China Good quality Big Pulley Wedge Gear Wedge Large Drive Pulley pulley belt

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

What maintenance procedures are necessary to ensure the reliability of gear pulleys?

Proper maintenance procedures are crucial for ensuring the reliability and longevity of gear pulleys. Here are some essential maintenance steps to consider:

  1. Regular Inspection: Conduct routine inspections of the gear pulleys to check for any signs of wear, damage, or misalignment. Inspect the gear teeth, pulley surfaces, and the overall condition of the pulley assembly. Look for any cracks, chips, or excessive wear that may affect the pulley’s performance.
  2. Lubrication: Ensure that the gear pulleys are adequately lubricated. Lubrication helps reduce friction and wear between the gear teeth and the pulley surfaces. Follow the manufacturer’s recommendations for the appropriate lubricant type and schedule. Apply lubrication as specified to maintain smooth operation and prevent premature failure.
  3. Tension Adjustment: Check the tension of the belt connected to the gear pulleys. Proper tension is essential for efficient power transmission and to prevent slippage. If the belt is too loose or too tight, adjust the tension according to the manufacturer’s guidelines. Use tensioning devices such as idler pulleys or tensioners to achieve the optimal tension.
  4. Alignment: Ensure that the gear pulleys are properly aligned. Misalignment can lead to excessive wear, noise, and reduced efficiency. Use alignment tools and techniques to align the pulleys accurately. Check the alignment periodically and make any necessary adjustments to maintain proper alignment.
  5. Cleaning: Keep the gear pulleys clean and free from dirt, debris, and contaminants. Regularly clean the pulley surfaces using a suitable cleaning method recommended by the manufacturer. This helps prevent abrasive particles from damaging the gear teeth and ensures smooth operation.
  6. Replacement: If any significant wear, damage, or defects are observed during inspection, consider replacing the gear pulleys promptly. Delaying the replacement can result in further damage to the pulleys and other system components. Follow the manufacturer’s guidelines and specifications for selecting and installing the appropriate replacement pulleys.
  7. Professional Maintenance: In complex HVAC systems or air conditioning units, it is often advisable to seek professional maintenance services. HVAC technicians or qualified professionals can perform comprehensive inspections, maintenance, and repairs on gear pulleys and associated components.

By following these maintenance procedures, you can ensure the reliability and optimal performance of gear pulleys in HVAC systems and air conditioning units. Regular inspections, lubrication, tension adjustment, alignment checks, cleaning, and timely replacement contribute to the longevity and efficiency of gear pulleys, minimizing the risk of unexpected failures and system downtime.

gear pulley

How does the gear ratio in a gear pulley affect its performance?

The gear ratio in a gear pulley has a significant impact on its performance, influencing various aspects such as speed, torque, and power transmission. Here’s a detailed explanation of how the gear ratio affects the performance of a gear pulley:

Gear Ratio Basics:

The gear ratio represents the relationship between the number of teeth on the driving gear and the number of teeth on the driven gear. It determines how many times the driving gear must rotate to make the driven gear complete one revolution. The gear ratio is typically expressed as a numerical ratio or as a fraction.

Speed:

The gear ratio directly affects the speed of the driven gear relative to the driving gear. A gear pulley with a higher gear ratio, where the driving gear has more teeth than the driven gear, will result in a lower speed at the driven gear. Conversely, a gear pulley with a lower gear ratio, where the driven gear has more teeth, will result in a higher speed at the driven gear. Therefore, the gear ratio determines the speed reduction or amplification between the driving and driven gears.

Torque:

The gear ratio also influences the torque at the driven gear. Torque is a rotational force that determines the system’s ability to overcome resistance or to perform work. A gear pulley with a higher gear ratio, where the driving gear has more teeth, will result in a torque amplification at the driven gear. This means that the driven gear can exert greater force or torque on the load or system it is connected to. Conversely, a gear pulley with a lower gear ratio, where the driven gear has more teeth, will result in a torque reduction at the driven gear. In this case, the driven gear will exert less force or torque, but it will be able to rotate at a higher speed.

Power Transmission:

The gear ratio affects the power transmission capabilities of the gear pulley system. Power is the rate at which work is done or energy is transferred. The gear ratio determines how the power is distributed between the driving and driven gears. In a gear pulley system, the power is equal to the product of torque and rotational speed. A higher gear ratio will result in a higher torque at the driven gear, allowing it to transmit more power to the connected system. Conversely, a lower gear ratio will result in a higher speed at the driven gear, enabling it to transmit power at a faster rate.

Mechanical Advantage:

The gear ratio provides mechanical advantage in a gear pulley system. Mechanical advantage refers to the ability of a system to amplify force or torque. A gear pulley with a higher gear ratio provides a greater mechanical advantage, allowing it to handle heavier loads or perform tasks that require more force. On the other hand, a gear pulley with a lower gear ratio provides a lower mechanical advantage but allows for higher speeds and faster operation.

Efficiency:

The gear ratio can also impact the overall efficiency of the gear pulley system. In general, gear systems with higher gear ratios tend to have lower efficiency due to increased friction and power losses. The additional teeth in the gear train result in more contact points and increased surface area, leading to higher friction losses. Therefore, it is important to consider the trade-off between speed, torque, and efficiency when selecting the gear ratio for a specific application.

Overall, the gear ratio in a gear pulley significantly affects its performance, including speed, torque, power transmission, mechanical advantage, and efficiency. By selecting the appropriate gear ratio, engineers and designers can optimize the gear pulley system for specific applications, ensuring the desired balance between speed, torque, and efficiency based on the requirements of the machinery or system.

gear pulley

What types of belts or cables are typically used with gear pulleys?

When it comes to gear pulleys, different types of belts or cables can be used depending on the specific application and requirements. The choice of belt or cable is crucial as it determines the efficiency, durability, and performance of the power transmission system. Here are some commonly used types of belts or cables with gear pulleys:

  1. V-Belts: V-belts are one of the most widely used types of belts for power transmission with gear pulleys. They have a trapezoidal cross-section and are designed to fit into V-shaped grooves on the pulleys. V-belts are known for their high traction capability and efficiency. They can transmit significant amounts of power and are commonly used in applications such as industrial machinery, automotive engines, and HVAC systems.
  2. Synchronous Belts: Synchronous belts, also known as timing belts, are toothed belts that engage with the teeth on the pulleys. They offer precise motion control and high power transmission efficiency. Synchronous belts are commonly used in applications where accurate positioning and synchronization of shafts are required, such as in robotics, printing presses, and CNC machines.
  3. Flat Belts: Flat belts are flexible, flat-surfaced belts that wrap around the pulleys. They provide a large contact area with the pulley surface, resulting in good power transmission capabilities. Flat belts are used in various applications, including conveyor systems, agricultural machinery, and textile machinery.
  4. Round Belts: Round belts, also known as o-ring belts, are round cross-section belts that rely on friction to transmit power. They are commonly used in lightweight and low-power applications, such as office equipment, small appliances, and light-duty conveyors.
  5. Chain Drives: Chain drives utilize roller chains that engage with sprockets on the pulleys. Chains are made of interconnected links and provide robust power transmission capabilities. They are commonly used in heavy-duty applications, such as motorcycles, bicycles, industrial machinery, and agricultural equipment.
  6. Wire Ropes and Cables: In certain applications where high strength and durability are required, wire ropes or cables can be used with gear pulleys. Wire ropes consist of multiple strands of wire twisted together to form a strong and flexible structure. They are commonly used in lifting and hoisting equipment, cranes, and mining machinery.

The choice of belt or cable depends on factors such as the power requirements, speed, environmental conditions, load capacity, and the specific characteristics of the application. It’s important to select the appropriate belt or cable that matches the requirements of the gear pulley system to ensure efficient power transmission and reliable operation.

China Good quality Big Pulley Wedge Gear Wedge Large Drive Pulley   pulley belt	China Good quality Big Pulley Wedge Gear Wedge Large Drive Pulley   pulley belt
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