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China OEM for Bobcat Drive Train Diesel Engine Belt Tensioner 7253514 broken axle on car

Product Description

Product Description

OuChai NO. Oem NO. Application Size
SM03 7253514 Bobcat,KUBOTA Standard

1. We are a professional manufactory product belt tensioner for truck and passenger car.

2. Advantage:
1)Reliable and durable, Strict quality control.
2))FOB\CIF\C&F price.
3)Small MOQ.
4)Specialized in belt tensioner.
5)Wholesale for auto truck parts.
6)Supply package.

3. Packing:
1) OUCHAI packing
2) Neutral packing
3) customer request

4. Shipping:
1. By sea, DHL, FedEx, ect.
2. Within 15 days after receiving 30% deposit

About us

HangZhou OUCHAI TECHNOLOGY CO.,LTD is located in Kunyang Nailali Industrial Zone, Xihu (West Lake) Dis., HangZhou. Our factory is a professional manufacturer of producing belt tensioner with designing and selling.
  Our company was founded in 2014, with RMB 3 million registered capital, and covers an area 2000 square meters. There are 30 workers in our factory, including 2 engineers and 6 technicians.
  Our company fully implement IATF16949 quality management system and own the advanced production equipment, such as CNC lathe, punching machine, die-casting machine, assembly line and testing equipment.
  Our products mainly exported to European, America and South East, and deeply praised by customers. We always adhere to the principle of “integrity is foundation, quality is first, CZPT cooperation” and we’ll move forward all the way.

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After-sales Service: 1year
Warranty: 1year
Car Make: Bobcat
Samples:
US$ 60/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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

drive belt tensioner

Can you explain the benefits of using drive belt tensioners in preventing slippage and optimizing power transmission in machinery and vehicles?

Using drive belt tensioners provides several benefits in preventing slippage and optimizing power transmission in machinery and vehicles. Tensioners play a critical role in maintaining proper belt tension, ensuring efficient power transfer, and maximizing the performance of belt-driven systems. Here’s a detailed explanation of the benefits of using drive belt tensioners:

  • Preventing Slippage:
  • One of the primary benefits of drive belt tensioners is their ability to prevent slippage between the belt and the pulleys. Slippage can occur when the belt loses traction with the pulleys due to insufficient tension or excessive loads. Tensioners apply the correct amount of tension to keep the belt tightly engaged with the pulleys, preventing slippage. By maintaining proper belt tension, tensioners ensure reliable power transmission, minimize energy losses, and prevent performance degradation caused by slippage.

  • Optimizing Power Transmission:
  • Drive belt tensioners optimize power transmission by ensuring efficient transfer of rotational energy from the driving pulley to the driven components. Tensioners maintain the proper tension in the belt, which allows for optimal power transfer without energy losses due to slippage. By keeping the belt under the correct tension, tensioners enable the belt-driven system to operate at its designed speeds and deliver the intended performance. This optimal power transmission contributes to improved overall efficiency, reduced energy consumption, and enhanced productivity in machinery and vehicles.

  • Load Distribution:
  • Tensioners help distribute the load evenly across the belt and the pulleys, minimizing localized stress and wear. Uneven loading can lead to premature wear, belt damage, and reduced system reliability. Drive belt tensioners maintain consistent tension throughout the operating range, ensuring that the load is evenly distributed across the belt’s width and the pulleys’ surfaces. This even load distribution promotes uniform wear, extends the lifespan of the belt, and reduces the risk of belt failure or damage caused by excessive localized stresses.

  • Reduced Maintenance:
  • Proper tensioning provided by drive belt tensioners reduces the need for frequent maintenance and adjustments. Tensioners help maintain the optimal tension, minimizing belt wear and elongation. By preventing slippage and maintaining consistent tension, tensioners reduce the risk of unexpected belt failures and the need for frequent re-tensioning. This results in reduced maintenance requirements, increased system uptime, and improved overall reliability and productivity in machinery and vehicles.

  • Versatility and Adaptability:
  • Drive belt tensioners offer versatility and adaptability in various applications. Tensioners are available in different designs and configurations to accommodate different belt types, sizes, and operating conditions. They can be adjusted to suit specific tension requirements or to compensate for changes in belt length due to wear or temperature variations. This versatility allows tensioners to be used in a wide range of machinery and vehicles, providing the necessary tensioning force and adaptability to optimize power transmission and prevent slippage in diverse operating environments.

In summary, using drive belt tensioners in machinery and vehicles provides several benefits in preventing slippage and optimizing power transmission. Tensioners prevent slippage by maintaining proper belt tension, ensuring reliable power transfer, and minimizing energy losses. They optimize power transmission by enabling efficient transfer of rotational energy and maximizing the performance of belt-driven systems. Additionally, tensioners promote even load distribution, reduce maintenance requirements, and offer versatility and adaptability for different applications. By utilizing drive belt tensioners, machinery and vehicles can achieve improved efficiency, reliability, and overall performance.

drive belt tensioner

Can you provide examples of vehicles or machinery that rely on drive belt tensioners for efficient operation?

There are numerous vehicles and machinery across various industries that rely on drive belt tensioners for efficient operation. These tensioners play a critical role in maintaining the proper tension of drive belts, ensuring optimal power transmission, preventing belt slippage, and maximizing the performance of the following examples:

  • Automobiles:
  • Drive belt tensioners are essential components in automobiles. They are commonly found in serpentine belt systems that power various engine accessories. Automobiles rely on drive belt tensioners for efficient operation of components such as the alternator, power steering pump, air conditioning compressor, water pump, and more. By maintaining the proper tension of the serpentine belt, drive belt tensioners ensure that these accessories receive the necessary power and operate optimally, contributing to the overall performance and functionality of the vehicle.

  • Trucks and Commercial Vehicles:
  • Trucks and commercial vehicles also rely on drive belt tensioners for efficient operation. Similar to automobiles, these vehicles utilize serpentine belt systems for powering engine accessories. Drive belt tensioners help maintain the proper tension of the serpentine belt, allowing the efficient functioning of components like the alternator, power steering pump, air compressor, water pump, and more. By ensuring optimal power transmission, drive belt tensioners contribute to the reliable performance and functionality of trucks and commercial vehicles.

  • Industrial Machinery:
  • A wide range of industrial machinery relies on drive belt tensioners for efficient operation. Industrial equipment such as conveyor systems, pumps, compressors, generators, mills, and agricultural machinery often utilize belt drive systems. Drive belt tensioners in these applications help maintain the proper tension of belts, ensuring efficient power transmission, preventing belt slippage, and maximizing the performance of the machinery. By optimizing belt performance, drive belt tensioners contribute to the productivity, reliability, and longevity of industrial equipment.

  • HVAC Systems:
  • Heating, ventilation, and air conditioning (HVAC) systems rely on drive belt tensioners for efficient operation. HVAC systems utilize belt-driven blowers, fans, and pumps to circulate air and control temperatures in buildings, vehicles, and industrial settings. Drive belt tensioners in HVAC applications help maintain the proper tension of belts, ensuring reliable and efficient operation of these components. By optimizing belt performance, drive belt tensioners contribute to energy efficiency, consistent airflow, and comfortable environments in HVAC systems.

  • Power Generation Equipment:
  • Power generation equipment, including generators and turbines, relies on drive belt tensioners for efficient operation. Belt drive systems are commonly used to transfer power from engines or turbines to generators or other auxiliary equipment. Drive belt tensioners help maintain the proper tension of belts, ensuring efficient power transmission, preventing slippage, and maximizing the performance of power generation equipment. By optimizing belt performance, drive belt tensioners contribute to the reliable and efficient generation of electrical power.

  • Printing and Packaging Machinery:
  • Printing presses, packaging machines, and other machinery in the printing and packaging industry rely on drive belt tensioners for efficient operation. Belt drive systems are used to transport materials, control printing mechanisms, and perform various operations in these machines. Drive belt tensioners help maintain the proper tension of belts, ensuring accurate registration, consistent printing quality, and reliable material handling. By optimizing belt performance, drive belt tensioners contribute to the productivity and quality of printing and packaging processes.

In summary, drive belt tensioners are crucial for the efficient operation of vehicles and machinery across different industries. They are found in automobiles, trucks, industrial machinery, HVAC systems, power generation equipment, printing and packaging machinery, and more. By maintaining optimal belt tension, drive belt tensioners ensure efficient power transmission, prevent belt slippage, and maximize the performance and reliability of these vehicles and machinery.

drive belt tensioner

In what industries and machinery are drive belt tensioners commonly used for optimal belt performance?

Drive belt tensioners are commonly used in various industries and machinery to ensure optimal belt performance. They play a crucial role in maintaining the proper tension of drive belts, optimizing power transmission, and preventing belt slippage. Here’s a detailed explanation of the industries and machinery where drive belt tensioners are commonly employed:

  • Automotive Industry:
  • Drive belt tensioners are extensively used in the automotive industry. They are a critical component of serpentine belt systems found in vehicles. Serpentine belts are long, continuous belts that drive multiple engine accessories, such as the alternator, power steering pump, air conditioning compressor, and water pump. Drive belt tensioners in automotive applications ensure that the serpentine belt remains properly tensioned, allowing efficient power transmission to these accessories. They help maintain the performance and reliability of the vehicle’s electrical and mechanical systems.

  • Industrial Machinery:
  • Drive belt tensioners are widely employed in various industrial machinery and equipment. They are used in belt drive systems that power different components and processes in industries such as manufacturing, mining, construction, and agriculture. In industrial applications, drive belts can be V-belts, timing belts, or other types depending on the specific requirements. Drive belt tensioners ensure proper tension of these belts, allowing reliable power transmission and preventing belt slippage. They are commonly found in equipment like conveyors, pumps, compressors, generators, mills, and agricultural machinery.

  • HVAC Systems:
  • Drive belt tensioners are crucial components in heating, ventilation, and air conditioning (HVAC) systems. HVAC systems utilize belt-driven blowers, fans, and pumps to circulate air and control temperatures in buildings, vehicles, and industrial settings. Drive belt tensioners in HVAC systems ensure that the belts driving these components remain properly tensioned. This helps maintain efficient operation, reliable performance, and optimal energy consumption in HVAC systems.

  • Power Generation:
  • In the power generation industry, drive belt tensioners are utilized in various applications. They can be found in power plants, where belt-driven generators, turbines, and auxiliary equipment are used. Drive belt tensioners help maintain the tension of these belts, ensuring efficient power transmission, preventing slippage, and optimizing the performance of power generation systems.

  • Printing and Packaging:
  • The printing and packaging industry relies on drive belt tensioners to ensure precise and reliable operation of printing presses, packaging machines, and other related equipment. Belt-driven systems play a vital role in moving paper, labels, or packaging materials through the machines. Drive belt tensioners help maintain the tension of these belts, ensuring accurate registration, consistent printing quality, and smooth material handling.

  • Textile Industry:
  • In the textile industry, drive belt tensioners are commonly used in various textile machines, such as spinning machines, weaving machines, and knitting machines. These machines utilize drive belts to control the movement of yarn or fabric through the production process. Drive belt tensioners help maintain the tension of these belts, ensuring precise yarn or fabric control, accurate weaving or knitting patterns, and consistent product quality.

In summary, drive belt tensioners are commonly used in industries such as automotive, industrial machinery, HVAC, power generation, printing and packaging, and textile. They ensure optimal belt performance by maintaining the proper tension of drive belts, enabling efficient power transmission, preventing slippage, and maximizing the performance and reliability of machinery and equipment in these industries.

China OEM for Bobcat Drive Train Diesel Engine Belt Tensioner 7253514   broken axle on carChina OEM for Bobcat Drive Train Diesel Engine Belt Tensioner 7253514   broken axle on car
editor by CX 2023-11-14

China Best Sales OEM 507868  7700102872 1192500QAL Accessory Drive Assembly Car Part Belt Tensioner For DACIA DUSTER(HS) 1.6 16V car axle

Product Description

MIC NO. OEM.NO APPLICATION YEAR PHOTO
TB34RE9701 507868
DACIA : 775712872
DACIA :
DACIA : 82
NISSAN : 11925QAL
RENAULT : 775712872
RENAULT :
RENAULT : 82
DACIA  DUSTER (HS_) 1.6 16V
DACIA  LOGAN (LS_) 1.6 (LSOB, LSOD, LSOF, LSOH)
DACIA  LOGAN EXPRESS (FS_) 1.4
DACIA  LOGAN EXPRESS (FS_) 1.6
DACIA  LOGAN MCV (KS_) 1.4
DACIA  LOGAN MCV (KS_) 1.6
DACIA  LOGAN Pickup (US_) 1.6
DACIA  SANDERO 1.4
DACIA  SANDERO 1.6
DACIA  SOLENZA (B41_) 1.4 (B41A, B41B, B41C)
NISSAN  KUBISTAR Box (X76) 1.6 16V
RENAULT  CLIO II (BB_, CB_) 1.4 16V (B/CB0L)
RENAULT  CLIO II (BB_, CB_) 1.6 16V (BB01, BB0H, BB0T, B BB2KL, BB3G)
RENAULT  ESPACE III (JE0_) 2.0
RENAULT  KANGOO (KC0/1_) 1.4 (KC0C, KC0H, KC0B, KC0M)
RENAULT  KANGOO (KC0/1_) 1.6 16V
RENAULT  KANGOO / GRAND KANGOO (KW0/1_) 1.6 16V FLEX (KW01)
RENAULT  KANGOO Express (FC0/1_) 1.4 (FC0C, FC0B, FC0H, FC0M)
RENAULT  KANGOO Express (FC0/1_) 1.6 16V
RENAULT  LAGUNA I (B56_, 556_) 1.6 16V (B568, B561)
RENAULT  LAGUNA I (B56_, 556_) 1.8 16V (B563, B564)
RENAULT  LAGUNA I (B56_, 556_) 2.0 (556A)
RENAULT  LAGUNA I Grandtour (K56_) 1.6 16V (K568)
RENAULT  LAGUNA I Grandtour (K56_) 1.8 16V (K563, K564)
RENAULT  LAGUNA I Grandtour (K56_) 2.0 16V (A56A/B)
RENAULT  LAGUNA II (BG0/1_) 1.6 16V (BG0A, BG0L)
RENAULT  LAGUNA II Grandtour (KG0/1_) 1.6 16V
RENAULT  LAGUNA III (BT0/1) 1.6 16V (BT04, BT0D, BT0U)
RENAULT  LAGUNA III Grandtour (KT0/1) 1.6 16V (KT0D)
RENAULT  LOGAN I (LS_) 1.4
RENAULT  LOGAN I (LS_) 1.6
RENAULT  LOGAN I Estate (KS_) 1.4
RENAULT  LOGAN I Estate (KS_) 1.6
RENAULT  MEGANE I (BA0/1_) 1.4 16V (BA0D, BA1H, BA0W, BA10)
RENAULT  MEGANE I (BA0/1_) 1.6 16V (BA04, BA0B, BA11, BA1K, BA1V)
RENAULT  MEGANE I (BA0/1_) 1.8 16V (BA06, BA12, BA1A, BA1M, BA1R)
RENAULT  MEGANE I Cabriolet (EA0/1_) 1.4 16V (EA0D, EA1H, EA0W, EA10)
RENAULT  MEGANE I Cabriolet (EA0/1_) 1.6 16V (EA04, EA0B, EA11, EA1J)
RENAULT  MEGANE I Cabriolet (EA0/1_) 2.0 16V IDE (EA03, EA0P, EA14)
RENAULT  MEGANE I Classic (LA0/1_) 1.4 (LA0E, LA0V)
RENAULT  MEGANE I Classic (LA0/1_) 1.6 16V (LA00, LA16, LA19, LA1J, LA1K)
RENAULT  MEGANE I Classic (LA0/1_) 1.8 16V (LA06, LA12, LA1A, LA1M, LA1R)
RENAULT  MEGANE I Coach (DA0/1_) 1.4 16V (DA0D, DA1H, DA0W, DA10)
RENAULT  MEGANE I Coach (DA0/1_) 1.6 16V (DA0B, DA04, DA11)
RENAULT  MEGANE I Coach (DA0/1_) 2.0 16V
RENAULT  MEGANE I Grandtour (KA0/1_) 1.4 16V (KA0D, KA1H, KA0W, KA10)
RENAULT  MEGANE I Grandtour (KA0/1_) 1.6 16V (KA0B, KA04, KA11)
RENAULT  MEGANE I Grandtour (KA0/1_) 1.8 16V (KA0S, KA12, KA1A, KA1M, KA1R)
RENAULT  MEGANE Scenic (JA0/1_) 1.6 16V (JA0B, JA04, JA11)
RENAULT  SCÉNIC I MPV (JA0/1_, FA0_) 1.4 16V (JA0D, JA1H, Ja0W, JA10)
RENAULT  SCÉNIC I MPV (JA0/1_, FA0_) 1.6
RENAULT  SCÉNIC I MPV (JA0/1_, FA0_) 1.8 16V (JA12, JA1R, JA1M, JA1A)
RENAULT  SCÉNIC I MPV (JA0/1_, FA0_) 2.0 16V
RENAULT  THALIA I (LB_) 1.4
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After-sales Service: Online Technical Support
Warranty: One Year
Car Make: DACIA
Car Model: DUSTER (HS_) 1.6 16V
MOQ: 100 PCS
Sample: Available
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

drive belt tensioner

Are there specific considerations for choosing drive belt tensioners in applications with varying loads or environmental conditions?

Yes, there are specific considerations that need to be taken into account when choosing drive belt tensioners for applications with varying loads or environmental conditions. The selection of suitable tensioners plays a crucial role in ensuring optimal performance, longevity, and reliability in such conditions. Here’s a detailed explanation of the specific considerations for choosing drive belt tensioners in applications with varying loads or environmental conditions:

  • Load Capacity:
  • In applications with varying loads, it is essential to select tensioners that can accommodate the full range of load fluctuations. The tensioner should have a sufficient load capacity to handle the maximum load that can be exerted on the belt. High-load tensioners with robust components and reinforced structures are typically required to withstand the increased forces. It is crucial to consider the maximum expected load conditions and choose tensioners that can provide the necessary tensioning force without compromising performance or risking tensioner failure.

  • Adjustability:
  • Applications with varying loads often require the ability to adjust the tensioner to accommodate different belt tension requirements. Adjustable tensioners allow for fine-tuning of the tension to suit the specific load conditions. Tensioners with adjustable arms, pulleys, or mounting positions offer flexibility in achieving the desired tension levels. By choosing tensioners with adjustable features, the tension can be optimized for different load conditions, ensuring proper belt operation and minimizing the risk of belt slippage or excessive wear.

  • Dynamic Tension Control:
  • In some applications, the load conditions may change dynamically or frequently. In such cases, tensioners with dynamic tension control mechanisms can be beneficial. These tensioners automatically adjust the tension in response to load fluctuations, ensuring consistent and optimal belt tension during operation. Spring-loaded or automatic tensioners, which utilize built-in springs or other mechanisms to maintain constant tension, are commonly used for dynamic tension control. By employing tensioners with dynamic tension control, the belt can operate reliably and maintain the required tension across varying load conditions.

  • Environmental Compatibility:
  • Environmental conditions can have a significant impact on the performance and longevity of drive belt tensioners. When choosing tensioners for applications with varying environmental conditions, it is crucial to consider factors such as temperature, humidity, dust, chemicals, and exposure to the elements. Tensioners should be selected or designed to withstand the specific environmental challenges. For example, in high-temperature environments, tensioners with heat-resistant materials or coatings may be required. In dusty or chemically aggressive environments, tensioners with protective covers or specialized seals can help prevent contamination and maintain proper functionality.

  • Maintenance and Serviceability:
  • Applications with varying loads or environmental conditions may require regular maintenance or periodic inspections of the tensioners. It is essential to choose tensioners that are designed for easy maintenance and serviceability. Tensioners with accessible mounting points, clear adjustment mechanisms, and replaceable components simplify maintenance tasks. Additionally, tensioners with built-in wear indicators or monitoring systems can provide valuable information about the condition of the tensioner and alert maintenance personnel when service or replacement is necessary.

In summary, when selecting drive belt tensioners for applications with varying loads or environmental conditions, specific considerations should be taken into account. These considerations include load capacity, adjustability, dynamic tension control, environmental compatibility, and maintenance/serviceability. By carefully assessing these factors, suitable tensioners can be chosen to ensure optimal performance, longevity, and reliability in applications with varying loads or challenging environmental conditions.

drive belt tensioner

What are the common signs of improper drive belt tension, and how can tensioners address these issues?

Improper drive belt tension can lead to various issues in the operation of a belt-driven system. Recognizing the signs of improper tension is crucial for timely correction and avoiding potential damage. Drive belt tensioners play a significant role in addressing these issues by ensuring the proper tension of the belt. Here are the common signs of improper drive belt tension and how tensioners can address these issues:

  • Belt Slippage:
  • One of the most noticeable signs of improper belt tension is belt slippage. If the tension is too low, the belt may slip on the pulleys, resulting in reduced power transmission efficiency and a squealing sound. Drive belt tensioners address this issue by applying additional tension to the belt, ensuring it maintains proper contact with the pulleys. By increasing the tension, tensioners prevent belt slippage and allow for efficient power transfer.

  • Belt Noise:
  • Improper belt tension can also lead to excessive noise during belt operation. When the tension is not within the recommended range, the belt may vibrate, causing a whining or squeaking noise. Drive belt tensioners help address this issue by maintaining the correct tension, minimizing vibrations, and reducing belt noise. By ensuring optimal tension, tensioners contribute to quieter and smoother belt operation.

  • Excessive Belt Wear:
  • If the belt tension is too high or too low, it can accelerate belt wear. Over-tensioning can cause increased friction and wear on the belt and pulleys, leading to premature belt failure. Under-tensioning, on the other hand, can result in belt slipping, which also contributes to wear. Drive belt tensioners play a crucial role in addressing this issue by applying the appropriate tension to the belt. By maintaining the optimal tension, tensioners help minimize belt wear, extending the belt’s lifespan and reducing the need for frequent replacements.

  • Accessory Component Failure:
  • Improper belt tension can have a cascading effect on the components driven by the belt, such as alternators, water pumps, or power steering pumps. Insufficient tension can cause these components to operate at suboptimal speeds or even fail to function altogether. Excessive tension, on the other hand, can subject the components to excessive stress, leading to premature wear or failure. Drive belt tensioners help address this issue by maintaining the proper tension, ensuring that the driven components receive the necessary power and operate within their designed parameters. By preventing component failure, tensioners contribute to the overall reliability and performance of the belt-driven system.

  • System Misalignment:
  • Improper belt tension can also cause system misalignment, where the belt deviates from its intended path across the pulleys. Misalignment can lead to uneven belt wear, increased friction, and potential damage to the belt and pulleys. Drive belt tensioners help address this issue by guiding the belt and ensuring proper alignment. Tensioners with idler pulleys or adjustable arms help maintain the correct belt path, minimizing misalignment and its associated problems.

In summary, the common signs of improper drive belt tension include belt slippage, belt noise, excessive belt wear, accessory component failure, and system misalignment. Drive belt tensioners address these issues by applying the proper tension to the belt, preventing slippage, reducing noise, minimizing wear, ensuring the proper operation of accessory components, and maintaining belt alignment. By effectively addressing these signs of improper tension, tensioners contribute to the overall reliability, efficiency, and longevity of belt-driven systems.

drive belt tensioner

Can you explain the importance of proper tensioning for drive belts in various machinery and vehicles?

Proper tensioning of drive belts is of utmost importance in various machinery and vehicles. Maintaining the right level of tension ensures optimal performance, longevity, and reliability of the belt drive system. Here’s a detailed explanation of the importance of proper tensioning for drive belts:

  • Efficient Power Transmission:
  • Proper tensioning is crucial for efficient power transmission in machinery and vehicles. When a drive belt is under-tensioned, it can slip on the pulleys, resulting in power loss and reduced performance. Insufficient tension leads to inadequate friction between the belt and the pulleys, compromising the transfer of power from the driving pulley to the driven pulley. By maintaining the correct tension, drive belts remain properly engaged with the pulleys, ensuring maximum power transfer and efficient operation of the machinery or vehicle.

  • Preventing Belt Slippage:
  • Correct tensioning helps prevent belt slippage, which is a common issue in belt drive systems. Slippage occurs when the belt loses its grip on the pulleys, leading to power loss, decreased efficiency, and potential damage to the belt and pulleys. Proper tension ensures that the belt remains securely in place, creating sufficient friction to prevent slippage even under high loads or sudden changes in speed or torque. By preventing belt slippage, proper tensioning maintains reliable power transmission and protects the integrity of the belt drive system.

  • Reducing Wear and Fatigue:
  • Improper tensioning can cause excessive wear and fatigue on drive belts. If a belt is over-tensioned, it experiences increased stress, leading to accelerated wear and potential premature failure. On the other hand, under-tensioning can cause the belt to flex excessively, leading to fatigue and eventual belt failure. By maintaining the correct tension, drive belts operate within their design limits, minimizing wear and fatigue. Proper tensioning extends the lifespan of the belts, reducing maintenance costs and downtime associated with belt replacements.

  • Optimizing Belt Life and Performance:
  • Proper tensioning plays a vital role in optimizing the life and performance of drive belts. When belts are correctly tensioned, they operate in their intended range, minimizing stress and strain. This optimal operating condition reduces the risk of belt damage, such as cracking, stretching, or delamination. Additionally, proper tensioning ensures that the belts track properly on the pulleys, preventing misalignment and excessive side loads. By optimizing belt life and performance, proper tensioning contributes to increased reliability, reduced maintenance, and improved overall efficiency of machinery and vehicles.

  • Adapting to Load Variations:
  • Drive belts in machinery and vehicles often experience load variations during operation. Proper tensioning allows the belts to adapt to these load changes effectively. When the load increases, the tensioner compensates by applying additional tension to prevent slippage. Conversely, when the load decreases, the tensioner releases some tension to avoid excessive stress on the belt and pulleys. This adaptability ensures that the belts maintain the optimal tension regardless of the varying load conditions, allowing for consistent power transmission and reliable performance.

  • Enhancing System Reliability:
  • The proper tensioning of drive belts enhances the overall reliability of machinery and vehicles. By maintaining optimal tension, belts operate within their designed parameters, reducing the risk of unexpected belt failure and associated downtime. Reliable power transmission ensures that machinery operates as intended, minimizing the chances of equipment damage, production delays, and costly repairs. The use of proper tensioning techniques adds a layer of control and stability to the belt drive system, enhancing its overall reliability and ensuring smooth operation.

In summary, proper tensioning of drive belts is essential for efficient power transmission, preventing belt slippage, reducing wear and fatigue, optimizing belt life and performance, adapting to load variations, and enhancing system reliability in various machinery and vehicles. By maintaining the correct tension, drive belts operate effectively, ensuring reliable performance, extended lifespan, and minimized downtime.

China Best Sales OEM 507868  7700102872 1192500QAL Accessory Drive Assembly Car Part Belt Tensioner For DACIA DUSTER(HS) 1.6 16V   car axleChina Best Sales OEM 507868  7700102872 1192500QAL Accessory Drive Assembly Car Part Belt Tensioner For DACIA DUSTER(HS) 1.6 16V   car axle
editor by CX 2023-11-13

China supplier China Hot Sell Auto Car Parts 1766642 /DC1q 6A228 AA /Bk3q 6A228 Bh CZPT Belt Tensioner Pulley for CZPT Transit with Best Sales

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China supplier China Hot Sell Auto Car Parts 1766642 /DC1q 6A228 AA /Bk3q 6A228 Bh CZPT Belt Tensioner Pulley for CZPT Transit with Best Sales

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Product Name  INA Belt Tensioner Pulley Brand FOMOCO
Car Model FORD TRANSIT  Application  Engine parts
OEM 1766642 /DC1Q 6A228 AA /BK3Q 6A228 BH Quality Original
Product Name  INA Belt Tensioner Pulley Brand FOMOCO
Car Model FORD TRANSIT  Application  Engine parts
OEM 1766642 /DC1Q 6A228 AA /BK3Q 6A228 BH Quality Original

How to Choose the Right Air Compressor

An air compressor uses pressurized air to power a variety of tools. They are most commonly used to power nailers and impact wrenches. Other popular uses for air compressors include paint sprayers and impact wrenches. While all air compressors have the same basic construction, their specialty differs. Ultimately, their differences come down to the amount of air they can push. Read on for information on each type of air compressor. These tools are great for many different purposes, and choosing the right air compressor depends on your specific needs.
air-compressor

Electric motor

While purchasing an electric motor for air compressor, compatibility is a key factor. Not all motors work with the same type of air compressor, so it’s important to check the manufacturer’s instructions before purchasing. By doing this, you can avoid wasting money on an incompatible motor. Another important consideration is speed. A motor’s speed is its rate of rotation, measured in revolutions per minute. It is critical that you purchase a motor with sufficient speed to meet the needs of your air compressor.
Typically, an electric motor for air compressor is 1.5 hp. It is ideal for use with medical equipment and metal-cutting machines. It also performs well under continuous operation and offers a high efficiency and energy-saving performance. Moreover, it features an attractive price, making it a good choice for a wide range of applications. If you are looking for a motor for an air compressor, look no further than a ZYS series.
A motor’s protection class indicates how the motor will operate. Protection classes are specified by the IEC 60034-5. These are stated with two digits and represent the protection against solid objects and water. For example, an IP23 rating means that the motor will be protected from solid objects, while IP54 means that it will protect from dust and water sprayed from all directions. It is vital to choose a motor with the correct protection class for your air compressor.
When choosing an electric motor, you should consider whether it’s compatible with the brand of air compressor. Some may be compatible, while others may require advanced electronics skills to repair. However, most air compressors are covered by warranty, so it’s important to check with the manufacturer if the warranty is still in effect before you spend a dime on a replacement. The motor should be replaced if it has failed to perform as designed.
air-compressor

Oil bath

Air compressors require proper lubrication to function efficiently. The piston must draw air with minimal friction. Depending on their design, air compressors can either be oil-lubricated or oil-free. The former uses oil to reduce piston friction, while the latter splashes it on the cylinder bearings and walls. Such air compressors are commonly known as oil-flooded air compressors. In order to keep their oil baths clean, they are recommended for use in locations with high dust levels.

Start/stop control

An air compressor can be controlled by a start/stop control. This type of control sends a signal to the main motor that activates the compressor when the demand for air falls below a preset limit. This control strategy is effective for smaller air compressors and can be useful for reducing energy costs. Start/stop control is most effective in applications where air pressure does not change frequently and where the compressor is not required to run continuously.
To troubleshoot this problem, you need to check the power supply of your compressor. To check the supply side, use a voltage monitor to determine if power is flowing to the compressor. Ensure that the power supply to the compressor is steady and stable at all times. If it fluctuates, the compressor may not start or stop as expected. If you cannot find the problem with the air compressor power supply, it may be time to replace it.
In addition to the start/stop control, you may want to purchase additional air receivers for your air compressor. These can increase the capacity of air stored and reduce the number of times it starts and stops. Another way to decrease the number of starts per hour is to add more air receivers. Then, you can adjust the control to match your requirements. You can also install a pressure gauge that monitors the compressor’s performance.
Start/stop control for air compressors can be complex, but the basic components are relatively easy to understand. One way to test them is to turn the compressor on or off. It is usually located on the exterior of the motor. If you’re unsure of the location of these components, check the capacitors and make sure that the air compressor is not running while you’re not using it. If it does, try to remove the capacitor.
Variable displacement control is another way to adjust the amount of air flowing into the compressor. By controlling the amount of air, the control can delay the use of additional compressors until more required air is available. In addition to this, the device can also monitor the energy used in the compressor. This control method can result in substantial energy savings. You can even save on the amount of electricity by using variable displacement control. It is essential for efficient compressed air systems.
air-compressor

Variable speed drive

A VFD, or variable frequency drive, is a type of electric motor that adjusts its speed to match the demand for air. It is an efficient way to reduce energy costs and improve system reliability. In fact, studies have shown that a 20% reduction in motor speed can save up to 50% of energy. In addition, a VFD can monitor additional variables such as compressor oil pressure and motor temperature. By eliminating manual checks, a VFD will improve the performance of the application and reduce operating costs.
In addition to reducing energy costs, variable-speed drives also increase productivity. A variable-speed air compressor reduces the risk of system leaks by 30 percent. It also reduces the risk of system leaks by reducing pressure in the system. Because of these advantages, many governments are promoting this technology in their industries. Many even offer incentives to help companies upgrade to variable-speed drives. Therefore, the variable-speed drive can benefit many air compressor installations.
One major benefit of a variable-speed drive is its ability to optimize energy use. Variable frequency drives are able to ramp up and down to match the demand for air. The goal is to optimize the pressure and flow in the system so that the best “dead band” occurs between forty percent and eighty percent of full load. A variable-speed compressor will also increase energy efficiency because of its programmability.
A variable-speed air compressor can also be used to control the amount of air that is compressed by the system. This feature adjusts the frequency of power supplied to the motor based on the demand. If the demand for air is low, the frequency of the motor will reduce to save energy. On the other hand, if there is an excess demand for air, the variable-speed compressor will increase its speed. In addition, this type of air compressor is more efficient than its fixed-speed counterpart.
A VFD has many benefits for compressed air systems. First, it helps stabilize the pressure in the pipe network, thereby reducing the power losses due to upstream pressure. It also helps reduce the power consumption caused by fluctuations in upward pressure. Its benefits are also far-reaching. And as long as the air pressure and air supply is properly sized, a VFD will help optimize the efficiency of compressed air systems.

China Standard Auto Timing Belt OEM 1145A042 Tensioner Pulley for Car wholesaler

Product Description

Auto Timing Belt OEM 1145A042 Tensioner Pulley for Car 
Product Specification:

Parts OEM No.:  1145A042
Apply To:

For car

Brand: FENGMING OR OEM
Condition: Brand New
Stock Availability: Yes
Minimum Order QTY 10PCS
OEM Order Acceptability: Yes
Small order Lead Time: 3-7 days
Large Order Lead Time: 15-30 days
Quality Warranty 12 months
PACKAGING As original or as customer’s request, FENG MING PACKING
Payment Methods: Paypal, Western Union, Bank T/T, L/C
Shipment Methods: DHL, UPS, TNT, FedEx, Aramex, EMS, Air Cargo, Sea Cargo




 

Choosing a V-Belt

When choosing a v-belt, you should understand the characteristics of each type and how they affect the performance of your machine. Listed below are the characteristics of Cogged, Narrow profile, and wide v-belts. Learn about the advantages and disadvantages of each. Choose the right v-belt for your machine to maximize its performance. Learn about the different materials used to make v-belts and how they influence the performance of your machine.
belt

Narrow v-belts

While the flat belts are the most common type of v-belt, narrow v-belts are also a common option for industrial applications. These belts are similar to wedge belts in that they transmit heavier loads, but in a smaller form. Narrow v-belts are typically designated as 3V, 5V, and 8V and are denoted by their top width, multiplied by an eighth of an inch. Narrow v-belt sections conform to a wedge belt profile and are usually standardized by manufacturers. For example, section 3V corresponds to a wedge-type profile, while section 5V corresponds to SPB.
Both narrow and conventional v-belts are made of rubber stocks, which are generally composed of polymer or synthetic rubber. Fabric materials may be used to cover the stock material, adding a layer of reinforcement and protection. Narrow v-belts have a higher power rating than traditional V-belts. This is due to their greater depth-to-width ratio, which puts more of the reinforcing cord beneath the sheave.
The Wedge TLP ™ Narrow V-belt from Continental features a homogeneous one-piece design for maximum strength and long-term performance. These belts feature a high-denier cord and can handle significant horsepower increases. These belts are ideal for industrial applications. However, they are not as durable as their wider counterparts. The Wedge TLP is also an excellent choice for heavy-duty industrial applications.

Cogged v-belts

A key benefit of cogged v-belts is their ability to increase power output without sacrificing reliability. These belts are designed with precision-engineered cogs, which allow them to fit into smaller pulleys without reducing power output. Their raw-edge sidewalls and specially formulated EPDM rubber compound also help provide grip power. Cogged v-belts are manufactured by Carlisle(r) and offer several advantages over conventional belts.
The performance benefits of Cogged V-Belts are widely acknowledged. The company uses added-strength EPDM compounds in their belts to help reduce downtime and energy consumption. They are ideal for demanding applications such as power transmission. These belts are available in a variety of sizes and cross-sections. The section number of Cogged v-belts is H3V, H4V, and H5V.
The main difference between cogged v-belts and wedge belts is in the contact angle. While wedge and cogged v-belts have the same contact angle, the design and construction differs. Cogged v-belts typically include top and bottom layers of rubber, dampening rubber, tension cords, and top and bottom metal rings. Polychloroprene and polyester cords are common materials for the top and bottom layers, while aramid fibers are used for punishing applications.
Cogged v-belts are more flexible than traditional v-belts. Because of the slots on the belt surface, they reduce bending resistance. They are compatible with the same pulleys as standard v-belts, and run cooler and longer. They are also more efficient than standard V-belts. If you are considering a cogged V-belt for your application, it may be worth it to investigate the benefits of this belt type.
belt

Wide v-belts

Variable-speed v-belts are wider in cross section than classical v-belts. The design of variable-speed v-belts varies depending on the manufacturer, but generally features a parallel top and bottom surface. This type of v-belt wedges tightly into its pulley’s grooves, reducing power loss and slippage. This type of v-belt is best suited to applications where speed changes frequently.
High-performance Wide V-belts feature a fibre-reinforced EPDM rubber base. The resulting supercharged EPDM mix is better suited for applications where the belts are subject to higher temperatures. This type of drive belt can also replace existing drives with ease and efficiency. CZPT offers a wide range of drive belts for all applications. For applications where slack is an issue, wrapped V-belts are a smart choice.
Narrow-V-belts, on the other hand, have a more favorable height-to-width ratio. This means that a narrow-V belt can be smaller while still providing the same power transmission. These belts also have a lower mass, which reduces centrifugal forces and enables higher speeds. However, narrow-V-belts are prone to wear, but are still a popular choice in many applications.
In addition to being more durable, wrapped-V-belts have fabric-coated edges for better heat resistance. The material covering wrapped-V-belts also protects them from damage from friction and external contaminants. Unlike their rigid counterparts, these wide-V-belts have an improved lifespan and require less maintenance and downtime. These are excellent alternatives to conventional v-belts. So, what are the benefits of Wide-V-belts?

Narrow profile v-belts

When it comes to choosing the best V-belt for your needs, it is important to understand the differences between narrow profile and classical. Narrow profile V-belts are generally narrower in cross-section than classical v-belts. This makes them ideal for high-speed compact drives and light-duty applications. The following section details the differences between narrow and classical v-belts.
The tensile cords, or “cords,” are embedded into the rubber compound. These cords are the main power-transmitting component of a narrow profile v-belt. The tension cords are located at the pitch diameter of the belt cross-section and increase the tensile strength. They are typically made of steel, aramid fibers, or polyester. The core is usually made of polyurethane, but other materials can be used.
When measuring the v-belt’s width, it is important to understand the various sign-codes. Some v-belts have the wrong sign-coding schema. For example, a classical profile belt should be read as Lw = 3522 mm, while a narrow profile belt should be read as La=3553mm. A narrow profile v-belt has a steeper side-wall, which increases the wedging action. Moreover, the narrow profile v-belt has higher load capacity.
Despite their name, narrow profile v-belts are the most widely used and versatile type of v-belts. They are also the easiest to install. Their general size is similar to that of a wedge, and their number is derived from their numerical prefix. A narrow profile v-belt with a 3L300 part number is 3/8″ wide and 300.0 inches long.

Wide profile v-belts

Wide profile v-belts are designed for heavy-duty applications where extreme performance is required. They are ideal for such applications due to their high-flexural strength and shock-resistance. They also come with many benefits, including good noise-reduction, increased sturdiness, and easy maintenance. This article explores the features of wide profile v-belts and how they can benefit your business.
Classical v-belts have an internal dimensional metric marking called the “CZPT.” This identifies each specific belt. Generally, this number is a combination of the normal profile size designation letter and the internal length in inches. The inside length of the v-belt is indicated on the index of the v-belt. To begin installing the v-belt, mark the floor where it will be hung. Tape the end stop marker to the first stick.
Narrow v-belts are narrower than standard wide v-belts. They are also available in raw-edge cogged profiles and are intended for light-duty applications. Narrow V-belts are also available in 4 sizes. Compared to standard wide profile v-belts, narrow v-belts are most appropriate for high-speed, compact drives. However, wide profile v-belts are generally longer than narrow V-belts.
A v-belt is composed of different types of rubber and reinforcements. It undergoes tensile and compressive stresses on both sides. The top side of a v-belt experiences longitudinal tensile force, while the bottom side is subjected to compression against a pulley. Moreover, the included angle of a v-belt section is 40 deg. Various types of v-belts are available according to their cross-sections and performance specifications.
belt

Standard v-belts

If you are installing v-belts, you must know the right way to measure them. Many v-belts are mislabelled as classic or SPA. If you are unsure of which 1 to choose, you can refer to the standard v-belts index. The basic way to measure v-belts is by using a measuring tape or a cable tie. Using the right technique will ensure you get the right length.
A well-engineered V-belt is made from an elastomer core, which is a material that is resistant to abrasion. The elastomer core is usually composed of polyurethane, which has excellent flexural strength and shock resistance. In addition to the elastomer core, a fabric cover protects the core from wear and environmental forces. Its fabric cover is treated to form a chemical bond with the belt core, which increases the fabric’s resistance to constant bending.
The cross-section of a standard V-belt is commonly described as a trapezium, with its top and bottom sides parallel. Knowing the cross-section of a standard V-belt is essential in matching it with a pulley. It is also important to know how the v-belt is positioned on a pulley and how to select the right belt for the job.

China Standard Auto Timing Belt OEM 1145A042 Tensioner Pulley for Car     wholesaler China Standard Auto Timing Belt OEM 1145A042 Tensioner Pulley for Car     wholesaler

China supplier Japanese Car Timing Belt Tensioner Pulley 13503-54030 Idler for CZPT with Hot selling

Product Description

Japanese Car Timing Belt Tensioner Pulley 13503-54030 Idler for Toyota

 

Product Specification:

OEM 13503-54030
Apply To:

For Toyota 

Brand: FENGMING
Condition: Brand New
Stock Availability: Yes
Minimum Order QTY 10PCS
OEM Order Acceptability: Yes
Small order Lead Time: 3-7 days
Large Order Lead Time: 15-30 days
Quality Warranty Half year
PACKAGING As neutral or as customer’s request, FENG MING PACKING
Payment Methods: Paypal, Western Union, Bank T/T, L/C
Shipment Methods: DHL, UPS, TNT, FedEx, Aramex, EMS, Air Cargo, Sea Cargo

Company Introduction

What Is a V-Belt?

A v-belt is a type of belt that provides a continuous motion to the vehicle’s wheels. This type of belt is made of several different components. They usually have a trapezium-shaped cross-section because of its elastomer core. Elastomers are often made of polyurethane or a synthetic rubber with good shock resistance. Sometimes, a v-belt will have 2 sections – cushion rubber and compression rubber.
belt

Link-type V-belt

A laminated link-type V-belt is 1 embodiment of the present invention. The belt comprises individual lamina sections connected longitudinally by studs and tubes, each of which has at least 1 connecting means. The slots in the links allow for a full share of the load to be transferred through the belt, and they also reduce substantially all internal mechanical stresses. The belt is preferably designed to extend substantially the entire width of the machine being driven.
Conventional link-type V-belts are installed between 2 pulleys on the tight side of the V-drive. A wide end of a link moves in the direction of rotation, while the stud of a second, smaller link pulls the nose end of the third link forward. The shank of the stud pivots on a solid fabric located in hole 2 of the third link below. The bottom link, however, curls over the stud and the belt is assembled.
The present invention offers an improved method of forming a link-type V-belt. The belt is manufactured using links and does not have to be fitted as tightly as conventional link-type V-belts. This belt is flexible and strong enough to handle normal tension loads in a well-designed drive. In addition, the belts made using the present invention will have a longer life, thereby extending the drive’s load-carrying capacity.

Classical V-belt

A classical trapezoidal belt profile makes the VB Classical V-belt ideal for various industrial applications. Available in small sizes from 5mm to 3mm, these belts are available with cogged or raw edges. Their highly engineered construction makes them ideal for a variety of uses. These belts are commonly used in motors, compressors, milling machines, mixers, and other mechanical devices. To determine the right belt for your application, consider the following factors.
The classic v-belt is the most common and economically-priced type of v-belt. They are manufactured using special formulated rubber reinforced with polyester cords. These belts can span from 16 inches to 400 inches in length. The classic V-belt is also very easy to replace. The belt’s outer diameter and pitch can be measured. The length is typically standardized by the Association for Rubber Product Manufacturers.
Typically, classical V-belts are used in single-belt drives. Because they don’t require lubrication or maintenance, these belts are often available in sizes A and B. However, larger belt sizes are rarely used for single-belt drives. In such cases, multiple A or B belts are an economical alternative to single-belt C. In addition, narrower-profile V-belts provide higher power ratings than conventional V-belts because of their higher depth-to-width ratio. These belts are ideal for heavy-duty applications.
belt

Narrow V-belt

The narrow v-belt is the same as a conventional v-belt, but it has a smaller top and bottom width. This makes it suitable for higher horsepower applications, and it is used in high-end sports cars. Narrow v-belts are generally characterized by a letter “v” on the top side and a length of outside dimensions of 1.6:1.
The steel wires that comprise the core of the v-belt are endless and are free of joints. This provides the strength required for torque transmission. A base rubber compound is placed around the steel wire and acts as a medium of compression and shock absorption during power transmission. A plastic layer acts as a protective cover, and provides the rubber with a degree of temperature tolerance. While choosing a narrow v-belt, it is important to keep in mind that there are some disadvantages to a narrow V-belt.
For example, a narrow V-belt is suitable for high-power applications, and may be used in a small assembly space. Its narrow profile also allows it to be space-saving in layout and allows high-speed drives without additional belts. Furthermore, it reduces operating and maintenance costs. It is ideal for applications where space is limited, and a high torque is required. The benefits of a narrow V-belt are plentiful.

Banded belt

Identifying a banded v-belt can be tricky, but there are a few signs that can indicate a possible problem. Cracked belts can be difficult to spot, but they can be an early indicator of a more serious problem. Look for cracked underside edges, worn covers, and misplaced slack. If 1 or more of these factors applies to your belt, you may want to seek a replacement.
Banded v-belts are made with an elastomer core. The main component of this belt is the elastomer, which is used for the band’s flexural strength and shock resistance. It’s sometimes separated into 2 sections, with each section connected to the other by a tension cord. This gives the belt its trapezium cross-section, which increases tensile strength.
The 2 main types of banded v-belts are wrapped or raw edge. Wrapped v-belts have a fiber-covered body while raw edge belts are uncovered. Banded v-belts are often classified by their cross-section, and include: standard v-belt, wedge v-belt, narrow versus double v-belt, cogged v-belt, and double t-belt.
Banded v-belts are popular with commercial applications. Whether you’re looking for a 2V-belt or a large 8V-belt, V-Belt Guys has what you need. We also stock a wide variety of different banded v-belts and can help you find 1 that fits your needs and budget. Take a look at our selection today!

Traditional V-belt

Although a traditional V-belt may be a glorified rubber band, modern variations reflect advances in engineering. Proper installation and maintenance are essential for trouble-free service. When you are replacing a traditional V-belt, be sure to follow these simple steps to ensure its longevity. Read on to learn more. Listed below are the features of each type of V-belt. Identify the type of belt you need by measuring its top width, circumference, and dimensions.
TEC Traditional V-belts have an exceptionally low slip rate and are resistant to high operating temperatures. These types of belts do not experience early belt aging. They are also highly resistant to poor operating conditions. However, the maintenance is more extensive than other types of belts. A typical V-belt part number is B50, which is the cross-section size of a 50-inch belt. The belt’s lifespan is greatly increased because of this feature.
A ribbed V-belt is another option. It has a deeper V than a traditional V-belt. The ribs in this type are narrower and more flexible. These ribs are smaller than the classic V-belt, but they can transmit 3 times as much horsepower. Because they are thinner, these belts are more flexible than traditional V-belts. The thickness of the ribs is less critical.
belt

Metric V-belt

Metric V-belts are made to a more precise standard than their American counterparts. These belts are manufactured to meet ARPM tolerances, making them suitable for industrial, machine, and food processing applications. This metric system is also more convenient than converting between the 2 units. Listed below are the most common uses for a Metric V-belt. If you’re in the market for a new belt, consider ordering a metric one.Metric V-belts are made to a more precise standard than their American counterparts. These belts are manufactured to meet ARPM tolerances, making them suitable for industrial, machine, and food processing applications. This metric system is also more convenient than converting between the 2 units. Listed below are the most common uses for a Metric V-belt. If you’re in the market for a new belt, consider ordering a metric one.
Metric V-belts are generally more durable than their equivalents made of standard American-sized belts. Metric V-belts are available in many different sizes to fit different machineries. In addition to offering superior load-carrying capacity, Metric Power(tm) V-belts are known for their exceptional flex and stretch characteristics. For optimum performance in textile mills, food processing, and machine tool applications, Metric Power(tm) V-belts are manufactured using a proprietary construction that combines a higher load-carrying capacity with superior flex and stretch.
Metric belts can generate 50% to 100% more horsepower than conventional and classic sectioned belts. This is achieved through improved construction and placement of the cord line. These belts also have unique wedge designs that help them support the cord in motion. However, you must ensure the proper tension when buying a Metric V-belt, because improper tension may damage the belt. They are compatible with both U.S. and international standards.

China supplier Japanese Car Timing Belt Tensioner Pulley 13503-54030 Idler for CZPT     with Hot sellingChina supplier Japanese Car Timing Belt Tensioner Pulley 13503-54030 Idler for CZPT     with Hot selling

China Hot selling Car Timing Belt Tensioner Pulley OEM 16620-0y010 for Yaris Vios near me supplier

Product Description

Car Timing Belt Tensioner Pulley OEM 16620-0Y571 for Yaris Vios

 

Product Specification:

OEM No: 16620-0Y571
Apply To:

For car

Brand: FENGMING
Condition: Brand New
Stock Availability: Yes
Minimum Order QTY 1PC
OEM Order Acceptability: Yes
Small order Lead Time: 3-7 days
Large Order Lead Time: 15-30 days
Quality Warranty 12 months
PACKAGING As neutral or as customer’s request, FENG MING PACKING
Payment Methods: Paypal, Western Union, Bank T/T, L/C
Shipment Methods: DHL, UPS, TNT, FedEx, Aramex, EMS, Air Cargo, Sea Cargo


Company Introduction

The Advantages and Disadvantages of Neoprene Timing Belts

The timing belt is an important component of an automobile engine. Made of special materials, this belt coordinates the rotational motion of the crankshaft with the camshaft. The coordinated precision is essential for sustainable combustion, and ensures that the valves in the combustion chamber open at the right times. Timing belts determine the engine’s pace, so it is essential that they perform at high synchronicity and strong enough to operate in extreme conditions.
belt

Fabric timing belt

A timing belt is made of a yarn that has been crimped and woven into a mating surface, called the engagement surface. This yarn, known as the warp, must be able to stretch from a substantially flat state along irregularities in the mold. It must be flexible enough to stretch by several tens of percent under low load conditions. The warp yarn of a timing belt is made of synthetic fiber and is crimped into the right shape to be stretched easily.
This fabric can be used without thickening the base cloth. It can contain a large number of warp threads, and its wear resistance can be enhanced over time. The timing belt of the present invention does not crack or wear out after a long time of use. The base cloth does not wear out, which allows the timing belt to last for a long time. This makes it an extremely durable material. To learn more, read on.
The teeth of a timing belt are made of tough rubber and a nylon fabric facing. The fabric is coated with a plastic compound that gives it its shape and covers the cord. The materials used to make these belts vary, but all are strong and durable. They are also suitable for high-load applications. In addition to nylon timing belts, strongbelt premiums are also available. In addition to nylon and neoprene timing belts, they are also compatible with RPP and HTD pulleys.
The teeth of timing belts are made of high-strength polychloroprene elastomer. The teeth are made of a special manufacturing process that ensures good adhesion. The facing fabric is made of low-elongation glass cord and is covered by a polyamide fabric that has a low coefficient of friction. If you need an exact fit, you can buy a high-quality belt from TransDev.

Neoprene timing belt

When it comes to dependable drive belts, neoprene is hard to beat. It’s widely used in insulated clothing and weather stripping, and has been a key component in the development of timing belts since the late 1970s. And because it’s so hardy, neoprene timing belts are incredibly reliable. Here are a few reasons why. Neoprene is the most durable synthetic material for timing belts, and these 3 reasons should not discourage you from purchasing a new neoprene timing belt.
Neoprene timing belts are made of a high-quality chloroprene compound with a hardness of 74 Shore A. The high-strength glass fiber strands in the belt’s body transmit high power while enhancing its flexural strength. In addition, it’s covered with a high-strength polyamide fabric to reduce friction and protect contact surfaces from wear and tear.
Unlike neoprene, polyurethane synchronous belts are resistant to temperature and abrasion. Polyurethane timing belts are resistant to acids and chlorides, and exhibit excellent abrasion resistance. A neoprene belt can be used in high-speed applications, and can withstand extreme temperatures. However, the resistance of polyurethane to abrasion is not as good as that of neoprene.
The 2 most common types of timing belts are rubber and urethane. Rubber is the least expensive and quietest, and is the least flexible of the two. Neoprene is also highly elastic and does not retain its shape when it’s stretched, making it a popular choice for applications in manufacturing, agriculture, and robotics. They are also great for applications where precision and motion control are important. These properties make timing belts extremely effective in leading the industry toward its goals.
belt

Chain timing belt

Traditionally, a vehicle’s timing system consists of a timing belt or chain. These components keep the engine’s intake and exhaust valves in the proper order. When these components go bad, it can ruin the engine in seconds. But there are advantages and disadvantages to each of them. Read on to learn about the pros and cons of each type of timing system. Here are some examples. Chain: A timing belt is generally made of reinforced rubber.
Chain: A timing chain is generally found in heavy-duty vehicles with higher torque. This type of timing belt is also found on many cars and SUVs with 4 cylinder engines that do not require a lot of torque. Unlike timing belts, timing chains are more durable and will last longer than their rubber counterparts. But there are certain things to keep in mind when replacing a timing belt. Make sure to change the oil regularly to avoid premature wear.
Chain: A chain is easier to maintain than a timing belt. It does not change length in response to temperature. And it requires a smaller tensioner. However, this also means that the timing belt is more prone to breaking. It can jump out of place if oil is flowing along it, causing an engine malfunction. If this happens, you’ll have to replace the entire timing belt and the engine will not work correctly. That’s why replacing a chain is so important.
A timing belt is a critical part of an engine. A failed timing belt can cause catastrophic engine damage. It can slip and break, colliding with the piston and valves. Fortunately, there are a variety of ways to check your timing belt. But a good rule of thumb is to replace it as soon as possible. You’ll also need to remove the front engine cover and any other components that may be in the way. In some cases, the engine might even have to be moved.

Trapezoid shaped teeth

In terms of tooth profile, there are 2 main types of timing belts: the curvilinear and trapezoidal types. Curvilinear timing belts are more rounded and less likely to result in excessive tension loss. These types of timing belts are also more prone to backlash and reduce accuracy. Here’s how they differ from each other. These 2 types of belts share similarities but differ in important ways.
Older timing belts generally have trapezoidal-shaped teeth, but newer types use curved teeth. Curved teeth are less prone to wear out quickly and last longer than straight ones. The trapezoidal teeth also tend to wear out more quickly at higher speeds. As a result, they’re only suitable for cars that get very little use. If you’re planning on using your timing belt frequently, you may want to choose a new 1 with curved teeth.
Curvilinear teeth are designed to alleviate the stress concentrations caused by trapezoidal tooth profiles. They also have a greater depth and reduce ratcheting. In addition to their efficiency, curvilinear timing belts are quieter than their trapezoidal counterparts. And they’re a little bit more expensive than their trapezoidal counterparts. So, what’s the difference between these 2 types of teeth?
Timing belts have a tendency to favor the tracking of an “S”-shaped twist. As a result, a trapezoid-shaped timing belt is more likely to keep the engine in sync. A good quality timing belt will help you achieve this. If you don’t, consider replacing your timing belt with a metric-styled one. That way, you’ll get the best performance out of your belt.
belt

Other types of timing belts

Timing belts are essential for operating your vehicle’s engine. These belts connect the engine’s crankshaft and camshaft. The belts synchronize the timing of the engine’s valves and pistons to prevent damage. Previously, the belt was referred to as the “gilmer drive belt.”
There are 3 basic designs for timing belts. Some are shaped like a trapezoid, while others have a curvy tooth shape. Timing belts with this tooth design are generally more efficient for force transmission, although they suffer from backlash. These teeth also wear quickly at high speeds, which can make them prone to noise. In order to solve these issues, manufacturers now offer belts with curved teeth.
Another popular type is polyurethane. These are resistant to oil and high temperatures, and are energy-efficient solutions. Polyurethane timing belts offer increased elasticity and load capacity, which are important for optimal torque production. These belts are favored by a variety of industries because of their ease of cleaning and maintenance. They can be used for power transmission systems, as well as in roller conveyor systems. However, fabric timing belts are best used when acceleration forces are high.
Other types of timing belts are not always as durable. V-Belts have teeth-like structures on their surfaces and work under constant speed. They are typically a lighter option, but have similar disadvantages. They are more expensive than chains and lack the flexibility of customizing. Unlike chains, timing belts are sold in predetermined length loops. Their pitch is easily identified. It is a key indicator of whether or not they are suitable for a specific application.

China Hot selling Car Timing Belt Tensioner Pulley OEM 16620-0y010 for Yaris Vios     near me supplier China Hot selling Car Timing Belt Tensioner Pulley OEM 16620-0y010 for Yaris Vios     near me supplier

China supplier China Manufacturer Auto Parts Car Accessories Belt Drive Tensioner CZPT Pulley Idler Pulley OEM 4410595 4506194 9198527 93160256 for Opel Vivaro A Box with Best Sales

Product Description

Product Description

China Manufacturer Auto Parts Car Accessories Belt Drive Tensioner Xihu (West Lake) Dis. Pulley Idler Pulley OEM 441571 4506194 9198527 93165716 for Opel Vivaro A Box

Water Pump for DACIA
Water Pump for RORD
Water Pump for MITSUBISHI
Water Pump for NISSAN
Water Pump for OPEL
Water Pump for RENAULT
Water Pump for VOLVO

All kinds of car water pumps can be produced for you. Welcome to your inquiry.

 

MIC NO.  REF&OEM NO  APPLICATION  YEAR  PHOTO
TB34RE9602 701151
FORD : 5132507
FORD : 9G9Q6C344AB
GENERAL MOTORS : 9198527
GENERAL MOTORS : 93165716
MITSUBISHI : M883834
NISSAN : 11925QAF
NISSAN : 11927
OPEL : 4506194
OPEL : 9198527
OPEL : 93165716
RENAULT : 775712931
RENAULT : 775714092
RENAULT : 825714754
SUZUKI : 1752284AA80
SUZUKI : 4917084A8
VAUXHALL : 93165716
VOLVO : 3 0571 834
VOLVO : 31359864
DACIA  DUSTER (HS_) 1.6 16V
DACIA  LOGAN (LS_) 1.4 (LSOA, LSOC, LSOE, LSOG)
DACIA  LOGAN (LS_) 1.6 (LSOB, LSOD, LSOF, LSOH)
DACIA  LOGAN EXPRESS (FS_) 1.4
DACIA  LOGAN EXPRESS (FS_) 1.6
DACIA  LOGAN MCV (KS_) 1.4
DACIA  LOGAN MCV (KS_) 1.6
DACIA  LOGAN Pickup (US_) 1.4
DACIA  LOGAN Pickup (US_) 1.6
DACIA  SANDERO 1.4
DACIA  SANDERO 1.6
DACIA  SOLENZA (B41_) 1.4 (B41A, B41B, B41C)
FORD  GALAXY (WA6) 2.0 EcoBoost
FORD  MONDEO IV (BA7) 2.0 EcoBoost
FORD  S-MAX (WA6) 2.0 EcoBoost
MITSUBISHI  CARISMA (DA_) 1.9 DI-D
MITSUBISHI  CARISMA Saloon (DA_) 1.9 DI-D
MITSUBISHI  SPACE STAR MPV (DG_A) 1.9 DI-D (DG4A)
NISSAN  INTERSTAR Box (X70) dCi 80
NISSAN  INTERSTAR Bus (X70) dCi 80
NISSAN  KUBISTAR Box (X76) 1.6 16V
NISSAN  PRIMASTAR Bus (X83) 2.0
NISSAN  PRIMASTAR Bus (X83) dCi 80
OPEL  MOVANO Box (X70) 1.9 DTI (FD)
OPEL  VIVARO A Box (X83) 1.9 DI (F7)
OPEL  VIVARO A Box (X83) 2.0 16V (F7)
OPEL  VIVARO A Combi (X83) 1.9 DI (F7, J7, A07)
OPEL  VIVARO A Combi (X83) 1.9 DTI (F7, J7, A07)
OPEL  VIVARO A Combi (X83) 2.0 16V (F7, J7, A07)
RENAULT  CLIO II (BB_, CB_) 1.4 16V (B/CB0L)
RENAULT  CLIO II (BB_, CB_) 1.6 16V (BB01, BB1R, BB2KL, BB3G…
RENAULT  ESPACE III (JE0_) 2.0
RENAULT  KANGOO (KC0/1_) 1.4 (KC0C, KC0H, KC0B, KC0M)
RENAULT  KANGOO (KC0/1_) 1.6 16V
RENAULT  KANGOO / GRAND KANGOO (KW0/1_) 1.6 
RENAULT  KANGOO Express (FC0/1_) 1.4 (FC0C, FC0B, FC0H, FC0M)
RENAULT  KANGOO Express (FC0/1_) 1.6 16V
RENAULT  LAGUNA I (B56_, 556_) 1.6 16V (B568, B561)
RENAULT  LAGUNA I (B56_, 556_) 1.8 16V (B563, B564)
RENAULT  LAGUNA I (B56_, 556_) 2.0 (556A)
RENAULT  LAGUNA I Grandtour (K56_) 1.6 16V (K568)
RENAULT  LAGUNA I Grandtour (K56_) 1.8 16V (K563, K564)
RENAULT  LAGUNA I Grandtour (K56_) 2.0 16V (A56A/B)
RENAULT  LAGUNA II (BG0/1_) 1.6 16V (BG0A, BG0L)
RENAULT  LAGUNA II (BG0/1_) 1.9 dCi
RENAULT  LAGUNA II Grandtour (KG0/1_) 1.6 16V
RENAULT  LAGUNA II Grandtour (KG0/1_) 1.9 dCi
RENAULT  LAGUNA III (BT0/1) 1.6 16V (BT04, BT0D, BT0U)
RENAULT  LAGUNA III Grandtour (KT0/1) 1.6 16V (KT0D)
RENAULT  LOGAN I (LS_) 1.4
RENAULT  LOGAN I (LS_) 1.6
RENAULT  LOGAN I Estate (KS_) 1.4
RENAULT  LOGAN I Estate (KS_) 1.6
RENAULT  MASTER II Box (FD) 1.9 dCi 80
RENAULT  MASTER II Bus (JD) 1.9 dCi 80
RENAULT  MEGANE I (BA0/1_) 1.4 16V (BA0D, BA1H, BA0W, BA10)
RENAULT  MEGANE I (BA0/1_) 1.6 16V (BA04, BA1K, BA1V,…
RENAULT MEGANE I (BA0/1_) 1.8 16V (BA06,BA12,BA1A,BA1M,BA1R)
RENAULT MEGANE I Cabriolet(EA0/1_) 1.416V(EA0D,EA1H,EA0W,EA10)
RENAULT MEGANE I Cabriolet(EA0/1_) 1.6 16V (EA04,EA0B,EA11,EA1J)
RENAULT  MEGANE I Cabriolet (EA0/1_) 2.0 16V
RENAULT  MEGANE I Classic (LA0/1_) 1.4 (LA0E, LA0V)
RENAULT  MEGANE I Classic (LA0/1_) 1.6 16V (LA00, LA04,  LA1K,…
RENAULT MEGANE I Classic (LA0/1_) 1.8 16V(LA06,LA12,LA1A,LA1M)
RENAULT MEGANE I Coach (DA0/1_) 1.4 16V (DA0D,DA1H,DA0W,DA10)
RENAULT  MEGANE I Coach (DA0/1_) 1.6 16V (DA0B, DA04, DA11)
RENAULT  MEGANE I Coach (DA0/1_) 2.0 16V
RENAULT MEGANE I Grandtour (KA0/1_) 1.4 16V (KA0D,KA1H,KA0W,KA10)
RENAULT  MEGANE I Grandtour (KA0/1_) 1.4 e (KA0V)
RENAULT  MEGANE I Grandtour (KA0/1_) 1.6 16V (KA0B, KA04, KA11)
RENAULT MEGANE I Grandtour(KA0/1_)1.8 16V(KA0S,KA12,KA1A,KA1M)
RENAULT  Megane I Kombi van (KA_) 1.4 (KA0D)
RENAULT  Megane I Kombi van (KA_) 1.6 (KA0B, KA04)
RENAULT  Megane I Kombi van (KA_) 1.8 (KA1M)
RENAULT MEGANE III Hatchback (BZ0/1_, B3_) 1.6 16V BiFuel(BZ1U,BZ0U)
RENAULT  MEGANE Scenic (JA0/1_) 1.6 16V (JA0B, JA04, JA11)
RENAULT SCÉNIC I MPV (JA0/1_, FA0_) 1.4 16V (JA0D,JA1H,Ja0W,JA10)
RENAULT SCÉNIC I MPV (JA0/1_, FA0_) 1.6 (JA00,  JA2C, JA0B)
RENAULT SCÉNIC I MPV (JA0/1_, FA0_) 1.8 16V (JA12,JA1R,JA1M,JA1A)
RENAULT  SCÉNIC I MPV (JA0/1_, FA0_) 2.0 16V
RENAULT  THALIA I (LB_) 1.4
RENAULT  TRAFIC II Box (FL) 1.9 dCi 100 (FL0C)
RENAULT  TRAFIC II Bus (JL) 1.9 dCI 100 (JL0C)
RENAULT  TRAFIC II Platform/Chassis (EL) 1.9 dCi
VOLVO  S60 II (134) 2.0 T
VOLVO  S80 II (124) 2.0 T
VOLVO  V60 I (155, 157) 2.0 T
VOLVO  V70 III (135) 2.0 T
VOLVO  XC60 (156) 2.0 T
2571-2018
2004-
2004-
2009-
2009-
2007-
2007-
2009-
2008-
2008-
2008-
2003-
2571-2015
2571-2015
2571-2014
2000-2006
2000-2006
2001-2004
2002-2006
2002-2006
2003-
2001-
2001-
2001-
2001-
2001-
2001-
2001-
2001-
1999-2004
1998-
2001-2002
1997-
2001-
2008-
1997-2008
2001-
1997-2001
1998-2001
1999-2001
1997-2001
1998-2001
1999-2001
2001-2005
2001-2007
2005-2007
2001-2007
2007-2015
2007-2015
2004-
2004-
2007-
2007-
2001-
2001-
1999-2003
1999-2002
2001-2003
1999-2003
1999-2003
2002-2003
1996-2003
1999-2003
2001-2003
1999-2003
1999-2003
1999-2003
1999-2003
1999-2003
1999-2003
2001-2003
2001-2003
2001-2003
2001-2003
2009-2015
1998-1999
1999-2003
1999-2003
2001-2003
1999-2003
2000-
2001-
2001-
2001-
2571-2014
2571-
2571-2012
2009-2011
2009-2012

 

Company Profile

Our Factory

Exhibition Shows

FAQ

Q1: Are you a trading company or manufacturer?
A1: We are industrial and export combination.

Q2: If there’s any quality problem, what would you do to guarantee our rights?
Q2: We seldom get complains from our customers so far. If it really happens, we’ll be responsible for that.

Q3: How long is your delivery time?
Q3: Around 30-45 days if no stock; Around 7 days when stock available.

Q4: What’s your sample policy? 
A4: Samples under $50.0 will be no charge, however the freight charge should be borne on buyer’s account.
Normal delivery time will be 4 days when stock available.

Tips For Replacing a Belt Tensioner

When replacing a serpentine belt or automatic tensioner, you will need a special tool. This tool has a long, flat extension handle that allows you to place a socket onto the bolt and flats on the tensioner arm. The following are some tips to follow when replacing the belt or tensioner on your vehicle. To replace your belt or tensioner, you should start by checking the tensioner’s lubrication.
belt

Serpentine belt

If you notice that the power steering or air conditioning are not working, you should check the serpentine belt tensioner. A malfunctioning serpentine belt tensioner can lead to a host of other issues. The belt may stretch, which can be caused by several factors. Over time, serpentine belt tensioners can also get worn down. Additionally, they can have a variety of other problems, including rust or dirt in the housing.
You can replace your serpentine belt by following the instructions found on your vehicle’s manual. Some tensioners attach to the engine via a single bolt. To remove and replace the belt, remove the old unit and the retaining bolt. Locate the locking pin in the engine and place the new tensioner over it. Use a torque wrench or hand tool to tighten the bolts. When installing the new tensioner, be sure to line up the mounting bolt holes with the mounting bolts. Once the tensioner is installed, test the tension by ensuring that the gauge is above the ribs. If it slides down, it is time to replace the tensioner.
Before you begin the process of replacing your serpentine belt, be sure to park your vehicle in a level area. Turn off the engine and chock both rear wheels before starting the process. Using a diagram from your vehicle’s repair manual can make the process easier, especially if you are a beginner. You can draw it in your hand, or refer to a repair manual to find out the exact location of the tensioner pulley.
If you notice that the belt is slipping or squealing while driving, it may be time to replace the serpentine belt tensioner. A worn-out belt can cause the belt to slip and can cause power steering, air conditioning, and alternator malfunctions. You should also check the belt tensioner regularly. The motor may stall or make a loud noise. These are all signs of worn-out serpentine belt.
A serpentine belt uses less space in the engine than a V-belt. It also provides more tension for the serpentine belt, which prevents it from running hot and squealing. Serpentine belts are manufactured to last for several hundred thousand miles. They are a must-have item for your car! So be sure to keep it maintained and properly adjusted! Then, you can be sure to have your car running smoothly and safely.
If you notice any of these symptoms, you should replace your serpentine belt tensioner. A serpentine belt tensioner is a simple self-10sioning device that is mounted on the front of the engine. These devices are usually easy to replace and are not complicated to install. You can find 1 at any parts store or online. When the time comes to replace your serpentine belt, don’t hesitate to get the parts you need from a local auto part store.
belt

Idler pulley

The idler pulley and the belt tensioner are essential components of your car’s drivetrain. If any 1 of them fails, all of them must be replaced. This is because they were manufactured at the same time and most likely have the same number of miles on them. As a result, they can all fail within a few thousand miles of each other. Here are some of the symptoms that you should look for when inspecting your idler pulley or belt tensioner.
Idler pulleys are a common part of most cars. They play a vital role in the operation of the belt system by directing the belt’s path and providing additional contact with the pulley. The idler pulley is also responsible for turning the cooling fan in an air-cooled Corvair engine. Because of these functions, idler pulleys are often replaced with idlers that differ in size.
Idler pulleys are small, 2 to 4 inches in diameter and mounted on the front of the engine block. Their purpose is to create a constant amount of tension on the drive belt. When the idler pulley is worn out, the accessory drive belt may experience excessive vibration and squealing noises. You may wish to replace it as soon as possible. You can do so at AutoZone.
A worn or damaged idler pulley will require a replacement. The belt itself will not fall off the car unless the idler pulley is damaged. A squealing sound can be a sign of a broken spring. Alternatively, a mechanic can recommend a replacement based on the condition of the idler pulley. In most cases, idler pulleys are more durable than the belts and are therefore recommended for replacement.
You can also notice that the idler pulley is slipping or causing excessive noise. Its constant rotation wears the idler pulley and reduces the tension of the belt. This causes the belt to slip and may even tear off the engine. Ultimately, this could result in stalling. And if you notice the engine belt squealing or making excessive noises, you should consider replacing it.
An idler pulley for a belt tensioner are often confused. Though both of them are used in the same application, they differ in many ways. The tensioner is the 1 that receives pressure from the belts and moves them. The idler pulley is not attached to an adjustable bolt, and it can cause unusual noises. It might even make squealing or odd noises.
belt

Spring tensioner

A spring belt tensioner is a solution to a loose belt. It features a strong torsion spring that reduces slack. These devices are designed to fit up to 6mm wide belts. They are highly reliable and durable. They are also suitable for applications where the engine speed is often fluctuating. Here’s how you can choose the best 1 for your vehicle. The spring in the tensioner should be in the proper position to keep the belt taut and free of slippage.
The RunRight tensioner is a durable, high-quality product that uses aluminum alloy. Its elastomeric inserts rely on highly elastic natural rubber for good shape memory and durability. Spring tensioners are easy to install and maintain. They are designed for both axial and helical drives. They feature detailed technical drawings and 3-D models to help you determine the best 1 for your application. To choose a spring tensioner, visit our website.
A worn bushing in the tensioner pulley or a loose pivot arm can result in excessive noise, vibration, and premature belt failure. In addition, worn springs cannot maintain proper tension. Over time, they lose tension. The pulley arm itself can also become damaged, preventing it from rotating properly. If these problems occur, you’ll need to replace the spring tensioner. If you don’t see any signs of wear, check your mounting bracket and tensioner.
A worn pivot bushing can cause the tensioner arm to misalign, leading to excessive back and forth sway. It may also cause the tensioner to jam, which means the belt is too long or too short. If you notice excessive wobble, you should replace the spring tensioner. A faulty tensioner may also be causing excessive oscillation in the pulley. To determine if the spring tensioner is too weak or jammed, check the belt’s length by using a breaker bar or socket with a long handle ratchet.
When it’s time to replace your serpentine belt, don’t forget to replace the belt tensioner. The tensioner protects other components from premature failure. It is a relatively inexpensive repair. It should be replaced as part of a larger multi-ribbed belt. It also provides protection for other components of the drive system. In addition to its protection and performance, the tensioner is inexpensive and relatively easy to replace.
It’s vital to check the tensioner and idler pulleys to make sure the system is aligned properly. If they don’t align, the belt will slip and cause premature wear. Alternatively, the tensioner may have too much tension, overloading the shaft bearings and causing premature failure in other parts. You should also check the idler pulleys for noise as well, since these are engine-driven accessories.

China supplier China Manufacturer Auto Parts Car Accessories Belt Drive Tensioner CZPT Pulley Idler Pulley OEM 4410595 4506194 9198527 93160256 for Opel Vivaro A Box     with Best SalesChina supplier China Manufacturer Auto Parts Car Accessories Belt Drive Tensioner CZPT Pulley Idler Pulley OEM 4410595 4506194 9198527 93160256 for Opel Vivaro A Box     with Best Sales

China manufacturer Low Price Auto Parts Car Accessories Belt Drive V-ribbed Belt Tensioner Pulley OEM 1175000QAH 7700868201 7700870795 for Nissan Kubistar Box 1.2L near me supplier

Product Description

Product Description

Low Price Auto Parts Car Accessories Belt Drive V-ribbed Belt Tensioner Pulley OEM 1175000QAH 77 for Nissan Kubistar Box 1.2L

Water Pump for DACIA
Water Pump for NISSAN
Water Pump for RENAULT

All kinds of car water pumps can be produced for you. Welcome to your inquiry.

 

MIC NO.  REF&OEM NO  APPLICATION  YEAR  PHOTO
TB34RE9601 951154
77 8201

8200040155
8200136224
825715710
9646495880
1175000Q0G
1175000QAH
1175000QAS
6453NN
820571732

DACIA  LOGAN (LS_) 1.2 16V       
DACIA  SANDERO 1.2 16V       
DACIA  SANDERO 1.2 16V LPG       
DACIA  SANDERO II 1.2       
NISSAN  KUBISTAR Box (X76) 1.2       
NISSAN  KUBISTAR Box (X76) 1.2 16V       
RENAULT  CLIO II (BB_, CB_) 1.2 (BB0A, BB0F,, BB2H, CB0A,…       
RENAULT  CLIO II (BB_, CB_) 1.2 16V (BB05, BB0W, BB11BB2V, CB05,…     
RENAULT  CLIO II (BB_, CB_) 1.2 LPG       
RENAULT  CLIO II (BB_, CB_) 1.2 LPG (BB0A, CB0A)       
RENAULT  CLIO II Box (SB0/1/2_) 1.2 (SB0A, SB0F, SB10)       
RENAULT  CLIO II Box (SB0/1/2_) 1.2 (SB0A, SB0F, SB1K, SB2D)       
RENAULT  KANGOO (KC0/1_) 1.2 (KC0A, KC0K, KC0F, KC01)       
RENAULT  KANGOO (KC0/1_) 1.2 16V (KC05,KC06,KC03,KC0T,KC0W,KC1D)
RENAULT  KANGOO Express (FC0/1_) 1.2 (FC01, FC0A, FC0F)       
RENAULT  KANGOO Express (FC0/1_) 1.2 (FC1A)       
RENAULT  KANGOO Express (FC0/1_) 1.2 16V (FC05, FC1P, FC1K, FC0T)
RENAULT  THALIA I (LB_) 1.2 16V       
RENAULT  TWINGO I (C06_) 1.2 (C066, C068)       
RENAULT  TWINGO I (C06_) 1.2 (C067)       
RENAULT  TWINGO I (C06_) 1.2 16V (C060)       
RENAULT  TWINGO I (C06_) 1.2 16V (C06C, C06D, C06K)
2006-
2008-
2008-
2012-
2003-
2006-
1998-
2001-
1998-2009
1999-2001
1999-2003
1998-
1997-
2001-
1997-
1998-2001
2001-
2002-
1996-2007
1996-2007
2004-2007
2001-2007

 

Company Profile

Our Factory

Exhibition Shows

FAQ

Q1: Are you a trading company or manufacturer?
A1: We are industrial and export combination.

Q2: If there’s any quality problem, what would you do to guarantee our rights?
Q2: We seldom get complains from our customers so far. If it really happens, we’ll be responsible for that.

Q3: How long is your delivery time?
Q3: Around 30-45 days if no stock; Around 7 days when stock available.

Q4: What’s your sample policy? 
A4: Samples under $50.0 will be no charge, however the freight charge should be borne on buyer’s account.
Normal delivery time will be 4 days when stock available.

Tips For Replacing a Belt Tensioner

When replacing a serpentine belt or automatic tensioner, you will need a special tool. This tool has a long, flat extension handle that allows you to place a socket onto the bolt and flats on the tensioner arm. The following are some tips to follow when replacing the belt or tensioner on your vehicle. To replace your belt or tensioner, you should start by checking the tensioner’s lubrication.
belt

Serpentine belt

If you notice that the power steering or air conditioning are not working, you should check the serpentine belt tensioner. A malfunctioning serpentine belt tensioner can lead to a host of other issues. The belt may stretch, which can be caused by several factors. Over time, serpentine belt tensioners can also get worn down. Additionally, they can have a variety of other problems, including rust or dirt in the housing.
You can replace your serpentine belt by following the instructions found on your vehicle’s manual. Some tensioners attach to the engine via a single bolt. To remove and replace the belt, remove the old unit and the retaining bolt. Locate the locking pin in the engine and place the new tensioner over it. Use a torque wrench or hand tool to tighten the bolts. When installing the new tensioner, be sure to line up the mounting bolt holes with the mounting bolts. Once the tensioner is installed, test the tension by ensuring that the gauge is above the ribs. If it slides down, it is time to replace the tensioner.
Before you begin the process of replacing your serpentine belt, be sure to park your vehicle in a level area. Turn off the engine and chock both rear wheels before starting the process. Using a diagram from your vehicle’s repair manual can make the process easier, especially if you are a beginner. You can draw it in your hand, or refer to a repair manual to find out the exact location of the tensioner pulley.
If you notice that the belt is slipping or squealing while driving, it may be time to replace the serpentine belt tensioner. A worn-out belt can cause the belt to slip and can cause power steering, air conditioning, and alternator malfunctions. You should also check the belt tensioner regularly. The motor may stall or make a loud noise. These are all signs of worn-out serpentine belt.
A serpentine belt uses less space in the engine than a V-belt. It also provides more tension for the serpentine belt, which prevents it from running hot and squealing. Serpentine belts are manufactured to last for several hundred thousand miles. They are a must-have item for your car! So be sure to keep it maintained and properly adjusted! Then, you can be sure to have your car running smoothly and safely.
If you notice any of these symptoms, you should replace your serpentine belt tensioner. A serpentine belt tensioner is a simple self-10sioning device that is mounted on the front of the engine. These devices are usually easy to replace and are not complicated to install. You can find 1 at any parts store or online. When the time comes to replace your serpentine belt, don’t hesitate to get the parts you need from a local auto part store.
belt

Idler pulley

The idler pulley and the belt tensioner are essential components of your car’s drivetrain. If any 1 of them fails, all of them must be replaced. This is because they were manufactured at the same time and most likely have the same number of miles on them. As a result, they can all fail within a few thousand miles of each other. Here are some of the symptoms that you should look for when inspecting your idler pulley or belt tensioner.
Idler pulleys are a common part of most cars. They play a vital role in the operation of the belt system by directing the belt’s path and providing additional contact with the pulley. The idler pulley is also responsible for turning the cooling fan in an air-cooled Corvair engine. Because of these functions, idler pulleys are often replaced with idlers that differ in size.
Idler pulleys are small, 2 to 4 inches in diameter and mounted on the front of the engine block. Their purpose is to create a constant amount of tension on the drive belt. When the idler pulley is worn out, the accessory drive belt may experience excessive vibration and squealing noises. You may wish to replace it as soon as possible. You can do so at AutoZone.
A worn or damaged idler pulley will require a replacement. The belt itself will not fall off the car unless the idler pulley is damaged. A squealing sound can be a sign of a broken spring. Alternatively, a mechanic can recommend a replacement based on the condition of the idler pulley. In most cases, idler pulleys are more durable than the belts and are therefore recommended for replacement.
You can also notice that the idler pulley is slipping or causing excessive noise. Its constant rotation wears the idler pulley and reduces the tension of the belt. This causes the belt to slip and may even tear off the engine. Ultimately, this could result in stalling. And if you notice the engine belt squealing or making excessive noises, you should consider replacing it.
An idler pulley for a belt tensioner are often confused. Though both of them are used in the same application, they differ in many ways. The tensioner is the 1 that receives pressure from the belts and moves them. The idler pulley is not attached to an adjustable bolt, and it can cause unusual noises. It might even make squealing or odd noises.
belt

Spring tensioner

A spring belt tensioner is a solution to a loose belt. It features a strong torsion spring that reduces slack. These devices are designed to fit up to 6mm wide belts. They are highly reliable and durable. They are also suitable for applications where the engine speed is often fluctuating. Here’s how you can choose the best 1 for your vehicle. The spring in the tensioner should be in the proper position to keep the belt taut and free of slippage.
The RunRight tensioner is a durable, high-quality product that uses aluminum alloy. Its elastomeric inserts rely on highly elastic natural rubber for good shape memory and durability. Spring tensioners are easy to install and maintain. They are designed for both axial and helical drives. They feature detailed technical drawings and 3-D models to help you determine the best 1 for your application. To choose a spring tensioner, visit our website.
A worn bushing in the tensioner pulley or a loose pivot arm can result in excessive noise, vibration, and premature belt failure. In addition, worn springs cannot maintain proper tension. Over time, they lose tension. The pulley arm itself can also become damaged, preventing it from rotating properly. If these problems occur, you’ll need to replace the spring tensioner. If you don’t see any signs of wear, check your mounting bracket and tensioner.
A worn pivot bushing can cause the tensioner arm to misalign, leading to excessive back and forth sway. It may also cause the tensioner to jam, which means the belt is too long or too short. If you notice excessive wobble, you should replace the spring tensioner. A faulty tensioner may also be causing excessive oscillation in the pulley. To determine if the spring tensioner is too weak or jammed, check the belt’s length by using a breaker bar or socket with a long handle ratchet.
When it’s time to replace your serpentine belt, don’t forget to replace the belt tensioner. The tensioner protects other components from premature failure. It is a relatively inexpensive repair. It should be replaced as part of a larger multi-ribbed belt. It also provides protection for other components of the drive system. In addition to its protection and performance, the tensioner is inexpensive and relatively easy to replace.
It’s vital to check the tensioner and idler pulleys to make sure the system is aligned properly. If they don’t align, the belt will slip and cause premature wear. Alternatively, the tensioner may have too much tension, overloading the shaft bearings and causing premature failure in other parts. You should also check the idler pulleys for noise as well, since these are engine-driven accessories.

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Product Description

Products Description

Product Name Tension Roller
Standard ISO/BS/JIS/SGS/ROSH/TS16949
OE Number
Car make For VW
Quality guarantee 12 months
Leading time 15-30 days
MOQ 50 pcs
Advantage 1. Factory direct wholesale, premium quality and lower price.
2. Most of the items are in stock can be dispatched immediately.
3.Patient & friendly aftersale services.

SPABB KEY CATALOG

Company Introduction

FAQ

Q1: What’s the price? Is the price fixed?
A1: The price is negotiable. It can be changed according to your quantity or package. When you are making an inquiry please let us know the quantity you want.

Q2: How can I get a sample before placing an order?
A2: We can provide you a sample for free if the amount is not too much, but you need to pay the air freight to us.

Q3: What’s the MOQ?
A3: The minimum order quantity of each item is different, if the MOQ does not meet your requirement, please email me, or chat with me.

Q4: Can you customize it?
A4: Welcome, you can send your own design of automotive product and logo, we can open new mold and print or emboss any logo for yours.

Q5: Will you provide a warranty?
A5: Yes, we are very confident in our products, and we pack them very well, so usually you will receive your order in good condition. But due to the long time shipment, there will be little damage to products. Any quality issue, we will deal with it immediately.

Q6: How to pay?
A6: We support multiple payment methods, if you have any questions, pls contact me.

If you have any questions, please don’t hesitate to contact us. We are always ready to offer you help to build friendly cooperation with you!

Choosing a V-Belt

When choosing a v-belt, you should understand the characteristics of each type and how they affect the performance of your machine. Listed below are the characteristics of Cogged, Narrow profile, and wide v-belts. Learn about the advantages and disadvantages of each. Choose the right v-belt for your machine to maximize its performance. Learn about the different materials used to make v-belts and how they influence the performance of your machine.
belt

Narrow v-belts

While the flat belts are the most common type of v-belt, narrow v-belts are also a common option for industrial applications. These belts are similar to wedge belts in that they transmit heavier loads, but in a smaller form. Narrow v-belts are typically designated as 3V, 5V, and 8V and are denoted by their top width, multiplied by an eighth of an inch. Narrow v-belt sections conform to a wedge belt profile and are usually standardized by manufacturers. For example, section 3V corresponds to a wedge-type profile, while section 5V corresponds to SPB.
Both narrow and conventional v-belts are made of rubber stocks, which are generally composed of polymer or synthetic rubber. Fabric materials may be used to cover the stock material, adding a layer of reinforcement and protection. Narrow v-belts have a higher power rating than traditional V-belts. This is due to their greater depth-to-width ratio, which puts more of the reinforcing cord beneath the sheave.
The Wedge TLP ™ Narrow V-belt from Continental features a homogeneous one-piece design for maximum strength and long-term performance. These belts feature a high-denier cord and can handle significant horsepower increases. These belts are ideal for industrial applications. However, they are not as durable as their wider counterparts. The Wedge TLP is also an excellent choice for heavy-duty industrial applications.

Cogged v-belts

A key benefit of cogged v-belts is their ability to increase power output without sacrificing reliability. These belts are designed with precision-engineered cogs, which allow them to fit into smaller pulleys without reducing power output. Their raw-edge sidewalls and specially formulated EPDM rubber compound also help provide grip power. Cogged v-belts are manufactured by Carlisle(r) and offer several advantages over conventional belts.
The performance benefits of Cogged V-Belts are widely acknowledged. The company uses added-strength EPDM compounds in their belts to help reduce downtime and energy consumption. They are ideal for demanding applications such as power transmission. These belts are available in a variety of sizes and cross-sections. The section number of Cogged v-belts is H3V, H4V, and H5V.
The main difference between cogged v-belts and wedge belts is in the contact angle. While wedge and cogged v-belts have the same contact angle, the design and construction differs. Cogged v-belts typically include top and bottom layers of rubber, dampening rubber, tension cords, and top and bottom metal rings. Polychloroprene and polyester cords are common materials for the top and bottom layers, while aramid fibers are used for punishing applications.
Cogged v-belts are more flexible than traditional v-belts. Because of the slots on the belt surface, they reduce bending resistance. They are compatible with the same pulleys as standard v-belts, and run cooler and longer. They are also more efficient than standard V-belts. If you are considering a cogged V-belt for your application, it may be worth it to investigate the benefits of this belt type.
belt

Wide v-belts

Variable-speed v-belts are wider in cross section than classical v-belts. The design of variable-speed v-belts varies depending on the manufacturer, but generally features a parallel top and bottom surface. This type of v-belt wedges tightly into its pulley’s grooves, reducing power loss and slippage. This type of v-belt is best suited to applications where speed changes frequently.
High-performance Wide V-belts feature a fibre-reinforced EPDM rubber base. The resulting supercharged EPDM mix is better suited for applications where the belts are subject to higher temperatures. This type of drive belt can also replace existing drives with ease and efficiency. CZPT offers a wide range of drive belts for all applications. For applications where slack is an issue, wrapped V-belts are a smart choice.
Narrow-V-belts, on the other hand, have a more favorable height-to-width ratio. This means that a narrow-V belt can be smaller while still providing the same power transmission. These belts also have a lower mass, which reduces centrifugal forces and enables higher speeds. However, narrow-V-belts are prone to wear, but are still a popular choice in many applications.
In addition to being more durable, wrapped-V-belts have fabric-coated edges for better heat resistance. The material covering wrapped-V-belts also protects them from damage from friction and external contaminants. Unlike their rigid counterparts, these wide-V-belts have an improved lifespan and require less maintenance and downtime. These are excellent alternatives to conventional v-belts. So, what are the benefits of Wide-V-belts?

Narrow profile v-belts

When it comes to choosing the best V-belt for your needs, it is important to understand the differences between narrow profile and classical. Narrow profile V-belts are generally narrower in cross-section than classical v-belts. This makes them ideal for high-speed compact drives and light-duty applications. The following section details the differences between narrow and classical v-belts.
The tensile cords, or “cords,” are embedded into the rubber compound. These cords are the main power-transmitting component of a narrow profile v-belt. The tension cords are located at the pitch diameter of the belt cross-section and increase the tensile strength. They are typically made of steel, aramid fibers, or polyester. The core is usually made of polyurethane, but other materials can be used.
When measuring the v-belt’s width, it is important to understand the various sign-codes. Some v-belts have the wrong sign-coding schema. For example, a classical profile belt should be read as Lw = 3522 mm, while a narrow profile belt should be read as La=3553mm. A narrow profile v-belt has a steeper side-wall, which increases the wedging action. Moreover, the narrow profile v-belt has higher load capacity.
Despite their name, narrow profile v-belts are the most widely used and versatile type of v-belts. They are also the easiest to install. Their general size is similar to that of a wedge, and their number is derived from their numerical prefix. A narrow profile v-belt with a 3L300 part number is 3/8″ wide and 300.0 inches long.

Wide profile v-belts

Wide profile v-belts are designed for heavy-duty applications where extreme performance is required. They are ideal for such applications due to their high-flexural strength and shock-resistance. They also come with many benefits, including good noise-reduction, increased sturdiness, and easy maintenance. This article explores the features of wide profile v-belts and how they can benefit your business.
Classical v-belts have an internal dimensional metric marking called the “CZPT.” This identifies each specific belt. Generally, this number is a combination of the normal profile size designation letter and the internal length in inches. The inside length of the v-belt is indicated on the index of the v-belt. To begin installing the v-belt, mark the floor where it will be hung. Tape the end stop marker to the first stick.
Narrow v-belts are narrower than standard wide v-belts. They are also available in raw-edge cogged profiles and are intended for light-duty applications. Narrow V-belts are also available in 4 sizes. Compared to standard wide profile v-belts, narrow v-belts are most appropriate for high-speed, compact drives. However, wide profile v-belts are generally longer than narrow V-belts.
A v-belt is composed of different types of rubber and reinforcements. It undergoes tensile and compressive stresses on both sides. The top side of a v-belt experiences longitudinal tensile force, while the bottom side is subjected to compression against a pulley. Moreover, the included angle of a v-belt section is 40 deg. Various types of v-belts are available according to their cross-sections and performance specifications.
belt

Standard v-belts

If you are installing v-belts, you must know the right way to measure them. Many v-belts are mislabelled as classic or SPA. If you are unsure of which 1 to choose, you can refer to the standard v-belts index. The basic way to measure v-belts is by using a measuring tape or a cable tie. Using the right technique will ensure you get the right length.
A well-engineered V-belt is made from an elastomer core, which is a material that is resistant to abrasion. The elastomer core is usually composed of polyurethane, which has excellent flexural strength and shock resistance. In addition to the elastomer core, a fabric cover protects the core from wear and environmental forces. Its fabric cover is treated to form a chemical bond with the belt core, which increases the fabric’s resistance to constant bending.
The cross-section of a standard V-belt is commonly described as a trapezium, with its top and bottom sides parallel. Knowing the cross-section of a standard V-belt is essential in matching it with a pulley. It is also important to know how the v-belt is positioned on a pulley and how to select the right belt for the job.

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