Product Description
Application: as glass transmission for glass edging machine, glass beveling machine, glass double edger, sandblasting machine, glass tempering furnace, etc.
TimingĀ beltĀ isĀ madeĀ ofĀ thermoplasticĀ polyurethane,Ā andĀ steelĀ cordĀ orĀ kevlarĀ cord.WeĀ offerĀ fullĀ rangeĀ ofĀ PUĀ endlessĀ andĀ openĀ endĀ timingĀ belt.
Mechanical Properties
1. Dimension stability
2. Low preliminary tension
3. Low noise
4. High resistance to wear
5. Free from maintain
6, Excellent elasticity
7, Highest linear speed can be 80m/s
8, High precision of linear positioning
1.TheĀ endlessĀ timingĀ beltĀ isĀ madeĀ byĀ continuousĀ steelĀ wireĀ andĀ bondedĀ withĀ highĀ qualityĀ polyurethaneAnd Ā itsĀ serviceĀ timeĀ isĀ moreĀ thanĀ twoĀ timesĀ ofĀ open-endĀ timingĀ belt.
2.TheĀ belt’sĀ dimensionĀ toleranceĀ areĀ strictlyĀ limitedĀ toĀ Ā±0.05mm.Ā TheĀ beltĀ canĀ excellentĀ coincideĀ withĀ theĀ rabbet,Ā thisĀ canĀ avoidĀ theĀ vibration.
3.RedĀ rubberĀ orĀ PUĀ coatingĀ onĀ theĀ beltĀ backsideĀ is available according to customer’s requirements..
We can supply different specification of conveyor belt for glass straight line edging machine, glass bevelling machine, glass double edging machine, sandblasting machine, glass tempering furnace, etc.
sizes also can be customized,
Popular Models:
50AT20-7360 | 50AT20-7240 |
50AT20-8700 | 49.5AT10-6740+2.5APL |
50AT20-7420 | 50AT10-6340+5LOW-E |
74.5AT20-8040 | 60HTD14M-10948+PAZ+3RS |
49.5AT10-6980 | 60HTD14-9954+PAZ+3RS |
40T20-6400 | 60HTD14-9380+PAZ+3RS |
19AT20-3720 | 60HTD14-8386+PAZ+3RS |
22AT20-4640 | 25HTD8M-10696+2ES |
50XH5378.45+2PU | 50AT10-6340+5LOW-E |
38.1H5D80+2.5PUJ | 25T10-3650 |
20AT20-1120+2.5R | 25T10-4250+NFT |
20AT20-1600 | 16T10/6290-DL-V |
49.8AT10-8190+10GB+2R | 20AT20 1480 |
ABOUT US:
Lever Industry, located in HangZhou city, the foundation for glass tempering furnaces in the world, has established the entire series of technical solutions for the flat and bent tempered glass products to meet the demands in architectures, automotive, furniture, household appliances, automobiles and solar energy industries, especially, we could offer the most advanced complete automotive glass production line and highest automation flat glass laminating line.Ā
You could choose a single machine or an entire solution. The reasonable technical-commercial structure ensures the high efficiency and professional competence in each stage of the client-supplier business relations.Ā
Main Product Range:Ā
Automotive Glass Tempering Furnace
Architectural Glass Tempering Furnace
Bent Laminated Glass Furnace
Full Automatic Flat Laminated Glass Line
Spare Parts & Materials
We always believes in long-term value of maintaining good relationship with customers, and quality & service is our first concern, we have a team of engineers with tens of years experience in glass processing industry
We will provide you quality products, competitive price, technical support
Ā
Standard or Nonstandard: | Standard |
---|---|
Application: | Textile Machinery, Garment Machinery, Conveyer Equipment, Packaging Machinery, Mining Equipment, Agricultural Machinery |
Feature: | Flame-Retardant, Anti-Static, Oil-Resistant, Cold-Resistant, Corrosion-Resistant, Heat-Resistant, Alkali-Resistant, Skid-Resistance, Wear-Resistant, Acid-Resistant, High Temperature-Resistance |
Tensile Strength: | Strong |
Material: | PU |
Type: | Toothed Belt |
What is the importance of proper pulley alignment and tensioning in belt pulley systems?
Proper pulley alignment and tensioning are of utmost importance in belt pulley systems. They directly impact the efficiency, reliability, and longevity of the system. Here’s a detailed explanation of the importance of proper pulley alignment and tensioning:
1. Power Transmission Efficiency: Proper pulley alignment and tensioning ensure efficient power transmission in belt pulley systems. Misaligned pulleys or incorrect belt tension can lead to slippage, which results in power loss. When the belts slip on the pulleys, the intended power transfer from the driving pulley to the driven pulley is compromised. By aligning the pulleys correctly and maintaining proper tension, the belts grip the pulleys securely, allowing for efficient power transmission and maximizing the system’s overall efficiency.
2. Prevents Belt Wear and Damage: Improper pulley alignment and tensioning can cause excessive belt wear and damage. Misaligned pulleys can cause the belts to run at an angle, resulting in uneven wear on the belt’s edges. This can lead to premature belt failure and the need for frequent belt replacements. Insufficient or excessive belt tension can also cause accelerated wear, as it puts additional strain on the belts. Proper alignment and tensioning help distribute the load evenly across the belts, minimizing wear and extending their lifespan.
3. Reduces Noise and Vibration: Correct pulley alignment and tensioning contribute to reducing noise and vibration in belt pulley systems. Misaligned pulleys can cause the belts to vibrate and generate noise during operation. Excessive belt tension can lead to increased vibration as well. These vibrations and noise not only affect the comfort of operators but can also impact the overall stability and performance of the system. Proper alignment and tensioning help minimize vibration and noise levels, creating a smoother and quieter operation.
4. Improves System Reliability: Proper pulley alignment and tensioning enhance the reliability of belt pulley systems. Misalignment or improper tension can lead to unexpected belt failures, system downtime, and costly repairs. When the belts slip or wear unevenly, it can cause disruptions in power transmission, resulting in reduced system performance or complete failure. Proper alignment and tensioning minimize the risk of belt-related issues, ensuring the system operates reliably and consistently.
5. Enhances Component Life: Correct pulley alignment and tensioning contribute to the longevity of system components. When the belts run smoothly and grip the pulleys properly, it reduces stress on the pulleys, bearings, and other mechanical parts. Misalignment or excessive tension can cause unnecessary strain on these components, leading to premature wear and failure. Proper alignment and tensioning help distribute the load evenly, minimizing stress and extending the life of system components.
6. Facilitates Easy Maintenance: Proper pulley alignment and tensioning make maintenance tasks easier. When pulleys are aligned correctly, it simplifies belt replacement, adjustment, or inspection procedures. Easy access to the belts and pulleys allows for efficient maintenance and reduces downtime during servicing. Additionally, proper tensioning ensures that belts can be adjusted or replaced without difficulty, improving overall serviceability of the system.
7. Optimizes System Performance: Ultimately, proper pulley alignment and tensioning optimize the performance of belt pulley systems. When the belts are aligned correctly and tensioned properly, the power transmission is efficient, wear is minimized, and vibrations are reduced. This results in reliable and consistent system operation, allowing the system to perform at its intended level of efficiency and productivity.
In summary, proper pulley alignment and tensioning are essential for efficient power transmission, prevention of belt wear and damage, reduction of noise and vibration, and improvement of system reliability. They enhance the lifespan of system components, facilitate maintenance tasks, and optimize the overall performance of belt pulley systems. By ensuring correct alignment and tension, operators can maximize the efficiency, reliability, and longevity of their belt pulley systems.
What types of belts are commonly used with belt pulleys?
Several types of belts are commonly used in conjunction with belt pulleys for power transmission in various applications. The choice of belt depends on factors such as the specific requirements of the machinery, the desired power transmission characteristics, environmental conditions, and the type of pulley system being used. Here are some of the most commonly used types of belts:
1. V-Belts: V-belts, also known as Vee belts, are one of the most widely used types of belts with belt pulleys. They have a trapezoidal cross-section and typically feature a fabric cover and a rubber-like compound. V-belts are known for their high grip and power transmission capabilities, making them suitable for applications with moderate to high loads and speeds. They are commonly used in industries such as automotive, industrial machinery, and HVAC systems.
2. Timing Belts: Timing belts, also called synchronous belts, have toothed profiles on the inner side that engage with corresponding teeth on the pulley. This toothed design provides precise power transmission and prevents slippage. Timing belts are commonly used in applications that require precise synchronization of shafts and accurate positioning, such as in robotics, printing machinery, and automotive engines.
3. Flat Belts: Flat belts have a rectangular cross-section and are typically made of materials such as rubber, fabric, or synthetic compounds. They are flexible and can be easily customized to various lengths. Flat belts are commonly used in applications where high speeds and low power transmission requirements are present, such as in conveyor systems, textile machinery, and packaging equipment.
4. Round Belts: Round belts, also known as round O-ring belts, are circular belts made of materials such as rubber or urethane. They are flexible and can be easily joined to form endless loops. Round belts are commonly used in applications that require a lightweight and flexible power transmission solution, such as in small appliances, office equipment, and material handling systems.
5. Ribbed Belts: Ribbed belts, also called multi-rib belts or serpentine belts, have a ribbed or grooved design on the inner side. These ribs engage with corresponding grooves on the pulley, providing increased contact area and improved power transmission efficiency. Ribbed belts are commonly used in automotive engines, where they drive multiple accessories such as alternators, power steering pumps, and air conditioning compressors.
6. Variable Speed Belts: Variable speed belts, also known as adjustable speed belts or link belts, are made of individual links or segments that can be easily connected or disconnected to adjust the belt length. This allows for stepless speed variation and flexibility in power transmission. Variable speed belts are commonly used in applications where speed adjustment is required, such as in milling machines, woodworking equipment, and industrial conveyors.
These are just a few examples of the types of belts commonly used with belt pulleys. Each type of belt has its own unique characteristics and is suitable for specific applications based on factors such as load capacity, speed requirements, precision, and environmental conditions. The selection of the appropriate belt is crucial to ensure efficient and reliable power transmission in the machinery and equipment utilizing belt pulleys.
Can you explain the different types of belt pulleys and their applications?
There are several different types of belt pulleys, each designed for specific applications and requirements. The choice of pulley type depends on factors such as the power transmission needs, speed control requirements, space limitations, and the type of belt or rope used. Here’s an overview of some common types of belt pulleys and their applications:
1. V-Belt Pulleys: V-belt pulleys are one of the most widely used types of pulleys. They have a trapezoidal groove profile and are designed to accommodate V-belts, which have a corresponding cross-sectional shape. V-belt pulleys are commonly used in applications that require high torque transmission, such as in industrial machinery, automotive engines, and HVAC systems.
2. Flat Belt Pulleys: Flat belt pulleys have a flat or slightly crowned surface without any grooves. They are used with flat belts, which have a rectangular cross-section. Flat belt pulleys are suitable for applications that require high-speed power transmission, such as in textile machines, printing presses, and conveyor systems.
3. Timing Belt Pulleys: Timing belt pulleys, also known as synchronous pulleys, have teeth or grooves that mesh with the teeth of a timing belt. This design provides precise and synchronous power transmission, making them suitable for applications that require accurate positioning and timing, such as in robotics, CNC machines, and automotive engines.
4. Variable Speed Pulleys: Variable speed pulleys, also called adjustable or variable pitch pulleys, allow for continuous speed control by adjusting the effective diameter of the pulley. They feature movable pulley halves or arms that change the distance between the grooves, altering the speed ratio. Variable speed pulleys are used in applications where adjustable speed control is required, such as in machinery with variable loads or in variable speed drives.
5. Step Pulleys: Step pulleys have multiple grooves of different diameters arranged on the same pulley. By changing the belt position between these different grooves, the speed ratio can be adjusted. Step pulleys are commonly used in machines such as drill presses, lathes, and milling machines, where a range of predetermined speeds is required for different operations.
6. Idler Pulleys: Idler pulleys are not directly involved in power transmission but are used to redirect and tension the belt. They help maintain proper belt tension, improve belt wrap around the pulleys, and assist in achieving the desired belt path. Idler pulleys are commonly used in automotive engines, HVAC systems, and other belt-driven systems.
7. Clutch Pulleys: Clutch pulleys are specialized pulleys that incorporate a clutch mechanism. They allow for on-demand engagement and disengagement of the pulley from the driven shaft. Clutch pulleys are commonly used in automotive applications, such as in alternators, where they enable efficient power generation while reducing drag during idle or deceleration.
It’s important to note that these are just a few examples of belt pulley types, and there may be other specialized designs based on specific application requirements. The selection of the appropriate belt pulley type depends on factors such as the power transmission needs, speed control requirements, load capacity, and the type of belt or rope used.
In summary, different types of belt pulleys, such as V-belt pulleys, flat belt pulleys, timing belt pulleys, variable speed pulleys, step pulleys, idler pulleys, and clutch pulleys, are designed for specific applications and requirements. Understanding the characteristics and applications of these pulley types allows for the proper selection and utilization of belt pulleys in various mechanical systems.
editor by CX
2023-09-22