Product Description
Factory high quality Aluminum alloy 5mm bore 2 flanges GT2 GT3 GT5 GT8 GT14 timing belt pulleys
1) Warranty: our timing pulley’s quality is very good and with ensurance within 1 year, when you receive the products and find quality problems, we promise you could return it back and free maintenance.
2) Drawings: please send you timing pulleys’ drawings to us to get the best quotation; If you have no drawings, then we could work out CAD drawings and the best quotation to you ASAP.
3) Sample: we accept 1 piece sample’s order, we could do samples until you’re satisfied.
4) Confidentiality agreetment: Strictly adherence to client confidentiality agreetment for timing pulleys.
Product Description |
Product Name |
Timing Belt Pulley | |
Teeth profile | Trapezoidal toothed | MXL, XXL, XL, L, H, XH, XXH |
T-toothed | T2.5, T5, T10, T20 | |
Arc toothed | HTD3M, HTD5M, HTD8M, HTD14M, HTD20M, Gt2, Gt3, Gt5 | |
S-toothed | S2M, S3M, S4.5M, S5M, S8M, S14M | |
Parabolic-toothed | P2M, P3M, P5M, P8M, P14M | |
Y-toothed | G2M, G3M, G5M, Y8M | |
Teeth Quantity | 10-150 teeth or customized | |
Inner Bore | 2-200mm H7 precision or customized | |
Belt width | 4mm, 6mm, 9mm, 10mm, 12mm, 15mm, 20mm, 25mm, 30mm, 40mm, 50mm, 1/4”, 5/16”, 3/8”, 1/2”, 3/4”, 1”, 1.5”, 2”or customized | |
Accessories | We can provide the service of assembling setscrews, bearings, shafts or taper bush | |
Surface treatment | Anodize,Black Oxide,Phosphate and Galvanization | |
Drawing Format | Timing belt pulley cad drawing,timing belt pulley UG drawing,Timing belt Pulley Soliwork drawing,Timing Pulley PDF drawing |
What is timing pulley?
Timing pulleys are specialized pulleys that have either teeth or pockets around the outside diameter of the pulley body. Timing teeth engage holes in the metal belt, while timing pockets engage drive lugs on a belt’s inner circumference. These teeth or pockets are used only for timing, not for power transmission.
How timing pulleys work?
The synchronous wheel transmission is composed of an endless belt with equal-spaced teeth on the inner peripheral surface and a pulley with corresponding teeth. During operation, the toothed teeth mesh with the tooth grooves of the pulley to transmit motion and power, which is integrated with the belt. A new type of belt drive with the advantages of transmission, chain drive and gear transmission.
What is gt2 timing pulley?
2mm pitch GT2 Pulley. The GT2 or 2GT Tooth Profile timing pulley prevails in the 3d printing hobby cause the Round tooth profile brings high precision of non-backlash, were known as today’s Reprap Pulley.
What is a timing pulley flange?
Timing pulley flanges are used to maintain belt contact with a timing pulley in power transmission applications.Timing pulley flanges are manufactured to fit timing pulleys of the same pitch and size. The dimensions of a pitch, including the mating flange, are specified by the number of grooves.
What are synchronous belts used for?
The trapezoidal tooth profile first used on synchronous belts is recognized as standard. Belts with this configuration are commonly used in machine tools, textile machinery, home appliances, business equipment, and as camshaft drives in engines.
Note:Please confirm you need teeth profile, teeth quantity, belt width, bore diameter, quantity and type (please refer below drawings) to get our the most complete CAD drawings and the best quotation.
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Certification: | ISO |
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Pulley Sizes: | Type F |
Manufacturing Process: | Forging |
Material: | Iron |
Surface Treatment: | Baking Paint |
Application: | Chemical Industry, Grain Transport, Mining Transport, Power Plant |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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What maintenance procedures are necessary to keep sheave pulleys in good condition?
To keep sheave pulleys in good condition and ensure their optimal performance, several maintenance procedures should be followed. Here is a detailed explanation of the necessary maintenance procedures:
1. Regular Inspection: Conduct regular visual inspections of the sheave pulleys to check for any signs of wear, damage, or misalignment. Look for cracks, corrosion, excessive groove wear, or any other issues that may affect the pulley’s functionality. Inspections can help identify potential problems early on and prevent further damage.
2. Cleaning: Clean the sheave pulleys regularly to remove dirt, debris, or built-up residue that may impair their operation. Use a soft brush or cloth to gently clean the pulleys and ensure they are free from any obstructions. Avoid using harsh cleaning agents that could damage the pulley’s surface.
3. Lubrication: Apply lubrication to the sheave pulleys to minimize friction and reduce wear. Use a suitable lubricant recommended by the manufacturer or a lubricant specifically designed for pulleys. Apply the lubricant sparingly and distribute it evenly along the pulley’s grooves and edges. Excess lubrication should be wiped off to prevent accumulation of dirt and debris.
4. Tension Adjustment: Check the tension of the cables or belts running on the sheave pulleys. Improper tension can lead to slippage, premature wear, or reduced performance. Follow the manufacturer’s guidelines or consult a professional to ensure the appropriate tension is maintained. Adjust the tension as necessary to maintain optimal operation.
5. Alignment: Ensure that the sheave pulleys are properly aligned with the cables, belts, or tracks they interact with. Misalignment can cause uneven wear, increased friction, and reduced efficiency. Check for any deviations in alignment and make necessary adjustments to ensure smooth and consistent operation.
6. Replacement: If any signs of significant wear, damage, or deterioration are detected during inspections, consider replacing the sheave pulleys. Worn or damaged pulleys may compromise the performance and safety of the system. Follow the manufacturer’s recommendations for replacement parts and procedures.
7. Professional Maintenance: For complex systems or in cases where specialized knowledge is required, it is advisable to seek professional maintenance services. Professional technicians can perform more comprehensive inspections, carry out advanced maintenance procedures, and address any specific issues related to the sheave pulleys.
Remember to consult the manufacturer’s documentation and guidelines for specific maintenance instructions and recommendations tailored to the sheave pulleys used in your particular system. Adhering to regular maintenance procedures will help extend the lifespan of the sheave pulleys, ensure their efficient functioning, and contribute to the overall reliability and safety of the system.
Can sheave pulleys withstand harsh environmental conditions?
Yes, sheave pulleys can be designed and manufactured to withstand a variety of harsh environmental conditions. Here is a detailed explanation of their ability to withstand such conditions:
1. Corrosion Resistance: Sheave pulleys can be made from materials that offer excellent corrosion resistance, such as stainless steel or corrosion-resistant coatings. These materials are specifically chosen to withstand exposure to moisture, humidity, or corrosive substances, making them suitable for harsh environments such as marine or industrial settings where corrosion is a concern.
2. Temperature Extremes: Sheave pulleys can be designed to withstand a wide range of temperature extremes. Specialized materials, coatings, or heat-resistant treatments can be utilized to ensure the pulleys maintain their structural integrity and functionality in high-temperature environments, such as foundries or industrial ovens. Similarly, pulleys can be designed to withstand extremely low temperatures encountered in cold storage facilities or outdoor applications.
3. Chemical Resistance: In environments where exposure to chemicals or abrasive substances is common, sheave pulleys can be customized with materials or coatings that offer high chemical resistance. This ensures that the pulleys can withstand contact with chemicals, solvents, oils, or abrasive particles without deteriorating or suffering from chemical reactions that could compromise their performance.
4. Mechanical Durability: Sheave pulleys can be engineered to withstand heavy loads, shocks, or vibrations that may be present in harsh environments. By using robust materials, precision engineering, and appropriate manufacturing techniques, the pulleys can maintain their structural integrity and resist mechanical stresses, ensuring reliable performance and longevity in demanding conditions.
5. Sealing and Protection: To enhance their ability to withstand harsh environments, sheave pulleys can be equipped with sealing mechanisms and protective features. These may include sealed bearings or bearing enclosures to prevent contamination from dust, dirt, or water ingress. Additionally, pulleys can be designed with protective covers or shields to safeguard the internal components from external elements, increasing their durability and resistance to harsh conditions.
6. UV Resistance: In outdoor applications where exposure to sunlight and ultraviolet (UV) radiation is prevalent, sheave pulleys can be manufactured with UV-resistant materials or coatings. UV resistance prevents degradation, discoloration, or loss of mechanical properties due to prolonged sun exposure, ensuring the pulleys remain functional and reliable over an extended period.
7. IP Ratings: Sheave pulleys can be designed to meet specific Ingress Protection (IP) ratings. IP ratings indicate the level of protection provided against the intrusion of solid particles (dust) and liquids (water or other liquids). By choosing pulleys with suitable IP ratings, they can be effectively protected against harsh environmental conditions, ensuring their performance and longevity.
It is important to note that the ability of sheave pulleys to withstand harsh environmental conditions may vary depending on the specific design, materials used, and the severity of the conditions. Manufacturers can provide guidance on the suitable customization options and specifications required to ensure optimal performance and longevity in specific harsh environments.
What are the primary components and design features of a sheave pulley?
A sheave pulley consists of several primary components and design features that are essential to its functionality. Here is a detailed explanation of the primary components and design features of a sheave pulley:
1. Wheel or Disk: The main body of a sheave pulley is typically a wheel or disk-shaped component. It is usually circular in shape, with a central axle or hub. The wheel or disk provides the structural support and rotational motion required for the pulley to function.
2. Grooves: Sheave pulleys feature one or more grooves on their outer circumference. The grooves are specifically designed to accommodate belts, ropes, or cables. The number and configuration of the grooves depend on the intended application and the type of belt or rope that will be used with the pulley. The grooves ensure proper alignment and grip, preventing slippage and enabling efficient power transmission or lifting operations.
3. Axle or Hub: The axle or hub is the central component of the sheave pulley. It provides the rotational axis around which the wheel or disk rotates. The axle or hub is typically mounted on a shaft or bearing, allowing the pulley to rotate freely.
4. Bearings: In some sheave pulleys, bearings are incorporated into the design to reduce friction and enable smooth rotation. The bearings are usually located within the axle or hub, allowing the pulley to rotate with minimal resistance. The use of bearings enhances the efficiency and durability of the sheave pulley.
5. Material: Sheave pulleys are commonly made from various materials, depending on the specific application and operating conditions. Common materials used for sheave pulleys include metals such as steel or cast iron, as well as synthetic materials like nylon or high-density polyethylene (HDPE). The choice of material depends on factors such as load capacity, environmental conditions, and desired durability.
6. Size and Configuration: Sheave pulleys come in various sizes and configurations to accommodate different system requirements. The size of the pulley is determined by factors such as the load capacity, belt or rope thickness, and the desired speed of rotation. Additionally, the configuration of the pulley, including the number and arrangement of grooves, can vary depending on the specific application and the type of belt or rope used.
7. Mounting: Sheave pulleys are typically mounted on a shaft or bearing housing to ensure proper alignment and stability. The mounting mechanism may involve set screws, keyways, or other fastening methods to secure the pulley in place. Proper mounting is crucial to ensure smooth rotation and prevent any misalignment or wobbling that could affect the performance of the pulley.
In summary, the primary components and design features of a sheave pulley include the wheel or disk, grooves for accommodating belts, ropes, or cables, the axle or hub for rotational motion, bearings for reducing friction, the choice of material for durability, size and configuration variations, and the mounting mechanism for proper alignment. These components and design features work together to enable efficient power transmission and lifting operations in various mechanical systems.
editor by CX
2024-04-23