Product Description
| TYPE | Pitch P | Tooth angle | Tooth height hg | Belt thickness H |
| MXL | 2.032 | 40 | 0.51 | 1.14 |
| XL | 5.08 | 1.27 | 2.30 | |
| L | 9.525 | 1.91 | 3.60 | |
| H | 12.7 | 2.29 | 4.36 | |
| XH | 22.225 | 6.35 | 11.20 | |
| XXH | 31.75 | 9.53 | 15.70 |
| TYPE | Pitch P | Tooth angle | Tooth height hg | Belt thickness H |
| T2.5 | 2.5 | 40 | 0.70 | 1.30 |
| T5 | 5 | 1.20 | 2.20 | |
| T10 | 10 | 2.50 | 4.50 | |
| T20 | 20 | 5.00 | 8.00 |
| TYPE | Pitch P | Tooth angle | Tooth height hg | Belt thickness H |
| AT3 | 3 | 50 | 1.10 | 1.90 |
| AT5 | 5 | 1.20 | 2.70 | |
| AT10 | 10 | 2.50 | 4.50 | |
| AT20 | 20 | 5.00 | 8.00 |
| TYPE | Pitch P | Tooth height hg | Belt thickness H |
| 3M | 3 | 1.20 | 2.40 |
| 5M | 5 | 2.20 | 3.70 |
| 8M | 8 | 3.60 | 6.43 |
| 14M | 14 | 6.43 | 10.00 |
| 20M | 20 | 8.40 | 13.20 |
| TYPE | Pitch P | Tooth height hg | Belt thickness H |
| S2M | 2 | 0.76 | 1.36 |
| S3M | 3 | 1.14 | 1.90 |
| S5M | 5 | 1.85 | 3.35 |
| S8M | 8 | 3.05 | 5.30 |
| S14M | 14 | 5.30 | 10.00 |
| TYPE | Pitch P | Tooth height hg | Belt thickness H |
| P2M | 2 | 0.73 | 1.30 |
| P3M | 3 | 1.15 | 2.40 |
| P5M | 5 | 2.00 | 3.80 |
| P8M | 8 | 3.60 | 5.60 |
| P14M | 14 | 6.43 | 10.00 |
| Pitch | Pitch P | Tooth height hg | Belt thickness H |
| DT5 | 5 | 1.20 | 3.40 |
| DT10 | 10 | 2.50 | 7.00 |
| DAT5 | 5 | 1.20 | 3.90 |
| DAT10 | 10 | 2.50 | 7.00 |
| DHTD5M | 5 | 2.10 | 5.80 |
| DHTD8M | 8 | 3.48 | 9.00 |
| DL | 9.525 | 1.90 | 5.50 |
| DH | 12.7 | 2.29 | 6.60 |
Packing&Delivery:
We will use film to wrap the machine. then put into wooden box.
The normal package is wooden box.(Fumigation treatment).
Our Service:
Pre-sales Service
* Inquiry and consulting support.
* Sample testing support.
* Welcome view our Factory.
After-sales
*Teaching video to show how to work.
*Machine introduction word to show how to work.
Warranty
*Machines are new (or unused) and the guarantee period will be given 12 months from shipment date.
During this period, the seller will provide free maintenance and free spare parts that caused by the machine’s quality.
Parts damaged because of HangZhoudling and consumable parts are not covered by any warranty.
*All our machines have CE certificates and passed ISO9001-2008
HoloBelt Machines Collocation Solutions
Total solution is how we define Holobelt company. From design, engineering, manufacturing and training,
Holo provides a total workshop solution to our customers helping to give them a competitive advantage in the marketplace.
Workshop Show:
*Conveyor Belt Cutting Slitting Machine
*Conveyor Belt Ply Separator Splitting Machine
*Conveyor Belt Punching Finger Machine
*Conveyor Belt cooled hot press splicing Machine
*Conveyor Belt Welding Machine
*Conveyor Belt Vulcansied Machine
*PU PVC Rubber Conveyor Belt for sell
Contact infos!
Name:Rosa Chen
Facebook, Linkedin, Skype, Whatsapp, Wechat is online!
Any questions pls feel free to contact me!
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| Type: | Toothed Belt |
|---|---|
| Material: | PU, Rubber |
| Feature: | Oil-Resistant, Acid And Alkali Resistant, Tear-Resistant, Heat-Resistant, Cold-Resistant, Wear-Resistant |
| Customization: |
Available
| Customized Request |
|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
|---|
| Payment Method: |
|
|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
|---|
What are the reliability and durability aspects of V-belt tensioners in ensuring consistent tension?
V-belt tensioners play a crucial role in ensuring consistent tension in V-belt systems. Reliability and durability are essential aspects of V-belt tensioners that contribute to their ability to maintain consistent tension over time. Here’s a detailed explanation of the reliability and durability aspects of V-belt tensioners in ensuring consistent tension:
- Construction Materials:
- Design and Engineering:
- Bearing Systems:
- Wear and Fatigue Resistance:
- Environmental Resistance:
The choice of construction materials significantly affects the reliability and durability of V-belt tensioners. High-quality materials with excellent strength, wear resistance, and corrosion resistance are essential for long-term performance. Common materials used in tensioner construction include robust metals, advanced polymers, and specialized alloys. These materials ensure that the tensioner can withstand the forces and operating conditions encountered in V-belt systems, such as high loads, belt tension, temperature variations, and exposure to contaminants.
The design and engineering of V-belt tensioners are critical factors in their reliability and durability. Tensioners should be designed to distribute loads evenly, minimize stress concentrations, and provide smooth operation. Advanced engineering techniques, such as finite element analysis, are employed to optimize the design and ensure structural integrity. Additionally, attention to detail in the design process helps to minimize potential failure points, improve load-carrying capacity, and enhance overall performance.
The bearing systems within V-belt tensioners are crucial for their reliable operation. High-quality bearings, such as ball bearings or roller bearings, are used to support the rotating components and withstand the radial and axial loads. Proper bearing selection, lubrication, and sealing mechanisms are essential to ensure smooth rotation, minimize friction, and prevent premature wear. Reliable bearing systems contribute to the consistent performance of the tensioner and help maintain the desired tension in the V-belt system.
V-belt tensioners are subjected to continuous cyclic loads and motion, which can lead to wear and fatigue over time. To ensure durability and reliability, tensioners are designed and constructed to resist wear and fatigue. This may involve the use of wear-resistant coatings, hardened surfaces, or specialized materials that can withstand repetitive loading without deformation or failure. By incorporating wear and fatigue-resistant features, tensioners can maintain their performance and tensioning capabilities over an extended service life.
V-belt tensioners often operate in diverse environmental conditions, including temperature extremes, humidity, dust, and chemical exposure. Reliable tensioners are designed to withstand these environmental factors and provide consistent tension regardless of the operating environment. Protective coatings, seals, and corrosion-resistant materials are employed to prevent damage from contaminants or chemical exposure. By ensuring environmental resistance, tensioners can maintain their functionality and performance, thereby ensuring consistent tension in V-belt systems.
In summary, the reliability and durability of V-belt tensioners are crucial aspects in ensuring consistent tension in V-belt systems. Construction materials, design and engineering, bearing systems, wear and fatigue resistance, and environmental resistance all contribute to the long-term performance and reliability of tensioners. By selecting high-quality tensioners that are designed and constructed to withstand the demands of V-belt applications, users can have confidence in the consistent tensioning capabilities of the tensioner, leading to reliable and efficient operation of the V-belt system.
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:
- Increased Durability and Reliability:
- Reduced Friction and Energy Losses:
- Integration of Diagnostic and Monitoring Features:
- Application-Specific Customization:
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.
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.
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.
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.
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.
What is a V-belt tensioner, and how does it contribute to the performance of V-belt systems?
A V-belt tensioner is a mechanical device used to maintain the proper tension in V-belt systems and contribute to their overall performance. V-belts are commonly used in various applications, such as automotive engines, industrial machinery, and power transmission systems. Here’s a detailed explanation of what a V-belt tensioner is and how it enhances the performance of V-belt systems:
- Definition of a V-Belt Tensioner:
- Tension Control:
- Preventing Slippage:
- Load Distribution:
- Maintaining Belt Alignment:
A V-belt tensioner is a component designed to apply and maintain the correct tension in V-belts. It is typically a pulley or an assembly of pulleys mounted on an adjustable arm or spring-loaded mechanism. The tensioner is positioned in the belt path and exerts force on the belt to keep it properly tensioned. By controlling the tension, the V-belt tensioner ensures optimal power transmission, minimizes slippage, and promotes the longevity of the V-belt.
The primary function of a V-belt tensioner is to control the tension in the V-belt. It applies the appropriate force to maintain the desired tension, which is crucial for the efficient operation of the V-belt system. Proper tensioning prevents slippage between the belt and the pulleys, ensuring reliable power transmission and maximizing the performance of the system. The tensioner compensates for changes in belt length due to wear, thermal expansion, or other factors, allowing the V-belt to operate within its optimal tension range.
V-belt tensioners play a vital role in preventing slippage between the V-belt and the pulleys. Slippage can occur when the belt loses traction with the pulleys due to insufficient tension or excessive loads. The tensioner maintains the proper tension in the V-belt, keeping it tightly engaged with the pulleys. This prevents slippage, ensures efficient power transfer, and minimizes energy losses. By preventing slippage, the tensioner contributes to the overall performance and reliability of the V-belt system.
A V-belt tensioner helps distribute the load evenly across the V-belt and the pulleys. Even load distribution is essential to minimize localized stresses and prevent premature wear or failure of the belt. The tensioner applies tension across the entire width of the V-belt, promoting uniform contact with the pulleys and equal distribution of the load. This even load distribution enhances the lifespan of the V-belt, reduces the risk of belt damage, and ensures the reliable operation of the V-belt system.
Proper alignment of the V-belt with the pulleys is crucial for efficient power transmission and extended belt life. V-belt tensioners often incorporate features that help maintain belt alignment. These features can include guide rollers or pulley systems that guide the V-belt and prevent it from wandering or misaligning with the pulleys during operation. By ensuring correct belt alignment, the tensioner minimizes wear, reduces the risk of belt damage, and promotes the overall performance of the V-belt system.
In summary, a V-belt tensioner is a mechanical device that maintains proper tension in V-belt systems. It controls the tension in the V-belt, prevents slippage, promotes even load distribution, and helps maintain belt alignment. By performing these functions, the V-belt tensioner enhances the performance and reliability of V-belt systems in various applications. It ensures efficient power transmission, minimizes energy losses, and contributes to the longevity of the V-belt by preventing slippage, distributing the load evenly, and maintaining proper alignment.
editor by CX 2023-12-27