Product Description
Product Description
A) Taper Bush : 1008,1108,1210,1610,1615,2012,2517,3571,3030,3535,4030,4040,5050.
Different bores with keyway are available in metric and in inches.
B) Welding hubs for taper bushes
a. Taper type K weld-on hubs; b. Taper type W-WA weld-on hubs; c. Taper type F weld-on hubs;
d. Taper type S weld-on hubs; e. Taper type W weld-on hubs; f. Taper type WH weld-on hubs;
C) Taper adapters
1215B, 1615B, 2517B, 2525B, 3030B, 3535B, 4040B, 4545B
(Note: Stanard for taper bushing weld-on hubs adpot USA DODGE Co. and Martin standard. Any production and sales should be
authorised. )
D) Taper bored bolt-on hubs
SM1210, SM1610-1, SM1610-2, SM2012, SM2517, SM30-1, SM30-2;
E) XT Bushing
XTB15, XTB20, XTB25, XTB30, XTB35, XTB40, XTB45, XTB50, XTB60, XTB70, XTB80, XTB100, XTB120.
F) XH hubs
XTH15, XTH20, XTH25, XTH30, XTH35, XTH40, XTH45, XTH50, XTH60, XTH70, XTH80, XTH100, XTH120;
XTH15F4, XTH15F5, XTH15F6, XTH15F8; XTH20F5, XTH20F6, XTH20F8, XTH20F10, XTH20F12; XTH25F6, XTH25F8, XTH25F10, XTH25F12;
G) Split taper bushings
G, H, P1, P2, P3, B, Q1, Q2, Q3, R1, R2, S1, S2, U0, U1, U2, W1, W2, Y0.
H)Steel hubs for split taper bushings
HG1, HH1, HCH1, HP1, HCP1, HP2, HB1, HB2, HQ1, HCQ1, HQ2, HR1, HR2, HS1, HS2, HU0, HU1, HU2, HW1;
Bushing No. |
A |
B |
D Bolt Circle |
Wt (Apx.)lbs. |
1008 |
1 25/64 |
7/8 |
1 21/64 |
0.27 |
1108 |
1.511 |
7/8 |
1 29/64 |
0.33 |
1210 |
1 7/8 |
1 |
1 3/4 |
0.61 |
1215 |
1.875 |
1 1/2 |
1 3/4 |
0.8 |
1610 |
2 1/4 |
1 |
2 1/8 |
0.9 |
1615 |
2.25 |
1 1/2 |
2 1/8 |
1.2 |
2012 |
2 3/4 |
1 1/4 |
2 5/8 |
1.7 |
2517 |
3.375 |
1 3/4 |
3 1/4 |
3.5 |
2525 |
3 3/8 |
2 1/2 |
3 1/4 |
4.9 |
3571 |
4.25 |
2 |
4 |
6.5 |
3030 |
4 1/4 |
3 |
4 |
9.2 |
3535 |
5 |
3 1/2 |
4.83 |
14 |
4040 |
5 3/4 |
4 |
5.54 |
22 |
4545 |
6.375 |
4 1/2 |
6.13 |
30 |
5050 |
7 |
5 |
6.72 |
38 |
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Packaging & Shipping
Company Profile
FAQ
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Certification: | CE |
---|---|
Pulley Sizes: | Type A |
Manufacturing Process: | Casting |
Material: | Iron |
Surface Treatment: | Oxygenation |
Application: | Mining Transport |
How do cast iron pulleys affect the performance of textile manufacturing machinery?
Cast iron pulleys have a significant impact on the performance of textile manufacturing machinery, playing a crucial role in the efficient operation of various processes within the textile industry. They are specifically designed to meet the demanding requirements of textile machinery and contribute to the overall productivity and quality of textile manufacturing. Here’s a detailed explanation of how cast iron pulleys affect the performance of textile manufacturing machinery:
- Power Transmission: Cast iron pulleys are essential for transmitting power in textile manufacturing machinery. They are used to transfer rotational motion and torque from the power source, such as an electric motor, to various components within the machinery. By connecting the power source to the moving parts, the pulleys enable the smooth operation of processes like spinning, weaving, knitting, and fabric finishing.
- Belt and Chain Drives: Cast iron pulleys are commonly employed in belt and chain drive systems in textile manufacturing machinery. They facilitate power transmission through the use of belts or chains, which connect the pulleys to the driven components. The pulleys are designed with grooves or teeth that engage with the belt or chain, ensuring a secure connection and efficient transfer of power. The selection of the appropriate pulley size, groove configuration, and belt/chain type is crucial to match the power requirements and optimize the machinery’s performance.
- Speed Control: Cast iron pulleys can be utilized in textile machinery to control the speed of various processes. By employing pulley systems with different diameters, the rotational speed of the driven components can be adjusted. This is particularly important in processes like spinning and weaving, where precise control over the speed can significantly impact the quality and characteristics of the produced textile. Cast iron pulleys enable operators to fine-tune the machinery’s speed to achieve the desired yarn or fabric properties.
- Tensioning and Tracking: Maintaining proper tension and tracking of belts is crucial in textile manufacturing machinery. Cast iron pulleys are used in tensioning systems to ensure the belts remain tight and properly engaged with the pulley surfaces. Proper tensioning prevents belt slippage, enhances power transmission efficiency, and minimizes wear. Additionally, cast iron pulleys contribute to belt tracking, ensuring that the belts stay aligned and centered on the pulleys, which is crucial for consistent and accurate textile production.
- Load Distribution: Textile machinery encounters varying loads and forces during operation. Cast iron pulleys help distribute these loads across the machinery, reducing stress on individual components. By properly sizing and positioning the pulleys, the load can be evenly distributed, ensuring the longevity and reliable performance of the machinery. This is particularly important in processes like fabric winding, where the tension and load distribution on the fabric need to be controlled to prevent defects and ensure uniform winding.
- Component Synchronization: In textile manufacturing machinery, multiple components often need to be synchronized for efficient operation. Cast iron pulleys, in conjunction with timing belts or chains, are used to achieve precise synchronization between different moving parts. This synchronization is crucial in processes like circular knitting or fabric printing, where the coordination of multiple components is necessary to ensure accurate and consistent patterns or designs.
In summary, cast iron pulleys play a vital role in textile manufacturing machinery by facilitating power transmission, enabling belt and chain drives, controlling speed, ensuring proper tensioning and tracking, distributing loads, and achieving component synchronization. By utilizing high-quality cast iron pulleys that are designed to withstand the demanding requirements of the textile industry, manufacturers can enhance the performance, efficiency, and quality of their textile manufacturing processes, ultimately leading to improved productivity and customer satisfaction.
What materials are commonly used in the casting of cast iron pulleys?
In the casting of cast iron pulleys, several materials are commonly used to achieve the desired properties and characteristics. These materials are carefully selected based on factors such as strength, durability, and heat resistance. Here’s a detailed explanation of the materials commonly used in the casting of cast iron pulleys:
- Gray Cast Iron: Gray cast iron, also known as gray iron, is the most common material used in the casting of cast iron pulleys. It offers excellent machinability, good wear resistance, and high damping capacity. Gray cast iron consists primarily of iron with carbon and silicon as its main alloying elements. It has a characteristic gray appearance due to the presence of graphite flakes in its microstructure, which provide lubrication and aid in reducing friction during power transmission.
- Ductile Cast Iron: Ductile cast iron, also known as nodular cast iron or spheroidal graphite iron, is another material used in the casting of cast iron pulleys. It has a similar composition to gray cast iron but with the addition of small amounts of magnesium or cerium. The presence of these alloying elements encourages the formation of spherical graphite nodules instead of flakes, resulting in improved ductility, toughness, and impact resistance. Ductile cast iron pulleys are often preferred in applications where high strength and resistance to shock or vibration are required.
- Malleable Cast Iron: Malleable cast iron is occasionally used in the casting of cast iron pulleys, particularly in applications that require high ductility and toughness. Malleable cast iron is produced by heat-treating white cast iron, which involves annealing the material at elevated temperatures. This process transforms the carbon in the microstructure into irregularly shaped graphite nodules, imparting improved ductility and toughness to the material. Malleable cast iron pulleys can withstand higher stress and impact loads compared to gray or ductile cast iron.
- Alloyed Cast Iron: In certain cases, alloyed cast iron may be used for specific casting requirements. Alloying elements such as nickel, chromium, or molybdenum can be added to enhance specific properties of the cast iron pulleys. For example, nickel can improve corrosion resistance, while chromium can increase wear resistance and heat resistance. Alloyed cast iron pulleys are typically employed in applications that demand superior performance under challenging operating conditions.
In summary, the materials commonly used in the casting of cast iron pulleys include gray cast iron, ductile cast iron, malleable cast iron, and occasionally alloyed cast iron. Each material offers unique properties and advantages, allowing for the selection of the most suitable material based on the specific requirements of the pulley application. Whether it’s the excellent machinability of gray cast iron, the high strength of ductile cast iron, the enhanced toughness of malleable cast iron, or the specialized properties of alloyed cast iron, these materials contribute to the reliable and efficient power transmission provided by cast iron pulleys.
What is a cast iron pulley, and how is it used in machinery?
A cast iron pulley is a type of pulley that is made from cast iron, a strong and durable material. It is commonly used in machinery and various mechanical systems due to its robustness and ability to withstand heavy loads. Cast iron pulleys are designed to transmit power and facilitate the movement of belts or ropes, allowing for the efficient operation of machinery. Here’s a detailed explanation of what a cast iron pulley is and how it is used in machinery:
A cast iron pulley is a wheel-shaped component with a grooved rim designed to accommodate belts or ropes. It is typically made by pouring molten cast iron into a mold and allowing it to cool and solidify, resulting in a solid and rigid pulley. Cast iron is chosen as the material for pulleys due to its high strength, wear resistance, and ability to handle substantial loads without deformation or failure.
Cast iron pulleys are used in machinery to transfer power from a driving source, such as an electric motor or an engine, to driven components or systems. Here are some key applications and uses of cast iron pulleys in machinery:
- Power Transmission: Cast iron pulleys are employed in power transmission systems to transfer mechanical power from the driving source to driven components. They are commonly used in belt and pulley systems, where a belt is wrapped around the pulley’s grooved rim. As the pulley rotates, it causes the belt to move, transmitting power and enabling the driven component to operate. Cast iron pulleys provide a reliable and robust means of power transmission in various machinery applications.
- Belt and Rope Drives: Cast iron pulleys are used in machinery that utilizes belt or rope drives. They provide the necessary contact surface for the belts or ropes to grip and transmit power. The grooved rim of the pulley helps to maintain the belt’s position and prevent slippage during operation. Cast iron pulleys are commonly found in applications such as conveyor systems, HVAC systems, agricultural machinery, and industrial equipment.
- Tensioning and Idler Systems: Cast iron pulleys are also used in tensioning and idler systems in machinery. In belt-driven systems, tensioning pulleys are used to apply the proper tension to the belt, ensuring optimal power transmission and preventing belt slippage. Idler pulleys are used to redirect the belt’s path or change its direction. Cast iron pulleys in tensioning and idler systems help maintain the desired tension and alignment of the belts, contributing to smooth and efficient operation.
- Speed and Torque Control: Cast iron pulleys can be utilized in machinery to control the speed and torque of driven components. By using pulleys of different sizes or incorporating variable-speed pulley systems, the rotational speed and torque can be adjusted according to the specific requirements of the machinery. This allows for versatile operation and the ability to match the desired output speed and torque to the application’s needs.
- Auxiliary Equipment: Cast iron pulleys can be integrated with auxiliary equipment in machinery to support various functions. For example, they can be used as components in tensioning mechanisms, clutch systems, or braking systems. Cast iron pulleys provide the necessary mechanical strength and stability to ensure the proper operation of these auxiliary systems, enhancing the overall performance and safety of the machinery.
In summary, a cast iron pulley is a durable component used in machinery for power transmission, belt and rope drives, tensioning and idler systems, speed and torque control, and integration with auxiliary equipment. Its robust construction and high load-bearing capacity make it suitable for a wide range of applications in different industries, including manufacturing, agriculture, mining, and construction.
editor by CX
2023-10-11