Product Description
V Belt Pulley with ISO9001 (SPA, SPB, SPC, SPZ)
1. V-Pulley
Taper Bore
SPZ SPA CHINAMFG SPC
2. V-Pulley
Stock Bore
SPZ SPA CHINAMFG SPC
3. V-Pulley
Adjustable Speed
TB-1 TB-2 SB-1 SB-2
4. V-Pulley
Multi-Wedged
J L M
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50 – 1 x SPZ – 1008 rĂĽÂ 15 | Taper-v-belt pulley |
56 – 1 x SPZ – 1008 rĂĽÂ 15 | Taper-v-belt pulley |
60 – 1 x SPZ – 1008 bĂĽ | Taper-v-belt pulley |
63 – 1 x SPZ – 1108 bĂĽ | Taper-v-belt pulley |
67 – 1 x SPZ – 1108 bĂĽ | Taper-v-belt pulley |
71 – 1 x SPZ – 1108 bĂĽ | Taper-v-belt pulley |
75 – 1 x SPZ – 1108 bĂĽ | Taper-v-belt pulley |
80 – 1 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
85 – 1 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
90 – 1 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
95 – 1 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
100 – 1 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
106 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
112 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
118 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
125 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
132 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
140 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
150 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
160 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
170 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
180 – 1 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
190 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
200 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
224 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
250 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
280 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
315 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
355 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
400 – 1 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
500 – 1 x SPZ – 2517 | Taper-v-belt pulley |
50 – 2 x SPZ – 1008 rĂĽÂ 26 | Taper-v-belt pulley |
56 – 2 x SPZ – 1108 rĂĽÂ 26 | Taper-v-belt pulley |
60 – 2 x SPZ – 1108 rĂĽÂ 26 | Taper-v-belt pulley |
63 – 2 x SPZ – 1108 bĂĽ | Taper-v-belt pulley |
67 – 2 x SPZ – 1108 bĂĽ | Taper-v-belt pulley |
71 – 2 x SPZ – 1108 | Taper-v-belt pulley |
75 – 2 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
80 – 2 x SPZ – 1210 bĂĽ | Taper-v-belt pulley |
85 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
90 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
95 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
100 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
106 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
112 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
118 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
125 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
132 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
140 – 2 x SPZ – 1610 bĂĽ | Taper-v-belt pulley |
150 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
160 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
170 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
180 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
190 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
200 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
224 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
250 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
280 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
315 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
355 – 2 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
400 – 2 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
450 – 2 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
500 – 2 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
63 – 3 x SPZ – 1108 rĂĽÂ 17 | Taper-v-belt pulley |
67 – 3 x SPZ – 1108 rĂĽÂ 17 | Taper-v-belt pulley |
71 – 3 x SPZ – 1108 rĂĽÂ 17 | Taper-v-belt pulley |
75 – 3 x SPZ – 1210 rĂĽÂ 14 | Taper-v-belt pulley |
80 – 3 x SPZ – 1210 rĂĽÂ 14 | Taper-v-belt pulley |
85 – 3 x SPZ – 1610 rĂĽÂ 14 | Taper-v-belt pulley |
90 – 3 x SPZ – 1610 rĂĽÂ 14 | Taper-v-belt pulley |
95 – 3 x SPZ – 1610 rĂĽÂ 14 | Taper-v-belt pulley |
100 – 3 x SPZ – 1610 rĂĽÂ 14 | Taper-v-belt pulley |
106 – 3 x SPZ – 1610 rĂĽÂ 14 | Taper-v-belt pulley |
112 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
118 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
125 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
132 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
140 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
150 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
160 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
170 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
180 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
190 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
200 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
224 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
250 – 3 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
280 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
315 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
355 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
400 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
450 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
500 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
630 – 3 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
63 – 4 x SPZ – 1108 | Taper-v-belt pulley |
67 – 4 x SPZ – 1108 | Taper-v-belt pulley |
71 – 4 x SPZ – 1108 | Taper-v-belt pulley |
75 – 4 x SPZ – 1210 rĂĽÂ 26 | Taper-v-belt pulley |
80 – 4 x SPZ – 1210 rĂĽÂ 26 | Taper-v-belt pulley |
85 – 4 x SPZ – 1610 rĂĽÂ 26 | Taper-v-belt pulley |
90 – 4 x SPZ – 1610 rĂĽÂ 26 | Taper-v-belt pulley |
95 – 4 x SPZ – 1610 rĂĽÂ 26 | Taper-v-belt pulley |
100 – 4 x SPZ – 2012 rĂĽÂ 20 | Taper-v-belt pulley |
106 – 4 x SPZ – 2012 rĂĽÂ 20 | Taper-v-belt pulley |
112 – 4 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
118 – 4 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
125 – 4 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
132 – 4 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
140 – 4 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
150 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
160 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
170 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
180 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
190 – 4 x SPZ – 2517 | Taper-v-belt pulley |
200 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
224 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
250 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
280 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
315 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
355 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
400 – 4 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
450 – 4 x SPZ – 3571 bĂĽ | Taper-v-belt pulley |
500 – 4 x SPZ – 3571 bĂĽ | Taper-v-belt pulley |
630 – 4 x SPZ – 3030 bĂĽ | Taper-v-belt pulley |
800 – 4 x SPZ – 3030 e.b. | Taper-v-belt pulley |
85 – 5 x SPZ – 1610 rĂĽÂ 38 | Taper-v-belt pulley |
90 – 5 x SPZ – 1610 rĂĽÂ 38 | Taper-v-belt pulley |
95 – 5 x SPZ – 1610 rĂĽÂ 38 | Taper-v-belt pulley |
100 – 5 x SPZ – 2012 rĂĽÂ 32 | Taper-v-belt pulley |
106 – 5 x SPZ – 2012 rĂĽÂ 32 | Taper-v-belt pulley |
112 – 5 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
118 – 5 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
125 – 5 x SPZ – 2012 bĂĽ | Taper-v-belt pulley |
132 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
140 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
150 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
160 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
180 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
200 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
224 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
250 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
280 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
315 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
355 – 5 x SPZ – 2517 bĂĽ | Taper-v-belt pulley |
400 – 5 x SPZ – 3571 bĂĽ | Taper-v-belt pulley |
450 – 5 x SPZ – 3571 bĂĽ | Taper-v-belt pulley |
500 – 5 x SPZ – 3030 bĂĽ | Taper-v-belt pulley |
630 – 5 x SPZ – 3030 bĂĽ | Taper-v-belt pulley |
100 – 6 x SPZ – 2012 rĂĽÂ 44 | Taper-v-belt pulley |
106 – 6 x SPZ – 2012 rĂĽÂ 44 | Taper-v-belt pulley |
112 – 6 x SPZ – 2012 rĂĽÂ 44 | Taper-v-belt pulley |
118 – 6 x SPZ – 2517 rĂĽÂ 31 | Taper-v-belt pulley |
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Choose GOODLUCK(TAI)
1. Our company boasts a combination of research and development, production and sales with highly professional capabilities.
2. Our company produces the pulley with the following: Drive can mitigate impact load; Transmission smooth operation, low noise, low vibration; Transmission of simple structure, easy to adjust; Drive for the manufacture and installation precision of pulley, unlike meshing transmission strictly; It has the function of overload protection; Transmission center distance of 2 axis adjusting range is larger.
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Certification: | ISO |
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Pulley Sizes: | All |
Manufacturing Process: | Casting |
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Customization: |
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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 belt pulleys utilized in the production of electronics and semiconductors?
In the production of electronics and semiconductors, belt pulleys play a crucial role in various manufacturing processes. They are utilized in different stages of production to facilitate precision, efficiency, and reliability. Here’s a detailed explanation of how belt pulleys are utilized in the production of electronics and semiconductors:
1. Conveyor Systems: Belt pulleys are commonly used in conveyor systems within electronics and semiconductor manufacturing facilities. These conveyor systems transport components, products, or wafers between different stages of production, such as assembly, testing, and packaging. Belt pulleys are utilized to drive the conveyor belts, ensuring smooth and controlled movement of the materials or products. They contribute to the efficient flow of production, allowing for continuous and automated handling of electronic components and semiconductor wafers.
2. Wafer Handling: Belt pulley systems are employed in the handling and processing of semiconductor wafers. These wafers, which serve as the base material for electronic devices, need to be transferred between various equipment and processing stations. Belt pulleys, along with precision belts, are used to grip and transport the delicate and flat wafers. The pulleys ensure accurate positioning and controlled movement of the wafers, essential for precise alignment during processes such as etching, deposition, and lithography.
3. Robotics and Automation: Belt pulleys are integral components in robotics and automation systems utilized in electronics and semiconductor production. These systems often involve robotic arms or gantries that handle and manipulate components or equipment. Belt pulleys are employed in the motorization and control mechanisms of these robotic systems, enabling precise and repeatable movements. They contribute to the accuracy, speed, and reliability required in tasks such as pick-and-place operations, soldering, and inspection processes.
4. Precision Machining: Belt pulleys are used in precision machining operations within electronics and semiconductor production. They are incorporated into milling machines, lathes, and other machining equipment that fabricate electronic components and semiconductor parts. Belt pulleys drive the cutting tools or spindles, providing the necessary rotational motion for precise material removal and shaping. The speed control and torque conversion capabilities of belt pulleys ensure the optimal performance and accuracy required for manufacturing intricate electronic and semiconductor components.
5. Testing and Inspection Equipment: Belt pulleys are utilized in testing and inspection equipment within the electronics and semiconductor industry. These machines perform various tests, measurements, and inspections to ensure the quality and functionality of electronic components and semiconductor devices. Belt pulleys drive the mechanisms that move the components or devices through different testing or inspection stations. They contribute to the controlled and synchronized movement required for accurate measurements, functional tests, and quality checks.
6. Packaging and Labeling: Belt pulleys are employed in packaging and labeling systems for electronics and semiconductor products. These systems handle the final packaging of electronic components, devices, or integrated circuits. Belt pulleys drive the conveyor belts that transport the packaged products, ensuring their smooth and efficient movement through the packaging and labeling processes. They contribute to the automated and streamlined packaging operations, allowing for high-speed production and consistent product presentation.
7. Maintenance and Serviceability: Belt pulleys contribute to the maintenance and serviceability of equipment used in electronics and semiconductor production. They are designed for easy replacement, adjustment, or inspection, allowing for quick and straightforward maintenance tasks. Properly maintained belt pulleys ensure the reliability and uptime of production equipment, minimizing downtime and optimizing the overall manufacturing process.
In summary, belt pulleys are utilized in the production of electronics and semiconductors for conveyor systems, wafer handling, robotics and automation, precision machining, testing and inspection equipment, packaging and labeling systems, as well as maintenance and serviceability. They contribute to the efficient flow of production, precise positioning of components, accurate machining, reliable testing and inspection, streamlined packaging, and ease of equipment maintenance. Belt pulleys play a vital role in enhancing the precision, efficiency, and reliability of the manufacturing processes involved in electronics and semiconductor production.
How do belt pulleys handle variations in load capacity and speed?
Belt pulleys are designed to handle variations in load capacity and speed by providing flexibility and adjustability in power transmission systems. They offer several mechanisms to accommodate changes in load and speed requirements. Here’s a detailed explanation of how belt pulleys handle variations in load capacity and speed:
1. Load Capacity: Belt pulleys can handle variations in load capacity through the selection of appropriate belt materials, pulley sizes, and belt tension. When the load increases, the belt tension can be adjusted to ensure proper power transmission. By increasing the tension, the grip between the belt and pulley increases, allowing for the transfer of higher loads. Belt materials with higher tensile strength and load-bearing capacity can also be chosen to handle heavier loads.
2. Speed Variation: Belt pulleys offer the ability to handle variations in speed through different mechanisms:
a. Fixed Speed Ratios: In applications where a fixed speed ratio is required, belt pulleys of specific sizes are selected to achieve the desired speed ratio. By choosing pulleys with different diameters or numbers of grooves, the speed of the driven pulley can be adjusted relative to the driving pulley, resulting in the desired speed variation.
b. Variable Speed Pulleys: Variable speed pulleys, also known as adjustable or variable pitch pulleys, enable continuous speed control. These pulleys feature movable pulley halves or arms that change the distance between the grooves. By adjusting the position of the movable pulley, the effective diameter of the pulley changes, altering the speed ratio. This allows for stepless speed variation within a defined range, providing flexibility in adjusting the speed of the driven system.
c. Step Pulleys: Step pulleys have multiple grooves of different diameters on the same pulley. By changing the belt position between these grooves, the speed ratio can be adjusted. Step pulleys provide a range of predetermined speeds by selecting the appropriate groove, allowing for different speed settings suitable for various operations.
d. Motor and Pulley Size Selection: By selecting motors and pulleys of different sizes or using different combinations of belt pulleys, the speed of the driven system can be adjusted. This is commonly seen in applications where multiple speed options are required, such as in drill presses or lathes, where a range of speeds is needed for different cutting operations.
Overall, belt pulleys handle variations in load capacity and speed by offering flexibility in belt tension, selecting appropriate pulley sizes and materials, utilizing variable speed pulleys, employing step pulleys, and choosing motor and pulley combinations to achieve the desired speed ratios. These mechanisms allow for efficient power transmission in a wide range of applications with varying load and speed requirements.
What is a belt pulley, and how is it used in mechanical systems?
A belt pulley is a mechanical device used in various systems to transmit power and motion between rotating shafts. It consists of a wheel with a grooved rim, known as the pulley, that is connected to a shaft. The pulley is typically made of materials such as cast iron, steel, or aluminum. It is used in conjunction with a belt or a rope to transfer rotational motion from one shaft to another. Here’s a detailed explanation:
A belt pulley is essential in mechanical systems for the following purposes:
- Power Transmission: The primary function of a belt pulley is to transmit power between rotating shafts. It connects the driving shaft (input) to the driven shaft (output) through a belt or a rope. When the driving shaft rotates, the belt or rope engages with the grooves on the pulley, causing the pulley and the driven shaft to rotate. This allows power to be transferred from the driving shaft to the driven shaft, enabling the operation of various mechanical components or systems.
- Speed Control: Belt pulleys are used to control the rotational speed of driven shafts. By varying the size or ratio of the pulleys connected by the belt, the rotational speed can be adjusted. Using different-sized pulleys, it is possible to increase or decrease the speed of the driven shaft compared to the driving shaft. This speed control capability is beneficial in applications where different rotational speeds are required for specific operations or to match the requirements of different components in a system.
- Directional Change: Belt pulleys also enable the change of direction in mechanical systems. By arranging multiple pulleys with belts or ropes in a system, the rotational motion can be redirected. For example, a system with two pulleys connected by a belt can change the direction of the driven shaft compared to the driving shaft. This directional change allows for the transmission of power and motion in desired orientations, enabling the operation of mechanical components or systems in different directions.
- Tension Control: Belt pulleys play a role in maintaining proper tension in belt-driven systems. The tension in the belt is important to ensure a secure and reliable connection between the pulleys. Pulleys with adjustable features, such as tensioning systems or idler pulleys, help maintain the optimal tension in the belt. Proper tension control prevents belt slippage, ensures efficient power transmission, and reduces wear on the belt and pulley surfaces.
- Noise and Vibration Reduction: Belt pulleys contribute to noise and vibration reduction in mechanical systems. The design of the pulley, including the groove profile and surface finish, can help minimize noise and vibration generated during operation. Additionally, proper alignment and tensioning of the belt ensure smoother engagement with the pulley, reducing noise and vibration levels. This is particularly important in applications that require quiet operation or where excessive vibrations can affect system performance or operator comfort.
- Compatibility and Interchangeability: Belt pulleys offer compatibility and interchangeability benefits in mechanical systems. They provide a flexible and modular approach to power transmission, allowing different pulleys to be easily interchanged or replaced based on specific requirements. This versatility enables system designers and operators to adapt and modify mechanical systems more efficiently, making it easier to accommodate changes in load, speed, or other operational parameters.
In summary, a belt pulley is a mechanical device used for power transmission and motion control in various mechanical systems. It connects rotating shafts through belts or ropes, allowing power to be transmitted from one shaft to another. Belt pulleys provide speed control, directional change, tension control, noise and vibration reduction, as well as compatibility and interchangeability benefits. By utilizing belt pulleys, mechanical systems can efficiently transfer power, control speeds, and enable the operation of different components or systems in desired directions.
editor by CX
2024-04-30