Product Description
CHINAMFG Machinery offers a wide range of high quality Timing Belt Pulleys and Toothed Bars / Timing Bars. Standard and non-standard pulleys according to drawings are available.
Types of material:
 1. AlCuMgPb 6061 6082 Aluminum Timing Pulley
 2. C45E 1045 S45C Carbon Steel Timing Pulley
 3. GG25 HT250 Cast Iron Timing Pulley
 4. SUS303 SUS304 AISI431 Stainless Steel Timing Pulley
 5. Other material on demand, such as cooper, bronze and plastic
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Types of surface treatment
 1.  Anodized surface -Aluminum Pulleys
 2.  Hard anodized surface — Aluminum Pulleys
 3.  Black Oxidized surface — Steel Pulleys
 4. Zinc plated surface — Steel Pulleys
 5. Chromate surface — Steel Pulleys; Cast Iron Pulleys
 6. Nickel plated surface –Steel Pulleys; Cast Iron PulleysÂ
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Types of teeth profile
Teeth Profile | Pitch |
HTD | 3M,5M,8M,14M,20M |
AT | AT5,AT10,AT20 |
T | T2.5,T5,T10 |
MXL | 0.08″(2.032MM) |
XL | 1/5″(5.08MM) |
L | 3/8″(9.525MM) |
H | 1/2″(12.7MM) |
XH | 7/8″(22.225MM) |
XXH | 1 1/4″(31.75MM) |
STS STPD | S2M,S3M,S4.5M,S5M,S8M,S14M |
RPP | RPP5M,RPP8M,RPP14M,RPP20M |
PGGT | PGGTÂ 2GT, 3GT and 5GT |
PCGT | GT8M,GT14M |
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Types of pitches and sizes
Imperial Inch Timing Belt Pulley,
1.    Pilot Bore MXL571 for 6.35mm timing belt; teeth number from 16 to 72;
2.  Pilot Bore XL037 for 9.53mm timing belt; teeth number from 10 to 72;
3.  Pilot Bore, Taper Bore L050 for 12.7mm timing belt; teeth number from 10 to 120;
4.  Pilot Bore, Taper Bore L075 for 19.05mm timing belt; teeth number from 10 to 120;
5.  Pilot Bore, Taper Bore L100 for 25.4mm timing belt; teeth number from 10 to 120;
6.  Pilot Bore, Taper Bore H075 for 19.05mm timing belt; teeth number from 14 to 50;
7.  Pilot Bore, Taper Bore H100 for 25.4mm timing belt; teeth number from 14 to 156;
8.  Pilot Bore, Taper Bore H150 for 38.1mm timing belt; teeth number from 14 to 156;
9.  Pilot Bore, Taper Bore H200 for 50.8mm timing belt; teeth number from 14 to 156;
10.  Pilot Bore, Taper Bore H300 for 76.2mm timing belt; teeth number from 14 to 156;
11.  Taper Bore XH200 for 50.8mm timing belt; teeth number from 18 to 120;
12.  Taper Bore XH300 for 76.2mm timing belt; teeth number from 18 to 120;
13.  Taper Bore XH400 for 101.6mm timing belt; teeth number from 18 to 120;
Metric Timing Belt Pulley T and AT
1. Pilot Bore T2.5-16 for 6mm timing belt; teeth number from 12 to 60;Â
2.   Pilot Bore T5-21 for 10mm timing belt; teeth number from 10 to 60;Â
3.   Pilot Bore T5-27 for 16mm timing belt; teeth number from 10 to 60;Â
4.   Pilot Bore T5-36 for 25mm timing belt; teeth number from 10 to 60;Â
5.   Pilot Bore T10-31 for 16mm timing belt; teeth number from 12 to 60;Â
6.   Pilot Bore T10-40 for 25mm timing belt; teeth number from 12 to 60;Â
7.   Pilot Bore T10-47 for 32mm timing belt; teeth number from 18 to 60;Â
8.   Pilot Bore T10-66 for 50mm timing belt; teeth number from 18 to 60;
9.  Pilot Bore AT5-21 for 10mm timing belt; teeth number from 12 to 60;
10. Pilot Bore AT5-27 for 16mm timing belt; teeth number from 12 to 60;
11. Pilot Bore AT5-36 for 25mm timing belt; teeth number from 12 to 60;Â
12. Pilot Bore AT10-31 for 16mm timing belt; teeth number from 15 to 60;Â
13. Pilot Bore AT10-40 for 25mm timing belt; teeth number from 15 to 60;Â
14. Pilot Bore AT10-47 for 32mm timing belt; teeth number from 18 to 60;Â
15. Pilot Bore AT10-66 for 50mm timing belt; teeth number from 18 to 60;
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Metric Timing Belt Pulley HTD3M, 5M, 8M, 14MÂ
1. Â HTD3M-06; 3M-09; 3M-15; teeth number from 10 to 72;Â
2. Â HTD5M-09; 5M-15; 5M-25; teeth number from 12 to 72;Â
3. Â HTD8M-20; 8M-30; 8M-50; 8M-85 teeth number from 22 to 192;Â
4. Â HTD14M-40; 14M-55; 14M-85; 14M-115; 14M-170; teeth number from 28-216;Â
5. Â Taper Bore HTD5M-15; 8M-20; 8M-30; 8M-50; 8M-85; 14M-40; 14M-55; 14M-85;
     14M-115; 14M-170
Metric Timing Belt Pulleys for Poly Chain GT2 BeltsÂ
1.      PCGT8M-12; PCGT8M-21; PCGT8M-36; PCGT8M-62;Â
2.      PCGT14M-20; PCGT14M-37; PCGT14M-68; PCGT14M-90; PCGT14M-125;
Power Grip CHINAMFG Tooth/ PGGT 2GT, 3GT and 5GTÂ
1. 2GT-06, 2GT-09 for timing belt width 6mm and 9mmÂ
2. 3GT-09, 3GT-15 for timing belt width 9mm and 15mmÂ
3. 5GT-15, 5GT-25 for timing belt width 15mm and 25mm
OMEGA RPP HTD Timing PulleysÂ
1. Â RPP3M-06; 3M-09; 3M-15; teeth number from 10 to 72;Â
2. Â RPP5M-09; 5M-15; 5M-25; teeth number from 12 to 72;Â
3. Â RPP8M-20; 8M-30; 8M-50; 8M-85 teeth number from 22 to 192;Â
4. Â RPP14M-40; 14M-55; 14M-85; 14M-115; 14M-170; teeth number from 28-216;Â
5. Â Taper Bore RPP5M-15; 8M-20; 8M-30; 8M-50; 8M-85; 14M-40; 14M-55; 14M-85;
    14M-115; 14M-170 .
Ubet Machinery is also competetive on these power transmission components.
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Certification: | ISO |
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Pulley Sizes: | Timing |
Manufacturing Process: | Sawing |
Samples: |
US$ 3/Piece
1 Piece(Min.Order) | Order Sample Normally sample order can be ready in 15 days
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Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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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 does the design of a V pulley affect its performance?
The design of a V pulley plays a crucial role in determining its performance characteristics. Here’s an explanation of how different design aspects of a V pulley can affect its performance:
1. Groove Profile:
The groove profile of a V pulley is designed to match the shape of the V-belt used in the power transmission system. The angle and depth of the groove directly influence the grip between the pulley and the belt. An appropriate groove profile ensures a secure and efficient power transmission, minimizing belt slippage, and maximizing the transfer of torque.
2. Diameter:
The diameter of a V pulley affects both its speed ratio and torque transmission capacity. A larger pulley diameter results in higher belt speed and lower torque transmission, while a smaller diameter pulley provides lower speed and higher torque. The selection of the pulley diameter depends on the desired speed and torque requirements of the application.
3. Material:
The material used for constructing the V pulley impacts its durability, strength, and resistance to wear and corrosion. Common materials include cast iron, steel, aluminum, and plastic. The choice of material depends on factors such as the application environment, load capacity, and operating conditions. A robust and appropriate material selection ensures the pulley can withstand the demands of the application and maintain its performance over time.
4. Balance and Runout:
A well-balanced V pulley is essential to minimize vibration and ensure smooth operation. Imbalances can lead to increased wear on the pulley, belt, and bearings, reducing the overall efficiency and lifespan of the system. Similarly, excessive runout (eccentricity) in the pulley’s rotational movement can cause belt misalignment and increased friction. Proper design and manufacturing techniques are necessary to achieve optimal balance and runout in V pulleys.
5. Taper and Flange:
In some V pulley designs, a taper or flange is incorporated to improve belt tracking and prevent belt wandering or jumping off the pulley. The taper or flange helps guide the belt and maintain proper alignment, enhancing the overall performance and reliability of the power transmission system.
6. Hub Design:
The hub design of a V pulley determines its attachment method to the shaft. It can feature keyways, set screws, or other mechanisms to securely fasten the pulley in place. The hub design should ensure a tight and reliable connection to prevent pulley slippage and maintain accurate power transmission.
7. Surface Finish:
The surface finish of a V pulley can impact its friction characteristics. A smooth and properly finished surface reduces friction between the pulley and the belt, promoting efficient power transmission and minimizing heat generation. Additionally, surface treatments such as coatings or platings can improve the pulley’s resistance to corrosion and wear.
Each of these design factors contributes to the overall performance of a V pulley in terms of power transmission efficiency, belt grip, durability, and reliability. Manufacturers carefully consider these design aspects to ensure optimal performance and compatibility with specific applications and operating conditions.
Can V pulleys be part of fitness equipment like treadmills and stationary bikes?
Yes, V pulleys can be part of fitness equipment like treadmills and stationary bikes, playing a crucial role in their operation. Here’s a detailed explanation:
1. Belt Driven Systems:
Treadmills and stationary bikes often use belt-driven systems to transfer power from the motor or user’s pedaling motion to the moving components of the equipment. V pulleys are an integral part of these systems as they provide the necessary power transmission and control.
2. Motor Drive:
In motorized treadmills and stationary bikes, the V pulley is connected to the motor shaft, which drives the belt. The motor provides the rotational power needed to move the belt, allowing the user to walk, jog, or run on the treadmill or pedal the stationary bike. The size and design of the V pulley influence the speed and torque delivered to the belt and, consequently, the user’s movement.
3. Tension and Belt Alignment:
Proper tensioning and alignment of the belt are crucial for smooth and efficient power transfer in fitness equipment. V pulleys are often accompanied by tensioners and idler pulleys that help maintain the correct tension in the belt and ensure proper belt alignment. This ensures optimal performance and prevents belt slippage or premature wear.
4. Speed Control:
V pulleys allow for speed control in treadmills and stationary bikes. By using pulleys of different sizes, the speed ratio between the motor or user’s pedaling motion and the belt can be adjusted. This enables users to select their desired workout intensity by adjusting the speed at which the belt moves or the resistance level on stationary bikes.
5. Quiet Operation:
The design of V pulleys, combined with the flexibility and smooth engagement of V-belts, contributes to the quiet operation of fitness equipment. The pulley and belt system minimizes noise generation, providing a more enjoyable and peaceful workout experience for users.
6. Durability and Maintenance:
V pulleys used in fitness equipment are designed to withstand the demanding conditions of regular use. They are often made of durable materials such as steel or aluminum to ensure longevity. Regular maintenance, including periodic inspection, lubrication, and occasional belt replacement, is necessary to maintain the efficiency and reliability of the V pulley system in fitness equipment.
Overall, V pulleys are an essential component of fitness equipment like treadmills and stationary bikes, facilitating efficient power transmission, speed control, and user movement. Their design features, combined with properly tensioned belts, contribute to the overall performance, durability, and quiet operation of fitness equipment, supporting users in achieving their fitness goals.
Can you explain the typical applications of V pulleys in machinery?
V pulleys, also known as V-belt pulleys or sheaves, have a wide range of applications across various machinery and systems. Here’s an explanation of the typical applications of V pulleys:
1. Automotive Systems:
V pulleys are extensively used in automotive systems. They are found in engines, where they transmit power from the crankshaft to various accessories such as the alternator, water pump, power steering pump, and air conditioning compressor. V pulleys in automotive applications ensure efficient power transmission and enable the proper functioning of essential vehicle components.
2. Industrial Machinery:
In industrial machinery, V pulleys find widespread use in power transmission systems. They are commonly employed in belt-driven conveyor systems, where they transfer power from electric motors to drive belts that move materials or products along the conveyor lines. V pulleys are also used in various industrial equipment, such as agricultural machinery, machine tools, printing presses, and packaging machines.
3. HVAC Systems:
Heating, ventilation, and air conditioning (HVAC) systems utilize V pulleys for power transmission. V pulleys are employed in fans, blowers, and pumps used in HVAC systems. They enable the efficient operation of these components and contribute to the proper circulation of air or fluids in buildings, ensuring effective heating, cooling, and ventilation.
4. Appliances:
V pulleys are found in a range of household and commercial appliances. They are used in washing machines and dryers to transmit power from electric motors to the drum or agitator. V pulleys are also employed in power tools, such as drills and saws, to transfer rotational motion from the motor to the cutting or drilling mechanism.
5. Mining and Construction Equipment:
In the mining and construction industries, V pulleys are utilized in heavy machinery and equipment. They are commonly found in excavators, bulldozers, cranes, and loaders, where they transmit power to various components such as hydraulic pumps, winches, and conveyor systems. V pulleys in mining and construction equipment play a crucial role in enabling efficient and reliable operation in demanding environments.
6. Agricultural Equipment:
Agricultural machinery extensively employs V pulleys for power transmission. Tractors, combines, harvesters, and other agricultural equipment utilize V pulleys to transfer power to different components, including pumps, augers, conveyors, and cutting mechanisms. V pulleys in agricultural machinery facilitate the efficient performance of farming operations.
These are just a few examples of the typical applications of V pulleys in machinery. Due to their versatility, reliability, and ability to handle high torque, V pulleys are widely utilized in numerous industries and mechanical systems to ensure efficient power transmission and proper functioning of various equipment and machinery.
editor by CX
2024-05-15