life.

Yoke-Type Cam Follower Bearings:

Yoke-type cam follower bearings, also known as roller followers, have a yoke-shaped mounting structure. Here are some key characteristics of yoke-type cam follower bearings:

  • Design:
  • Yoke-type cam follower bearings consist of an outer ring, a yoke or stud, a roller assembly, and a thick-walled outer ring. The yoke-shaped structure provides a mounting point for the bearing and often has a hole or threaded section for attachment to a supporting structure. The roller assembly, which can be needle rollers or cylindrical rollers, rides on the outer ring.

  • Functionality:
  • Yoke-type cam follower bearings are designed for applications where the bearing needs to follow or track a contoured or irregular surface. The yoke allows the bearing to articulate and maintain contact with the surface while transmitting radial loads, axial loads, or both. These bearings are commonly used in applications such as cam mechanisms, conveyor systems, or track rollers.

  • Advantages:
  • Yoke-type cam follower bearings offer advantages such as the ability to track irregular surfaces or contours, making them suitable for applications where controlled motion and precise tracking are required. They provide excellent radial load-carrying capacity and are often used in applications with moderate to high loads.

  • Considerations:
  • One consideration with yoke-type cam follower bearings is the need for proper lubrication to reduce friction and wear. The yoke and roller assembly should be adequately supported to prevent excessive stress or deflection.

Overall, stud-type and yoke-type cam follower bearings differ in their mounting structures and intended applications. Stud-type bearings are suitable for applications where direct load support and attachment points are required, while yoke-type bearings excel in applications where tracking irregular surfaces and controlled motion are crucial. The specific design and functionality of each type make them well-suited for different mechanical systems and industries.

cam folllow bearing

What are the common applications and industries where cam follower bearings are commonly used?

Cam follower bearings find application in various industries and are utilized in a wide range of mechanical systems that require high precision and reliable motion control. Here are some common applications and industries where cam follower bearings are commonly used:

  • Industrial Machinery:
  • Cam follower bearings are widely employed in industrial machinery, including machine tools, printing presses, packaging equipment, textile machinery, and robotics. They are utilized in these applications to provide smooth and precise motion control, support linear or rotational movements, and handle heavy loads.

  • Automotive:
  • In the automotive industry, cam follower bearings are utilized in various components and systems. They are found in engine camshafts, valve train mechanisms, fuel injection systems, and exhaust systems. Cam follower bearings help ensure proper valve timing, efficient fuel delivery, and smooth operation of engine components.

  • Aerospace and Aviation:
  • Cam follower bearings are utilized in the aerospace and aviation sectors for critical applications. They can be found in aircraft landing gear systems, flap mechanisms, flight control systems, and engine components. Cam follower bearings in these applications provide reliable and precise motion control, withstand high loads, and operate in demanding environments.

  • Material Handling:
  • Cam follower bearings are commonly used in material handling equipment such as conveyor systems, forklifts, cranes, and lifting mechanisms. They facilitate smooth and controlled movement of loads, handle heavy loads, and provide guidance and support for linear or rotational motion.

  • Construction and Heavy Equipment:
  • Cam follower bearings are utilized in construction and heavy equipment applications such as excavators, loaders, bulldozers, and compactors. They are employed in these machines for various functions, including track rollers, bucket mechanisms, steering systems, and articulating joints. Cam follower bearings in these applications enable efficient operation, withstand heavy loads, and provide durability in harsh conditions.

  • Medical and Laboratory Equipment:
  • Cam follower bearings are used in medical and laboratory equipment where precise motion control and smooth operation are critical. They can be found in applications such as medical imaging devices, laboratory automation systems, robotic surgical equipment, and precision instruments. Cam follower bearings in these applications ensure accurate positioning, smooth motion, and reliable performance.

  • Packaging and Printing:
  • In packaging and printing industries, cam follower bearings are utilized in machinery such as printing presses, labeling machines, cartoning machines, and packaging lines. They enable precise movement, register control, and consistent performance, contributing to high-quality printing and efficient packaging processes.

  • Textile and Garment Machinery:
  • Cam follower bearings are commonly used in textile and garment machinery for applications such as yarn guide systems, loom mechanisms, knitting machines, and fabric handling systems. They provide smooth and controlled motion, support high-speed operations, and contribute to the precise production of textiles and garments.

These are just a few examples of the many applications and industries where cam follower bearings are commonly used. Their versatility, reliability, and ability to provide precise motion control make them a valuable component in various mechanical systems across different sectors.

China high quality Zl206 Drs, Zl5206 Drs Track Roller Bearing Stud Cam Follower for Textile Machinery   deep groove ball bearingChina high quality Zl206 Drs, Zl5206 Drs Track Roller Bearing Stud Cam Follower for Textile Machinery   deep groove ball bearing
editor by CX 2024-01-11

China Best Sales Bearing Steel Quality Rolling Bearing/6204zzcm/Nskskftimken Deep Groove Ball Bearing with Hot selling

Product Description

Bearing Steel Quality Rolling Bearing/6204ZZCM/nskskftimken Deep Groove Ball Bearing

1. Model: CZPT 6204ZZCM
2. Type: Deep Groove Ball Bearing
   – Deep groove ball bearings are 1 of the most common types of bearings, known for their high load-carrying capacity and smooth operation.
   – They are suitable for various applications, including power tools, automotive components, machinery, etc.

3. Dimensional Parameters:

Model Bore Diameter (mm) Outer Diameter(mm) Width(mm)
6204ZZCM 20 47 14


Applications of Deep Groove Ball Bearings:

Deep groove ball bearings are a common type of bearing with a wide range of applications. Here are some common applications of deep groove ball bearings:

1. Electric Motors and Engines: Deep groove ball bearings are commonly used in electric motors and engines to support the rotating motion of the rotor and withstand axial and radial loads.

2. Automotive Industry: Deep groove ball bearings are widely used in the automotive industry, including engine, transmission systems, suspension systems, wheels, and subframes.

3. Machinery Equipment: Deep groove ball bearings are suitable for various machinery equipment, such as industrial machinery, agricultural machinery, construction equipment, textile machinery, etc. They are used for power transmission, supporting rotating components, and reducing friction.

4. Pumps and Fans: Deep groove ball bearings are used in rotating equipment such as pumps and fans to support the rotation of the impeller and provide stable operation.

5. Household Appliances: Deep groove ball bearings are commonly found in household appliances such as washing machines, air conditioners, electric fans, etc., to support the rotation of motor rotors.

6. Industrial Transmissions: Deep groove ball bearings are used in various industrial transmission systems, such as gear transmissions, chain drives, etc., to support rotational motion and transmit torque.

7. Bicycles and Motorcycles: Deep groove ball bearings are widely used in bicycle and motorcycle wheels, steering systems, and engines.

These are just some common applications of deep groove ball bearings. In reality, deep groove ball bearings are widely used in various machinery and industries. Their simple structure and efficient performance make them an ideal choice for many rotating devices.
Deep groove ball bearings have several advantages:

1. High load-carrying capacity: Deep groove ball bearings can withstand both radial and axial loads, making them suitable for various load conditions.

2. Low friction and high efficiency: Deep groove ball bearings have a ball-and-groove structure, resulting in low frictional losses and providing high speed and operational efficiency.

3. Axial stability: The structure of deep groove ball bearings offers good axial stability, allowing them to withstand axial forces and prevent axial displacement.

4. Simplified installation and maintenance: Deep groove ball bearings have a simple structure, making them easy to install and dismantle, saving time and costs. Additionally, they often do not require additional lubrication or sealing devices.

5. Diverse applications: Deep groove ball bearings are widely used in various industries and fields, including machinery, automotive, power tools, and household appliances, meeting different application requirements.

6. High reliability and durability: Deep groove ball bearings are made of high-quality materials and undergo precision manufacturing, ensuring excellent reliability and durability to maintain stable performance during long-term operation.

In summary, deep groove ball bearings offer advantages such as high load-carrying capacity, low friction and high efficiency, axial stability, simplified installation and maintenance, diverse applications, and high reliability and durability. These characteristics make them a crucial type of bearing widely used in various industrial

 

FAQ

1.What is the minimum order quantity for this product?
Can be negotiated, we will try our best to meet customer needs.Our company is mainly based on wholesale sales, most customers’orders are more than Over 500 sets.

2.What is your latest delivery time?
Most orders will be shipped within 3-5 days of payment being received.

3.Does your company have quality assurance?
Yes, for 1 years.

4.Are you a factory or a trading company?
We have our own cooperative factory, and our business type is a combination of manufacturing and trading.

5.What is the competitiveness of your company’s products compared to other companies?
High precision, high speed, low noise.

6.What are the advantages of your company’s services compared to other companies?
Answer questions online 24 hours a day, reply in a timely manner,  100% after-sales service.

7.Which payment method does your company support?
Do our best to meet customer needs, Can be negotiated.

8.How to contact us quickly?
Please send us an inquiry or message and leave your other contact information, we will contact you as soon as possible and provide the detailed information you need.

Bearing display

Separated: Unseparated
Rows Number: Single
Load Direction: Radial Bearing
Customization:
Available

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Customized Request

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Estimated freight per unit.







about shipping cost and estimated delivery time.
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Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

bearing

How to Replace a Bearing

If you want to select a bearing for a specific application, you should know a few basics. This article will give you an overview of ball, angular contact, and sliding-contact bearings. You can choose a bearing according to the application based on the characteristics of its material and preload. If you are not sure how to choose a bearing, try experimenting with it. The next step is to understand the Z-axis, which is the axes along which the bearing moves.

Z axis

When it comes to replacing your Z axis bearing, there are several things you must know. First, you need to make sure that the bearings are seated correctly. Then, you should check the tension and rotation of each one. To ensure that both bearings are equally tensioned, you should flex the Core to the desired angle. This will keep the Z axis perpendicular to the work surface. To do this, first remove the Z axis bearing from its housing and insert it into the Z axis motor plate. Next, insert the flanged bearing into the Z axis motor plate and secure it with two M5x8mm button head cap screws.
Make sure that the bearing plate and the Z Coupler part are flush and have equal spacing. The spacing between the two parts is important, as too much spacing will cause the leadscrew to become tight. The screws should be very loose, with the exception of the ones that engage the nylocks. After installing the bearing, the next step is to start the Z axis. Once this is done, you’ll be able to move it around with a stepper.

Angular contact

Ball bearings are made with angular contacts that result in an angle between the bearing’s races. While the axial load moves in one direction through the bearing, the radial load follows a curved path, tending to separate the races axially. In order to minimize this frictional effect, angular contact bearings are designed with the same contact angle on the inner and outer races. The contact angle must be chosen to match the relative proportions of the axial and radial loads. Generally, a larger contact angle supports a higher axial load, while reducing radial load.
Ball bearings are the most common type of angular contact bearings. Angular contact ball bearings are used in many applications, but their primary purpose is in the spindle of a machine tool. These bearings are suitable for high-speed, precision rotation. Their radial load capacity is proportional to the angular contact angle, so larger contact angles tend to enlarge with speed. Angular contact ball bearings are available in single and double-row configurations.
Angular contact ball bearings are a great choice for applications that involve axial loads and complex shapes. These bearings have raceways on the inner and outer rings and mutual displacement along the axial axis. Their axial load bearing capacity increases as the contact Angle a rises. Angular contact ball bearings can withstand loads up to five times their initial weight! For those who are new to bearings, there are many resources online dedicated to the subject.
Despite their complexity, angular contact ball bearings are highly versatile and can be used in a wide range of applications. Their angular contact enables them to withstand moderate radial and thrust loads. Unlike some other bearings, angular contact ball bearings can be positioned in tandem to reduce friction. They also feature a preload mechanism that removes excess play while the bearing is in use.
Angular contact ball bearings are made with different lubricants and cage materials. Standard cages for angular contact ball bearings correspond to Table 1. Some are machined synthetic resins while others are molded polyamide. These cage materials are used to further enhance the bearing’s axial load capacity. Further, angular contact ball bearings can withstand high speeds and radial loads. Compared to radial contact ball bearings, angular contact ball bearings offer the greatest flexibility.

Ball bearings

bearing
Ball bearings are circular structures with two separate rings. The smaller ring is mounted on a shaft. The inner ring has a groove on the outer diameter that acts as a path for the balls. Both the inner and outer ring surfaces are finished with very high precision and tolerance. The outer ring is the circular structure with the rolling elements. These elements can take many forms. The inner and outer races are generally made of steel or ceramic.
Silicon nitride ceramic balls have good corrosion resistance and lightweight, but are more expensive than aluminum oxide balls. They also exhibit an insulating effect and are self-lubricating. Silicon nitride is also suitable for high-temperature environments. However, this type of material has the disadvantage of wearing out rapidly and is prone to cracking and shattering, as is the case with bearing steel and glass. It’s also less resistant to heat than aluminum oxide, so it’s best to buy aluminum nitride or ceramic ball bearings for applications that are subjected to extremely high temperatures.
Another type of ball bearings is the thrust bearing. It has a special design that accommodates forces in both axial and radial directions. It is also called a bidirectional bearing because its races are side-by-side. Axial ball bearings use a side-by-side design, and axial balls are used when the loads are transmitted through the wheel. However, they have poor axial support and are prone to separating during heavy radial loads.
The basic idea behind ball bearings is to reduce friction. By reducing friction, you’ll be able to transfer more energy, have less erosion, and improve the life of your machine. With today’s advances in technology, ball bearings can perform better than ever before. From iron to steel to plastics, the materials used in bearings have improved dramatically. Bearings may also incorporate an electromagnetic field. So, it’s best to select the right one for your machine.
The life expectancy of ball bearings depends on many factors, including the operating speed, lubrication, and temperature. A single million-rpm ball bearing can handle between one and five million rotations. As long as its surface contact area is as small as possible, it’s likely to be serviceable for at least one million rotations. However, the average lifespan of ball bearings depends on the application and operating conditions. Fortunately, most bearings can handle a million or more rotations before they start showing signs of fatigue.

Sliding-contact bearings

bearing
The basic principle behind sliding-contact bearings is that two surfaces move in contact with one another. This type of bearing works best in situations where the surfaces are made of dissimilar materials. For instance, a steel shaft shouldn’t run in a bronze-lined bore, or vice versa. Instead, one element should be harder than the other, since wear would concentrate in that area. In addition, abrasive particles tend to force themselves into the softer surface, causing a groove to wear in that part.
Sliding-contact bearings have low coefficients of friction and are commonly used in low-speed applications. Unlike ball and roller bearings, sliding contact bearings have to be lubricated on both sides of the contacting surfaces to minimize wear and tear. Sliding-contact bearings generally are made of ceramics, brass, and polymers. Because of their lower friction, they are less accurate than rolling-element bearings.
Sliding-contact bearings are also known as plain or sleeve bearings. They have a sliding motion between their two surfaces, which is reduced by lubrication. This type of bearing is often used in rotary applications and as guide mechanisms. In addition to providing sliding action, sliding-contact bearings are self-lubricating and have high load-carrying capacities. They are typically available in two different types: plain bearings and thrust bearings.
Sliding-contact linear bearing systems consist of a moving structure (called the carriage or slide) and the surfaces on which the two elements slide. The surfaces on which the bearing and journal move are called rails, ways, or guides. A bore hole is a complex geometry, and a minimum oil film thickness h0 is usually used at the line of centers. It is possible to have a sliding-contact bearing in a pillow block.
Because these bearings are porous, they can absorb 15 to 30% of the lubrication oil. This material is commonly used in automobile and machine tools. Many non-metallic materials are used as bearings. One example is rubber, which offers excellent shock absorbency and embeddability. While rubber has poor strength and thermal conductivity, it is commonly used in deep-well pumps and centrifugal pumps. This material has high impact strength, but is not as rigid as steel.

China Best Sales Bearing Steel Quality Rolling Bearing/6204zzcm/Nskskftimken Deep Groove Ball Bearing   with Hot sellingChina Best Sales Bearing Steel Quality Rolling Bearing/6204zzcm/Nskskftimken Deep Groove Ball Bearing   with Hot selling
editor by CX 2023-11-14

China Good quality Motorcycle Parts Deep Groove Ball Bearing for 6001-2RS bearing bronze

Product Description

Deep groove ball bearings mainly bear radial load as well as take moderate axial load. With less coefficient of friction, high limiting speed, large size range and variations of structure, deep groove ball bearings are suitable for precision instruments, low noise motors, automobiles, motorcycles, air-conditioners, washers, cleaners and other common machineries as a widely used type of bearings in machinery industry.
 

Model Number 6001 series
Suit for FT-150 06-15
Material Stainless steel

 

Related Bearings

Part Number

ID OD Bore Size
6000 10 26 8 10*26*8
6001 12 28 8 12*28*8
6002 15 32 9 15*32*9
6003 17 35 10 17*35*10
6004 20 42 12 20*42*12
6005 25 47 12 25*47*12
6200 10 30 9 10*30*9
6201 12 32 10 12*32*10
6202 15 35 11 15*35*11
6203 17 40 12 17*40*12
6204 20 47 14 20*47*14
6205 25 52 15 25*52*15
6300 10 35 11 10*35*11
6301 12 37 12 12*37*12
6302 15 42 13 15*42*13
6303 17 47 14 17*47*14
6304 20 52 15 20*52*15
6305 25 62 17 25*62*17

Company Information

TSPE MOTOR located in HangZhou city,ZHangZhoug province,China.we specialized in motorcycle spare parts and accessories,our team have more than 10 years experience in the motorcycle industry.

We have very good relationship with many suppliers, and our R&D experience, we are in the position to cooperate with customers for developing their own project with exclusive condition.

During the past few years we have successfully cooperation with clients from Germany, Russia, Turkey, Algeria, Mexico, Colombia etc.
Welcome to contact with us to start a long term cooperation, and thank you for your kind support!

 

Aligning: Non-Aligning Bearing
Separated: Unseparated
Rows Number: Single
Load Direction: Radial Bearing
Material: Stainless Steel
Transport Package: Each Packed with Small Color Box, Then 10PCS Box
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

bushing

What is the purpose of the bushing?

If you notice the truck making noises when cornering, the bushings may be worn. You may need to replace the ball joint or stabilizer bar, but a simple inspection will reveal that the noise is coming from the bushing. The noise from a worn bushing on a metal joint can mimic the sound of other problems in the suspension, such as a loose stabilizer bar or a failed ball joint.

Function

What is the purpose of the bushing? They play an important role in the operation of various mechanical parts. Their main functions include reducing the clearance between the shaft and the bearing and reducing the leakage of the valve. Bushings are used in different ways to ensure smooth operation and longevity. However, some new designers don’t appreciate the functionality of the case. So let’s discuss these features. Some of their most common applications are listed below.
First, the shell does a lot of things. They reduce noise, control vibration, and provide amazing protection for all kinds of industrial equipment. Large industrial equipment faces more wear, vibration and noise, which can render it completely inoperable. Bushings help prevent this by reducing noise and vibration. Bushing sets also extend equipment life and improve its performance. Therefore, you should not underestimate the importance of the casing in your device.
Another common function of bushings is to support components during assembly. In other words, the bushing reduces the risk of machine wear. In addition to this, they are superior to bearings, which are notoriously expensive to maintain. However, they are still useful, and their versatility cannot be overemphasized. If you’re considering installing one, you’ll be glad you did! These products have become a necessity in the modern industrial world. If you’re wondering how to choose one, here are some of the most common bushing uses.
Electrical bushings are an important part of many electrical equipment. They carry high voltage currents through the enclosure and provide an insulating barrier between live conductors and metal bodies at ground potential. They are made of a central conductive rod (usually copper or aluminum) and surrounding insulators made of composite resin silicone rubber. Additionally, the bushings are made of various materials. Whether copper, aluminum or plastic, they are an important part of many types of electrical equipment.

type

There are several different types of bushings on the market today. They may be cheap but they are of good quality. These products can be used in telephones, cable television, computer data lines and alarm systems. The key to buying these products online is finding the right appliance store and choosing a high-quality product. An online appliance store should have comprehensive information and ease of use. For the right electrical bushing, you should look for reliable online stores with the best prices and high quality products.
Capacitive grading bushings use conductive foils inserted into paper to stabilize the electric field and balance the internal energy of the bushing. The conductive foil acts as a capacitive element, connecting the high voltage conductor to ground. These types of bushings are sometimes referred to as capacitor grade bushings. Capacitive grading bushings are usually made of paper impregnated with epoxy resin or mineral oil.
When buying enclosures, you should know how they are used. Unlike ball bearings, bushings should be stored upright so that they are in the correct working position. This is because horizontal placement can cause air bubbles to form in the fill insulation. It is also important to store the bushing properly to prevent damage. The wrong way to store these components can result in costly repairs.
In addition to the physical structure, the bushing insulation must also be effective over the long term. It must resist partial discharge and working electric field stress. The material and design of the bushing can vary widely. Early on, porcelain-based materials were popular in bushing designs. Porcelain was chosen because of its low cost of production and very low linear expansion. Ceramic bushings, on the other hand, require a lot of metal fittings and flexible seals.
bushing

Durability

The RIG 3 Bushing Durability Test Standard simulates real-world service conditions for automotive bushings. This three-channel test standard varies casing loads and stresses by applying a range of different load conditions and various control factors. This test is critical to the durability of the case, as it accurately reproduces the dynamic loads that occur during normal use. This test is a key component of the automotive industry and is widely used in many industries.
The Advanced Casing Model has five modules to address asymmetry, nonlinearity, and hysteresis. This model also represents the CZPT lag model. The model can be parameterized in the time domain using MATLAB, and the results can be exported to other simulation software. The developed bushing model is a key component in the durability and performance of vehicle suspension components.
A conductive material is coated on the inner surface of the sleeve. The coating is chosen to conduct a certain amount of current. The conductive path extends from the blade spacer 126 to the sleeve projecting edge 204 and then through the housing 62 to the ground. The coating is made of a low friction material and acts as a wear surface against the bushing sidewall 212 and the housing 62 .
Another important factor in a bushing’s durability is its ability to friction. The higher the operating speed, the greater the load on the bushing. Since bushings are designed for lighter loads and slower speeds, they cannot handle large loads at high speeds. The P-max or V-max value of a bushing is its maximum load or speed at 0 rpm. The PV value must be lower than the manufacturer’s PV value.

price

If you need to replace the bushing on the control arm, you should understand the cost involved. This repair can be expensive, depending on the make and model of your car. Generally, you should pay between $105 and $180 for a replacement. However, you can choose to have it done by a mechanic at a lower cost. The labor cost for this job can be around $160, depending on your automaker.
The cost of replacing the control arm bushings can range from $200 on the low end to $500 on a luxury car. While parts are cheap, labor costs are the highest. Mechanics had to remove suspension and wheel assemblies to replace bushings. If you have some mechanical knowledge, you can replace the bushing yourself. Control arm bushings on the wheel side are usually about $20 each. Still, if you’re not a mechanic, you can save money by doing it yourself.
bushing

Install

Press-fit bushings are installed using a retaining ring with a diameter 0.3/0.4 mm larger than the inner diameter of the bushing. To ensure accurate installation, use a mechanically driven, pneumatic or hydraulic drill and insert the bushing into the appropriate hole. This process is best done using mounting holes with drilled holes for the clamps. Make sure the mounting hole is in the center of the bushing and free of debris.
Once the bushing is positioned, use a vise to install its nut. A cold bushing will compress and fit the shell better. Place the sleeve in the refrigerator for at least 24 hours to aid installation. After removing the bushing from the refrigerator, make sure it has enough diameter to fit into the enclosure. Next, place the opposite socket into the enclosure and use it as a stand. After a few minutes, the bushing should be fully seated in the housing.
Install the new bushing into the housing hole. If the previous one had a metal case, insert the new one through the taper. Always lubricate the inner and outer surfaces of the bushing. Then, apply pressure to the inner metal sleeve of the new bushing. You may notice that the new bushing does not exactly match the housing hole. However, that’s okay because the outer diameter of the bushing is larger than the outer diameter of the hub drive.
The installation of the bushing requires the use of the hydraulic unit 16 . Hydraulic unit 16 is located near the #1 journal of the camshaft and extends from #2 to #7. Hydraulic fluid forces piston 22 away from the outer end of cylinder 20 and pushes shaft 14 forward. The shaft is then moved forward, pushing the bushing 17 onto the piston. Multiple bushings can be installed in a single engine.

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editor by CX 2023-11-08