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) | |
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Can drive sprockets be used in underwater or harsh environmental conditions?
Whether drive sprockets can be used in underwater or harsh environmental conditions depends on the material and design of the sprocket, as well as the specific conditions of the application. Here are some considerations:
- 1. Stainless Steel Sprockets: Stainless steel sprockets are highly resistant to corrosion and can be used in various harsh environments, including underwater applications. They are commonly used in marine equipment and other outdoor applications exposed to moisture and humidity.
- 2. Coated or Plated Sprockets: Some sprockets are coated or plated with materials like zinc, nickel, or chrome to enhance their corrosion resistance. These sprockets can also be used in mildly harsh environments but may have limitations in prolonged underwater use.
- 3. Sealed or Shielded Bearings: In some applications, especially those exposed to dust, dirt, or debris, sprockets with sealed or shielded bearings are used to protect the internal components from contamination.
- 4. Specialized Materials: In extremely harsh environments, such as underwater mining or deep-sea operations, specialized materials with high corrosion resistance and durability may be required.
It’s essential to consider the specific conditions of your application when selecting drive sprockets for use in underwater or harsh environments. Regular maintenance and proper lubrication are also critical to extending the lifespan of sprockets in such conditions. Additionally, consulting with experts or manufacturers with experience in supplying sprockets for similar environments can help you make the right choice for your application.
How do I prevent chain slippage and skipping issues with drive sprockets?
Chain slippage and skipping issues with drive sprockets can lead to poor power transmission, decreased efficiency, and potential safety hazards. To prevent these problems, you can take the following measures:
- 1. Proper Chain Tension: Ensure that the chain tension is within the manufacturer’s recommended range. Too much tension can overload the sprockets and chain, leading to premature wear, while too little tension can cause the chain to slip or skip.
- 2. Regular Lubrication: Keep the chain and drive sprockets well-lubricated with the appropriate chain lubricant. Lubrication reduces friction and wear, improving the overall efficiency of the power transmission system.
- 3. Correct Chain Size and Type: Use the correct size and type of chain for your drive sprockets. Mismatched chains can cause irregular engagement with the sprockets, leading to slippage and skipping.
- 4. Check for Chain Wear: Regularly inspect the chain for signs of wear, such as elongation or stiff links. Replace the chain when it reaches its recommended wear limit to maintain proper engagement with the sprockets.
- 5. Sprocket Inspection: Inspect the drive sprockets for wear, damage, or worn-out teeth. Worn sprockets can cause the chain to slip or skip. Replace sprockets when necessary.
- 6. Avoid Overloading: Avoid subjecting the power transmission system to excessive loads or sudden torque, as this can lead to chain slippage or even chain breakage.
- 7. Maintain Proper Alignment: Ensure that the drive sprockets and driven sprockets are correctly aligned. Misalignment can cause uneven wear on the chain and sprockets, leading to slippage.
- 8. Address Chain Tensioner Issues: If your system includes chain tensioners, ensure that they are functioning correctly and not causing unnecessary tension or slack in the chain.
- 9. Replace Worn Components: When replacing the chain or sprockets, ensure that all components are compatible and in good condition.
By following these preventive measures and conducting regular maintenance, you can reduce the risk of chain slippage and skipping issues, prolong the lifespan of your drive sprockets, and maintain the overall efficiency of your power transmission system.
Eco-Friendly Materials Used in Manufacturing Drive Sprockets
Manufacturers have been exploring eco-friendly materials to produce drive sprockets, aiming to reduce the environmental impact of industrial processes. While traditional materials like steel are widely used, several eco-friendly alternatives have emerged. Some of these materials include:
- Recycled Steel: Using recycled steel for sprocket manufacturing helps reduce the demand for new raw materials and minimizes the energy-intensive processes required to produce steel from scratch. Recycled steel maintains its strength and performance characteristics, making it a sustainable option.
- Aluminum: Aluminum is considered more eco-friendly than steel because it requires less energy to extract and process. Additionally, aluminum sprockets are lightweight, reducing the overall weight of machinery and vehicles, leading to potential energy savings during operation.
- Bio-based Plastics: Some manufacturers are exploring the use of bio-based plastics derived from renewable resources, such as corn or sugarcane. These materials can offer comparable strength and performance to traditional plastics, with the added benefit of being biodegradable or compostable, reducing their environmental impact at the end of their service life.
- Biodegradable Composites: Certain biodegradable composites made from natural fibers and resins are being researched for use in sprockets. These composites are lightweight, strong, and environmentally friendly, making them a potential sustainable alternative.
- Castor Oil-based Polyamide: Some manufacturers have developed sprockets using castor oil-based polyamide, which is sourced from a renewable plant-derived material. This type of polyamide offers similar mechanical properties to traditional petroleum-based polyamide while being more sustainable.
It’s important to note that while these materials offer eco-friendly advantages, their application in sprocket manufacturing may vary depending on specific performance requirements and the availability of materials. When choosing an eco-friendly sprocket material, it is essential to consider factors such as load capacity, operating conditions, and the overall lifecycle of the product.
editor by CX 2024-03-18