China supplier Auto Drive Belt Idler Pulley OEM 88440- 35080 pulley block

Product Description

We supply Clutch release bearing, auto cluch bearing, release bearing, to many customers and get good feedback from customers following are the types which we can produce and supply:

50SCRN31P-1, 48RTC3301, 48RTC3303, 44TKB2805, FCR55-17-9
FCR55-17-11, FCR54/32, FCR50/10, 47TKB3101, 47TKB3102
CBU553524B, F2182862, FBX130B, RCTS31SA, 48TKA3201, PLC04-23, 58TKA3703, 48TKA3214, RCT338SA, RCT38SL1, 35TRK-1,
40TRK39-4SB, 40TRBC07-27B, 40TRK30W2SB, 48TKA3214, 28TAG12
RCT338SA1, RCT45-1S, RCT4075-1S, RCT3360A, TK55-1A1U3, CT70B
TK45-4U3, CT52A-1, 65TNK20, 60TNK20, 45TNK20, RCT45-4S, 053TRBC09-7, 41211, 44011614, 892862M2

986714K1, 986809K2, 986813, 996708K, 996908, CT1310, FCR54-1

BC12S11, 615469A, C28-423, TKS4850K, RCT55B
RCT45-1S, RCT3558ARUS, TK33-1U3, TK55-1BU3
54TKA3501, 50TKA3805, BCA614018, CT24AG

50TKB3504, 50SCRN31P

FCR55-17-11-2, 50SCRN34-10P, 50SCRN31P-4B, 60TKB3506R
RCT337SA3-2, TK55-1A-1, 50SCRN40P4, 68TKB3506
48TKA3214, 48TKA3201, 48TKA3301, 58TKA3703, FCR60-32-14, 62TMK20, FCR47-8-4-2E, FCR62-29-11-2E
TK55-1B, FCR54-46-2-2E, 62TKA3309, 48THA3302A, PU335737ARR14
TK40-4A-40TRK-1, 65TNK20, 50SCRN44P-2AQ, CBU472921C, FCR-15-2A 68TKB3303RA, 60SCRN31-P-6, 47SCRN031-2, 62TKA3311, CBU33731 CBU442822 RCTS338SA1 RCTS338SA2 RCT371SA RCT322SA RCTS28SA RCT356SA9 50SCRN31-P1 RCT401SA RCT37SA1 RCT363SA RCT422SA1 RCTS33SA-1 XLB1016 RCT356SA6 RCTS325SA RCT331SA XLB1571 CBU472921 RCTS31SA RCT432SA RCT40SA RCTS354SA RCT283SA RCTS351SA4 RCT473SA RCT356SA8 RCTS33SA-3 RCT337SA-3 RCT4700SA RCTS338SA-4 RCT40 RCTS4067A2RR RCT38SL1 CT70BL1 CT1310 RCT4075-1S RCT4064S RCT3360A2RRS RCT35-1 RCT3558ARUS RCTS45S RCT52S CT52A-1 65TNK20-1 CT5582UR CT45-1S T-74501 T-16000 T-700 T-W8080 T-25201 T-12120 T-85002

SK:
VKC2051, VKC2064, VKC2080, VKC2091, VKC2108, VKC2111, VKC2144, VKC2115, VKC2169, VKC2181, VKC2185, VKC2189, VKC2191, VKC2168, VKC2193, VKC2195, VKC2205, VKC2215, VKC2216, VKC2238, VKC2240, VKC2241, VKC2243, VKC2248, VKC2260, VKC2516, VKC2520, VKC2523, VKC2535, VKC2536, VKC2548, VKC2601, VKC3500, VKC3502, VKC3504, VKC3505, VKC3506, VKC3507, VKC3508, VKC3509, VKC3511, VKC3513, VKC3514, VKC3515, VKC3516, VKC3519, VKC3525, VKC3695, VKC3520, VKC3521, VKC3523, VKC3524, VKC3526, VKC3527, vkc3537, VKC3538, VKC3540, VKC3541, VKC3543, VKC3545, VKC3546, VKC3548, VKC3551, VKC3553, VKC3554, VKC3555, VKC3556, VKC3558, VKC3559, VKC3560, VKC3562, VKC3564, VKC3565, VKC3567, VKC3568, VKC3569, VKC3574, VKC3575, VKC3577, VKC3578, VKC3579, VKC3581, VKC3584, VKC3588, VKC3592, VKC3598, VKC3600, VKC3602, VKC3606, VKC3607, VKC3609, VKC3610, VKC3611, VKC3612, VKC3613, VKC3615, VKC3616, VKC3617, VKC3619, VKC3620, VKC3621, VKC3622, VKC3623, VKC3625, VKC3626, VKC3628, VKC3631, VKC3643, VKC3645, VKC3647, VCK3649, VKC3650, VKC3661, VKC3675, VKC3616, VKC3666, VKC3668, VKC3672, VKC3674, VKC5045, VKC5052, VKC5071, VKC5206, VKC5212, VKC5215, VKC3654, VKC3659, VKD22414, VKD23360, VKD19939, VKD17238, VKD17245, VKC5006, VKC3699,

NSK:
TK70-1AU3, TK55-1BU3, TK55-1AU3, TK52Z-1C, TK52Z-1B, TK45-4U3, TK45-4BU3, TK40-4AU3, TK40-1B2AK2, TK40-16AU3, TK40-14AU3, CB-1439-C, 68TKB3803RA, 68TKB3506AR, 65TNK20, 62TKA3309U3, 62TKA3303U3, 62TKA3211, 60TMK20U3, 60TKC4202, 60TKB3506R, 60TKB3502R, 60TKA3502U3, 58TKZ371, 58TKA3703B, 55TKA3201, 55TKA3102, 54TKE3602A, 54TKE3601, 54TKB3604, 54TKA3501, 50TKE3304, 50TKE3301, 50TKB3505BR, 24TK308E1U3, 35TMK29C1, 50TKB3504BR, 50TKB3501BR, 50TKA3805, 33TKD03U3, 50TKA3305R, 48TKB3204R, 48TKB3202, 48TKA3301, 48TKA3214, 48TKA3211B, 48TKA3210, 48TKA3201, 35TMK29B2, 47TKB3102B, 47TKB3101, 47TKB3001A, 47TKB2901UN3S, 45TKD07U3, 44TKB2805, 44TKB2803, 40TMK29B1U3,
40TMK20B, 40TKD07U3, 40TMK20-1S, 40TMK29, 52TMK804/2E, 62TMK20-1, 65TNK20, 93TKC6301, CBU442822, CBU472921C, CBU543625E, CBUF483326, CT1310, CT38-1L1, CT45-1S, CT50SA, CT50SA, CT5588ARSE, CT55BL1, CT60BR 5A20, CT70B, 81TKL4801, 68TKZ4401, 44TKB2803.

BOUNDARY DIMENSIONS KOYO NSK NTN NACHI DMB OEM NO.
62.5×33×31       50SCRN31P-1 50SCRN31P-1 31230-12170
67×33.6×27.5         48RTC3301  
64×33.3×23         48RTC3303  
57×28.2×33 RCT282SA 44TKB2805     44TKB2805  
70×31.7×38     FCR55-17-9   FCR55-17-9  
70×31.7×34.5     FCR55-17-11   FCR55-17-11  
70×36.1×38.5   FCR54-48-3/2E FCR54/32   FCR54/32  
65×33.2×40 RCT331SA   FCR50-10/2E   FCR50/10  
65×31.2×48.5   47TKB3101     47TKB3101 22810-P20-005
65×31.2×48.5   47TKB3102     47TKB3102  
65.2×31.2×39.5 CBU553524B       CBU553524B  
62×29.2×34.5         F2182862  
56×24.6×30         FBX130B  
65×31.1×34.5 RCTS31SA 55TKA3102 X10-FCR55-5/2E   RCTS31SA 22810-PL8-921
70×31.8×33.2 RCT322SA 48TKA3201 FCR45-11/2E 48SCRN32K 48TKA3201 MD706180
60×25.8×23         PLC04-23  
74×37.1×41.5 RCT47SA1 58TKA3703     58TKA3703 ME657110
66.5×37×20.7   48TKA3214     48TKA3214 8-94101-243-0
          RCT338SA 23265-70C00

EMAIL ME NOW FOR MORE PHOTOS AND INTRODUCTION ! /* 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

Warranty: 1 Year
Type: Auto Clutch Bearing
Material: Chrome Steel
Tolerance: P6
Certification: ISO9001, ISO9006, QS9000, SGS
Clearance: C2
Samples:
US$ 6/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

drive belt pulley

Are there different types of drive belt pulleys, and how do they vary in applications?

Yes, there are different types of drive belt pulleys, and they vary in their applications based on various factors. Here’s a detailed explanation of the different types of drive belt pulleys and their varying applications:

1. V-Belt Pulleys:

V-belt pulleys are one of the most common types of pulleys used in drive systems. They have a V-shaped groove that matches the cross-section of V-belts, which helps improve traction and prevent belt slippage. V-belt pulleys are suitable for applications that require high torque transmission, such as in industrial machinery, HVAC systems, and automotive engines. They are versatile and can accommodate a wide range of belt widths and power requirements.

2. Timing Pulleys:

Timing pulleys, also known as synchronous pulleys, have evenly spaced teeth on their periphery. They are used with timing belts, which have corresponding teeth, to ensure precise power transmission and synchronization of rotational motion. Timing pulleys are commonly found in applications that require accurate positioning, such as in CNC machines, robotics, printing presses, and automotive engine timing systems. They provide excellent torque transfer and are resistant to slippage.

3. Flat Belt Pulleys:

Flat belt pulleys have a flat, smooth surface without grooves or teeth. They are used with flat belts, which rely on friction for power transmission. Flat belt pulleys are suitable for applications that require high-speed rotation, such as in textile machinery, packaging equipment, and conveyors. They offer a simple and cost-effective solution for transferring power in systems that don’t require high torque.

4. Grooved Pulleys:

Grooved pulleys, also known as serpentine or multi-groove pulleys, have multiple grooves or channels on their periphery. These grooves accommodate multiple belts, typically V-belts or ribbed belts, running side by side. Grooved pulleys are commonly used in automotive engines, where a single pulley may drive multiple engine accessories, such as the alternator, power steering pump, and air conditioning compressor. They allow for compact designs and efficient power distribution.

5. Variable Speed Pulleys:

Variable speed pulleys, also called adjustable pulleys or variable pitch pulleys, provide the ability to change the effective diameter of the pulley, allowing for variable speed control. They consist of two halves that can be adjusted to increase or decrease the pulley diameter, altering the speed of the driven component. Variable speed pulleys are used in applications that require adjustable speed control, such as in exercise equipment, industrial machinery, and certain types of transmissions.

6. Idler Pulleys:

Idler pulleys are used to redirect or change the direction of a belt in a drive system. They do not transmit power but instead help guide and maintain proper belt tension. Idler pulleys are commonly used in conjunction with other pulleys in automotive engines, industrial machinery, and HVAC systems. They help improve belt wrap around driven pulleys, increase belt life, and reduce vibration.

7. Tensioner Pulleys:

Tensioner pulleys, also known as belt tensioners, are specifically designed to maintain proper tension in belt drive systems. They are often spring-loaded and provide a constant force against the belt, compensating for belt stretch or wear over time. Tensioner pulleys are commonly found in automotive engines, where they ensure optimal belt tension to prevent slippage, reduce noise, and extend belt life.

Each type of drive belt pulley has its own unique design and features that make it suitable for specific applications. The selection of the pulley type depends on factors such as the type of belt being used, the power requirements, the desired speed control, and the specific application requirements. By choosing the appropriate pulley type, engineers can ensure efficient power transmission, reliable operation, and optimal performance in various industrial, automotive, and mechanical systems.

drive belt pulley

How are drive belt pulleys used in the production of consumer appliances?

Drive belt pulleys play a crucial role in the production of consumer appliances. Here’s a detailed explanation of how drive belt pulleys are utilized in the manufacturing of consumer appliances:

1. Motor-to-Mechanism Power Transmission:

Consumer appliances, such as washing machines, dryers, dishwashers, and refrigerators, often require the transfer of power from an electric motor to various mechanisms within the appliance. Drive belt pulleys are used to connect the motor shaft to other components, such as pumps, agitators, drum assemblies, or fans. By using pulleys, the rotational power from the motor can be efficiently transmitted to the desired mechanism, allowing the appliance to perform its intended function.

2. Speed Control and Gear Reduction:

In certain consumer appliances, it is necessary to control the speed of rotating components or achieve gear reduction. Drive belt pulleys, in conjunction with different pulley sizes or gear ratios, enable speed control and gear reduction. By adjusting the pulley sizes or using multiple pulleys, the rotational speed of the driven components can be modified to match the desired operational requirements. This ensures the efficient and optimal performance of the consumer appliances.

3. Belt-Driven Mechanisms:

Consumer appliances often utilize belt-driven mechanisms for tasks such as agitating, spinning, mixing, or pumping. Drive belt pulleys are an integral part of these mechanisms, providing the necessary power transmission and tensioning for the belts. The pulleys ensure that the belts remain properly tensioned, allowing for reliable and efficient operation of the belt-driven mechanisms in the appliances.

4. Tensioning and Belt Adjustment:

Drive belt pulleys are used in consumer appliances to facilitate belt tensioning and adjustment. Tensioned belts ensure proper power transmission and prevent slippage. Pulleys with adjustable positions or tensioning mechanisms allow for easy and accurate belt tensioning, ensuring optimal performance and preventing premature belt wear or damage. The ability to adjust belt tension is particularly important in appliances with components that may experience variable loads or require periodic maintenance.

5. Noise and Vibration Control:

Drive belt pulleys contribute to noise and vibration control in consumer appliances. Well-designed pulleys with proper alignment and balanced operation help minimize vibrations and reduce noise generated during appliance operation. This enhances the overall user experience by providing quieter and smoother appliance functionality.

6. System Integration and Customization:

Drive belt pulleys offer flexibility in the production of consumer appliances by enabling system integration and customization. Manufacturers can utilize different pulley sizes, configurations, and arrangements to design appliances that meet specific performance and operational requirements. The adaptability of drive belt pulleys allows for the incorporation of different motor types, speeds, and driven components, ensuring the appliances are tailored to meet consumer needs.

7. Maintenance and Serviceability:

In consumer appliances, drive belt pulleys can contribute to ease of maintenance and serviceability. Pulleys that are designed for easy accessibility, with removable covers or guards, simplify maintenance procedures. This allows for efficient belt replacement, tension adjustment, or component servicing, minimizing downtime and enhancing the longevity of the appliances.

8. Energy Efficiency:

Efficient power transmission is crucial for achieving energy efficiency in consumer appliances. Drive belt pulleys help optimize power transfer from the motor to the driven components, minimizing energy losses. By using properly sized and designed pulleys, appliance manufacturers can enhance the energy efficiency of their products, resulting in reduced energy consumption and lower operating costs for consumers.

In summary, drive belt pulleys are extensively used in the production of consumer appliances for motor-to-mechanism power transmission, speed control, belt-driven mechanisms, tensioning, noise and vibration control, system integration, maintenance and serviceability, and energy efficiency. Their presence ensures reliable and efficient operation of the appliances, ultimately enhancing user satisfaction and product performance.

drive belt pulley

Can you explain the key components and design features of a drive belt pulley?

A drive belt pulley consists of several key components and design features that enable its efficient operation and power transmission. Here’s a detailed explanation of these components and features:

1. Pulley Wheel:

The pulley wheel is the main component of a drive belt pulley. It is typically a cylindrical or disk-shaped wheel with a grooved rim. The wheel is designed to accommodate the belt and provide a surface for power transmission. The grooves on the rim match the shape and size of the belt, ensuring a secure fit and optimal power transfer.

2. Grooves:

The grooves on the pulley wheel’s rim are an essential design feature. They provide the necessary contact points for the belt, ensuring a firm grip and preventing slippage during power transmission. The grooves can have different shapes, such as V-shaped or multi-ribbed, depending on the type of belt used.

3. Belt Alignment Guides:

Drive belt pulleys often include alignment guides to ensure proper positioning and alignment of the belt. These guides can be raised ridges or flanges located on the sides of the pulley. They help keep the belt in place and prevent it from slipping off the pulley, especially in high-tension applications.

4. Hub or Bore:

The hub or bore is the central opening in the pulley wheel where it attaches to the shaft of the power source. The hub is typically designed to fit snugly onto the shaft, ensuring a secure connection and efficient power transfer. It may include keyways, splines, or set screws to prevent rotation or slippage on the shaft.

5. Material and Construction:

Drive belt pulleys are commonly made of durable materials such as metal or plastic. Metal pulleys, such as steel or cast iron, are favored for their strength and resistance to wear. Plastic pulleys, often made of reinforced nylon or polyurethane, are lightweight, corrosion-resistant, and suitable for applications where reduced noise and vibration are desired.

6. Size and Diameter:

The size and diameter of the drive belt pulley play a crucial role in determining the speed ratio and power transmission characteristics. By altering the diameter or using pulleys of different sizes, the rotational speed and torque can be adjusted to meet specific requirements. Different pulleys within a system may have varying diameters to create speed variation or torque multiplication.

7. Tensioning Mechanism:

In some applications, drive belt pulleys may incorporate a tensioning mechanism. This mechanism allows for the adjustment of belt tension to ensure proper power transmission and prevent slippage. Tensioning mechanisms can include spring-loaded arms, adjustable brackets, or sliding mounts that enable easy tension adjustment and maintenance.

8. Bearing or Bushing:

Drive belt pulleys often include bearings or bushings to facilitate smooth and efficient rotation. These components reduce friction between the pulley and the shaft, allowing for improved power transmission and longevity of the pulley system. Bearings can be ball bearings, roller bearings, or plain bushings depending on the specific application and load requirements.

These key components and design features collectively contribute to the functionality, reliability, and performance of drive belt pulleys. By providing a secure fit for the belt, maintaining proper alignment, accommodating tension adjustments, and utilizing durable materials, drive belt pulleys ensure efficient power transmission and contribute to the smooth operation of mechanical systems in various applications.

China supplier Auto Drive Belt Idler Pulley OEM 88440- 35080   pulley block	China supplier Auto Drive Belt Idler Pulley OEM 88440- 35080   pulley block
editor by CX