Product Description
Custom shape U V slot steel ball bearing Xihu (West Lake) Dis. Industrial Plastic Sheave Cable Rope Ceramic Coated Wire Textile Yarn Roller Winding Xihu (West Lake) Dis. Pulley
Winding Xihu (West Lake) Dis. Pulley for textile, yarn and coil (Wire guide roller)
Description:
1. In the wire and cable industry, ceramics has become the material of choice and convenience. Almost all facets of wire and cable manufacture have benefited by the use of ceramics in the production processes.
2. Product quality and output have been maximized with minimum downtime; Lower wear
Problems and surface defects.
3. Pulley flanges, CNC Machined and available in fully anodized Aluminum, coated with anti corrosion layers, are not affected by most wire drawing solutions and do not need frequent maintenance vis-à -vis Phenolic materials. The flanges are held together by means of SS screws. High performance bearings are used and are pressed fitted into the metal flanges. The metal part is duly anodized to prevent rusting.
Feature:
1. Flanged ceramic roller, Wire guide pulleys (ceramic pulleys) is commonly used component when wire passing is required, it can be used in coil winding machine, cable machine and the textile machinery as well. The porcelain ring is mounted on the bearing, Coil winding wire guide pulley(wire roller) will rotate by the thread and wire passing on the surface of the ring. Thus the sliding friction has been converted to the static friction.
2. But at the start and stop, in order to overcome the inertia, there will be a partial sliding friction. The surface Polish degree of the porcelain ring reaches Ra0.2; The beating during rotation is under 0.15. We select the 99% AL2O3 as the material with the hardness of HRA88 and the density of 3.85…Two nylon side walls have been put to the both side of the ceramic ring and the bearing, coil winding wire guide pulley (wire roller) combines 1 wire roller.
Service:
1. With many available designs and configurations, such as bolt together, CHINAMFG ceramic, or coated aluminum. CHINAMFG can satisfy the unique requirements of the wire and cable industry.
2. HARTAI’s AL95 guide pulleys are long lasting, will help improve wire surface quality and at the same time reduce maintenance and production costs.
3. CHINAMFG offers dozens standard sizes of guide pulleys. A large inventory of pulleys is maintained for the most widely used sizes for immediate delivery. Xihu (West Lake) Dis. pulleys can also be manufactured to specific requirements and detail.
Web: http://hartai
Specification table of wire roller | |||||
Modle No | A((mm) | B(mm) | C(mm) | D(mm) | E(mm) |
HCR001-B03 | 20 | 15 | 3 | 4.8 | 3 |
HCR002-B04 | 28.7 | 20 | 4 | 6.4 | 4 |
HCR003-B03 | 30.4 | 15 | 3 | 10 | 3 |
HCR004-B04 | 40 | 20 | 4 | 15 | 3 |
HCR045-B04 | 45 | 4 | |||
HCR045-B05 | 5 | ||||
HCR045-B06 | 6 | ||||
HCR005-B05 | 54.5 | 30 | 5 | 10 | 6 |
HCR005-B06 | 6 | ||||
HCR005-B07 | 7 | ||||
HCR005-B08 | 8 | ||||
HCR006-B07 | 60 | 40 | 7 | 13 | 7 |
HCR006-B08 | 8 | ||||
HCR006-B10 | 10 | ||||
HCR006-B12 | 12 | ||||
HCR007-B05 | 60 | 30 | 5 | 18 | 6 |
HCR007-B06 | 6 | ||||
HCR007-B07 | 7 | ||||
HCR007-B08 | 8 | ||||
HCR008-B10 | 79.2 | 50 | 10 | 15 | 9 |
HCR009-B07 | 80.5 | 40 | 7 | 25 | 7 |
HCR009-B08 | 8 | ||||
HCR571-B10 | 99.3 | 50 | 10 | 29.5 | 9 |
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Pulley Sizes: | Type A |
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Manufacturing Process: | Conbination |
Material: | Plastic and Ceramic |
Surface Treatment: | Polishing |
Application: | Chemical Industry, Grain Transport, Mining Transport, Power Plant, Automatic Winding Machine |
Polish: | Ra0.2 |
Samples: |
US$ 5/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Can plastic pulleys withstand exposure to environmental conditions?
Plastic pulleys are designed to withstand exposure to various environmental conditions. Here’s a detailed explanation:
1. Moisture and Humidity:
Plastic pulleys are typically made from materials that are resistant to moisture and humidity. They have inherent properties that prevent water absorption, reducing the risk of swelling, warping, or degradation. This makes plastic pulleys suitable for use in environments with high humidity or where occasional exposure to moisture is expected, such as garages or outdoor applications.
2. Temperature Extremes:
Plastic pulleys exhibit different levels of temperature resistance depending on the specific material used. Many plastic pulleys are designed to withstand a wide range of temperatures, including both high and low extremes. For example, some pulleys made from engineering-grade plastics can operate reliably in temperatures ranging from -40°C to 100°C (-40°F to 212°F). However, it’s important to check the manufacturer’s specifications for temperature limits and choose pulleys that are suitable for the specific environment in which they will be used.
3. UV Exposure:
Extended exposure to ultraviolet (UV) radiation from the sun can potentially degrade certain types of plastics. However, many plastic pulleys are manufactured with UV stabilizers or additives that provide resistance to UV radiation. These additives help protect the plastic material from UV-induced degradation, such as discoloration, brittleness, or loss of mechanical properties. Plastic pulleys with UV resistance are commonly used in outdoor applications where they are exposed to direct sunlight.
4. Chemical Resistance:
The chemical resistance of plastic pulleys varies depending on the specific material used. Some plastics, such as polypropylene (PP) or polyethylene (PE), have excellent chemical resistance and can withstand exposure to a wide range of chemicals, including solvents, acids, and alkalis. However, other plastics may be more susceptible to chemical attack. It’s important to consider the specific chemicals present in the environment and select plastic pulleys that are compatible and resistant to those substances.
5. Dust and Dirt:
Plastic pulleys are generally resistant to dust and dirt accumulation. Their smooth surfaces and low-friction properties make it difficult for particles to adhere to the pulley’s surface. This reduces the risk of debris interfering with the pulley’s movement or causing excessive wear. However, periodic cleaning may still be necessary to ensure optimal performance and prevent any buildup of contaminants that could affect the pulley’s operation.
6. Impact and Vibration:
Plastic pulleys are designed to withstand the impact and vibration commonly encountered in various applications. The plastic materials used in their construction offer good impact resistance, absorbing and dispersing energy to prevent damage or failure. Additionally, plastic pulleys can dampen vibrations, reducing the strain on the pulley and other components of the system. However, it’s important to choose pulleys with the appropriate material properties and consider the specific impact and vibration levels of the application.
7. Saltwater and Corrosive Environments:
In environments where saltwater or corrosive substances are present, it’s crucial to select plastic pulleys that are specifically designed for such conditions. Certain plastics, such as acetal (POM) or polyvinyl chloride (PVC), offer good resistance to saltwater and corrosion. These materials are commonly used in marine or coastal applications where the pulleys may be exposed to saltwater spray or corrosive atmospheres.
While plastic pulleys are generally designed to withstand exposure to environmental conditions, it’s important to consider the specific requirements of the application and choose pulleys that are suitable for the intended environment. Manufacturers often provide guidance on the recommended materials and specifications for plastic pulleys based on their environmental resistance properties.
How does the material composition of plastic pulleys impact their performance?
The material composition of plastic pulleys plays a crucial role in determining their performance characteristics. Here’s a detailed explanation of how the material composition of plastic pulleys impacts their performance:
1. Strength and Durability:
The choice of materials used in plastic pulleys affects their strength and durability. Different types of plastics, such as nylon, polyethylene, or acetal (POM), have varying mechanical properties. For example, nylon pulleys are known for their high strength and excellent wear resistance, making them suitable for demanding applications. On the other hand, polyethylene pulleys offer good impact resistance and low friction. The material composition is selected based on the specific requirements of the application to ensure that the plastic pulleys can withstand the forces, loads, and operating conditions they will encounter.
2. Wear and Friction Characteristics:
The material composition of plastic pulleys influences their wear and friction characteristics. Various additives and fillers can be added to plastic materials to enhance their performance in terms of wear resistance and friction reduction. For example, reinforcing fibers like glass fibers or carbon fibers can be incorporated into the plastic matrix to increase the pulley’s strength and wear resistance. Additionally, the surface finish and lubrication properties of the plastic material impact the friction between the pulley and the belt or cable, affecting the overall efficiency and lifespan of the system.
3. Temperature and Chemical Resistance:
Plastic pulleys made from different materials exhibit varying levels of temperature and chemical resistance. Some plastics, like nylon, have good resistance to high temperatures, while others may soften or deform at elevated temperatures. Similarly, the chemical resistance of plastic pulleys depends on the specific type of plastic used. For instance, certain plastics are more resistant to solvents, oils, or acids, while others may be susceptible to chemical attack. The material composition of plastic pulleys should be selected carefully to ensure compatibility with the operating temperature range and the chemical environment of the system.
4. Noise and Vibration Damping:
The material composition of plastic pulleys can impact their noise and vibration damping properties. Some plastics have inherent damping characteristics that help reduce vibrations and noise generated during operation. These damping properties contribute to smoother and quieter system performance. By selecting materials with suitable damping properties, the pulleys can help minimize noise and vibration levels, resulting in improved user comfort and reduced wear on the system components.
5. Machinability and Design Flexibility:
The material composition of plastic pulleys influences their machinability and design flexibility. Different plastics have varying ease of machinability, which can affect the manufacturing process and the ability to achieve precise dimensions and tolerances. Moreover, the material composition determines the design flexibility of the pulleys, allowing for custom shapes, sizes, and features. Certain plastics can be easily molded or extruded into complex geometries, enabling the incorporation of specific design elements that optimize belt or cable engagement, alignment, and overall system performance.
6. Cost and Availability:
The material composition of plastic pulleys can impact their cost and availability. Some plastics may be more readily available and cost-effective compared to others. The manufacturing process, the availability of raw materials, and the demand for specific plastic types can affect the overall cost of the pulleys. Additionally, the material composition may influence the lifespan and maintenance requirements of the pulleys, which can impact the cost-effectiveness of the system over its operational lifetime.
In summary, the material composition of plastic pulleys has a significant impact on their strength, durability, wear and friction characteristics, temperature and chemical resistance, noise and vibration damping properties, machinability, design flexibility, as well as cost and availability. By carefully considering the material composition based on the specific application requirements, it is possible to optimize the performance, reliability, and longevity of plastic pulleys in various systems.
What types of belts or cables are typically employed with plastic pulleys?
Plastic pulleys are designed to work in conjunction with different types of belts or cables, depending on the specific application and requirements. Here’s a detailed explanation of the types of belts or cables that are typically employed with plastic pulleys:
1. Timing Belts:
Timing belts, also known as synchronous belts, are commonly used with plastic pulleys. Timing belts have evenly spaced teeth on the inner surface, which engage with corresponding teeth on the plastic pulleys. This toothed design allows for precise power transmission and synchronized movement in applications that require accurate positioning or timing, such as in automotive engines or industrial machinery.
2. V-Belts:
V-belts, also called Vee belts, are frequently employed with plastic pulleys. V-belts have a trapezoidal cross-section and rely on friction between the belt and the pulley groove to transmit power. The angled sides of the V-belt fit into the corresponding V-shaped grooves on the plastic pulleys, providing reliable power transfer. V-belts are commonly used in applications such as HVAC systems, industrial machinery, and automotive accessory drives.
3. Flat Belts:
Flat belts, as the name suggests, have a flat surface and are often used with plastic pulleys. They rely on friction between the belt and the pulley surface to transmit power. Flat belts are versatile and find applications in various industries, including packaging machinery, material handling systems, and printing presses. Plastic pulleys with a flat surface are designed to provide optimal grip and traction for effective power transmission with flat belts.
4. Round Belts:
Round belts, also known as round o-ring belts or endless belts, are circular belts without any visible seam or splice. They are commonly utilized with plastic pulleys that have rounded grooves or flanges. Round belts are flexible and can be easily threaded through a system of pulleys, making them suitable for applications such as conveyor systems, packaging machinery, and small appliances.
5. Cable Systems:
Plastic pulleys are also employed with various types of cables in certain applications. Cable systems, such as wire rope or cables with an outer protective coating, may be guided or routed through plastic pulleys to achieve controlled movement or tensioning. These cable systems find applications in industries such as construction, material handling, and transportation.
6. Other Specialty Belts:
In addition to the commonly used belts mentioned above, plastic pulleys can be employed with other specialty belts based on specific requirements. For example, polyurethane belts, round tooth belts, or specialty conveyor belts may be used in applications where higher load capacity, chemical resistance, or specialized functionality is needed.
In summary, plastic pulleys can be paired with various types of belts or cables, including timing belts, V-belts, flat belts, round belts, cable systems, and other specialty belts. The choice of belt or cable depends on factors such as the application, power transmission requirements, desired accuracy, and environmental conditions. Plastic pulleys are designed to provide optimal engagement, grip, and traction for the specific type of belt or cable, ensuring efficient and reliable power transmission in a wide range of industries and applications.
editor by CX
2024-03-07