Product Description
Chevron ribbed conveyor belt factory conveyor belt
Chevron Conveyor Belts are precision designed and developed for providing desired space-saving on steep inclines which can go up to 40 Degrees. In such situations, these conveyor belts are designed to deliver enhanced load carrying capacity in bulk with lump size of up to 150mm.
Belt types
♦ Types: Open V, Closed-V, L type, H type, Y type, A type and F type, etc.
♦ Width: 400MM-1200MM
♦ Thickness: 4-50mm
♦ Types: EP80-EP630
♦ Feature: Good adhesion and long working life
Chevron Pattern Conveyor Belt Features
1. Excellent elasticity
2. Anti-impact
3. High-adhesion
4. Good flexibility
5. Trough ability
6. Better stability of size
7. Resistance to water
8. Heat resistance in comparison to NN belt
Advantage :
Some of the standard features of these conveyor belts include:
For meeting the demands of high capacity conveying at steep angles
Designed to prevent load slippage or roll back of products while conveying
Comes with cleats that are integrally molded with top cover rubber that prevents separation from belt
Cleats also helping in achieving high abrasion resistance as well as elastic rubber compounds for desired flexibility
Can be offered in different cleat heights as well as widths depending on application requirements
Can be made available in varied finish design specifications
Following precision design standards that ensure belt has smooth run on conventional return idlers, thus needing no conveyor modification
Belting support provided allowing smooth transition from conventional flat belt to Chevron Conveyor Belts
Can be manufactured in all cover grades including abrasion resistant M24, HR, OR, FR
Available in white finish that helps in maintaining better hygiene standards
Application Areas:
Some of the areas of application include for meeting the transportation demands of:
| Wood Chips | Sand & Gravel |
| Heavy Duty Scrap metal | Minerals – Coal & Ore |
| Materials – Fine Coal & Grains | Waste & Recycling Plants |
| Road Construction | Crushing Industries |
| Bagged Materials | Steel Pellets |
Selections:
Selection the type and height of cleats depends on the material to be conveyed and the angle of inclination:
| Type of material | Material example | Max. angle of inclination | |||
| Height of cleats | |||||
| H(mm): 14 |
H(mm): 16 |
H(mm): 25 |
H(mm): 32 |
||
| Powdery | Flour, etc. | 25° | 25° | 28° | 30° |
| Loose flowing | Corn, barley, wheat, rye, etc. | 20/25° | 20/25° | 25/30° | 25/30° |
| Loose rolling | Gravel, ground stone, etc. | 25° | 25° | 28° | 30° |
| Sticky | Wet sand, ash, wet loam, etc. | 30° | 30/35° | 35/40° | 40/45° |
| Packed | Sacks, paper sacks, etc. | 30/35° | 30/35° | 35/40° | 35/40° |
Cleat pattern ranges
1. Conveyor belts with Close V type profiles
2.Conveyor belts with U type profiles
3.Conveyor belts with Y type profiles
4.Conveyor belts with G type profiles
Picture
Shipping:
Certificate:
FAQ:
(1)Q: Are you a factory or trading company
A: We are factory with export license. We have the most convenient transportation conditions.
(2)Q: Do you offer samples?
A: We are glad to offer you free samples. New clients are expected to pay for the delivery cost,this charge will be deducted from the payment for formal order.
(3)Q: How about the lead time?
A: Within10-20 days after getting the prepayment or L/C.
(4)Q: How can we pay?
A: For small sample shipping cost, you can pay either by paypal or by T/T. And by T/T or L/C at sight for large amount of the order.
(5)Q: Can you do CO, Form E, Form F, Form A etc?
A: Yes, we can do them for you.
Welcome to visit our web: qdbothwin for more conveyor belt and rubber sheet information.
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| Type: | EP200 |
|---|---|
| Material: | Rubber |
| Inside Material: | Fabric |
| Feature: | Oil-Resistant, Acid And Alkali Resistant, Tear-Resistant, Heat-Resistant, Cold-Resistant |
| Tensile Strength: | Strong |
| Tensile: | 10-25MPa |
| Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
What are the cost considerations associated with using V-belts in power transmission?
When considering the use of V-belts in power transmission applications, several cost factors should be taken into account. Here are the key cost considerations associated with using V-belts:
- Initial Cost:
- Installation Cost:
- Maintenance Cost:
- Energy Efficiency:
- Replacement and Downtime Costs:
- Overall System Efficiency:
The initial cost of V-belts includes the purchase price of the belts themselves. V-belts are generally cost-effective compared to other power transmission options such as gears or chains. However, the specific cost can vary depending on factors such as belt type, size, and brand.
The installation cost involves the labor and time required to install the V-belts in the power transmission system. Compared to more complex power transmission systems, V-belts are relatively easy to install, requiring minimal specialized tools or expertise. This can result in lower installation costs.
V-belts generally require regular maintenance to ensure optimal performance and longevity. Maintenance activities such as belt tensioning, alignment checks, and periodic replacements contribute to the overall maintenance cost. However, compared to other power transmission systems, V-belts often have lower maintenance costs due to their simplicity.
V-belts offer good energy efficiency, as they typically have low friction losses during power transmission. This can result in lower energy consumption and reduced operating costs over time. Choosing high-quality V-belts with low slip and efficient power transfer characteristics can further enhance energy efficiency.
Over time, V-belts will wear out and require replacement. The frequency of belt replacements will depend on factors such as operating conditions, maintenance practices, and belt quality. Planned belt replacements can help minimize unexpected downtime and associated costs. However, unplanned belt failures can lead to costly downtime, lost production, and potential damage to other system components.
The efficiency of the entire power transmission system should be considered when evaluating costs. While V-belts themselves are relatively efficient, the overall system efficiency can be influenced by factors such as pulley design, alignment, and load conditions. A well-designed and properly maintained V-belt drive system can optimize efficiency and reduce long-term operating costs.
By considering these cost considerations associated with using V-belts in power transmission, you can make informed decisions about the selection, installation, and maintenance of V-belt drive systems to achieve a balance between upfront costs and long-term operational efficiency.
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.
What are the advantages of using V-belts in power transmission systems?
V-belts offer several advantages when used in power transmission systems:
- High friction: The V-shaped cross-section of the belt increases the contact area with the pulleys, resulting in high frictional forces. This allows for effective power transmission even in applications with high torque or heavy loads.
- Belt wedging: When the V-belt is tensioned, it wedges itself deeper into the pulley grooves, enhancing the friction and preventing slippage between the belt and the pulleys. This feature is especially useful in applications where the driven pulley needs to rotate at a different speed than the driving pulley.
- Quiet operation: V-belts generally operate with less noise compared to other types of belts, such as flat belts. The V-shaped design helps to reduce vibrations and noise levels during power transmission.
- Simple installation: V-belts are relatively easy to install and replace. They can be quickly mounted on the pulleys without requiring extensive alignment procedures.
- Cost-effective: V-belts are typically more affordable compared to other power transmission methods, such as gear systems or synchronous belts. This makes them a cost-effective choice for many applications.
- Flexibility: V-belts can accommodate misalignments and slight variations in pulley diameters. They can also operate in a wide range of temperature and humidity conditions, making them versatile for different environments.
- Energy efficiency: V-belts have relatively low energy losses during power transmission, resulting in efficient energy transfer between the driving and driven pulleys.
It’s important to note that while V-belts offer numerous advantages, they also have limitations. They are not suitable for applications that require precise speed control or when high-speed ratios are needed. In such cases, other power transmission methods may be more appropriate.
In conclusion, the advantages of using V-belts in power transmission systems include high friction, belt wedging, quiet operation, simple installation, cost-effectiveness, flexibility, and energy efficiency.
editor by CX 2024-04-03