Product Description
Product Description
A conveyor will always consist of at least 2 pulleys, head pulley and tail pulley, with additional pulleys used depending on the configuration. Standard-duty pulleys are usually adequate for simple applications, but mine-duty and engineered pulleys are also available where heavy-duty pulleys are required.
Different kinds of conveyor pulleys
KONWEYOUR sells conveyor pulleys in all the following sub-categories:
Head pulleys
The head pulley is located at the discharge point of the conveyor. It usually drives the conveyor and often has a larger diameter than other pulleys. For better traction, the head pulley is usually lagged (with either rubber or ceramic lagging material).
Tail and CHINAMFG pulleys
The tail pulley is located at the loading end of the belt. It comes with either a flat face or a slatted profile (wing pulley), which cleans the belt by allowing material to fall between the support members.
Snub pulleys
A snub pulley improves the traction of the drive pulley, by increasing its belt wrap angle.
Drive pulleys
Drive pulleys, which can also be the head pulley, are driven by a motor and power transmission unit to propel the belt and material to the discharge.
Bend pulleys
A bend pulley is used for changing the direction of the belt.
Take-up pulley
A take-up pulley is used to provide the belt with the proper amount of tension. Its position is adjustable.
Product Parameters
| Type | Belt width(mm) | Standard Diameter(mm) | Length(mm) |
| Drive Pulley | 500 | 500 |
Length of the pulley depends on the belt width of the conveyor |
| 650 | 500~630 | ||
| 800 | 630~1000 | ||
| 1000 | 800~1150 | ||
| 1200 | 800~1150 | ||
| 1400 | 1000~1350 | ||
| 1600 | 1150~1600 | ||
| 1800 | 1150~1800 | ||
| 2000 | 1350~2000 | ||
| 2200 | 1600~2200 | ||
| 2400 | 1800~2400 | ||
| Bend Pully | 500 | 250~500 | |
| 650 | 250~630 | ||
| 800 | 250~1000 | ||
| 1000 | 250~1600 | ||
| 1200 | 250~1600 | ||
| 1400 | 315~1600 | ||
| 1600 | 400~1600 | ||
| 1800 | 400~1600 | ||
| 2000 | 500~1600 | ||
| 2200 | 630~1600 | ||
| 2400 | 800~1600 |
Packaging & Shipping
Detailed Photos
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| Material: | Carbon Steel |
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| Surface Treatment: | Baking Paint |
| Motor Type: | Frequency Control Motor |
| 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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How are drive pulleys used in the production of paper and printing machinery?
Drive pulleys play a crucial role in the production of paper and printing machinery by providing power transmission and control. They are used in various stages of the paper manufacturing process, as well as in the operation of printing presses. Here are some key ways in which drive pulleys are utilized in these industries:
1. Paper Manufacturing:
In the paper manufacturing process, drive pulleys are employed in several key steps:
- Pulping: Drive pulleys are used in pulping machines to break down raw materials, such as wood chips or recycled paper, into a pulp. The pulleys help drive the rotating blades or beaters that break down the materials.
- Paper Machine: In the paper machine, drive pulleys are used to control the movement of the paper web. They are used in the forming section to guide and control the flow of pulp onto the wire mesh, allowing water to drain and forming the paper sheet. Drive pulleys are also used in the pressing and drying sections, where they help control the tension and speed of the paper as it passes through various rollers and dryer sections.
- Reeling and Winding: After the paper has been produced, it is wound into large rolls or reels. Drive pulleys are used in the reeling and winding machines to control the tension and speed of the paper as it is wound onto the reels.
2. Printing Machinery:
In the printing industry, drive pulleys are utilized in various types of printing presses, such as offset, flexographic, and gravure presses. Here are some specific applications:
- Feeder Systems: Drive pulleys are used in the feeder systems of printing presses to control the movement of paper or other printing substrates. They help ensure a consistent and accurate feed of the material into the press.
- Impression Cylinder: The impression cylinder in a printing press is responsible for transferring the inked image from the printing plate onto the paper. Drive pulleys are used to rotate the impression cylinder, providing the necessary force for the transfer process.
- Delivery Systems: Drive pulleys are also employed in the delivery systems of printing presses to control the movement of the printed material as it emerges from the press. They help maintain proper tension and speed, allowing for smooth and precise delivery of the printed products.
Overall, drive pulleys are essential components in the paper and printing industries, enabling the efficient and controlled movement of materials throughout the production process. They contribute to the precise and reliable operation of machinery, ensuring high-quality paper production and printing output.
Can drive pulleys be customized for specific machinery and equipment?
Yes, drive pulleys can be customized to meet the specific requirements of machinery and equipment. Customization allows for the design and manufacturing of drive pulleys that are tailored to suit the unique needs of a particular application. Here are the key aspects of customizing drive pulleys for specific machinery and equipment:
1. Size and Dimension:
Custom drive pulleys can be manufactured in different sizes and dimensions to match the space constraints and installation requirements of the machinery or equipment. The diameter, width, and overall dimensions of the pulley can be adjusted to ensure proper fit and compatibility with the system. Custom sizing ensures that the drive pulley integrates seamlessly into the equipment without any interference or clearance issues.
2. Groove Profile:
The groove profile of the drive pulley is crucial for proper engagement with the belt or chain. Custom drive pulleys can be designed with specific groove profiles to accommodate various belt or chain types, including V-belts, flat belts, round belts, or timing belts. The groove dimensions, angles, and shapes can be customized to ensure optimal belt or chain tracking, reducing the risk of slippage and enhancing power transmission efficiency.
3. Material Selection:
Drive pulleys can be customized with different materials based on the specific requirements of the machinery or equipment. The material selection depends on factors such as load capacity, environmental conditions, and system dynamics. Common materials used for drive pulleys include steel, aluminum, cast iron, or engineered plastics. Customization allows for choosing the most suitable material that offers the desired strength, durability, and corrosion resistance for the application.
4. Shaft Configuration:
Custom drive pulleys can be designed to accommodate specific shaft configurations of the machinery or equipment. The pulley can be manufactured with a keyed bore, tapered bore, or other customized shaft attachment mechanisms to ensure a secure and precise connection. The shaft configuration customization ensures proper alignment and eliminates any potential for slippage or misalignment during operation.
5. Special Features:
Custom drive pulleys can incorporate special features or modifications to meet specific functional requirements. These features can include additional mounting holes, keyways, set screws, or other provisions for auxiliary devices or sensors. Special features can also be added to enhance the performance or functionality of the pulley, such as dynamic balancing for high-speed applications or noise reduction measures.
6. Coatings or Surface Treatments:
Depending on the application and operating conditions, custom drive pulleys can be coated or treated with specialized surface treatments. Coatings such as zinc plating, nickel plating, or powder coating can provide corrosion resistance and improve the aesthetic appearance of the pulley. Surface treatments like heat treatment or hardening can enhance the pulley’s durability, wear resistance, and load-carrying capacity.
7. Performance Optimization:
Custom drive pulleys can be designed and optimized to maximize the performance of the machinery or equipment. Factors such as speed, torque, power requirements, and system dynamics can be taken into account during the customization process. By carefully considering these factors, the drive pulley can be tailored to achieve optimal power transmission efficiency, minimize energy losses, and enhance overall system performance.
In summary, drive pulleys can be customized to suit the specific machinery and equipment requirements. Customization allows for adjusting the size, dimension, groove profile, material selection, shaft configuration, and incorporating special features or coatings. By customizing drive pulleys, manufacturers can ensure seamless integration, optimal performance, and reliable operation in various industrial applications.
How do drive pulleys contribute to the efficient transmission of power?
Drive pulleys play a crucial role in ensuring the efficient transmission of power in various mechanical systems. Their design and function enable the transfer of rotational motion and torque from a driving source, such as an engine or motor, to driven components, such as belts, chains, or shafts. Here’s how drive pulleys contribute to the efficient transmission of power:
1. Power Transfer:
Drive pulleys provide a mechanical interface between the driving source and the driven components. They transmit power from the driving source to the driven components, allowing them to perform their intended functions. By maintaining a solid connection and effective power transfer, drive pulleys minimize energy losses and maximize the efficiency of the system.
2. Speed and Torque Conversion:
Drive pulleys are often used in conjunction with belts or chains to convert speed and torque between the driving source and the driven components. By varying the size ratio between the driving and driven pulleys, different speed and torque relationships can be achieved. This allows for the adaptation of power output to meet the specific requirements of the driven components, optimizing efficiency and performance.
3. Mechanical Advantage:
Drive pulleys can provide mechanical advantage in power transmission systems. By utilizing different-sized pulleys or multiple pulley arrangements, such as pulley systems with multiple belts or chains, the mechanical advantage can be increased. This enables the driving source to exert a greater force or torque on the driven components, enhancing efficiency and enabling the handling of higher loads or resistance.
4. Belt Tension and Grip:
In belt-driven systems, drive pulleys contribute to efficient power transmission by maintaining proper belt tension and grip. The design of the pulley rim, such as V-grooves or toothed profiles, ensures optimal engagement with the belt, preventing slippage and ensuring efficient power transfer. By effectively gripping the belt, drive pulleys minimize energy losses due to slipping or excessive friction, thereby improving overall efficiency.
5. Alignment and Stability:
Drive pulleys help maintain proper alignment and stability in power transmission systems. They guide the movement of belts, chains, or shafts, ensuring that they remain in the desired position and track correctly. Proper alignment reduces friction and wear, minimizing energy losses and improving the overall efficiency of the system. Additionally, stable and well-supported drive pulleys prevent vibrations and misalignment, which can lead to decreased efficiency and increased wear.
6. Load Distribution:
Drive pulleys distribute the transmitted power evenly across the system. They help distribute the load or force exerted by the driving source to the driven components, ensuring balanced power transmission. This balanced load distribution minimizes stress concentrations and prevents premature wear or failure of system components, contributing to overall efficiency and longevity.
7. Maintenance and Serviceability:
Efficient power transmission is also facilitated by the maintenance and serviceability features of drive pulleys. Properly designed pulleys allow for easy installation, adjustment, and replacement of belts, chains, or other driven components. This simplifies maintenance tasks, reduces downtime, and ensures that the system operates at its optimal efficiency over its lifespan.
In summary, drive pulleys contribute to the efficient transmission of power by providing a reliable mechanical interface, enabling speed and torque conversion, offering mechanical advantage, maintaining belt tension and grip, ensuring alignment and stability, distributing loads evenly, and facilitating maintenance and serviceability. By optimizing power transfer and minimizing energy losses, drive pulleys enhance the overall efficiency and performance of mechanical systems.
editor by CX
2024-04-30