Product Description
High Performance Pulley for Belt Conveyors
BRIEF INTRODUCTION
Our company has adopted proprietary technology and equipment imported from German PWH company for the design and manufacturing of various pulleys . As a key component of the conveyor, the pulley should have high reliability. Our company’s R&D center has improved the pulley structure, reduced structural stress, and increased the lifespan and reliability of the pulley group through finite element analysis and optimization calculations. Our company’s pulley is manufactured from specialized high-end manufacturing equipment and has achieved serialized and large-scale production.
We have produced conveyor pulleys for belt width up to 2.4 m, pulley diameter up to 1.8 m, and maximum tension up to 300 tons.
PRODUCT INFORMAITON
Product Name | Pulley |
Adhesive Material | smooth, ordinary rubber, wear-resistant rubber, UHMW-PE, rubber ceramic, etc.. |
Adehensive Treatment | glued or casted |
Carrying Capacity | light, medium and heavy type |
Connection Mode | Shafts and wheels of the medium and heavy-duty pulley are connected by expansion sleeves. |
Pulley Pipe | made of Q235B carbon steel, with high roundness and straightness ensuring rotation balance |
Shaft | 45 # round steel or according to your requirements; ultrasonic inspection, quenching and tempering treatment, strict control of key fit size tolerances, greatly extending service life. |
Bearing Brands | Havalo, SKF, FAG, SNK or according to your requirements |
Bear Seat | Integral bearing seat, partial bearing seat |
Color | bright red paint or according to your requirements |
VARIOUS TYPES OF PULLEY ADHESIVE SURFACE
BEARING SEAT MODE
TECHNICAL SPECIFICATIONS & PARAMETERS
Technical Parameters for Belt Conveyor Pulley | ||||||
Belt Width (mm) | Pulley Standard Diameter without Adhesive Layer(mm) | |||||
650 | 200,250,320,400,500,630 | |||||
800 | 200,250,320,400,500,630,800,1000,1250 | |||||
1000 | 250,320,400,500,630,800,1000,1250,1400,1600 | |||||
1200 | 250,320,400,500,630,800,1000,1250,1400,1600 | |||||
1400 | 320,400,500,630,800,1000,1250,1400,1600 | |||||
1600 | 400,500,630,800,1000,1250,1400,1600 | |||||
1800 | 250,400,500,630,800,1000,1250,1400,1600 | |||||
2000 | 400,500,630,800,1000,1250,1400,1600 |
Technical Parameters | ||
1 | Outer Circle Diameter D Deviation | 200 ≤ 1.5 400 ≤ 2.0 1000 ≤ 2.5 |
2 | Radial Runout of Outer Circle | D ≤ 200 ; without adhesive 0.3 ;with adhesive 0.5 200 < D ≤ 800 ; without adhesive 0.6; with adhesive 1.1 800 < D ≤ 1600 ; without adhesive 1.0; with adhesive 1.5 1600 < D ≤ 1800 ; without adhesive 1.5; with adhesive 2.0 |
3 | Static Balance Accuracy | G40 |
PROCESS FLOW OF PULLEY
Our company is equipped with necessary equipment for processing pulleys, such as large oil pressure machines, rolling machines, specialized pulley automatic explosive welding operators, large diameter lathes, boring machines, ultrasonic flaw detectors, static balancing devices, pressure casting machines, etc. Due to the special correction process adopted by the company, the pulley pipe skin is rounded before processing, and the pulley pipe wall is uniform after processing, thereby ensuring that the pulley has high static balance performance and high mechanical performance.
PRODUCT FEATURES
For pulleys with complex forces, large loads and used in heavy working conditions, they all adopt a cast welded structure and expansion sleeve connection. Compared with traditional drums in China, this type of drum mainly has the following characteristics :
(1) The structural parameters of the pulley are advanced and reasonable, and there is a dedicated computer calculation program to determine the shaft diameter, cylinder skin thickness, wheel amplitude plate shape and spacing, as well as the position of the circumferential weld seam set at the position where the stress is minimum and the number of cycles is minimum.
(2) The key technology of using single sided welding and double sided forming ensures the quality of the weld seam.
(3) The expansion sleeve connection is used between the drum hub and shaft, which not only solves the problem of key connection stress concentration that has been existing for many years and the technical difficulties of manufacturing and installing axial double keyways, but also achieves overall quenching and eliminates welding internal stress.
(4) The circumferential and longitudinal welds of the pulley have undergone non-destructive testing, and the casting quality of the wheel hub has undergone magnetic particle or ultrasonic testing.
(5) The total radial runout of the outer circle after roller casting is less than 1mm.
(6) All drums undergo static balance tests before leaving the factory to achieve G40 accuracy.
(7) All driving pulley and directional pulley with high stress have undergone finite element analysis to ensure that the stress and strain of the rollers meet the requirements.
Due to a series of measures taken, the pulley group produced by SK has a reasonable structure, large bearing capacity, and reliable performance. And it overcomes the problem of fatigue fracture at the welding seam of the existing pulley plate in China. The pullley (including the welding part) is guaranteed to have a rotational fatigue strength of over 108°.
WORKSHOP OF FINISHED PULLEIES
PACKAGE AND DELIVEYR
APPLICATION INDUSTRIES
CONVEYORS EPC/BOT CONTRACTING CAPABILITY
VARIOUS CONVEYOR SPARE PARTS SUPPLY
AERIAL VIEW OF OUR FACTORY
INTELLIGENT PRODUCTION & TESTING
CERTIFICATES & HORNORS
BRANCHES & OFFICES
TEAM BUILDING
LONG-TERM STRATEGIC COOPEATORS
MAIN CUSTOMERS
CUSTOMERS VISITS
DOMESTIC & OVERSEAS EXHIBITIONS
SINGING CEREMONY
GLOBAL BUSINESS NETWORK
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Certification: | CE, ISO |
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Pulley Sizes: | Kk |
Manufacturing Process: | Forging, Casting |
Material: | Carbon Steel |
Surface Treatment: | Smooth, Rubber or Ceramics |
Application: | Chemical Industry, Grain Transport, Mining Transport, Power Plant, Port, Dock, Energy, Cement, Metallurgy, Steel |
Samples: |
US$ 7/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How do belt pulleys affect the performance of woodworking and milling machines?
Belt pulleys have a significant impact on the performance of woodworking and milling machines. They play a crucial role in power transmission, speed control, and overall functionality of these machines. Here’s a detailed explanation of how belt pulleys affect the performance of woodworking and milling machines:
1. Power Transmission: Belt pulleys are essential for power transmission in woodworking and milling machines. They connect the motor or engine to various components, such as the cutting tools, spindles, or feed mechanisms. The rotation of the pulleys transfers power from the motor to the driven components, enabling them to perform their cutting, shaping, or drilling functions. The efficiency and effectiveness of power transmission through the belt pulleys directly impact the overall performance of the machine.
2. Speed Control: Belt pulleys provide speed control in woodworking and milling machines. By using pulleys of different sizes or incorporating variable speed pulley systems, the rotational speed of the driven components can be adjusted. This allows operators to customize the speed based on the specific material being worked on and the desired cutting or milling results. Speed control provided by belt pulleys ensures precision, accuracy, and optimal performance in woodworking and milling operations.
3. Torque Conversion: Belt pulleys also play a crucial role in torque conversion. Torque refers to the rotational force produced by the motor or engine. In woodworking and milling machines, belt pulleys with different diameters can be used to convert the torque generated by the motor into the appropriate torque required by the cutting tools or spindles. This torque conversion ensures that the machine can handle different types of materials and cutting operations effectively, enhancing overall performance.
4. Belt Tension and Stability: Proper tension and stability of the belts running on the pulleys are essential for the performance of woodworking and milling machines. The tension in the belts needs to be adjusted to ensure optimal power transmission and prevent slipping or belt damage. Belt pulleys are designed to maintain the appropriate tension and stability of the belts, ensuring smooth and consistent operation of the machine. This contributes to the accuracy, reliability, and safety of woodworking and milling processes.
5. Tooling and Cutter Compatibility: Belt pulleys can affect the performance of woodworking and milling machines by influencing tooling and cutter compatibility. Different cutting tools and milling cutters require specific rotational speeds and power transmission capacities. The selection of appropriate pulleys and belt arrangements ensures compatibility between the machine’s power transmission system and the cutting tools or milling cutters being used. This compatibility is crucial for achieving desired cutting results, prolonging tool life, and maximizing machine performance.
6. Noise and Vibration: Belt pulleys can impact the noise and vibration levels of woodworking and milling machines. Proper alignment and balancing of the pulleys are essential to minimize vibration and noise generated during operation. Excessive noise and vibration can affect the precision of cuts or milling operations and lead to accelerated wear and tear of machine components. Well-designed and properly maintained belt pulleys contribute to reduced noise and vibration, enhancing the overall performance and operator comfort.
7. Maintenance and Serviceability: Belt pulleys in woodworking and milling machines are designed for easy maintenance and serviceability. They allow for straightforward belt replacement, adjustment, or pulley inspection, ensuring that the machine can be properly maintained and serviced. This contributes to the longevity, reliability, and uninterrupted operation of the woodworking and milling machines.
In summary, belt pulleys have a significant impact on the performance of woodworking and milling machines. They enable power transmission, speed control, torque conversion, and stability of belts. Belt pulleys affect tooling and cutter compatibility, noise and vibration levels, as well as the maintenance and serviceability of the machines. By selecting appropriate pulleys, maintaining proper belt tension, and ensuring pulley alignment, woodworking and milling machines can achieve optimal performance, accuracy, and efficiency in various cutting and shaping tasks.
How does the size and design of a belt pulley impact its performance?
The size and design of a belt pulley have a significant impact on its performance in power transmission systems. The size refers to the dimensions of the pulley, such as its diameter and width, while the design encompasses factors like the groove profile, material selection, and overall construction. Here’s a detailed explanation of how the size and design of a belt pulley impact its performance:
1. Speed and Power Transmission: The size of a belt pulley directly affects the speed and power transmission capability of the system. A larger pulley diameter results in higher belt speeds and increased power transmission capacity. On the other hand, a smaller pulley diameter allows for slower speeds and reduced power transmission. The selection of an appropriate pulley size depends on the desired speed and torque requirements of the application.
2. Belt Tension and Grip: The size and design of a belt pulley influence the tension and grip between the belt and pulley. A larger pulley diameter increases the angle of wrap, which improves the belt’s grip on the pulley and enhances power transmission efficiency. Additionally, the width of the pulley affects the contact area with the belt, allowing for higher load-carrying capacity. Proper belt tension and grip are crucial for preventing belt slippage, maximizing power transfer, and ensuring reliable operation.
3. Speed Ratio: The size and design of the driving and driven pulleys determine the speed ratio between them. By selecting pulleys of different sizes or varying the number of grooves, the speed ratio can be adjusted. This is important in applications where specific speed requirements need to be met, such as in machinery that requires different operating speeds for various operations. The design of the pulleys, including the groove profile and pitch diameter, must be considered to achieve the desired speed ratio.
4. Belt Life and Wear: The size and design of a belt pulley can impact the life and wear characteristics of the belt. Improper pulley sizing or design can lead to excessive belt tension, uneven belt loading, or misalignment, resulting in premature wear and failure of the belt. A well-designed pulley with appropriate dimensions, smooth groove profiles, and proper alignment reduces belt stress and wear, prolonging the belt’s lifespan and reducing maintenance requirements.
5. Noise and Vibration: The size and design of a belt pulley can influence the noise and vibration levels in the power transmission system. Proper pulley size selection and design considerations, such as balancing the pulley, ensuring concentricity, and minimizing runout, help reduce vibration and noise generation. This improves overall system performance, operator comfort, and reduces the potential for component fatigue or damage.
6. Material Selection and Construction: The design of a belt pulley includes material selection and construction considerations. Different materials, such as steel, cast iron, aluminum, or composites, offer varying levels of strength, durability, and resistance to factors like corrosion or extreme temperatures. The design may also include features like hubs, keyways, or flanges, which enhance the pulley’s performance and facilitate proper installation and alignment in the system.
Overall, the size and design of a belt pulley play a crucial role in determining its performance in power transmission systems. Factors such as speed and power transmission capability, belt tension and grip, speed ratio, belt life and wear, noise and vibration levels, and material selection all depend on the proper sizing and design of the pulley. Attention to these factors ensures optimal performance, efficiency, and reliability in belt-driven applications.
Can you explain the different types of belt pulleys and their applications?
There are several different types of belt pulleys, each designed for specific applications and requirements. The choice of pulley type depends on factors such as the power transmission needs, speed control requirements, space limitations, and the type of belt or rope used. Here’s an overview of some common types of belt pulleys and their applications:
1. V-Belt Pulleys: V-belt pulleys are one of the most widely used types of pulleys. They have a trapezoidal groove profile and are designed to accommodate V-belts, which have a corresponding cross-sectional shape. V-belt pulleys are commonly used in applications that require high torque transmission, such as in industrial machinery, automotive engines, and HVAC systems.
2. Flat Belt Pulleys: Flat belt pulleys have a flat or slightly crowned surface without any grooves. They are used with flat belts, which have a rectangular cross-section. Flat belt pulleys are suitable for applications that require high-speed power transmission, such as in textile machines, printing presses, and conveyor systems.
3. Timing Belt Pulleys: Timing belt pulleys, also known as synchronous pulleys, have teeth or grooves that mesh with the teeth of a timing belt. This design provides precise and synchronous power transmission, making them suitable for applications that require accurate positioning and timing, such as in robotics, CNC machines, and automotive engines.
4. Variable Speed Pulleys: Variable speed pulleys, also called adjustable or variable pitch pulleys, allow for continuous speed control by adjusting the effective diameter of the pulley. They feature movable pulley halves or arms that change the distance between the grooves, altering the speed ratio. Variable speed pulleys are used in applications where adjustable speed control is required, such as in machinery with variable loads or in variable speed drives.
5. Step Pulleys: Step pulleys have multiple grooves of different diameters arranged on the same pulley. By changing the belt position between these different grooves, the speed ratio can be adjusted. Step pulleys are commonly used in machines such as drill presses, lathes, and milling machines, where a range of predetermined speeds is required for different operations.
6. Idler Pulleys: Idler pulleys are not directly involved in power transmission but are used to redirect and tension the belt. They help maintain proper belt tension, improve belt wrap around the pulleys, and assist in achieving the desired belt path. Idler pulleys are commonly used in automotive engines, HVAC systems, and other belt-driven systems.
7. Clutch Pulleys: Clutch pulleys are specialized pulleys that incorporate a clutch mechanism. They allow for on-demand engagement and disengagement of the pulley from the driven shaft. Clutch pulleys are commonly used in automotive applications, such as in alternators, where they enable efficient power generation while reducing drag during idle or deceleration.
It’s important to note that these are just a few examples of belt pulley types, and there may be other specialized designs based on specific application requirements. The selection of the appropriate belt pulley type depends on factors such as the power transmission needs, speed control requirements, load capacity, and the type of belt or rope used.
In summary, different types of belt pulleys, such as V-belt pulleys, flat belt pulleys, timing belt pulleys, variable speed pulleys, step pulleys, idler pulleys, and clutch pulleys, are designed for specific applications and requirements. Understanding the characteristics and applications of these pulley types allows for the proper selection and utilization of belt pulleys in various mechanical systems.
editor by CX
2024-04-09