China supplier Ola Mechanical Machinery Suppliers Mini Excavator Drive Sprocket Wheel China E120b Excavator Parts Sprocket

Product Description

OLA Mechanical Machinery Suppliers Mini Excavator Drive Sprocket Wheel China E120B Excavator Parts Sprocket

Product Description

Excavator Drive Sprocket

The Excavator Drive Sprocket, Also Known As The Excavator Sprocket Wheel, is another crucial component of an excavator’s Undercarriage System. It is connected to the final drive motor and engages with the excavator’s Track Chain.

The Drive Sprocket Is Typically Located At The Rear Of The Excavator And Is Responsible For Driving The Tracks And Propelling The Machine CZPT Or Backward. The Sprocket Is Comprised Of Teeth That Mesh With The Links Of The Track Chain, Enabling The Excavation Machine To Move.

Like Other Components Of The Undercarriage System, The Drive Sprocket Is Made From Durable Materials, Such As Steel. It Undergoes Heat Treatment Processes To Enhance Its Strength And Wear Resistance, As It Experiences Substantial Forces And Friction During Operation.

Structure Of Products

-The Drive Sprocket Is Typically Located At The Rear Of The Excavator And Is Connected To The Final Drive Motor.

-It Is A Large, Toothed Wheel That Meshes With The Track Links To Provide Traction And Movement.

-The Sprocket Is Usually Made Of High-Strength Steel To Withstand The Heavy Loads And Impact Forces Generated During Operation.

-The Tooth Design May Vary Depending On The Manufacturer, But It Is Typically A Single-Tooth Or Double-Tooth Configuration.

Detailed Photos

Product Parameters

Product Name Sprocket
Keywords Excavator Drive Sprocket
Material 40MN/35MnB
Finish Smooth
Colors As per to customer’s request
Technique Forging &casting
Weight 10-50kg
Surface Hardness HRC50-56,Deepth:4mm-10mm
Size standard or Customized
Process Forging Casting
Test Report Provided
Shape Round
Quality 100% Tested
OEM OEM Services Provided
MOQ 1 Piece

                           Parame
Code
A M P H W N-φ Z
DH55/R60 250 465 135 42 18 12-φ17 21
DH130 325 592 171 56 18.7 15-φ17.5 21
DH170 362 645 171 64 21.6 21-φ18 23
DH370 490 740 216 90 33 28-φ21 21
DH400 490 740 216 90 33 28-φ21 21
DH220/R225-7 402 660 190 68 18 30-φ16 21
DH280 450 760 203 74 25.5 16-571.5 23
DH450 325 590 171 52 22.4 15-φ17 21
E55 230 424 135 49 14.5 9-φ15.5 19
E70B 265 555 135 38 18 12-φ16 25
E70B-3 288 555 135 38 17 12-φ16 25
E120B 346 600 171.5 52 21 15-φ18 21
E200B 415 660 190 63 22.3 14-φ21.5 21
E305.5B 230 428 135 49 16 12-φ15 19
E320 456 660 190 65 23 16-φ21 21
E325 450 697 203 75 27 18-φ21.5 21
E330 515 813 216 80.5 28 16-φ21.5 23
E345 577 810 216 86 23 20-φ25 23
E450 561 885 216 86 26 24-φ27 25
E300B 450 770 190 70 25 16-φ21 25

 

                          Paramd
Code
A M P H W N-l Z
EC140 366 591 171.5 58 16 22-φ17 21
EC150 320 650 171.1 56 15 20-φ18 23
EC240 410 658 190 62 21.4 18-φ19 21
EC290 450 704 203 84 28 16-φ21 21
EC360 450 760 216 90 27 24-φ21 21
EC460/R450 461 B19 216 87 26 24-φ21 23
EX30-5 204 350 101 28 14.6 9-φ13 21
EX35 210 350 101 27 15 9-φ13 21
EX55 230 420 135 42 12.3 9-φ15 19
EX60-1 290 535 154 50 18 12-φ17 21
EX70 330 535 154 40 19.6 12-φ18 23
EX90 330 535 154 40 19.6 12-φ18 21
EX100 356 590 171 58 21.7 16-φ17 21
EX136 370 591 171 56 16 16-φ18 21
EX150-1/EX150 365 643 171 65 17 22-φ17 23
EX200-1 415 657 175 63 21.6 16-φ22 23
EX200-2 430 658 190 70 20.8 16-φ21.5 21
EX200-3 419 658 190 70 24 16-φ22 21
EX300-3 465 704 203 90 28 20-φ22 21
UH04-7 268 600 171.5 64 16 16-φ18 21
UH045 284 600 171 67 19 16-φ19 21
UH571-5 245 535 154 50 14 121-φ18 21
UH571-7 245 534 54 49 16 12-φ17 21
UH063 330 655 171 66 18.5 16-φ17.5 23
UH081 276 665 175 65 22.3 14-φ21.5 21
UH083 370 660 175 70 23 16-φ22 23
HD307 265 514 135 38 18 12-φ17.5 23
HD550-3 362 650 171 64 22.7 15-017.5 23
HD550-7 362 650 171 64 22.7 21-φ18 23
HD700-2 362 590 171 60 21 15-φ17.5 21
HD1880 556 B21 216 90 28 24-φ25 23
HD800 402 660 190 62 21.3 22-φ18 21
MS120-2 380 645 171 5B 20 16-φ18 23
MS110-B/MS110 240 506 135 38 18.5 16-φ13 23
TB175 250 530 154 36 16 12-φ16 21
PC20 190 380 101 27 15 9-φ13 23
PC30 190 350 101 27 14.5 9-φ13 21
PC30-7 210 385 101 25 15.6 9-φ13 23
PC30-10 210 385 101 27 14 12-φ13 23
PC40-7 210 420 135 36 16 9-φ13 21
PC60-6/7 265 525 154 36 15 12-φ16 21
PC75 265 480 154 36 15 12-φ15.5 19
PC90 324 538 175 40 16.2 15-φ19 19
PC120-6 400 600 175 42 14.4 15-φ18 21
PC150 424 660 190 60 21.6 15-φ18 21
PC200-1 346 660 190 68 17 6-φ60 21
PC200-5 473 660 190 73 18 20-φ19 21
PC200-5 473 660 175 68 19 20-φ19 23

Our Advantages

-Quenching Process

1.Improve Surface Hardness:
The Quenching Process Can Greatly Increase The Hardness Of The Drive Sprocket Surface, Thereby Increasing The Wear Resistance And Fatigue Resistance Of The Drive Sprocket And Extending The Service Life Of The Drive Sprocket.

2. Enhanced Wear Resistance:
After Quenching, A Dense Wear-Resistant Layer Is Formed On The Surface Of The Drive Sprocket, Which Can Effectively Resist Friction And Wear, Improve The Wear Resistance Of The Drive Sprocket, And Have Better Durability Under Harsh Working Conditions.

3. Improve Strength And Toughness:
The Rapid Cooling During The Quenching Process Refines The Grains In The Drive Sprocket, Thereby Improving Its Strength And Toughness, Increasing The Load-Bearing Capacity And Fracture Resistance, Making The Drive Sprocket More Reliable And Stable Under High Loads And Harsh Working Conditions.

-Enhanced Traction:
The Drive Sprockets Play A Vital Role In Providing The Necessary Traction For An Excavator To Move Smoothly On Various Terrains. 

-Improved Durability
Drive Sprockets Are Designed To Withstand Heavy Loads, Constant Friction, And CZPT Environments. They Are Usually Made From High-Quality, Durable Materials Like Hardened Steel, Which Enhances Their Resistance To Wear And Tear. 

-Efficient Power Transmission:
The Drive Sprockets Transfer Power From The Final Drive Motor To The Track Chain, Efficiently Converting Rotational Force Into Linear Movement. This Ensures That The Engine Power Is Effectively Utilized To Propel The Excavator, Improving Overall Efficiency And Productivity.

 

Related Products

Company Profile

FAQ

1. How Do You Ensure The Parts You Send Are High Quality?
Once We Receive The Raw Material We Will Do The Chemical Composition Testing And In Production, Our QC Will Do The Random Inspection Of Every Lot of The Dimensions, Appearance, Mechanical Properties Hardness, Impact Value, Etc. To Make Sure Every Part Is Qualified.

2. What Is The Payment Term?
Usually 50% Deposit And The Balance Before The Shipment Or Against The BL Copy. TT, LC Is Welcome.

3. If We Want To Do Our Logo, Is That Acceptable?
Yes, OEM &ODM Are Welcome.

4. What’s The Lead Time?
For The Normal Order, It Usually Takes 15-30 Days After Receiving The Deposit As Agreed.

5. What Kind Of Package Do You Offer?
Normally We Use The Export Standard Pallets, If You Have Any Special Requirements, We Can Discuss Them.

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After-sales Service: After Sale
Warranty: 1 Year
Type: Bucket Teeth
Application: Paving Machinery
Certification: CE, ISO9001: 2000
Condition: New
Samples:
US$ 60/Piece
1 Piece(Min.Order)

|
Request Sample

drive sprocket

Can drive sprockets be used in high-speed and heavy-duty applications?

Yes, drive sprockets are designed to be used in a wide range of applications, including both high-speed and heavy-duty scenarios. The suitability of drive sprockets for these applications depends on various factors:

  • 1. Material and Construction: Drive sprockets are commonly made from durable materials like steel, stainless steel, or hardened alloys, which provide excellent strength and wear resistance. The material choice and construction quality determine the sprocket’s ability to withstand heavy loads and high speeds.
  • 2. Tooth Design: Sprockets used in high-speed applications may have different tooth designs, such as curved or involute tooth profiles, to reduce noise and ensure smoother engagement with the chain or belt.
  • 3. Heat Dissipation: In high-speed applications, sprockets may generate more heat due to increased friction. Proper heat dissipation features, such as cooling fins or larger surface areas, are integrated into some sprocket designs to prevent overheating.
  • 4. Lubrication: Adequate and proper lubrication is crucial for high-speed and heavy-duty applications. Lubricants reduce friction, wear, and heat buildup, ensuring smoother operation and extending the sprocket’s lifespan.
  • 5. Load Capacity: Drive sprockets come in various sizes and configurations, each with specific load-carrying capacities. It’s important to select a sprocket that matches the required load capacity for the application.
  • 6. Alignment and Maintenance: Proper alignment and regular maintenance are essential for optimal performance and longevity in high-speed and heavy-duty applications. Misalignment can lead to premature wear and failure of both the sprocket and the chain or belt.

When using drive sprockets in high-speed or heavy-duty applications, it is crucial to consider all these factors and choose sprockets that are specifically designed and rated for the intended use. Working with reputable manufacturers or consulting with experts in power transmission systems can help ensure that the selected sprockets are suitable for the application’s demands, providing reliable and efficient performance under challenging conditions.

drive sprocket

How do I ensure proper chain tension and alignment with drive sprockets?

Proper chain tension and alignment are critical for the smooth and efficient operation of a drive sprocket and chain system. Incorrect tension and misalignment can lead to premature wear, increased friction, and reduced overall performance. Here are the steps to ensure proper chain tension and alignment:

1. Initial Installation: When installing a new chain on the drive sprockets, ensure that the chain is routed correctly and securely around the sprockets. Check the manufacturer’s guidelines for the recommended tension for your specific chain and sprocket combination.

2. Tension Adjustment: Over time, chains may stretch or experience wear. Regularly check the chain tension and make adjustments as needed to maintain the correct tension. Most drive systems incorporate tensioners or adjustable mounts to facilitate tension adjustments.

3. Proper Tension: The chain should have enough tension to avoid slippage and prevent excessive sagging, but it should not be overly tight, as this can cause premature wear on the chain and sprockets. Follow the manufacturer’s guidelines for the optimal tension range.

4. Alignment: Check the alignment of the drive sprockets and ensure they are in the same plane. Misaligned sprockets can cause the chain to run at an angle, leading to uneven wear and noise. Use alignment tools or laser alignment systems for precise alignment.

5. Chain Sag: In long-chain systems, some sag is normal. However, excessive sag can be problematic. Adjust the tension to minimize sag while allowing enough flexibility for smooth operation.

6. Lubrication: Proper lubrication is essential for reducing friction and wear between the chain and sprockets. Follow the manufacturer’s recommendations for the type and frequency of lubrication.

7. Regular Inspection: Regularly inspect the chain and sprockets for signs of wear, damage, or misalignment. Address any issues promptly to prevent further problems and extend the life of the system.

8. Temperature Considerations: In applications with extreme temperatures, consider the thermal expansion/contraction of the chain. Allow for adjustments to accommodate temperature-related changes.

9. Operational Environment: Environmental factors, such as dust, debris, or corrosive substances, can impact chain performance. Choose appropriate materials and maintenance practices to suit the operating environment.

By following these steps and ensuring proper chain tension and alignment, you can optimize the performance and longevity of your drive sprocket and chain system, reducing downtime and maintenance costs while maximizing efficiency.

drive sprocket

What are the factors that affect gear ratios in drive sprockets and how do they impact performance?

Gear ratios in drive sprockets play a critical role in determining the relationship between the rotational speeds and torques of the driving and driven components in a power transmission system. Several factors can affect gear ratios, and each has a specific impact on the performance of the system. Here are the key factors to consider:

  1. Number of Teeth: The number of teeth on the driving and driven sprockets directly affects the gear ratio. A larger number of teeth on the driving sprocket compared to the driven sprocket results in a higher gear ratio, which increases the output torque while reducing the output speed. Conversely, a smaller number of teeth on the driving sprocket relative to the driven sprocket leads to a lower gear ratio, increasing the output speed while decreasing the output torque.
  2. Sprocket Pitch Diameter: The pitch diameter is the diameter of the imaginary circle formed by the centers of the sprocket’s teeth. It affects the circumferential speed of the sprockets. A larger pitch diameter on the driving sprocket relative to the driven sprocket will result in a higher gear ratio and lower output speed, while a smaller pitch diameter on the driving sprocket will lead to a lower gear ratio and higher output speed.
  3. Chain Pitch: The pitch of the chain or belt used in the system must match the pitch of the sprockets to ensure proper engagement. Using sprockets and chains with different pitches will result in incorrect gear ratios and potential slippage or skipping issues.
  4. Center Distance: The distance between the centers of the driving and driven sprockets, known as the center distance, affects the engagement of the chain or belt. Proper center distance is essential for maintaining correct tension and preventing premature wear.
  5. Sprocket Material and Condition: The material and condition of the sprockets impact their durability and performance. High-quality materials and well-maintained sprockets are essential for achieving consistent gear ratios and minimizing wear on the chain or belt.
  6. Environmental Conditions: Extreme temperatures, corrosive environments, or abrasive particles can affect the performance of the sprockets and chain, leading to premature wear and altered gear ratios.
  7. Load and Torque Requirements: The load and torque demands of the driven component will influence the choice of gear ratio. Selecting the appropriate gear ratio ensures that the system can handle the required load and torque while providing the desired output speed.
  8. System Efficiency: Gear train efficiency can impact the overall performance of the power transmission system. Efficiency losses in the gear train will affect the actual output torque and speed compared to the theoretical gear ratio.

It’s essential to carefully consider these factors when designing a power transmission system with drive sprockets to achieve the desired performance, efficiency, and longevity. Consulting with experienced engineers or sprocket manufacturers can help in selecting the optimal gear ratios for specific applications.

China supplier Ola Mechanical Machinery Suppliers Mini Excavator Drive Sprocket Wheel China E120b Excavator Parts Sprocket  China supplier Ola Mechanical Machinery Suppliers Mini Excavator Drive Sprocket Wheel China E120b Excavator Parts Sprocket
editor by CX 2024-03-27

Drive Sprocket

As one of the leading drive sprocket manufacturers, suppliers, and exporters of mechanical products, We offer drive sprocket and many other products.

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