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China supplier Big Pulley Wedge Gear Wedge Large Drive Pulley chain pulley

Product Description

Stone/Rock/Mining Crusher Spare Parts Jaw/Cone/Impact/VSI Crusher Parts
We provide crusher spare parts for many band of crushing plants. 

We provide replacement parts for many brands of crushing plants. like, manganese liners,cone crusher mantle and concave(bowl liner), hsi bars and liners, blow bars, side liners, jaw liners, jaw plates, teeth plates, VSI wear parts, etc, for jaw crusher, cone crusher, impact crusher, VSI sand maker, etc.

We can provide custom casting service, based on the drawings from the clients.
We will make wooden mould, and sand cast the parts, after a series processes, you will get high quality wear parts in high manganese matching your machines. 
1-Introduction of Jaw Crusher Parts
Jaw plate is manufactured with super high manganese steel, therefore it has a service life 50~100% longer than those made of traditional high manganese steel. Every model of PE series jaw crushers is tested for shock, stress, strain, thermal loading, deformation, vibration and noise under a wide range of load conditions. The special processing techniques ensure that our jaw plate has leading performance:
1)Using cold processing hardening technology, the hardness is improved.
2)Water toughening technology to avoid making the performance poor during the process of natural phase change.

2- Introduction of Cone Crusher Parts
which is designed to protect the Cone Crusher, thus improves the working life.We supply high qualified concave in high Cr, Mo, alloy steel for Cone Crusher.
Cone Crusher Parts 
1. Spare parts for Cone Crusher.
2. Be used in manganese steel
3. We can do as per customer’s requirements.
We manufacture an extensive range of wear and spare parts in China for the worlds most popular crushing brands, like the spare parts for the below crushers.

Crusher type Model Spare parts
Cone   crusher HP100, HP200, HP300, HP400, HP500, HP4, HP5, GP100, GP200, GP300, GP550, GP11 Bowl liner, mantle
H2800, H3800, H4800, H6800, H7800, H8800, S2800, S3800, S4800, S6800
4FT.Standard, 4-1/4FT.Short head , 5-1/2FT.Standard

Features of cone crusher wear parts :
1) Material: high manganese steel:Mn13Cr2, Mn18Cr2, etc;
2) Use: Machinery in metal recovery smash, mine, metallurgy, chemical industry, cement, petroleum etc.
3) Production quality testing: High frequency infrared carbon & sulfur analyzer, Metallographic microscope, Machinery performance testing equipment, Hardness testing equipment, Ultrasonic inspection equipment
4) Easy installation: The anti-abrasion block is a semi-permanent part, which is easy for replacement.
Chemical composition of cone crusher wear parts

Code Elem C Mn Si Cr Mo P S
ZGMn13-1 1-1.45 11-14 0.3-1 ≤0.09 ≤0.04
ZGMn13-2 0.9-1.35 11-14 0.3-1 ≤0.09 ≤0.04
ZGMn13-3 0.9-1.35 11-14 0.3-0.8 ≤0.09 ≤0.04
ZGMn13-4 0.9-1.3 11-14 0.3-0.8 1.5-2 ≤0.09 ≤0.04
ZGMn13-5 0.75-1.3 11-14 0.3-1 0.9-1.2 ≤0.09 ≤0.04

3-Introduction of Impact Crusher Parts
Blow bar Made by high wear-resisting material:high chrome cast-iron and high-manganese steel.
We manufacture an extensive range of wear and spare parts in China for the worlds most popular crushing brands.
 
Chemical composition of Impact Crusher Parts

NO. chemical composition % HRC
C Si Mn Cr Mo Na Cu P S
KmTBCr4Mo 2.5-3.5 0.5-1.0 0.5-1.0 3.5-4.5 0.3-0.5 ≤0.15 ≤0.10 ≥55
KmTBCr9Ni5Si2 2.5-3.6 1.5-2.2 0.3-0.8 8.0-10.0 0-1.0 4.5-6.5 4.5-6.5 ≥58
KmTBCr15Mo 2.8-3.5 ≤1.0 0.5-1.0 13-18 0.5-3.0 0-1.0 0-1.0 ≤0.10 ≤0.06 ≥58
KmTBCr20Mo 2.0-3.3 ≤1.2 ≤2.0 18-23 ≤3.0 ≤2.5 ≤1.2 ≥60
KmTBCr26 2.3-3.3 ≤1.2 ≤1.0 23-30 ≤3.0 ≤2.5 ≤2.0 ≥60

Crusher Wear Parts

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After-sales Service: One Year
Warranty: One Year
Certification: ISO 9001:2008
Standard: AISI, GB, ASTM, DIN
Surface Treatment: Without Processing
Manufacturing Process: Casting
Samples:
US$ 200/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

gear pulley

How do gear pulleys impact the performance of woodworking and milling machines?

In woodworking and milling machines, gear pulleys play a significant role in determining the performance and functionality of the machines. Here’s a detailed explanation of how gear pulleys impact the performance of woodworking and milling machines:

1. Speed Control:

Gear pulleys are essential in controlling the speed of woodworking and milling machines. By using different pulley sizes and combinations, operators can adjust the rotational speed of the machine’s cutting tools or workpieces. This speed control is crucial for achieving accurate and precise cutting results. The ability to change speeds allows operators to accommodate different materials, cutting requirements, and desired finishes.

2. Power Transmission:

Woodworking and milling machines often require high torque and power to cut through dense materials or perform heavy-duty operations. Gear pulleys efficiently transmit power from the machine’s motor to the cutting tools. The pulleys are designed to handle the torque requirements of the machine, ensuring smooth and reliable power transmission. Properly sized and selected gear pulleys contribute to the overall power and performance of the machine.

3. Multiple Speed Ranges:

Some woodworking and milling machines have multiple speed ranges to accommodate various cutting tasks. Gear pulleys play a crucial role in creating these speed ranges. By incorporating different pulley sizes and configurations, machines can offer multiple speed options. This versatility allows operators to optimize the machine’s performance for different cutting operations, such as roughing, finishing, or delicate work.

4. Torque Conversion:

In woodworking and milling machines, gear pulleys can be used to convert torque between the motor and the cutting tools. By adjusting the pulley sizes, operators can increase or decrease the torque applied to the cutting tools. This torque conversion capability is particularly useful when working with different materials or when specific cutting forces need to be applied. It allows operators to adapt the machine’s performance to the specific requirements of the task at hand.

5. Efficiency and Precision:

Properly designed and maintained gear pulleys contribute to the overall efficiency and precision of woodworking and milling machines. Smooth power transmission, accurate speed control, and reliable torque conversion result in consistent and high-quality cutting results. With precise and efficient gear pulleys, operators can achieve tight tolerances, smooth finishes, and reduced material waste.

6. Maintenance and Replacement:

Regular maintenance and inspection of gear pulleys are crucial for ensuring optimal performance and longevity of woodworking and milling machines. Operators should check for wear, damage, or misalignment of the gear teeth and pulley surfaces. Timely replacement of worn or damaged pulleys is essential to avoid disruptions in the machine’s performance and to maintain consistent cutting quality.

In summary, gear pulleys have a significant impact on the performance of woodworking and milling machines. They enable speed control, efficient power transmission, multiple speed ranges, torque conversion, and contribute to the overall efficiency and precision of the machines. Proper maintenance and replacement of gear pulleys are necessary to ensure reliable and high-performance operation of woodworking and milling machines.

gear pulley

How are gear pulleys utilized in industrial machinery and conveyor systems?

Gear pulleys play a vital role in industrial machinery and conveyor systems, facilitating the movement of materials and power transmission within these applications. Here’s a detailed explanation of how gear pulleys are utilized in industrial machinery and conveyor systems:

Power Transmission:

In industrial machinery, gear pulleys are used for power transmission between different components. They are often employed to transmit rotational motion and torque from an input source, such as an electric motor or an engine, to various output devices or components within the machine. Gear pulleys allow for efficient power transfer and enable the synchronization of different parts of the machinery, ensuring smooth operation and optimal performance.

Speed and Torque Conversion:

Industrial machinery often requires different speeds and torque levels for specific processes or tasks. Gear pulleys are utilized to convert the rotational speed and torque between the input and output shafts. By using gear pulleys with different sizes and ratios, the rotational speed and torque can be adjusted to suit the requirements of the machinery. This allows for precise control over the operation of the equipment and ensures that it operates within the desired speed and torque ranges.

Direction Control:

Conveyor systems in industrial settings often require the ability to control the direction of movement of materials. Gear pulleys are used in these systems to change the direction of rotation and, consequently, the direction of movement. By incorporating gears with different tooth arrangements or by utilizing multiple gear pulleys in specific configurations, conveyor systems can efficiently redirect the flow of materials according to the desired path or process requirements.

Belt and Chain Drives:

Gear pulleys are commonly used in conjunction with belts and chains in industrial machinery and conveyor systems. Belts and chains are wrapped around the pulleys to transfer power and enable the movement of materials. Gear pulleys provide the necessary grip and traction for the belts or chains, ensuring proper power transmission and reliable material handling. The design and arrangement of gear pulleys, belts, and chains can be customized based on the specific application requirements, such as load capacity, speed, and environmental conditions.

Tension Adjustment:

In conveyor systems, maintaining proper tension in the belts or chains is crucial for efficient operation and preventing slippage or excessive wear. Gear pulleys are used to adjust and control the tension in the belts or chains. By incorporating tensioning mechanisms, such as adjustable pulley positions or spring-loaded tensioners, the tension can be regulated to ensure optimal performance and longevity of the conveyor system.

Mechanical Advantage:

Gear pulleys can provide mechanical advantage in industrial machinery and conveyor systems. By utilizing different gear ratios, gear pulleys can amplify or reduce the input torque, enabling the machinery to handle heavier loads or perform tasks that require higher precision. The mechanical advantage provided by gear pulleys enhances the overall efficiency and productivity of industrial processes.

Overall, gear pulleys are essential components in industrial machinery and conveyor systems. They facilitate power transmission, speed and torque conversion, direction control, and tension adjustment. By incorporating gear pulleys into these systems, industries can achieve reliable and efficient operation, improve productivity, and ensure the smooth movement of materials in various manufacturing and industrial applications.

gear pulley

How do gear pulleys assist in the transmission of mechanical power?

Gear pulleys play a crucial role in the transmission of mechanical power in various systems. Here’s an explanation of how gear pulleys assist in the transmission of mechanical power:

Gear pulleys are part of power transmission systems that transfer rotational motion and torque from a power source to a driven component. They achieve this by utilizing the principles of gears and pulleys to control speed, torque, and direction. The primary function of gear pulleys is to transmit power efficiently and effectively between rotating shafts.

Here are the key ways in which gear pulleys assist in the transmission of mechanical power:

  1. Speed Control: Gear pulleys allow for speed control in power transmission systems. By using gears with different sizes or pulleys with varying diameters, the rotational speed of the driven component can be adjusted relative to the input speed. Larger gears or pulleys connected to the power source result in higher speed reduction, while smaller gears or pulleys result in higher speed amplification. This speed control capability enables gear pulleys to match the rotational speed requirements of different components within a system.
  2. Torque Conversion: Gear pulleys assist in torque conversion during power transmission. Torque is the rotational force generated by the power source. By using gears or pulleys with different numbers of teeth or diameters, gear pulleys can change the torque applied to the driven component. In a gear system, when a larger gear drives a smaller gear, the torque is increased, enabling the transmission of higher rotational force. Conversely, when a smaller gear drives a larger gear, the torque is reduced. This torque conversion capability allows gear pulleys to adapt the power output to the requirements of the driven component.
  3. Direction Control: Gear pulleys enable the control of rotational direction in power transmission systems. By using gears or pulleys in combination with other components such as idler gears or reversing pulleys, the direction of rotation can be changed. For example, meshing two gears in a gear system can transmit power in the same or opposite directions depending on their arrangement. Similarly, using pulleys with different groove orientations can alter the direction of belt-driven power transmission. This direction control capability allows gear pulleys to accommodate the specific needs of different components within a system.
  4. Power Distribution: Gear pulleys assist in the distribution of mechanical power to multiple driven components. By incorporating multiple gears or pulleys in a system, power can be split and transmitted to several output shafts. This is commonly seen in automotive transmissions, where gear pulley systems allow power to be distributed to different gears for different speed ratios. In industrial machinery, multiple pulleys can be used to drive various conveyor belts or auxiliary equipment simultaneously. This power distribution capability enables gear pulleys to efficiently transmit power to multiple components within a system.
  5. Mechanical Advantage: Gear pulleys provide mechanical advantage in power transmission systems. The mechanical advantage is the ratio of output force (torque) to input force (torque). By utilizing gears or pulleys with different sizes, gear pulleys can amplify or reduce the mechanical advantage. This allows for the adaptation of power transmission to match the specific requirements of the driven component. Gear pulleys enable the transmission of high torque at low speeds or low torque at high speeds, depending on the mechanical advantage needed.

Overall, gear pulleys assist in the transmission of mechanical power by controlling speed, torque, and direction, distributing power to multiple components, and providing mechanical advantage. Their ability to manipulate these parameters makes gear pulleys versatile and valuable components in various mechanical systems across industries.

China supplier Big Pulley Wedge Gear Wedge Large Drive Pulley   chain pulleyChina supplier Big Pulley Wedge Gear Wedge Large Drive Pulley   chain pulley
editor by CX