China Professional Herringbone Pattern Anti-Skid Conveyor Belt V-Shaped Y-Pattern Conveyor Belt Herringbone Pattern Conveyor Belt Anti-Skid Wear car axle

Product Description

Conveyor belts are divided into many specifications and models according to the use of the environment and requirements:

1. According to the size and width of the transportation volume, it is divided into: B200 B300 B400 B500 B600 B650 B800 B1000 B1200 B1400 B1600B1800 B2000 and other common models (B stands for width
Degree, in millimeters).

2. According to the different use environment, it is divided into ordinary conveyor belts including (ordinary type, heat resistant type, flame resistant type, burn resistant type, acid and alkali resistant type, oil resistant type), heat resistant conveyor belt, cold resistant conveyor belt, acid resistant
Alkali conveyor belt, oil resistant conveyor belt, food conveyor belt and other models. Among them, the minimum thickness of the covering glue on the ordinary conveyor belt and the food conveyor belt is3.0mm, and the minimum covering glue is 1.5mm. Heat-resistant transmissionThe minimum thickness of the adhesive covering on the conveyor belt, the cold-resistant conveyor belt, the acid-alkali resistant conveyor belt and the oil-resistant conveyor belt is 4.5mm, and the minimum of the lower covering adhesive is 2.0mm. According to the specific circumstances of the use of the environment can be pressed 1.5mm to increase the thickness of the upper and lower covering glue.

3. According to the tensile strength of the conveyor belt fabric, it is divided into ordinary conveyor belt and strong conveyor belt. The strong type of canvas conveyor belt is divided into nylon conveyor belt (NN conveyor belt) and polyester conveyor belt (EP conveyorTake).

Supplementary note: The strong layer of the strong conveyor belt is polyester canvas (EP), which is divided into EP100, EP150, EP200, EP250, EP300, EP350, EP400, etc. It can also be nylon canvas (NN), which can be divided into NN100, NN150, NN200, NN250, NN300, NN350, NN400, NN450, NN500, etc.

 

Serial number Item Data
1 Cap grade 8MPA,10MPA,12MPA,15MPA
18MPA,20MPA,24MPA,26MPA
2 Belt width (mm) 400,500,600.650,700,900,800,1000,1200 1400,1500,1600,
1800,2000,2200,2500
3 Tensile strength EP200/2,EP315/2,EP315/3,EP400/3,EP500/3,EP600/3,EP400/4,EP500/4,EP630/4,EP800/4,EP1000/4,EP500/5,EP600/5,EP750/5,EP1000/5,EP1250/5 EP600/6,EP1200/6
4 Top+Bottom thickness 3+1.5, 4+2, 4+1.5, 4+3, 5+1.5, 6+2, 7+2, 8+2
5 Belt thickness 4mm-25mm
6 Belt length(m) 50, 100, 200, 250, 300
7 Belt edge type Moulded (rubber) edges or cut edges

                                               Product category

 

Type: EP150
Material: Rubber
Inside Material: Nylon
Feature: Oil-Resistant, Cold-Resistant, Wear-Resistant
Colour: Black
Standard: Ep
Samples:
US$ 50/Bag
1 Bag(Min.Order)

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Customization:
Available

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v belt

Are there any specific guidelines for aligning pulleys and V-belts?

Proper alignment between pulleys and V-belts is essential to ensure smooth operation, minimize wear, and maximize the efficiency of the belt drive system. Here are some specific guidelines for aligning pulleys and V-belts:

  1. Parallel Alignment:
  2. The pulleys should be aligned parallel to each other, meaning that the axes of the pulleys should be in the same plane. This ensures that the V-belt runs straight and evenly between the pulleys. Misalignment can cause the belt to run at an angle, leading to increased wear and reduced efficiency.

  3. Angular Alignment:
  4. In addition to parallel alignment, the pulleys should be aligned angularly. This means that the pulley faces should be perpendicular to the belt’s direction of travel. Angular misalignment can cause the belt to twist and create uneven tension, resulting in increased wear and potential belt failure.

  5. Alignment Tools:
  6. To achieve proper alignment, various alignment tools can be used, such as straightedges, laser alignment tools, or alignment software. These tools help in measuring and adjusting the alignment of pulleys, ensuring precise parallel and angular alignment.

  7. Adjustment Methods:
  8. To adjust the alignment of pulleys, different methods can be employed. Common adjustment methods include shimming, moving the pulley on its shaft, or using adjustable pulleys. The specific method depends on the type of pulley and the adjustment capabilities of the system.

  9. Regular Inspections:
  10. Regular inspections are crucial to identify and correct any misalignment issues promptly. Inspect the pulleys visually and check for any signs of misalignment, such as uneven belt wear, belt tracking issues, or abnormal belt noise. If misalignment is detected, take corrective measures to realign the pulleys.

  11. Manufacturer Recommendations:
  12. Always refer to the manufacturer’s guidelines and specifications for pulley alignment. Manufacturers often provide specific alignment tolerances and recommendations for their products, considering factors such as belt type, load, and operating conditions. Follow these recommendations to ensure proper alignment and optimize the performance of the belt drive system.

By following these guidelines for aligning pulleys and V-belts, you can minimize wear, reduce the risk of belt failure, and maximize the efficiency and lifespan of the belt drive system.

v belt

What are the key differences between V-belts and other types of power transmission belts?

V-belts are a popular type of power transmission belts, but they differ from other types of belts in terms of design, construction, and specific applications. Here are the key differences:

1. Belt Profile:

V-belts have a trapezoidal or V-shaped cross-sectional profile, which gives them their name. This profile allows the belts to fit securely into V-shaped pulleys, providing effective power transmission and grip. Other types of belts, such as flat belts or timing belts, have different profiles suited for specific applications.

2. Power Transmission Method:

V-belts transmit power through frictional forces between the belt and the pulleys. As the belt wraps around the pulleys, the friction between the belt and the pulley surfaces allows the transfer of torque and power. In contrast, other belts, like timing belts or chain drives, use toothed profiles or interlocking mechanisms to transmit power, providing precise synchronization and higher torque transmission.

3. Load Capacity:

V-belts are designed to handle moderate to high loads, making them suitable for a wide range of applications. However, certain applications with heavier loads may require specialized heavy-duty V-belts or alternative belt types, such as synchronous belts or chain drives, which offer higher load-carrying capacities.

4. Speed Range:

V-belts are suitable for a broad speed range, but their limitations may vary depending on the specific design, material, and construction. Traditional V-belts may have speed limitations at extremely high speeds due to centrifugal forces and heat generation. High-speed V-belts or narrow V-belts are available for applications that require higher speeds. In contrast, timing belts and synchronous belts are designed for precise speed control and are commonly used in applications with strict speed requirements.

5. Tensioning and Maintenance:

V-belts require periodic tensioning to maintain proper grip and power transmission efficiency. Tensioning is typically achieved through manual adjustment or automatic tensioners. Other types of belts, such as timing belts or chain drives, often have fixed tensioning systems and require less frequent maintenance.

6. Noise and Vibration:

V-belts generally operate with lower noise and vibration levels compared to other types of belts, such as chain drives. The design and frictional nature of V-belts contribute to smoother operation and reduced noise generation, making them suitable for applications where noise and vibration control is important.

7. Applications:

V-belts are widely used in various applications, including industrial machinery, automotive systems, HVAC systems, and power transmission in general. They are versatile and can accommodate different power requirements. Other belt types, such as timing belts, are commonly used in precision positioning, robotics, or applications that require synchronous motion.

Overall, V-belts offer reliable and cost-effective power transmission for a wide range of applications. However, the selection of the appropriate belt type depends on factors such as load requirements, speed range, precision, noise considerations, and specific application needs.

v belt

What are the signs of a worn or damaged V-belt that needs replacement?

A worn or damaged V-belt can lead to decreased performance, increased energy consumption, and potential equipment failure. Recognizing the signs of a worn or damaged V-belt is important for timely replacement and preventing further damage. Here are some common signs to look out for:

  1. Visible wear: Inspect the V-belt for visible signs of wear, such as fraying, cracking, or glazing. Excessive wear indicates that the belt has reached the end of its service life and should be replaced.
  2. Chunking or missing pieces: If the V-belt shows signs of chunking or has missing pieces, it is a clear indication of severe damage. This can occur due to excessive tension, overloading, or prolonged use beyond the belt’s capacity.
  3. Excessive noise: A worn or damaged V-belt may produce noticeable noise during operation. This can be in the form of squealing, screeching, or rumbling sounds. The noise is often caused by slipping, misalignment, or belt degradation.
  4. Slippage: If the V-belt slips on the pulleys, resulting in reduced power transmission or inconsistent operation, it indicates a problem. Slippage can occur due to incorrect tension, pulley misalignment, or insufficient grip caused by belt wear.
  5. High heat or burning smell: Excessive heat generated by a V-belt can indicate friction caused by belt slippage or misalignment. If you notice a burning smell or feel excessive heat near the belt drive system, it is a sign of potential belt damage.
  6. Loss of tension: If the V-belt consistently loses tension and requires frequent readjustment, it indicates wear or elongation. Over time, the belt may stretch and lose its original tension, resulting in reduced power transmission efficiency.
  7. Reduced power transmission: A worn or damaged V-belt may struggle to transmit the required power, leading to decreased equipment performance. This can result in slower operation, reduced torque, or inability to handle the load.
  8. Visible cracks or separation: Cracks or separation in the V-belt’s rubber material are clear signs of damage. These can occur due to age, exposure to harsh environments, or chemical degradation. Cracked or separated belts should be replaced immediately.
  9. Shortened belt life: If a V-belt consistently fails or requires replacement sooner than its expected service life, it indicates a problem. Factors such as incorrect tensioning, misalignment, or excessive load can contribute to premature belt failure.

If you observe any of these signs in a V-belt, it is recommended to replace the belt promptly. Continuing to use a worn or damaged V-belt can lead to further damage, increased downtime, and potential equipment failure. Regular maintenance and inspections are essential for identifying and addressing these signs early, ensuring the reliability and longevity of the V-belt system.

China Professional Herringbone Pattern Anti-Skid Conveyor Belt V-Shaped Y-Pattern Conveyor Belt Herringbone Pattern Conveyor Belt Anti-Skid Wear   car axleChina Professional Herringbone Pattern Anti-Skid Conveyor Belt V-Shaped Y-Pattern Conveyor Belt Herringbone Pattern Conveyor Belt Anti-Skid Wear   car axle
editor by CX 2023-12-06