China Professional Flat Belt V Belt Industrial Belt Flat Belt broken axle on car

Product Description

Product Description

Conveyor belt

FEATURES

 
The carcass of this belt is made from cotton/cotton fabric both in warp and weft or terelyene/cotton fabric in warp and cotton fabric in weft

This type of belt will exhibit good flexibility, excellent trough-forming ability and is an economical solution for your conveying needs.

 

APPLICATIONS

  • Best suited for conveying products in short distance and suitable for but not limited to conveying of powder, granules and weak CZPT materials such assawdust, grain, coal and cements, etc.
  • Operating temperature: 10°C-60°C

 

BELT TYPES

Belt types include normal, oil resistant, acid and alkali resistant, cold resistant and anti-static grades

TECHNICAL DATA

Standard: In accordance to ISO/FDIS 14890:1990

Performance at Overall Thickness

Belt length can be customized on request and the maximum length is no more than 300 m.

Fabric Type Ply
Thickness
(mm)
Nominal Tensile Strength
at Overall Thickness
(N/mm)
Longitudinal
Elongation
at Break
(%)
Longitudinal
Elongation at
Rated Stress
(%)
Belt
Width
(mm)
Standard
Belt
Length
(M)
2ply 3ply 4ply 5ply 6ply
Terylene Cotton TC-70 1.0 140 210 280 350 420 ≥10 ≤4 300
~
1500
200
Cotton 

 

CC-56

1.0 112 168 224 280 336

Performance of Cover Rubber (for General Applications)

Note: The cover rubber performance for other belt types like oil resistant, acid and alkali resistant, cold resistant and

anti-static belt, please refer to the corresponding belt introduction.

Cover Grade Tensile Strength Elongation at Break
(%) ≥
Abrasion Loss
(mm³ ) ≤
Change Rate of Tensile
Strength & Elongation
after Aging (%)
(MPa) ≥ (Kg/cm²) ≥
Ordinary Applications (L) 15.0 150.0 350 200 -25 ~ +25
Abrasion Resistant (D) 18.0 180.0 400 100 -25 ~ +25
Extreme Tear Resistant (H) 24.0 240.0 450 120 -25 ~ +25
When cover rubber thickness ranging from 0.8~1.60mm, it allows 15% tolerance of tensile strength.
Aging Test: 70ºC×168h.

Adhesion-Ply to Ply

Item Canvas Ply to
Canvas Ply
Cover to Canvas Ply
Cover Thickness 0.8-1.5mm Cover Thickness >1.5mm
Average Value of Samples (N/mm) ≥ 3.0 2.1 2.7
Minimum Value of Samples (N/mm) ≥ 2.7 1.6 2.2
The CZPT value of all samples are less than 20N/mm.

 

We also have patten conveyor belt.

Type of Pattern:
1) Chevron conveyor belt (Raised & Sunk herringbone)
2) Round pit conveyor belt
3) CZPT conveyor belt

The workshop of our belt

The other products of our conveyor parts:

Could you please send me inquiry for details?

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Type: All The Types as Required
Material: Rubber
Inside Material: Cotton, Fabric, Ep etc
Feature: Oil-Resistant, Acid And Alkali Resistant, Tear-Resistant, Heat-Resistant, Cold-Resistant, Wear-Resistant
Tensile Strength: Strong
Transport Package: Bag
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

v belt

Are there any alternatives to V-belts for power transmission applications?

Yes, there are several alternatives to V-belts for power transmission applications. These alternatives offer different advantages and may be suitable for specific requirements. Here are some commonly used alternatives:

  1. Synchronous Belts:
  2. Synchronous belts, also known as timing belts, are toothed belts that provide precise and synchronous power transmission. They have teeth on the inner side that mesh with corresponding grooves on the pulleys, eliminating slippage and ensuring accurate power transfer. Synchronous belts are commonly used in applications that require precise positioning, high torque transmission, or low maintenance.

  3. Flat Belts:
  4. Flat belts are thin, flexible belts that transmit power by friction between the belt and the pulleys. They offer a simple and cost-effective solution for power transmission. Flat belts are available in various materials, such as rubber, leather, or fabric-reinforced synthetic materials. They are suitable for applications with moderate power requirements and can be used in both light-duty and heavy-duty applications.

  5. V-Ribbed Belts:
  6. V-ribbed belts, also known as multi-rib belts or serpentine belts, are similar to V-belts but have a different cross-sectional shape. They have a flat or shallow V-shaped profile with ribs on the inner side, which engage with corresponding grooves on the pulleys. V-ribbed belts offer higher power transmission capacity and reduced slip compared to standard V-belts. They are commonly used in automotive applications, such as engine accessory drives.

  7. Chain Drives:
  8. Chain drives use a series of interconnected links to transmit power. They are known for their high strength, durability, and ability to handle heavy loads. Chain drives are commonly used in applications that require high torque transmission, such as industrial machinery, motorcycles, or bicycles. However, chain drives require periodic lubrication and maintenance to ensure proper operation.

  9. Gear Drives:
  10. Gear drives utilize interlocking gears to transmit power. They offer high efficiency, precise power transmission, and the ability to transmit large amounts of torque. Gear drives are commonly used in applications that require high precision, such as robotics, machine tools, or automotive transmissions. However, they can be more complex and expensive compared to belt drives.

  11. Direct Coupling:
  12. In some cases, power transmission applications may utilize direct coupling, where the motor shaft is directly connected to the driven equipment without the use of belts or other intermediate components. Direct coupling offers high efficiency, compactness, and eliminates the need for belt maintenance. It is commonly used in applications with high torque requirements or where precise alignment is critical.

The choice of the alternative to V-belts depends on various factors, including the specific power transmission requirements, space limitations, cost considerations, maintenance needs, and the desired level of precision. It is important to evaluate these factors and consult with experts to select the most suitable alternative for a particular application.

v belt

What maintenance practices are recommended for prolonging the lifespan of V-belts?

Implementing regular maintenance practices is crucial for extending the lifespan of V-belts and ensuring their optimal performance. Here are some recommended maintenance practices:

  1. Visual inspections: Conduct regular visual inspections of the V-belts to identify any signs of wear, damage, or misalignment. Look for cracks, fraying, glazing, or any visible abnormalities. Inspect the pulleys for wear or damage as well.
  2. Tension checks: Check the tension of the V-belts on a periodic basis using a tension gauge. Ensure that the belts are within the recommended tension range specified by the manufacturer. Incorrect tension can lead to belt slippage, accelerated wear, and decreased power transmission efficiency.
  3. Pulley alignment: Verify that the pulleys are correctly aligned to prevent unnecessary stress and wear on the V-belts. Misaligned pulleys can cause belt slippage, uneven load distribution, and premature failure. Adjust the pulleys as necessary to maintain proper alignment.
  4. Cleanliness: Keep the V-belts and pulleys clean and free from dirt, debris, oil, or other contaminants. Regularly clean the belt drive system to prevent the accumulation of particles that can affect belt grip and performance.
  5. Environmental considerations: Evaluate the operating environment for factors that can impact the V-belts, such as temperature extremes, humidity, or exposure to chemicals. Take appropriate measures, such as implementing ventilation or using heat-resistant belts, to mitigate adverse environmental effects.
  6. Load monitoring: Ensure that the V-belts are not subjected to excessive loads beyond their capacity. Monitor the load requirements of the application and consider factors such as torque, horsepower, and operating conditions. Overloading can lead to accelerated wear and premature belt failure.
  7. Timely replacements: Establish a preventive maintenance schedule for V-belt replacements based on the manufacturer’s recommendations and the observed wear patterns. Replace worn or damaged V-belts promptly to prevent unexpected failures and minimize downtime.
  8. Proper storage: If spare V-belts are kept in stock, store them in a clean, dry, and temperature-controlled environment to avoid deterioration. Follow the manufacturer’s instructions for proper storage conditions.
  9. Training and documentation: Ensure that maintenance personnel receive proper training on V-belt maintenance procedures and safety precautions. Keep detailed records of maintenance activities, including inspections, tension measurements, and replacements, for future reference and tracking.

By implementing these maintenance practices, you can significantly prolong the lifespan of V-belts, reduce the risk of unexpected failures, and optimize the performance of the belt drive system. Regular maintenance not only extends the life of the V-belts but also allows for early detection of potential issues, enabling timely corrective actions to be taken.

v belt

What are the different types of V-belts available and their applications?

There are several types of V-belts available, each designed for specific applications and requirements. The most common types of V-belts include:

  1. Classic V-belts: Also known as conventional V-belts, these are the standard V-belts with a trapezoidal cross-section. They are widely used in various industrial applications for general power transmission, such as in HVAC systems, agricultural machinery, and industrial equipment.
  2. Narrow V-belts: Narrow V-belts are narrower than classic V-belts and have a narrower V-shaped profile. They are suitable for applications where space is limited or where high-speed ratios are required. These belts are commonly used in automotive engines, power tools, and small appliances.
  3. Wedge V-belts: Wedge V-belts, also known as narrow section V-belts, have a wider and deeper V-shaped cross-section compared to classic V-belts. This design allows for higher power transmission capacity and better resistance to belt slippage. Wedge V-belts are used in heavy-duty applications, such as in industrial machinery, mining equipment, and large agricultural machinery.
  4. Double V-belts: Double V-belts consist of two V-belts joined side by side. These belts provide increased power transmission capacity and are commonly used in applications where high torque is required, such as in heavy-duty machinery, pumps, and compressors.
  5. Variable Speed V-belts: Variable speed V-belts, also known as V-ribbed belts or multi-rib belts, have a ribbed surface on one side of the belt. This design allows for improved flexibility and enhanced power transmission efficiency. Variable speed V-belts are commonly used in automotive engines, industrial machinery, and appliances where variable speed control is required.

The choice of V-belt type depends on factors such as the power transmission requirements, space limitations, speed ratios, and the specific application. It is important to select the appropriate V-belt type based on these factors to ensure efficient and reliable power transmission.

In summary, the different types of V-belts available include classic V-belts, narrow V-belts, wedge V-belts, double V-belts, and variable speed V-belts. Each type has its own characteristics and is suitable for specific applications based on power transmission needs and requirements.

China Professional Flat Belt V Belt Industrial Belt Flat Belt   broken axle on carChina Professional Flat Belt V Belt Industrial Belt Flat Belt   broken axle on car
editor by CX 2024-04-23