China manufacturer AV10 AV13 AV17 AV22 Cr CZPT Rubber Raw Edge Cogged Toothed Kevlar Cord Plain Ribbed Poly Timing Synchronous Driving Transmission V Belt car axle

Product Description

RAW EDGE COGGED V BELT

Feature

. Greater transmission power than classical v belt

. Large friction coefficient, small friction loss

. Absorb transmission vibration, low noise, long service

. Fatigue endurance reaches 1 hundred million times.

. Temperature range from -50ºC to 120ºC

. Oil, heat, Ozone, CZPT resistance, anti-statistics
 

.Type  Top width Pitch width Height  Angel Length conversion Length
Range inch
Length
Range mm
.ZX 10 8.5 6 40º Li=Ld-22 20″-100″ 508-2540
.AX 13 11 8   Li=Ld-30 20″-200″ 508-5080
.BX 17 14 11   Li=Ld-40 20″-200″ 508-5080
.CX 22 19 14   Li=Ld-58 20″-200″ 508-5080

Marking

.AX 1245Li 1275Ld:    AX49 means type AX (toothed), its inside length is 1245mm, its pitch length is 1275mm, and its inside length is 49inches.  

 

WEDGE RAW EDGE V BELT

Features

.. Greater transmission power than classical v belt

. Large friction coefficient, small friction loss

. Absorb transmission vibration, low noise, long service

. Fatigue endurance reaches 1 hundred million times.

. Temperature range from -50ºC to 120ºC

. Oil, heat, Ozone, CZPT resistance, anti-statistics

Material Option

Rubber: CR rubber, EPDM rubber

CR rubber has a good performance of oil resistance and chemical resistance, a certain of heat and cold resistance. But EPDM rubber has better 

properties in heat resistance and CZPT resistance, which means longer working life than CR type. 

Mark

Wedge raw edge v belts fall into 2 categories. The metric SP series comprise of XPZ, XPA, XPB, XPC. The inch series include 3vx, 5vx, 8vx models. V belts of these types are marked according to the outer length of the factory v belt. Specific noting shall be made on the order list of the customer, if the customer has special requirement. The length conversion table is available for conversion between various models.

Example mark

XPZ 1283La 1270Ld 3vx500 means that its type is XPZ, outer length is 1283mm, pitch length is 1270mm, and it is corresponding to 3vx500.
 

Type  Top width Pitch width Height  Angel Length conversion Length
Range inch
Length
Range mm
.3VX 9.5 / 8 40º La=Li+50 20″-200″ 508-5080
.5VX 16 / 13.5   La=Li+82 30″-200″ 762-5080
.XPZ 10 8.5 8   La=Li+50 20″-200″ 508-5080
.XPA 13 11 10   La=Li+63 20″-200″ 508-5080
.XPB 16.3 14 14   La=Li+82 30″-200″ 762-5080
.XPC 22 19 18   La=Li+113 30″-200″ 762-5080

Material 
 

Production & Packing
 

 

Testing & Laboratory

 

More Rubber Belts available: 

Wrapped V Belt, Poly V Belt, Synchronous Belt, Raw Edged V Belt, Flat Transmission Belt, Elevator Belt, Rubber Conveyor Belt

FAQ

Q1.  Can I have a sample order?
        Yes, any sample order is welcome to know the quality of our products.

Q2.  What about the lead time of the sample or the final order?
        2-5 days for normal sample.
        20-30 days for a formal order.

Q3. How much is the minimum quantity for each item in 1 order?
       One CZPT quantity is ok. Usually around 50pcs for small item, 10pcs for big item. 

Q4. Is it possible to print our logo or brand on the belt?
       Yes, we can print your logo or design on the belt after receipt of your formal authorization                 .letter of the logo or your brand.

Q5. Do you offer the guarantee for your product?
       Yes, usually we offer 1 year warranty for all of our products.

 
 

Standard or Nonstandard: Standard
Application: Textile Machinery, Garment Machinery, Conveyer Equipment, Electric Cars, Motorcycle, Food Machinery, Mining Equipment, Agricultural Machinery, Car
Feature: Flame-Retardant, Anti-Static, Oil-Resistant, Heat-Resistant, Wear-Resistant, High Temperature-Resistance
Tensile Strength: Strong
Material: Rubber/Polyester, Kevlar, Rubber
Type: V Belt
Samples:
US$ 0.1/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

timing tensioner

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

Using V-belt tensioners in machinery offers several benefits in preventing slippage and optimizing power transmission. By maintaining proper belt tension, minimizing belt slippage, and ensuring consistent power transfer, tensioners contribute to improved efficiency, reduced energy losses, and enhanced overall performance. Here’s a detailed explanation of the benefits of using V-belt tensioners:

  • Prevention of Belt Slippage:
  • V-belt tensioners play a critical role in preventing belt slippage in machinery. Belt slippage occurs when the belt slips on the pulleys, resulting in a loss of power transmission efficiency and decreased performance. Tensioners apply the appropriate tension to the V-belt, ensuring a positive grip between the belt and the pulleys. This minimizes or eliminates slippage, allowing for efficient power transfer from the driving pulley to the driven pulley.

  • Optimized Power Transmission:
  • Proper tensioning provided by V-belt tensioners optimizes power transmission in machinery. When the V-belt is properly tensioned, it maintains a consistent contact area with the pulleys, maximizing the frictional grip. This efficient power transfer ensures that the input power from the driving pulley is effectively transmitted to the driven pulley, minimizing energy losses and maximizing the overall system efficiency.

  • Improved Efficiency:
  • By preventing slippage and ensuring optimal power transmission, V-belt tensioners contribute to improved efficiency in machinery. Slippage leads to energy losses, as power is wasted in overcoming the slipping motion instead of being transferred to the driven components. Tensioners maintain the necessary tension in the V-belt, reducing slippage and maximizing power transfer efficiency. This results in improved overall system efficiency, reduced energy consumption, and cost savings over time.

  • Reduced Wear and Maintenance:
  • V-belt tensioners help reduce wear on the V-belts and associated components, leading to reduced maintenance requirements. Proper tensioning minimizes belt movement and excessive wear, extending the lifespan of the belts. By preventing slippage, tensioners also reduce the risk of belt damage, such as excessive heat generation or premature wear due to friction. This results in longer belt life, fewer replacements, and reduced maintenance costs for the machinery.

  • Enhanced System Reliability:
  • Using V-belt tensioners enhances the reliability of machinery by ensuring consistent power transmission. When the V-belts are properly tensioned, the risk of unexpected belt slippage or failure is significantly reduced. Reliable power transmission minimizes downtime, production interruptions, and the associated costs. Tensioners play a crucial role in maintaining the required tension in the belts, contributing to the overall reliability and uninterrupted operation of the machinery.

In summary, the benefits of using V-belt tensioners in preventing slippage and optimizing power transmission in machinery include the prevention of belt slippage, optimized power transfer efficiency, improved overall system efficiency, reduced wear and maintenance, and enhanced system reliability. By properly tensioning the V-belts, tensioners ensure efficient power transmission, reduce energy losses, and extend the lifespan of the belts, resulting in improved performance and cost savings for machinery applications.

timing tensioner

How do innovations and advancements in V-belt tensioner technology impact their use?

Innovations and advancements in V-belt tensioner technology have a significant impact on their use, leading to improved performance, increased reliability, and enhanced efficiency in various applications. Here’s a detailed explanation of how innovations and advancements in V-belt tensioner technology impact their use:

  • Enhanced Tensioning Mechanisms:
  • New technologies and design innovations have led to the development of enhanced tensioning mechanisms in V-belt tensioners. These mechanisms offer improved accuracy and consistency in applying the desired tension force to the belts. Advanced tensioner designs may incorporate features such as self-adjusting mechanisms, automatic tension control, or adaptive tensioning systems. These advancements simplify the tensioning process, reduce manual adjustments, and ensure optimal tension levels, leading to improved system performance and reduced maintenance requirements.

  • Increased Durability and Reliability:
  • Advancements in materials, manufacturing processes, and engineering techniques have resulted in V-belt tensioners with increased durability and reliability. New materials with improved strength and wear resistance, such as advanced polymers or specialized alloys, are being utilized in tensioner construction. Additionally, innovative manufacturing methods allow for tighter tolerances, precise assembly, and better overall quality control. These advancements result in tensioners that can withstand higher loads, resist wear and fatigue, and operate reliably even in demanding environments, enhancing the longevity and reliability of V-belt systems.

  • Reduced Friction and Energy Losses:
  • New technologies and advancements in V-belt tensioner design have focused on reducing friction and energy losses during power transmission. Friction-reducing coatings, specialized bearing systems, and optimized contact surfaces are employed to minimize energy losses due to belt-pulley interaction. These advancements result in improved power transmission efficiency, reduced heat generation, and lower energy consumption. By reducing friction and energy losses, innovative tensioner technologies contribute to energy savings, lower operating costs, and improved overall system efficiency.

  • Integration of Diagnostic and Monitoring Features:
  • Advancements in V-belt tensioner technology include the integration of diagnostic and monitoring features. Tensioners may incorporate sensors or indicators that provide real-time data on tension levels, belt wear, or system performance. This allows users to monitor the condition of the tensioner and the entire power transmission system, enabling proactive maintenance and preventing unexpected failures. Diagnostic and monitoring capabilities enhance system reliability, optimize maintenance schedules, and reduce downtime, leading to improved operational efficiency.

  • Application-Specific Customization:
  • Advancements in V-belt tensioner technology have facilitated application-specific customization. Manufacturers can now design tensioners to meet the unique requirements of different industries and applications. Customizable features include tensioning force, size, mounting options, and specialized coatings. This flexibility allows for better integration into specific systems, addressing space constraints, load demands, and environmental conditions. Application-specific customization improves overall system performance, reliability, and compatibility.

In summary, innovations and advancements in V-belt tensioner technology have a profound impact on their use. Enhanced tensioning mechanisms, increased durability and reliability, reduced friction and energy losses, integration of diagnostic and monitoring features, and application-specific customization all contribute to improved performance, reliability, efficiency, and compatibility. These advancements enable more efficient power transmission, longer service life, reduced maintenance requirements, and enhanced overall performance of V-belt systems in various industrial and automotive applications.

timing tensioner

Can you explain the significance of proper tensioning in V-belt-driven machinery and equipment?

Proper tensioning plays a significant role in V-belt-driven machinery and equipment. It is crucial for ensuring efficient power transmission, preventing slippage, and maximizing the performance and reliability of the V-belt system. Here’s a detailed explanation of the significance of proper tensioning in V-belt-driven machinery and equipment:

  • Efficient Power Transmission:
  • Proper tensioning is essential for efficient power transmission in V-belt-driven systems. When the V-belt is properly tensioned, it maintains a firm grip on the pulleys, allowing for effective transfer of rotational energy from the driving pulley to the driven components. The correct tension ensures that power is transmitted without slippage, minimizing energy losses and maximizing the system’s efficiency. By maintaining proper tension, V-belt-driven machinery and equipment can achieve optimal power transfer and operate at their intended speeds and performance levels.

  • Preventing Slippage:
  • One of the primary purposes of proper tensioning is to prevent slippage between the V-belt and the pulleys. Slippage can occur when the tension in the V-belt is inadequate or when the belt is subjected to excessive loads. Insufficient tension or overloading can cause the belt to lose traction with the pulleys, resulting in reduced power transmission, decreased efficiency, and potential damage to the belt and other system components. Proper tensioning ensures that the V-belt remains tightly engaged with the pulleys, preventing slippage and maintaining reliable power transmission.

  • Extending Belt Life:
  • Proper tensioning is essential for extending the life of the V-belt. When a V-belt is under excessive tension, it can experience accelerated wear and premature failure due to increased stress on the belt and the pulleys. On the other hand, insufficient tension can lead to belt vibration, excessive flexing, and localized wear, reducing the belt’s lifespan. By maintaining the correct tension, V-belt-driven machinery and equipment can minimize wear, distribute the load evenly across the belt and pulleys, and promote optimal belt life. Proper tensioning contributes to reducing maintenance costs and downtime associated with belt replacement.

  • Reducing Maintenance and Downtime:
  • Proper tensioning helps reduce maintenance requirements and downtime in V-belt-driven systems. When the V-belt is under the correct tension, it operates smoothly without slippage or excessive wear. This minimizes the need for frequent adjustments, re-tensioning, and belt replacements. By maintaining the proper tension, V-belt-driven machinery and equipment can operate reliably, with reduced risks of unexpected belt failures or performance issues. Proper tensioning contributes to increased system uptime, improved productivity, and reduced maintenance costs.

  • Enhancing System Reliability:
  • Proper tensioning enhances the overall reliability of V-belt-driven machinery and equipment. When the V-belt is correctly tensioned, it operates within its designed parameters, ensuring that the system components are subjected to the appropriate forces and loads. This reduces the risk of belt slippage, excessive wear, and premature component failure. By promoting reliable power transmission, minimizing the potential for system malfunctions, and extending the lifespan of the V-belt and other system components, proper tensioning contributes to the overall reliability and longevity of V-belt-driven machinery and equipment.

In summary, proper tensioning is of significant importance in V-belt-driven machinery and equipment. It ensures efficient power transmission, prevents slippage, extends the life of the V-belt, reduces maintenance requirements and downtime, and enhances the overall reliability of the system. By maintaining the correct tension, V-belt-driven machinery and equipment can achieve optimal performance, maximize energy efficiency, and minimize the risks of belt failure or system malfunctions.

China manufacturer AV10 AV13 AV17 AV22 Cr CZPT Rubber Raw Edge Cogged Toothed Kevlar Cord Plain Ribbed Poly Timing Synchronous Driving Transmission V Belt   car axleChina manufacturer AV10 AV13 AV17 AV22 Cr CZPT Rubber Raw Edge Cogged Toothed Kevlar Cord Plain Ribbed Poly Timing Synchronous Driving Transmission V Belt   car axle
editor by CX 2023-12-04