Product Description
Product Description
Head Drive Pulley, Return Pulley,Bend Pulley, Snub Pulley,Tensioning Pulley, Take up Pulley can be provided. We are designing and manufacturing pulleys, using materials of the highest quality in a production process employing advanced technology. This together with the application of the Quality Assurance system certifi ed to ISO 9001:2015, contributes to the production of high quality products offering dependable, long life performance in the field and appreciably reducing maintenance cost. Each our conveyor pulley is individually computer designed to meet the client’s requirements.
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Product Name |
Belt Conveyor Pulley Drum |
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Type |
Drive Pulley, Bend Pulley,Snub Pulley,Take Up Pulley | ||
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Length |
200mm-2500mm |
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Materials |
Carbon steel, Stainless steel, Rubber |
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Surface Treatment |
Smooth, CHINAMFG grooved lagging, Herringbone lagging, Ceramic lagging |
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Welding |
Submerged Arc Welding |
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Bearing |
Famous brands |
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Structure |
Tube,shaft,self-aligning bearing,bearing seat/house,hub, locking bushing,end disc |
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Drive Pulley Introduction:
1. Head/Drive Pulley is located at the discharge terminus of the conveyor.
2. Drive pulley provides the driving force for the conveyor. In order to increase pulley life and traction, it often has a larger diameter than other pulleys.
3. We can supply pulleys with hot vulcanized rubber lagging, plain or grooved, as required by client. Different patterns of grooving such as herringbone or CHINAMFG can be provided to increase tractive friction under dirty or wet conditions. CHINAMFG grooves have the advantage of being installed in any orientation, regardless of belt direction.
Specification of Drive Head Pulley Drum
| Belt Width | 500-2800mm (19-110 inch) |
| Pulley Length | 500-3500mm (19-138 inch) |
| Diameter | 200-1800mm (8-70 inch) |
| Standard | ISO9001:2008, CEMA, DIN, TUV, JIS, AS/NS, etc. |
| Working Life | More than 30,000 hours. |
| Surface | Flat Rubber Lagged, Ceramic Lagged, CHINAMFG Rubber Lagged, etc. |
| Main Material | Carbon Steel |
| Length of conveyor drive pulley depends on the width of conveyor Belt. You can get drive pulleys with hot & cold vulcanized rubber lagging, plain or grooved, as required by client. | |
Bend Pulley Introduction:
1. The bend pulley is used for changing the direction of the belt.
2. The bend pulley is usually installed at the tail part or the vertical take-up equipment part when the belt direction need to 180°bending. It will be installed above the take-up equipment part while 90°bending.
3. The pulley, which is used for extending the contact surface, is usually used for below or equal to 45 degree bending.
4. The surface treatment of the bend pulley can be smooth steel and flat rubber lagging.
Specification of Bend Pulley:
| Belt Width | 500-2800mm(19-110 inch) |
| Pulley Length | 500-3200mm(19-126 inch) |
| Diameter | 200-1800mm(8-70 inch) |
| Standard | ISO9001:2008, CEMA, DIN, TUV, etc. |
| Working Life | More than 30,000 hours. |
| Surface | Flat Rubber Lagged, Ceramic Lagged, CHINAMFG Rubber Lagged, etc. |
| Main Material | Carbon Steel |
| Length of conveyor bend pulley depends on the width of conveyor Belt. You can get drive pulleys with hot vulcanized rubber lagging, plain or grooved, as required by client. | |
Snub Pulley
Snub pulley is used to achieve higher angle of wrap on the drive pulley thereby increasing the traction. It also reduces the belt tension maximizing the life of the conveyor component.It is mounted close to the drive pulley on the return side of the belt.
Specification of Snub Pulley:
| Items | Content |
| Belt Width | 500-2800mm (19-110 inch) |
| Pulley Length | 500-3200mm (19-126 inch) |
| Diameter | 200-1800mm (8-70 inch) |
| Standard | ISO9001:2008, CEMA, DIN, TUV, etc. |
| Working Life | More than 30,000 hours. |
| Surface | Flat Rubber Lagged, Ceramic Lagged, CHINAMFG Rubber Lagged, etc. |
| Main Material | Carbon Steel |
| Length of conveyor Snubpulley depends on the width of conveyor Belt. You can get Snubpulleys with hot vulcanized rubber lagging, plain or grooved, as required by client. | |
Take Up Pulley
The take up pulley will ensure adequate tension of the belt leaving the drive pulley so as to avoid any slippage of the belt, ensure proper belt tension at the loading and other points along the conveyor, compensate for changes in belt length due to elongation, and provide extra length of belt when necessary for splicing purpose.
Specification of take up pulley drum:
| Belt Width | 500-2800mm(19-110 inch) |
| Pulley Length | 500-3200mm(19-126 inch) |
| Diameter | 200-1800mm(8-70 inch) |
| Standard | ISO9001:2008, CEMA, DIN, TUV, etc. |
| Working Life | More than 30,000 hours. |
| Surface | Flat Rubber Lagged, Ceramic Lagged, CHINAMFG Rubber Lagged, etc. |
| Main Material | Carbon Steel |
The components of a pulley drum include the following:
| Drum or Shell | The drum is the portion of the pulley in direct contact with the belt. The shell is fabricated from either a rolled sheet of steel or from hollow steel tubing.The shell has a specific ‘face’ width and diameter which is determined by the width of the belting and the type and rating of the belt to be used on the conveyor. | |
| Diaphragm Plates | The diaphragm or end plates of a pulley are circular discs which are fabricated from thick steel plate and which are welded into the shell at each end, to strengthen the drum.The end plates are bored in their centre to accommodate the pulley shaft and the hubs for the pulley locking elements. | |
| Shaft | The shaft is designed to accommodate all the applied forces from the belt and / or the drive unit, with minimum deflection.The shaft is located and locked to the hubs of the end discs by means of a locking elements. The shaft is supported on both ends by bearings which are housed in plummer blocks, to support the shaft and pulley assembly on the conveyor structure. Shafts often comprise different diameters along their length due to the bending moments and resultant deflection limitations. The diameter of the shaft at the landings for the bearings may be smaller to satisfy the necessary bearing diameter which is more cost-effective (smaller). Similarly in the case of a drive shaft, the drive attachment, may be different to the other diameters along the shaft and hence pulley shafts are often stepped. |
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| Locking Elements | These are high-precision manufactured items which are fitted over the shaft and into the pulley hubs. The locking elements attach the pulley firmly to the shaft via the end plates.Locking elements work on the friction-grip principle whereby the element is able to be fastened to the shaft and hub simultaneously and concentrically, by tightening a series of screws around the locking element. | |
| Hubs | The hubs are fabricated and machined housings which are welded into the end plates. The hubs are sized according to the size of the pulley, the diameter of the shaft and the size of the locking element which is required for the specific duty. | |
| Lagging | It is sometimes necessary or desirable to improve the friction between the conveyor belt and the pulley in order to improve the torque that can be transmitted through a drive pulley.Improved traction over a pulley also assists with the training of the belt. In such cases pulley drum surfaces are ‘lagged’ or covered in a rubberized material. This cover is usually 8 mm to 12 mm thick and can be plain or have a grooved pattern. The rubber lagging is vulcanized to the pulley shell to ensure that it remains attached under adverse operating conditions. |
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| Bearing Assemblies | Bearings support the rotating shaft and hence the pulley. The bearings are housed in ‘plummer blocks’ which enable the mass of the pulley assembly plus the belt tension forces to be transmitted to the pulley supporting structure.Plummer blocks are often bolted to ‘sole plates’ which are welded to the structure. The sole plates incorporate jacking screws to enable the pulley to be correctly and relatively easily aligned. |
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Several types of bearing housing, seals and end disc:
Pulley Drum Warehouse and package:
Pulley Drums:
Our Products: Belt Conveyors, Pulley Drum, Conveyor Rollers Idler, etc.
| Material: | Stainless Steel |
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| Surface Treatment: | Polishing |
| Motor Type: | Frequency Control Motor |
| Samples: |
US$ 200/Piece
1 Piece(Min.Order) | Order Sample red black,89mm,
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| Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can drive belt pulleys be part of DIY automotive maintenance and repairs?
Yes, drive belt pulleys can be part of DIY automotive maintenance and repairs, depending on the specific task and the individual’s skill level. Here’s a detailed explanation:
1. Inspecting and Replacing Drive Belts:
One common DIY maintenance task involving drive belt pulleys is inspecting and replacing the drive belts. Over time, drive belts can wear out, fray, or develop cracks, affecting their performance and reliability. By following proper safety precautions and consulting the vehicle’s manual, DIY enthusiasts can visually inspect the drive belts and identify signs of wear or damage. If necessary, they can remove the old belt and install a new one, which may involve loosening or removing the drive belt pulley to facilitate the belt replacement.
2. Adjusting Belt Tension:
Another DIY task related to drive belt pulleys is adjusting the belt tension. Drive belts need to be properly tensioned for optimal performance and longevity. Some vehicles have adjustable pulleys or tensioners that allow for belt tension adjustment. DIY enthusiasts can learn how to use the appropriate tools to adjust the tension by following the vehicle’s manual or online tutorials. This task may involve loosening or tightening the drive belt pulley to achieve the desired tension.
3. Replacing Drive Belt Pulleys:
In certain cases, drive belt pulleys may become worn, damaged, or develop faults that affect their functionality. DIY enthusiasts with intermediate to advanced mechanical skills can learn to replace drive belt pulleys themselves. This task typically involves removing the drive belt, unbolting the old pulley, and installing a new one. It’s important to ensure the correct pulley size, type, and specifications are selected to maintain proper power transmission and alignment.
4. Upgrading Drive Belt Pulleys:
Some DIY enthusiasts may choose to upgrade their drive belt pulleys to improve performance or accommodate specific modifications. For example, performance-oriented enthusiasts may opt for lightweight pulleys made from materials like aluminum, which can reduce rotational mass and improve engine response. However, it’s crucial to research and select pulleys that are compatible with the vehicle’s engine and accessories, as improper pulley modifications can negatively impact performance and reliability.
5. Seeking Professional Assistance:
It’s important to note that working with drive belt pulleys and power transmission systems requires mechanical knowledge and skills. If DIY enthusiasts are unsure about their abilities or encounter complex issues, it’s recommended to seek professional assistance from qualified mechanics or automotive technicians. They have the expertise and specialized tools to handle more intricate repairs and ensure proper installation and alignment of drive belt pulleys.
By considering their skill level, following safety precautions, and consulting reliable resources, DIY enthusiasts can incorporate drive belt pulleys into their automotive maintenance and repairs. However, it’s essential to recognize personal limitations and seek professional help when needed to avoid potential risks or further damage to the vehicle.
How do drive belt pulleys impact the performance of industrial machinery?
Drive belt pulleys play a significant role in the performance of industrial machinery. Here’s a detailed explanation of how drive belt pulleys impact the performance of industrial machinery:
1. Power Transmission:
Drive belt pulleys are responsible for transmitting power from the motor or engine to various components of industrial machinery. They provide the mechanical linkage between the power source and driven equipment, such as pumps, compressors, conveyors, and machines. The design and quality of the pulleys directly affect the efficiency and reliability of power transmission, impacting the overall performance of the machinery.
2. Speed Control:
Drive belt pulleys are instrumental in controlling the rotational speed of driven equipment. By using pulleys of different sizes or employing pulley systems with multiple belts, the speed ratio can be adjusted to meet specific operational requirements. This allows for precise control of machinery speed, which is crucial in applications that require varying operating speeds or synchronization with other processes.
3. Torque Transfer:
Drive belt pulleys facilitate the transfer of torque from the motor or engine to the driven equipment. The pulley design, including its diameter, groove size, and belt type, determines the torque-carrying capacity. Properly sized and designed pulleys ensure that the required torque is effectively transferred to the driven components, enabling the machinery to perform the necessary tasks with adequate force.
4. Belt Tension and Stability:
Drive belt pulleys help maintain proper belt tension, which is crucial for the stability and performance of industrial machinery. Tensioned belts ensure reliable power transmission by preventing slippage and maintaining sufficient contact between the pulleys and belts. The pulley design may include features such as tensioning mechanisms or adjustable pulley positions to facilitate proper belt tensioning and stability.
5. Load Distribution:
Drive belt pulleys aid in distributing the load across the machinery’s components. By properly sizing and aligning the pulleys, the load can be evenly distributed among the belts, pulleys, and driven equipment. This helps prevent excessive wear and stress on individual components, prolonging their lifespan and ensuring the overall performance and durability of the machinery.
6. Noise and Vibration Reduction:
Well-designed drive belt pulleys contribute to reducing noise and vibration levels in industrial machinery. Proper alignment, balance, and surface quality of the pulleys minimize vibration and noise generation during operation. This enhances the working environment, reduces operator fatigue, and improves overall equipment performance.
7. Maintenance and Serviceability:
The design of drive belt pulleys can impact the ease of maintenance and serviceability of industrial machinery. Pulleys that are accessible, have removable covers or guards, and allow for straightforward belt replacement or tension adjustment simplify maintenance procedures. This reduces downtime and ensures that the machinery remains operational and productive.
8. System Flexibility and Adaptability:
Drive belt pulleys offer flexibility and adaptability in industrial machinery. They allow for the integration of different power sources and driven equipment, enabling customization and expansion of the machinery’s capabilities. By changing pulley sizes or configurations, the machinery can be adapted to different operating conditions, power requirements, or production demands.
Overall, drive belt pulleys have a crucial impact on the performance of industrial machinery. They facilitate power transmission, speed control, torque transfer, belt tension, load distribution, noise reduction, maintenance, and system flexibility. Proper selection, design, and maintenance of drive belt pulleys are essential to optimize the performance, efficiency, and reliability of industrial machinery.
What are the advantages of using drive belt pulleys in automotive engines?
Drive belt pulleys offer several advantages when used in automotive engines. Here’s a detailed explanation of the advantages of using drive belt pulleys in automotive engines:
1. Power Distribution:
Drive belt pulleys enable efficient power distribution within the automotive engine. They transfer power from the engine’s crankshaft to various components such as the alternator, water pump, power steering pump, air conditioning compressor, and supercharger. This ensures that these components receive the necessary power to operate effectively, contributing to the overall performance of the vehicle.
2. Versatility:
Drive belt pulleys are versatile components that can accommodate multiple belts and drive various accessories simultaneously. They can be designed to have multiple grooves, allowing them to drive different systems and components within the automotive engine. This versatility enables the integration of various systems and accessories, enhancing the functionality and convenience of the vehicle.
3. Easy Maintenance:
Drive belt pulleys are relatively easy to maintain and replace. If a belt becomes worn or damaged, it can be easily removed and replaced without the need for extensive disassembly of the engine. This simplifies maintenance tasks and reduces downtime during repairs or belt replacements, ensuring that the vehicle can be quickly back on the road.
4. Efficiency and Performance:
Drive belt pulleys contribute to the overall efficiency and performance of automotive engines. By properly transferring power to driven components, they ensure the optimal operation of systems such as the alternator for electrical generation, the water pump for engine cooling, and the power steering pump for smooth steering. This results in improved fuel efficiency, reliable performance, and enhanced driving experience.
5. Cost-Effectiveness:
Using drive belt pulleys in automotive engines can be cost-effective. Compared to alternative power transmission systems, such as gear-driven systems, drive belt pulleys are often more affordable to manufacture and maintain. They also provide flexibility in accommodating different belt sizes and types, allowing for cost-effective customization based on specific vehicle requirements.
6. Noise and Vibration Damping:
Drive belt pulleys help dampen noise and vibrations generated by the engine and other components. The flexibility and elasticity of the belt, along with the design of the pulley, act as a cushion, reducing the transmission of vibrations and providing smoother operation. This contributes to a quieter and more comfortable driving experience.
7. Compact Design:
Drive belt pulleys have a compact design, which is advantageous in automotive engines where space is often limited. They can be integrated into the engine layout without requiring significant additional space or complex modifications. This compact design allows for efficient packaging of the engine components and contributes to overall vehicle weight reduction.
8. Customization and Compatibility:
Drive belt pulleys can be customized and designed to be compatible with specific automotive engine configurations. This ensures proper fitment and alignment with the engine’s components, reducing the risk of misalignment, slippage, or premature wear. Customization also allows for the adaptation of drive belt pulleys to different vehicle models and engine variations.
Overall, the use of drive belt pulleys in automotive engines provides advantages such as efficient power distribution, versatility, easy maintenance, improved efficiency and performance, cost-effectiveness, noise and vibration damping, compact design, and customization options. These advantages contribute to the reliable operation, optimal performance, and enhanced driving experience of vehicles equipped with drive belt pulley systems.
editor by CX
2023-11-20