Product Description
Drive Sprocket For CZPT KH180 Crawler Crane
Technical Details
| Product Name | Drive Sprocket For CZPT KH180 Crawler Crane |
| Material | 35SiMn |
| Process Technology | Casting |
| Means of Transport | Ocean,Land,Air |
| Port | HangZhou, HangZhou, HangZhou |
| Packing way | Pallet |
Related Products CZPT KH180 Crawler Crane
Hitachi KH180 Track Shoe (Track Pad / Track Plate)
Hitachi KH180 Track Roller (Lower Roller / Bottom Roller)
Hitachi KH180 Top Roller (Carrier Roller / Upper Roller)
Hitachi KH180 Idler (Xihu (West Lake) Dis. Roller / Idler Wheel)
Specifications
ZheJiang Value Machinery Parts CO.,LTD aim to supply best quality undercarriage parts for our customer, mainly for Hitachi, Sumitomo, Kobelco, IHI, CZPT Sharyo, CZPT Sumitomo, Sany, Fuwa, Zoomlion, American, CZPT Demag, CZPT American, Manitowoc, Link-Belt and so on brands crawler cranes.
| Hitachi | ||||||
| KH70 | KH100 | KH100-1 | KH100D | KH125 | KH125-2 | KH125-3 |
| KH150 | KH150-2 | KH150-3 | KH180 | KH180-2 | KH180-3 | KH230 |
| KH230-3 | KH250HD | KH300 | KH300-2 | KH300-3 | KH500-2 | KH500-3 |
| KH700-2 | KH850 | KH850-3 | KH1000 | U106A | TH55 | CX300 |
| CX350 | CX500 | CX550 | CX650 | CX700 | CX900 | CX1000 |
| CX1100 | CX1800 | CX2000 | PD7 | PD100 | CD1500 | CD2000 |
| Sumitomo | ||||||
| SC350 | SC400 | SC400-2 | SC500 | SC500-2 | SC500-3 | SC550-2 |
| SC650 | SC650-2 | SC650DD-2 | SC650-3 | SC700 | SC700-2 | SC800 |
| SC800HD | SC1000 | SC1000-2 | SC1500-2 | LS78RH | LS78RM | LS78RH5 |
| LS78RHD5 | LS98 | LS108RH5 | LS100C | LS118RH3 | LS118RH5 | LS118RH6 |
| LS118RM | LS120RH5 | LS138H | LS138RH5 | LS208H | LS218H | LS218RH5 |
| LS238RH2 | LS238RH3 | LS238RH5 | LS248RH5 | LS458HD | LS468HD | LS518 |
| LS528 | LS528-S | SD205 | SD307 | SD407 | SD510 | SD610 |
| Kobelco | ||||||
| P&H60P | P&H70P | P&H75P | P&H100P | P&H315 | P&H320 | P&H325 |
| P&H330 | P&H335 | P&H335AS | P&H345 | P&H440 | P&H550A | P&H550-1 |
| P&H550-2 | P&H550S | P&H5035 | P&H5045 | P&H5055 | P&H5100 | P&H7035 |
| P&H7045 | P&H7050 | P&H7055 | P&H7065 | P&H7070 | P&H7080 | P&H7090 |
| P&H7100 | P&H7120 | P&H7150 | P&H7200 | P&H7250 | P&H7250-2 | 7300 |
| FS80 | FS90 | BM500 | BM600 | BM650 | BM700 | BM700HD |
| BM750 | BM800 | BM800HD | BM900 | BM900HD | BM1000HD | BM1200 |
| CKS600 | CKS2500 | CKE600 | CKE700 | CKE700-1 | CKE800 | CKE850 |
| CKE900 | CKE1000 | CKE1100 | CKE1350 | CKE1800 | CKE2000 | CKE2500 |
| CKE2500-2 | CK800 | CK850 | CK1000 | CK1000G | CK1600 | CK2000-2 |
| CK2500 | SL4500 | SL6000 | TK350 | TK750 | TK550 | |
| IHI | ||||||
| CH350 | CH500 | CCH250W | CCH280W | CCH350 | CCH350-D3 | CCH400 |
| CCH500 | CCH500-2 | CCH500-3 | CCH500-T | CCH550 | CCH650 | CCH700 |
| CCH800 | CCH800-2 | CCH1000 | CCH1000-5 | CCH1200 | CCH1500 | CCH1500HDC |
| CH1500-2 | CCH1500E | CCH2000 | CCH2500 | CCH2800 | DCH650 | DCH700 |
| DCH800 | DCH1000 | DCH1200 | DCH6571 | DCH15030 | DCH2000 | K300 |
| K400A | K400B | K1000 | ||||
| Nippon Sharyo | ||||||
| DH300 | DH308 | DH350 | DH400 | DH408 | DH500 | DH508 |
| DH558 | DH600 | DH608 | DH650 | DH658 | DHJ60 | DH60-120M |
| DH650 | DH800 | DH900-5 | DH900D | DH700 | DHP70 | DHP80 |
| ED4000 | ED5500 | |||||
| SCC500B | SCC500C | SCC500D | SCC500E | SCC550C | SCC600C | SCC750C |
| SCC800C | SCC1000D | SCC1250 | SCC1500CC | SCC1500D | SCC1800 | SCC2600A |
| SCC3000WE | SCC4000E | SCC5000WE | SCC6500E | SCC7500 | SCC8100 | SCC8200 |
| SCC8300 | SCC10000 | SCC16000 | ||||
| Fuwa | ||||||
| CC40 | QUY35 | QUY50 | QUY50A | QUY50C | QUY50D | QUY50S |
| QUY70 | QUY70A | QUY80 | QUY80A | QUY80B | QUY90 | QUY100 |
| QUY100A | QUY120 | QUY130 | QUY130A | QUY150 | QUY150A | QUY150C |
| QUY250 | QUY320 | QUY400 | QUY400A | QUY500 | QUY650 | QUY750 |
| QUY1250 | FZX36 | FC80B | ||||
| Manitowoc | ||||||
| 2900wc | 3900 | 4100 | 10000 | 11000-1 | 14000 | 777S2 |
| 888 | 16000 BRS | 3000 | ||||
| Terex Demag | ||||||
| CC400 | CC1100 | CC1500 | CC1800 | CC2000 | CC2200 | CC2400-1 |
| CC2500 | CC2500-1 | CC2800 | TCC40 | TCC 45 | TCC60 | |
| Link-Belt | ||||||
| LS108BS | LS108B | LS108BJ | LS118 | LS138H | LS138HII | LS218 |
| LS248 | LS318 | LS338 | LS418 | LS518 | ||
| Terex American | ||||||
| HC50 | HC60 | HC80 | HC110 | HC165 | HC230 | HC275 |
| HC285 | ||||||
| American | ||||||
| American 9299 | American 9310 | 900 Serial | 7250 | 7260 | 9270 | 4250 |
| 4260 | 5220 | 5299 | 5300 | 599C | 597C | 595C |
| Hitachi Sumitomo | ||||||
| SCX300 | SCX300-C | SCX400 | SCX500 | SCX550E | SCX700 | SCX700-2 |
| SCX700HD | SCX800 | SCX800-2 | SCX800HD | SCX800HD-2 | SCX900 | SCX900-1 |
| SCX900-2 | SCX900HD | SCX900HD-1 | SCX900HD-2 | SCX1000 | SCX1200 | SCX1200-2 |
| SCX1200-3 | SCX1200HD | SCX1200HD-2 | SCX1500 | SCX1500-2 | SCX2000 | SCX2000HD |
| SCX2500 | SCX2500LF | SCX2600 | SCX2800-2 | SCX3500 | SCX5000 | SCX6500 |
| 6000SLX | 6000SLX | 6000SLX | 218HSL | SDX207 | SDX5571 | MX8030B |
| MH5510B | MX6515B | SP110 | SP135 | PD135 | ||
| Zoomlion | ||||||
| QUY50 | QUY65 | QUY70 | QUY200 | QUY260 | QUY650 | ZCC550H |
| ZCC800H | ZCC1100H | |||||
Application
Hitachi KH180 Crawler Crane
Sprocket Display
About US
Mass stock —
In order to realize the immediate delivery, we prepared a large range stock. Plus, Our warehouse in HangZhou, which are near HangZhou port. It can save the maximum level of transit time.
Pre-sales & After sales —
All the sales man are professional. We work closely with our customers and pride ourselves on providing a complete service. The aim of sales man is to assist clients, find everything they need fast. We are always on hand to give you the best advice and assistance: specialized staff, available 24 hours a day, 365 days a year.
Experience —
As the leader of the field, our company has more than 20 years experience. It is realizable for our customers to have one-stop shopping. That means you can save much time.
Our technicians have rich experience, using the most advanced CAD technologies to make engineering drawings. Besides, “Give US drawings, Give your products” – we can produce according to your drawings.
With the rich experience and strong team here, we kept long-term cooperation with CZPT customers. We export to Southeastern Asia, Russia, Europe and America. We are constantly devoted to perfecting quality system, and enhancing the quality of products. We are so sure that you can not find a better crawler crane undercarriage parts supplier anywhere. Kindly notify us if you are interested in our products.
| Type: | Crawler |
|---|---|
| Application: | Hoisting Machinery |
| Certification: | CE |
| Condition: | New |
| Terms: | EXW, Fob, CFR, CIF, etc. |
| Delivery Time: | Within 7-15 Days After Getting Your Payment |
| Samples: | US$ 400/Piece 1 Piece(Min.Order) | |
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| Customization: | Available | Customized Request |
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How do I calculate the required torque and power for a drive sprocket setup?
Calculating the required torque and power for a drive sprocket setup involves several factors that need to be considered. The torque and power requirements depend on the application’s specific parameters, such as the desired speed, load, and efficiency of the system. Here’s a step-by-step guide on how to calculate the required torque and power:
- 1. Determine the Load: Identify the load that the drive sprocket needs to move or rotate. The load can be expressed in units of force, such as pounds or newtons.
- 2. Calculate the Torque: Torque is the rotational force applied to the drive sprocket to generate motion. The formula to calculate torque is:
Torque (in Nm) = Load (in N) x Radius of the Drive Sprocket (in meters)
where the radius is the distance from the center of the sprocket to the point where the force is applied. If the radius is not given directly, you can use the diameter and divide it by two to get the radius.
- 3. Account for Efficiency Losses: In real-world systems, some power is lost due to friction and other factors. To account for these losses, you can introduce an efficiency factor (η) into the equation. The formula becomes:
Torque (in Nm) = (Load (in N) x Radius of the Drive Sprocket (in meters)) / Efficiency (η)
- 4. Calculate the Rotational Speed: Determine the required rotational speed of the drive sprocket in revolutions per minute (RPM) or radians per second (rad/s).
- 5. Calculate the Power: Power is the rate at which work is done. It is the product of torque and rotational speed. The formula to calculate power is:
Power (in watts or horsepower) = Torque (in Nm) x Rotational Speed (in rad/s)
or
Power (in watts or horsepower) = (Torque (in Nm) x Rotational Speed (in RPM) x 2π) / 60
where 2π is a constant used to convert RPM to rad/s, and 60 is used to convert seconds to minutes.
By following these steps and plugging in the appropriate values, you can calculate the required torque and power for your drive sprocket setup. Keep in mind that real-world conditions may vary, so it’s essential to consider safety factors and any additional loads that may be present in the system.
What are the environmental impacts of drive sprocket manufacturing?
Drive sprocket manufacturing, like any industrial process, can have environmental impacts throughout its lifecycle. Here are some of the key environmental considerations related to drive sprocket manufacturing:
1. Raw Material Extraction: The production of drive sprockets requires raw materials such as steel, aluminum, or other metals. The extraction of these materials can lead to habitat destruction, water pollution, and energy consumption.
2. Energy Consumption: Manufacturing processes, including machining, forging, and heat treatment, consume significant amounts of energy. This energy is often derived from fossil fuels, leading to greenhouse gas emissions and contributing to climate change.
3. Waste Generation: Manufacturing processes generate waste, such as metal shavings, dust, and wastewater. If not managed properly, these wastes can pollute the environment and harm ecosystems.
4. Chemical Use: Some manufacturing processes involve the use of chemicals for cleaning, coating, or plating. Improper handling and disposal of these chemicals can lead to environmental contamination.
5. Transportation: The transportation of raw materials, components, and finished drive sprockets can contribute to air pollution and carbon emissions.
6. End-of-Life Disposal: At the end of their useful life, drive sprockets may be discarded. If not recycled or disposed of properly, they can end up in landfills, adding to the waste problem.
7. Sustainable Practices: To mitigate these environmental impacts, manufacturers can adopt sustainable practices. This includes using recycled materials, optimizing energy use, reducing waste generation, and implementing cleaner production technologies.
8. Life Cycle Assessment (LCA): Conducting a life cycle assessment of drive sprocket manufacturing can help identify areas of high environmental impact. LCA evaluates the environmental performance of the product from raw material extraction to end-of-life disposal.
9. Certifications: Manufacturers can pursue certifications such as ISO 14001 (Environmental Management Systems) to demonstrate their commitment to reducing environmental impacts.
10. Recycling and Reuse: Encouraging the recycling and reuse of drive sprockets can reduce the demand for new raw materials and decrease waste.
11. Product Design: Optimize the design of drive sprockets for efficiency and durability, which can extend their lifespan and reduce the need for frequent replacements.
By implementing environmentally friendly practices and considering the entire lifecycle of drive sprockets, manufacturers can reduce their environmental footprint and contribute to a more sustainable future.
What are the signs of wear and damage in drive sprockets, and how can I identify them?
Drive sprockets are critical components in power transmission systems, and it’s essential to identify signs of wear and damage early to prevent potential failures and downtime. Here are some common signs of wear and damage in drive sprockets:
- Teeth Wear: Examine the sprocket teeth for signs of wear, such as flattened, rounded, or hooked profiles. Worn teeth can cause poor engagement with the chain, leading to inefficient power transfer and noise during operation.
- Corrosion: Rust or corrosion on the sprocket surface can weaken the material over time, compromising its structural integrity. Check for any signs of corrosion, especially in sprockets used in outdoor or humid environments.
- Cracks or Breaks: Inspect the sprocket for any visible cracks, breaks, or chipped teeth. Cracks can lead to sudden failure, posing safety risks and potential damage to other components.
- Chain Skipping: If the chain frequently skips or jumps over the sprocket teeth during operation, it could indicate excessive wear on the sprocket or the chain itself.
- Chain Elongation: A stretched or elongated chain can cause uneven wear on the sprocket teeth, affecting the overall performance and increasing the risk of premature failure.
- Excessive Noise: Unusual noises, such as grinding or clicking sounds during operation, may suggest that the sprocket or chain needs inspection and maintenance.
- Poor Performance: Decreased efficiency or power transfer in the power transmission system can be an indicator of worn or damaged sprockets.
To identify these signs of wear and damage, conduct regular visual inspections of the drive sprockets. Pay attention to the sprocket teeth, surface condition, and any irregularities. Additionally, monitoring performance metrics, such as chain wear and vibration levels, can help in detecting potential issues.
If you notice any of these signs, it is essential to address the problem promptly. Depending on the severity of wear or damage, you may need to replace the drive sprocket or the entire power transmission system to ensure safe and efficient operation.
editor by CX 2023-08-15