Product Description
1B QD Bushed Sheaves Pulleys for A and B Belts
Product Description
1B series pulleys are manufactured for A, AX, AA, 4L, B, BX, BB, and 5L v-belts, ranging from 3.75″ to 20.35″ in diameter. Depending on the pulley size, they are made to use with SH, SDS, or SK QD bushings, which we also stock. Most of our single-groove 1B QD bushed pulleys are manufactured from a high-strength grade 35 cast iron, are phosphate-coated, and are painted for anti-corrosion. All of them are balanced at the factory for smooth machinery operation. The main benefit of using a QD (quick detachable) pulley is that if the bushing (hub) breaks, you don’t have to replace the whole assembly, or if just the pulley gets worn out, the same principle applies. The other significant benefit is that there is a broader range of bore options with QD pulleys than with the “fixed-bore” style.
Product Parameters
|
Size |
Bushing Type |
Type |
Pitch Diameter (4L/A) |
Pitch Diameter (5L/B) |
Outside Diameter |
(E) |
(F) |
(L) |
(M) |
Pulley Weight (LBS) |
|---|---|---|---|---|---|---|---|---|---|---|
| 1B34SH | SH | E | 3.0″ | 3.4″ | 3.75″ | 7/32″ | 7/8″ | 1-5/16″ | 21/32″ | 2.0 |
| 1B36SH | SH | D | 3.2″ | 3.6″ | 3.95″ | 19/32″ | 7/8″ | 1-5/16″ | 5/32″ | 2.2 |
| 1B38SH | SH | D | 3.4″ | 3.8″ | 4.15″ | 19/32″ | 7/8″ | 1-5/16″ | 5/32″ | 2.4 |
| 1B40SH | SH | C | 3.6″ | 4.0″ | 4.35″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 2.7 |
| 1B42SH | SH | C | 3.8″ | 4.2″ | 4.55″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 2.9 |
| 1B44SH | SH | C | 4.0″ | 4.4″ | 4.75″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 3.4 |
| 1B46SDS | SDS | C | 4.2″ | 4.6″ | 4.95″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 4.0 |
| 1B48SDS | SDS | C | 4.4″ | 4.8″ | 5.15″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 4.3 |
| 1B50SDS | SDS | C | 4.6″ | 5.0″ | 5.35″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 4.7 |
| 1B52SDS | SDS | C | 4.8″ | 5.2″ | 5.55″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 5.0 |
| 1B54SDS | SDS | C | 5.0″ | 5.4″ | 5.75″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 5.3 |
| 1B56SDS | SDS | C | 5.2″ | 5.6″ | 5.95″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 5.6 |
| 1B58SDS | SDS | C | 5.4″ | 5.8″ | 6.15″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 5.9 |
| 1B60SDS | SDS | C | 5.6″ | 6.0″ | 6.35″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 6.2 |
| 1B62SDS | SDS | C | 5.8″ | 6.2″ | 6.55″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 6.5 |
| 1B64SDS | SDS | C | 6.0″ | 6.4″ | 6.75″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 6.8 |
| 1B66SDS | SDS | C | 6.2″ | 6.6″ | 6.95″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 7.2 |
| 1B68SDS | SDS | C | 6.4″ | 6.8″ | 7.15″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 7.5 |
| 1B70SDS | SDS | C | 6.6″ | 7.0″ | 7.35″ | 11/32″ | 7/8″ | 1-5/16″ | 3/32″ | 7.8 |
| 1B74SDS | SDS | D | 7.0″ | 7.4″ | 7.75″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 8.8 |
| 1B80SDS | SDS | D | 7.6″ | 8.0″ | 8.35″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 9.6 |
| 1B86SDS | SDS | D | 8.2″ | 8.6″ | 8.95″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 10.0 |
| 1B94SDS | SDS | D | 9.0″ | 9.4″ | 9.75″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 10.5 |
| 1B110SDS | SDS | D | 10.6″ | 11.0″ | 11.35″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 11.0 |
| 1B124SDS | SDS | D | 12.0″ | 12.4″ | 12.75″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 12.0 |
| 1B136SDS | SDS | D | 13.2″ | 13.6″ | 13.95″ | 17/32″ | 1″ | 1-5/16″ | 7/32″ | 14.0 |
| 1B154SK | SK | C | 15.0″ | 15.4″ | 15.75″ | 21/32″ | 1″ | 1-15/16″ | 9/32″ | 16.0 |
| 1B160SK | SK | C | 15.6″ | 16.0″ | 16.35″ | 21/32″ | 1″ | 1-15/16″ | 9/32″ | 16.6 |
| 1B184SK | SK | C | 18.0″ | 18.4″ | 18.75″ | 21/32″ | 1″ | 1-15/16″ | 9/32″ | 18.0 |
| 1B200SK | SK | C | 19.6″ | 20.0″ | 20.35″ | 21/32″ | 1″ | 1-15/16″ | 9/32″ | 20.0 |
Company Profile
HZPT is a professional manufacturer of mechanical parts. Our main products are belt pulleys, sprockets, taper sleeves, coupling, and other transmission parts. Its products are mainly exported to Germany, Britain, France, and other European countries, with an annual export value of 18 million US dollars, accounting for more than 65% of the total output. The annual output value reached 200 million yuan.
Our products all adopt international, European, and American advanced industrial standards, use precise and good processing equipment, develop reasonable production technology, apply efficient and flexible management systems, and improve the quality management system to ensure that the product quality is good and the price is affordable.
Our factory adheres to the enterprise concept of “quality: the basis of enterprise survival, integrity: the basis of enterprise development, service: the source of enterprise development, low price: the instrument of enterprise development.” We are always looking CHINAMFG to the presence of customers at home and abroad, seeking CHINAMFG benefits and joint cause development.
Warehouse Stock
The warehouse covers an area of 5000 square CHINAMFG and can provide all kinds of standard models A/B/C/Z, with complete quantity and large quantity in stock. Meanwhile, it accepts all sorts of non-standard customization for drawing production. The daily production capacity is 10 tons, and the delivery time is short.
Packaging & Shipping
Experienced Workers Packing Pulleys Carefully, safe wooden cases keep parts from being injured or damaged during sea or air shipment.
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| Certification: | CE, ISO |
|---|---|
| Pulley Sizes: | Type F |
| Manufacturing Process: | Forging |
| Material: | Carbon Steel |
| Surface Treatment: | Baking Paint |
| Application: | Chemical Industry, Grain Transport, Mining Transport, Power Plant |
| Samples: |
US$ 9999/Piece
1 Piece(Min.Order) | |
|---|
How does the configuration of a compound pulley affect its lifting capacity?
The configuration of a compound pulley has a direct impact on its lifting capacity. Here is a detailed explanation of how the configuration of a compound pulley affects its lifting capacity:
1. Number of Pulleys: The number of pulleys in a compound pulley system affects its lifting capacity. In a compound pulley system, the more pulleys that are used, the greater the mechanical advantage and lifting capacity. Each additional pulley increases the number of line segments supporting the load, distributing the weight and reducing the force required to lift the load. Therefore, a compound pulley system with more pulleys will have a higher lifting capacity compared to a system with fewer pulleys.
2. Arrangement of Pulleys: The arrangement of pulleys in a compound pulley system also impacts its lifting capacity. Compound pulleys can be configured in various arrangements, such as the “block and tackle” configuration or the “differential” configuration. These different arrangements determine how the pulleys are connected and how the load is distributed. The specific arrangement can affect the mechanical advantage and lifting capacity of the system. For example, a block and tackle configuration, where multiple movable pulleys are connected to a fixed pulley, can provide a higher mechanical advantage and lifting capacity compared to a simple system with a single movable pulley.
3. Ratio of Fixed to Movable Pulleys: The ratio of fixed to movable pulleys in a compound pulley system affects its lifting capacity. The presence of fixed pulleys in the system changes the direction of the force applied, contributing to the mechanical advantage. The ratio of fixed to movable pulleys determines the division of load and the amplification of force. As the number of movable pulleys increases relative to the fixed pulleys, the mechanical advantage and lifting capacity of the system also increase. Therefore, a compound pulley system with a higher ratio of movable to fixed pulleys will have a greater lifting capacity.
4. Efficiency and Friction: The efficiency of a compound pulley system and the amount of friction present can also impact its lifting capacity. Friction in the pulley system can reduce the effectiveness of the mechanical advantage and increase the force required to lift the load. Factors such as the quality of the pulleys, the condition of the ropes or cables, and proper lubrication can influence the efficiency and minimize friction. A well-maintained and properly lubricated compound pulley system will have a higher lifting capacity compared to a system with high friction and reduced efficiency.
5. Load Distribution: The way the load is distributed across the line segments in a compound pulley system affects its lifting capacity. The load should be evenly distributed among the line segments to ensure that each segment is sharing the weight. If the load is unevenly distributed or concentrated on one line segment, it can exceed the weight capacity of that particular segment, potentially leading to failure of the pulley system. Proper load distribution and balance are important for maximizing the lifting capacity and ensuring the safe operation of the compound pulley system.
In summary, the lifting capacity of a compound pulley is influenced by the number of pulleys, the arrangement of pulleys, the ratio of fixed to movable pulleys, the efficiency and friction of the system, and the proper distribution of the load. Understanding and optimizing these factors are crucial for determining the lifting capacity of a compound pulley system and ensuring its safe and efficient operation.
How are compound pulleys used in the operation of cranes and elevators?
Compound pulleys play a crucial role in the operation of cranes and elevators, enabling them to lift and move heavy loads with ease and efficiency. The design and arrangement of compound pulleys provide mechanical advantage, allowing for the multiplication of force and the reduction of effort required to lift objects. Here is a detailed explanation of how compound pulleys are used in the operation of cranes and elevators:
Crane Operation:
In cranes, compound pulleys are commonly used in the lifting mechanism to handle heavy loads. The pulleys are arranged in a system of ropes or cables, with multiple sheaves connected in series or parallel. The ropes or cables pass through the sheaves, creating multiple lines of support. The combination of fixed and movable pulleys in the system increases the mechanical advantage, making it easier to lift heavy objects. When force is applied to the rope or cable, the compound pulleys distribute the load and reduce the amount of force required from the operator.
Elevator Operation:
In elevators, compound pulleys are utilized in the hoisting system to move the elevator car vertically. The pulleys are typically located at the top of the elevator shaft. The elevator car is suspended by ropes or cables that pass over the sheaves of the compound pulleys. The mechanical advantage provided by the pulley system allows the elevator motor to exert less force to lift the car. The compound pulleys effectively distribute the weight of the car, making it easier to move up and down. Additionally, the design of the pulley system allows the elevator car to be lifted and lowered smoothly and safely.
Both in cranes and elevators, compound pulleys offer the following advantages:
- Increased Lifting Capacity: The mechanical advantage provided by compound pulleys allows cranes and elevators to lift much heavier loads than what could be achieved with a single pulley system. The compound pulleys distribute the load over multiple lines of support, reducing the strain on individual ropes or cables and enabling the lifting of heavier objects.
- Efficiency: Compound pulleys increase the efficiency of cranes and elevators by reducing the amount of force required to lift or lower loads. The mechanical advantage achieved through the arrangement of pulleys allows operators to lift heavy objects with less effort, making the operation more efficient and less fatiguing.
- Precise Control: Compound pulley systems offer precise control over the movement of cranes and elevators. By adjusting the tension and arrangement of the ropes or cables, operators can control the speed and direction of the lifting or lowering process. This precise control allows for safe and accurate positioning of loads in various applications.
- Smooth Operation: The combination of fixed and movable pulleys in compound pulley systems helps ensure smooth and stable operation of cranes and elevators. The pulleys reduce the friction between the ropes or cables and the sheaves, minimizing jerky movements and providing a smooth lifting or lowering experience.
In summary, compound pulleys are essential components in the operation of cranes and elevators. Their mechanical advantage, increased lifting capacity, efficiency, precise control, and smooth operation make them ideal for handling heavy loads and facilitating vertical transportation in various industries and settings.
What are the advantages of using compound pulleys for heavy lifting?
Using compound pulleys for heavy lifting tasks offers several advantages due to their mechanical advantage and design. Here is a detailed explanation of the advantages of using compound pulleys for heavy lifting:
1. Mechanical Advantage: Compound pulleys provide a significant mechanical advantage, allowing users to lift heavy loads with less effort. By distributing the load across multiple line segments and amplifying the applied force, compound pulleys make it easier to overcome the weight of the load. This can reduce the physical strain on the operator and enable the lifting of much heavier loads than would be possible with a single fixed pulley or manual lifting alone.
2. Efficiency: Compound pulleys increase lifting efficiency by minimizing the effort required for heavy lifting tasks. With the mechanical advantage provided by compound pulleys, a smaller force exerted over a longer distance can generate a larger force over a shorter distance to lift the load. This allows for more efficient use of human or mechanical power, reducing fatigue and maximizing productivity in lifting operations.
3. Control and Precision: Compound pulleys offer precise control over the lifting process. The multiple line segments and the ability to change the direction of force allow for fine adjustments and smooth movement of the load. This level of control is particularly valuable in applications where precise positioning or delicate handling of heavy objects is required, such as in construction, manufacturing, or theatrical rigging.
4. Versatility: Compound pulleys are versatile and can be adapted to various lifting tasks and environments. They can be incorporated into different configurations and systems, such as cranes, hoists, or pulley blocks, to suit specific requirements. Compound pulleys can handle a wide range of loads, making them suitable for diverse industries, including construction, mining, manufacturing, and entertainment.
5. Safety: When used properly, compound pulleys can enhance safety in lifting operations. The mechanical advantage they provide reduces the risk of strain-related injuries to operators by minimizing the physical effort required. Additionally, by allowing for controlled and gradual lifting, compound pulleys can help prevent sudden load shifts or drops, enhancing overall safety in the workplace.
6. Reduction in Equipment Size and Weight: Compound pulleys allow for the lifting of heavy loads while reducing the size and weight of the equipment required. This can be beneficial in situations where space is limited or mobility is a concern. By utilizing the mechanical advantage of compound pulleys, compact and lightweight lifting systems can be designed, providing efficiency and convenience in various applications.
Overall, the advantages of using compound pulleys for heavy lifting tasks include the mechanical advantage they provide, increased efficiency, precise control, versatility, enhanced safety, and the potential for compact and lightweight equipment design. These factors make compound pulleys a valuable tool in industries that require the lifting and handling of heavy loads.
editor by CX
2024-03-01