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.
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| Material: | Stainless Steel |
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| Surface Treatment: | Polishing |
| Motor Type: | Frequency Control Motor |
| Installation: | Horizontal |
| Carrying Type: | Light, Medium, Heavy |
| Light Connection Mode: | The Shaft and Hub Are Single-Width Plate Welded Cy |
| Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
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| Customization: |
Available
| Customized Request |
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What is the significance of proper alignment and tensioning in idler pulley systems?
Proper alignment and tensioning in idler pulley systems are of utmost significance for their optimal performance and longevity. Here’s a detailed explanation of the significance of proper alignment and tensioning:
1. Efficient Power Transmission:
Proper alignment and tensioning ensure efficient power transmission in idler pulley systems. When the belts or chains are correctly aligned with the pulleys, there is maximum contact and engagement, minimizing slippage and power loss. Optimal tensioning ensures that the belts or chains are appropriately tensioned, allowing for efficient transfer of power from the driving pulley to the driven pulley. Efficient power transmission improves the overall performance and productivity of the system.
2. Reduced Wear and Tear:
Proper alignment and tensioning help reduce wear and tear on belts, chains, pulleys, and other system components. Misalignment or inadequate tension can cause excessive stress, uneven loading, and premature wear. Misaligned belts or chains can rub against pulleys or adjacent components, leading to accelerated wear and potential damage. By ensuring proper alignment and tensioning, the system components experience minimal friction, resulting in reduced wear and extended service life.
3. Noise Reduction:
Proper alignment and tensioning contribute to noise reduction in idler pulley systems. Misaligned belts or chains can generate noise due to rubbing or vibration. Inadequate tensioning can cause belts or chains to slip or vibrate, resulting in noise generation. By aligning the belts or chains accurately and applying the correct tension, the system operates smoothly and quietly, enhancing the comfort and usability of the equipment.
4. System Stability and Reliability:
Proper alignment and tensioning promote system stability and reliability. When belts or chains are aligned correctly, they remain securely engaged with the pulleys, minimizing the risk of disengagement or derailing. Optimal tensioning ensures that the belts or chains maintain consistent tension, preventing slack or excessive tightness that could compromise system operation. A stable and reliable idler pulley system is crucial for maintaining continuous and trouble-free operation in various applications.
5. Extended Component Lifespan:
Proper alignment and tensioning help extend the lifespan of system components, including belts, chains, pulleys, and bearings. Misalignment and improper tensioning exert additional stress on these components, leading to accelerated wear and potential failure. By maintaining proper alignment and tension, the load is evenly distributed, reducing the strain on individual components and promoting their durability. Extended component lifespan translates to reduced maintenance costs and increased overall system productivity.
6. Safety:
Proper alignment and tensioning contribute to the safety of idler pulley systems. Misaligned belts or chains can pose safety hazards by coming into contact with surrounding equipment or personnel. Inadequate tensioning can result in sudden belt or chain disengagement, causing unexpected machine shutdowns or potential injuries. By ensuring proper alignment and tensioning, the risk of accidents or equipment damage is minimized, enhancing the safety of the working environment.
Overall, proper alignment and tensioning are vital for the efficient operation, reliability, longevity, noise reduction, and safety of idler pulley systems. Regular inspection, adjustment, and maintenance of alignment and tensioning parameters are essential to optimize system performance and maintain the integrity of the components involved.
How do idler pulleys impact the performance of automotive and industrial systems?
Idler pulleys play a crucial role in the performance of automotive and industrial systems. Here’s a detailed explanation of how idler pulleys impact the performance of these systems:
1. Belt Tension and Stability:
Idler pulleys help maintain proper belt tension in automotive and industrial systems. They guide and support the belts, ensuring they remain engaged with the pulleys and operate with the desired tension. Proper belt tension is crucial for efficient power transmission, preventing slippage, and maintaining stability in the system. Idler pulleys contribute to the overall reliability and performance of the system by ensuring consistent and reliable belt tension.
2. Belt Routing and Alignment:
Idler pulleys assist in routing and aligning belts in automotive and industrial systems. They are strategically positioned to guide the belts along the desired path, ensuring they are properly aligned with other pulleys and components. Correct belt routing and alignment minimize wear, reduce noise, and optimize power transfer efficiency. Idler pulleys help maintain the desired belt alignment, which is crucial for the smooth operation and longevity of the system.
3. Load Distribution:
Idler pulleys contribute to the even distribution of loads in automotive and industrial systems. By guiding the belts and supporting their movement, idler pulleys help distribute the load evenly across the system. This helps prevent excessive stress on specific components and promotes balanced wear and tear. Proper load distribution enhances the overall performance, reliability, and lifespan of the system.
4. Noise and Vibration Reduction:
Idler pulleys play a role in reducing noise and vibration in automotive and industrial systems. They help dampen vibrations caused by belt operation, minimizing noise and improving the comfort and user experience. By reducing noise and vibration levels, idler pulleys contribute to a quieter and smoother operation of the system.
5. System Efficiency and Energy Conservation:
Efficient idler pulley operation positively impacts the overall efficiency of automotive and industrial systems. Well-designed idler pulleys with low friction and proper bearing selection minimize power losses and maximize energy conservation. Idler pulleys that operate smoothly and efficiently contribute to improved system performance and reduced energy consumption.
6. Component Protection:
Idler pulleys help protect other system components, such as belts, by ensuring proper tension, alignment, and load distribution. By maintaining optimal belt operation, idler pulleys prevent excessive wear, slippage, and premature failure of belts and other related components. This protection enhances the reliability and longevity of the entire system.
7. System Reliability and Durability:
The proper functioning of idler pulleys is crucial for the overall reliability and durability of automotive and industrial systems. Idler pulleys that are correctly sized, well-maintained, and appropriately lubricated contribute to the smooth and continuous operation of the system. They help minimize downtime, reduce the risk of component failure, and ensure the system can perform its intended functions reliably over an extended period.
Overall, idler pulleys have a significant impact on the performance, efficiency, reliability, and durability of automotive and industrial systems. Their role in maintaining belt tension, routing and alignment, load distribution, noise reduction, system efficiency, component protection, and overall system reliability makes them essential components in these applications.
How does an idler pulley contribute to the proper tensioning of belts and chains?
An idler pulley plays a crucial role in maintaining proper tension in belts and chains within mechanical systems. Let’s explore how an idler pulley contributes to the proper tensioning:
1. Taking Up Slack:
When a belt or chain is installed in a system, there may be some initial slack or looseness. The idler pulley is strategically positioned to take up this slack by applying tension to the belt or chain. It helps to eliminate any excessive play and ensures that the belt or chain remains properly tensioned.
2. Compensation for Thermal Expansion and Wear:
Belts and chains can experience thermal expansion during operation due to changes in temperature. Additionally, over time, belts and chains may stretch or wear out. The presence of an idler pulley allows for compensation of these factors by providing an adjustable point of tension. The idler pulley can be adjusted to maintain the desired tension, compensating for any expansion or wear that may occur.
3. Preventing Belt or Chain Slippage:
If a belt or chain is not properly tensioned, it can slip or derail from the pulleys or sprockets it is meant to drive. This can lead to loss of power transmission, reduced efficiency, and potential damage to the system. The idler pulley applies the necessary tension to keep the belt or chain securely engaged with the other pulleys or sprockets, preventing slippage and ensuring reliable power transfer.
4. Maintaining Belt or Chain Alignment:
Proper alignment of belts and chains is essential for smooth operation and efficient power transmission. The idler pulley helps maintain alignment by guiding the belt or chain along the correct path and preventing it from wandering or deviating from the intended route. This contributes to reduced wear, noise, and vibration in the system.
5. Absorbing Shock and Reducing Vibrations:
An idler pulley can also help absorb shock and reduce vibrations within the belt or chain system. By providing a point of contact and tension, the idler pulley helps to dampen any sudden or excessive movements, resulting in smoother operation and reduced stress on the system components.
It’s important to note that the proper tensioning of belts and chains requires careful consideration of factors such as the manufacturer’s specifications, load requirements, and operating conditions. The idler pulley, along with other tensioning devices in the system, should be adjusted and maintained to ensure optimal performance and longevity of the belts and chains.
editor by CX
2024-04-16