Product Description
Characteristic:
It has the advantages of high transmission power, long service life, small performance fluctuation, oil resistance, heat resistance, wear resistance and high transmission efficiency. It is widely used for power transmission of cooling fan, water pump and compressor of automobile engine. It can also ensure safety performance when running at high speed.
15315 – Belt OEM | |
ACURA (SEE HONDA) | 56992PM70041 |
AM OEM COLLISION | 3242183 |
AMC | 3242183 |
AMERICAN MOTORS (SEE CHRYSLER) | 3242183 |
AUDI | 0571 5717B1 |
AUDI | 0571 5717B |
BMW | 1717935 |
BMW | 1717953 |
BMW | 32421469238 |
CHRYSLER | 4298065 |
CHRYSLER | 3242183 |
CITROEN | 9560000880 |
FORD | D22F8620CA |
FORD | D2AE8620CNA |
FORD | D7PZ8620C |
FORD | D7TE8620BA |
FORD | C6AE8620AA |
FORD | 761E8620AA |
FORD | 761F8620AA |
GENERAL MOTORS | 3952336 |
GENERAL MOTORS | 3571697 |
GENERAL MOTORS | 9433715 |
GENERAL MOTORS | 11557162 |
GENERAL MOTORS | 3878243 |
GENERAL MOTORS | 9433613 |
GENERAL MOTORS | 88934283 |
HONDA | 56992PM70041 |
HYUNDAI | 2521111000 |
ISUZU | 8943893711 |
MAZDA | 831118381A |
MAZDA | 831118381 |
MAZDA | 000067014685 |
MAZDA | 831118381A9U |
MAZDA | FM315 |
MAZDA | 67014685 |
MITSUBISHI | REMF1315 |
MITSUBISHI | MF1315 |
MITSUBISHI | RECMF1315 |
NEW HOLLAND | 219349 |
NISSAN | 117E17 |
NISSAN | 11720V4300 |
NISSAN | 1172V4300 |
NISSAN | 117201E17 |
NISSAN | 1172008E11 |
OEM | 384564 |
OEM | |
OEM | 7700679879 |
OEM | 831118381A99 |
OEM | O32418381A |
OEM | SE571032310A |
OEM | DD39118 |
OEM | 32421717953 |
OEM | 4156392 |
OEM | REMF1316 |
OEM | 545481 |
OEM | 89BF6C301A1B |
OEM | 118094R1 |
OEM | 1311528N7 |
OEM | 7701349245 |
OEM | 046145271 |
OEM | 060145271 |
OEM | 905712293 |
OEM | 6174797 |
OEM | 38456642 |
OEM | 6134738 |
OEM | 711644 |
OEM | 7644928 |
OEM | 11063969 |
OEM | 4616931 |
OEM | 81AB6C301EB |
OEM | 2521114280 |
OEM | 32421719953 |
OEM | 574914 |
OEM | 7700682388 |
OEM | 545482 |
OEM | AV10LP810 |
OEM | 6044423 |
OEM | 95496836 |
OEM | BMK1963 |
OEM | 7564923 |
OEM | 3939739 |
OEM | 720500117 |
OEM | 96015521 |
OEM | GFB1571 |
OEM | 0571 5717A |
OEM | 6196579 |
OEM | 4298122 |
OEM | 6044995 |
OEM | 56992PM7004 |
OEM | 6 0571 71 |
OEM | 8527183810 |
OEM | 993210571 |
OEM | FD03231000 |
OEM | V701M8620AA |
OEM | 2735E8620A |
OEM | 46145271 |
OEM | 60145271 |
OEM | AAU3550 |
OEM | 4298190 |
OEM | 5949504 |
OEM | 9952201144 |
OEM | 89BF6C301A2B |
OEM | 77BF6C301AC |
OEM | 56992PM7003 |
OEM | 89BF6C301A1A |
OEM | 0571 5717E |
OEM | |
OEM | 950365 |
OEM | 6196578 |
OEM | 84AB6C301AA |
OEM | 91536303 |
OEM | 95X800 |
OPEL | 9571571 |
SUZUKI | 1752172571 |
SUZUKI | 1752179030 |
SUZUKI | 1752179571 |
TOYOTA | 9932250815 |
VOLKSWAGEN | 0571 5717B1 |
VOLKSWAGEN | 0571 5717B |
VOLVO | 967571 |
VOLVO | 958347 |
VOLVO | 966955 |
VOLVO | 958392 |
VOLVO | 958302 |
VOLVO | 973534 |
VOLVO | 966898 |
VOLVO | 958437 |
FAQ
1) How can I place order?
A:You can contact us by email about your order details, or place order on line.
2) How can I pay you?
A:After you confirm our PI, we will request you to pay.T/T (bank) and Paypal, Western Union are the most usual ways we are using.
3) What’s the order procedure?
A:First we discuss order details, production details by email or TM.Then we issue you an PI for your confirmation.You will be requested to do pre-paid full payment or deposit before we go into production.After we get the deposit, we start to process the order.We usually need 7-15days if we don’t have the items in stock.Before production has been finished, we will contact you for shipment details, and the balance payment.After payment has been settled, we start to prepare the shipment for you.
4)How do you take care when your clients received defective products?
A:Replacement.If there are some defective items, we usually credit to our customer or replace in next shipment.
5)How do you check all the goods in the production line?
A:We have spot inspection and finished product inspection.We check the goods when they go into next step production procedure. /* 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(/(.*?):(.*)$/))&&1
Type: | Conveyor Belt |
---|---|
Feature: | Wear-resistant, Heat-resistant, Tear-resistant, Flame-resistant, Cold-resistant |
Performance: | Strong Rubber Conveyor Belt |
Materials: | Cr, EPDM |
for Car: | Ford, Mazda, Nissan, Toyota, Volvo |
OEM: | 967022, D22f8620ca, 9932250815 |
Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
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Are there any alternatives to V-belts for power transmission applications?
Yes, there are several alternatives to V-belts for power transmission applications. These alternatives offer different advantages and may be suitable for specific requirements. Here are some commonly used alternatives:
- Synchronous Belts:
- Flat Belts:
- V-Ribbed Belts:
- Chain Drives:
- Gear Drives:
- Direct Coupling:
Synchronous belts, also known as timing belts, are toothed belts that provide precise and synchronous power transmission. They have teeth on the inner side that mesh with corresponding grooves on the pulleys, eliminating slippage and ensuring accurate power transfer. Synchronous belts are commonly used in applications that require precise positioning, high torque transmission, or low maintenance.
Flat belts are thin, flexible belts that transmit power by friction between the belt and the pulleys. They offer a simple and cost-effective solution for power transmission. Flat belts are available in various materials, such as rubber, leather, or fabric-reinforced synthetic materials. They are suitable for applications with moderate power requirements and can be used in both light-duty and heavy-duty applications.
V-ribbed belts, also known as multi-rib belts or serpentine belts, are similar to V-belts but have a different cross-sectional shape. They have a flat or shallow V-shaped profile with ribs on the inner side, which engage with corresponding grooves on the pulleys. V-ribbed belts offer higher power transmission capacity and reduced slip compared to standard V-belts. They are commonly used in automotive applications, such as engine accessory drives.
Chain drives use a series of interconnected links to transmit power. They are known for their high strength, durability, and ability to handle heavy loads. Chain drives are commonly used in applications that require high torque transmission, such as industrial machinery, motorcycles, or bicycles. However, chain drives require periodic lubrication and maintenance to ensure proper operation.
Gear drives utilize interlocking gears to transmit power. They offer high efficiency, precise power transmission, and the ability to transmit large amounts of torque. Gear drives are commonly used in applications that require high precision, such as robotics, machine tools, or automotive transmissions. However, they can be more complex and expensive compared to belt drives.
In some cases, power transmission applications may utilize direct coupling, where the motor shaft is directly connected to the driven equipment without the use of belts or other intermediate components. Direct coupling offers high efficiency, compactness, and eliminates the need for belt maintenance. It is commonly used in applications with high torque requirements or where precise alignment is critical.
The choice of the alternative to V-belts depends on various factors, including the specific power transmission requirements, space limitations, cost considerations, maintenance needs, and the desired level of precision. It is important to evaluate these factors and consult with experts to select the most suitable alternative for a particular application.
What are the factors that affect the lifespan and efficiency of V-belts?
The lifespan and efficiency of V-belts can be influenced by several factors. Here are the key factors that can affect the performance of V-belts:
- Belt Tension:
- Belt Alignment:
- Belt Condition:
- Maintenance and Lubrication:
- Operating Conditions:
- Load and Application:
Proper belt tension is crucial for the longevity and efficiency of V-belts. Insufficient tension can cause slippage, while excessive tension can lead to excessive load on the belt and other components. It is important to follow the manufacturer’s recommendations for the correct tension range.
Poor belt alignment can cause uneven wear, increased friction, and reduced efficiency. Misaligned pulleys can cause the belt to run at an angle, resulting in premature wear and potential failure. Regularly check and adjust the alignment of pulleys to ensure proper belt tracking.
The condition of the V-belt itself is a significant factor in its lifespan and efficiency. Regularly inspect the belt for signs of wear, cracks, fraying, or glazing. Replace worn-out or damaged belts promptly to avoid further issues.
Proper maintenance and lubrication can significantly extend the lifespan of V-belts. Adequate lubrication reduces friction and heat buildup, which helps to prevent premature wear and cracking. Follow the manufacturer’s recommendations for lubrication intervals and use the appropriate lubricant.
Operating conditions, such as temperature, humidity, and exposure to chemicals or contaminants, can affect the performance of V-belts. Extreme temperatures can cause the belt material to deteriorate, while exposure to chemicals or contaminants can lead to belt degradation. Ensure that the operating conditions are within the recommended range for the specific V-belt.
The load and application requirements also impact the lifespan and efficiency of V-belts. Excessive loads or improper application can cause excessive stress on the belt, leading to premature failure. Ensure that the V-belt is appropriately sized and rated for the specific load and application.
By considering these factors and implementing proper maintenance practices, such as regular inspections, correct tensioning, alignment checks, and appropriate lubrication, you can maximize the lifespan and efficiency of V-belts in your applications.
What are the advantages of using V-belts in power transmission systems?
V-belts offer several advantages when used in power transmission systems:
- High friction: The V-shaped cross-section of the belt increases the contact area with the pulleys, resulting in high frictional forces. This allows for effective power transmission even in applications with high torque or heavy loads.
- Belt wedging: When the V-belt is tensioned, it wedges itself deeper into the pulley grooves, enhancing the friction and preventing slippage between the belt and the pulleys. This feature is especially useful in applications where the driven pulley needs to rotate at a different speed than the driving pulley.
- Quiet operation: V-belts generally operate with less noise compared to other types of belts, such as flat belts. The V-shaped design helps to reduce vibrations and noise levels during power transmission.
- Simple installation: V-belts are relatively easy to install and replace. They can be quickly mounted on the pulleys without requiring extensive alignment procedures.
- Cost-effective: V-belts are typically more affordable compared to other power transmission methods, such as gear systems or synchronous belts. This makes them a cost-effective choice for many applications.
- Flexibility: V-belts can accommodate misalignments and slight variations in pulley diameters. They can also operate in a wide range of temperature and humidity conditions, making them versatile for different environments.
- Energy efficiency: V-belts have relatively low energy losses during power transmission, resulting in efficient energy transfer between the driving and driven pulleys.
It’s important to note that while V-belts offer numerous advantages, they also have limitations. They are not suitable for applications that require precise speed control or when high-speed ratios are needed. In such cases, other power transmission methods may be more appropriate.
In conclusion, the advantages of using V-belts in power transmission systems include high friction, belt wedging, quiet operation, simple installation, cost-effectiveness, flexibility, and energy efficiency.
editor by CX 2024-05-03
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