China supplier Non-Rusting Aluminum Helical Gearbox Hypoid Gear Reducers for Industrial Transmission gear box

Product Description

Product Description

KPM-KPB series helical-hypoid gearboxes are the new-generation product with a compromise of advanced technology both at home and abroad.This product is widely used in textile, foodstuff, beverage,tobacco, logistics industrial fields,etc.
Main Features:
(1) Driven by hypoid gears, which has big ratios.
(2) Large output torque, high efficiency(up to 92%), energy saving and environmental protection.
(3) High quality aluminum alloy housing, light in weight and non-rusting.
(4) Smooth in running and low in noise, and can work long time in dreadful conditions.
(5) Good-looking appearance, durable service life and small volume.
(6) Suitable for all round installation, wide application and easy use.
(7) KPM series can replace NMRV worm gearbox; KPB series can replace CHINAMFG W series worm gearbox;
(8) Modular and multi-structure can meet the demands of various conditions.
 Main Material:
(1) Housing: aluminum alloy 
(2) Gear wheel: 20CrMnTiH1,carbonize & quencher heat treatment make the hardness of gears surface up to 56-62 HRC, retain carburization layers thickness between 0.3 and 0.5mm after precise grinding.

Detailed Photos

Product Parameters

Model Information:

GEARBOX SELECTING TABLES    
KPM50..           n1=1400r/min       160Nm    
                         
Model i i n2 M2max Fr2 63B5 71B5/B14 80B5/B14 90B5/B14    
nominal actual [r/min] [Nm] [N]    
3 Stage    
KPM50C   300 294.05 4.8 130  4100   N/A N/A N/A    
KPM50C   250 244.29 5.8 130  4100   N/A N/A N/A    
KPM50C   200 200.44 7.0  130  4100   N/A N/A N/A    
KPM50C   150 146.67 9.6 160  4000   N/A N/A N/A    
KPM50C   125 120.34 12 160  3770     N/A N/A    
KPM50C   100 101.04 14 160  3560     N/A N/A    
KPM50C   75 74.62 19 160  3220     N/A N/A    
KPM50C   60 62.36 23 160  3030     N/A N/A    
KPM50C   50 52.36 27 160  2860     N/A N/A    
2 Stage    
KPM50B   60 58.36 24 130  2960     N/A N/A    
KPM50B   50 48.86 29 130  2790       N/A    
KPM50B   40 40.09 35 130  2610       N/A    
KPM50B   30 29.33 48 160  2350       N/A    
KPM50B   25 24.07 59 160  2200            
KPM50B   20 20.21 70 160  2080            
KPM50B   15 14.92 94 160  1880            
KPM50B   12.5 12.47 113 160  1770            
KPM50B   10 10.47 134 160  1670            
KPM50B   7.5 7.73 182 160  1510            
                         
                         
KPM63..,KPB63..           n1=1400r/min       180Nm    
                         
Model i i n2 M2max Fr2 63B5 71B5/B14 80B5/B14 90B5/B14    
nominal actual [r/min] [Nm] [N]    
3 Stage    
KPM63C KPB63C 300 302.50  4.7 160  4800   N/A N/A N/A    
KPM63C KPB63C 250 243.57  5.8 160  4800   N/A N/A N/A    
KPM63C KPB63C 200 196.43  7.2  160  4800     N/A N/A    
KPM63C KPB63C 150 151.56  9.3 180  4650     N/A N/A    
KPM63C KPB63C 125 122.22  12 180  4330     N/A N/A    
KPM63C KPB63C 100 94.50  14 180  4070     N/A N/A    
KPM63C KPB63C 75 73.33  20 180  3650       N/A    
KPM63C KPB63C 60 63.33  23 180  3480       N/A    
KPM63C KPB63C 50 52.48  27 180  3270       N/A    
2 Stage    
KPM63B KPB63B 60 60.50  24 160  3430       N/A    
KPM63B KPB63B 50 48.71  29 160  3190            
KPM63B KPB63B 40 39.29  36 160  2970            
KPM63B KPB63B 30 30.31  47 180  2720            
KPM63B KPB63B 25 24.44  58 180  2530 N/A          
KPM63B KPB63B 20 18.90  70 180  2380 N/A          
KPM63B KPB63B 15 14.67  96 180  2130 N/A N/A        
KPM63B KPB63B 12.5 12.67  111 180  2030 N/A N/A        
KPM63B KPB63B 10 10.50  134 180  1910 N/A N/A        
KPM63B KPB63B 7.5 7.60  185 180  1710 N/A N/A        
                         
                         
KPM75..,KPB75..           n1=1400r/min           350Nm
                         
Model i i n2 M2max Fr2 63B5 71B5 80B5/B14 90B5/B14 100B5/B14 112B5/B14
nominal actual [r/min] [Nm] [N]
3 Stage
KPM75C KPB75C 300 297.21  4.8 300  6500     N/A N/A N/A N/A
KPM75C KPB75C 250 240.89  5.9 300  6500     N/A N/A N/A N/A
KPM75C KPB75C 200 200.66  7.0  300  6500     N/A N/A N/A N/A
KPM75C KPB75C 150 149.30  9.3 350  6500       N/A N/A N/A
KPM75C KPB75C 125 121.00  12 350  5980       N/A N/A N/A
KPM75C KPB75C 100 100.80  15 350  5520       N/A N/A N/A
KPM75C KPB75C 75 79.40  19 350  5040         N/A N/A
KPM75C KPB75C 60 62.43  23 350  4730 N/A       N/A N/A
KPM75C KPB75C 50 49.18  29 350  4370 N/A       N/A N/A
2 Stage
KPM75B KPB75B 60 59.44  24 300  4660 N/A       N/A N/A
KPM75B KPB75B 50 48.18  30 300  4340 N/A       N/A N/A
KPM75B KPB75B 40 40.13  35 300  4080 N/A         N/A
KPM75B KPB75B 30 29.86  47 350  3720 N/A N/A       N/A
KPM75B KPB75B 25 24.20  56 350  3500 N/A N/A        
KPM75B KPB75B 20 20.16  71 350  3230 N/A N/A        
KPM75B KPB75B 15 15.88  93 350  2950 N/A N/A        
KPM75B KPB75B 12.5 12.49  113 350  2770 N/A N/A N/A      
KPM75B KPB75B 10 9.84  143 350  2550 N/A N/A N/A      
KPM75B KPB75B 7.5 7.48  188 350  2330 N/A N/A N/A      
                         
                         
KPM90..,KPB86..           n1=1400r/min           500Nm
                         
Model i i n2 M2max Fr2 63B5 71B5 80B5/B14 90B5/B14 100B5/B14 112B5/B14
nominal actual [r/min] [Nm] [N]
3 Stage
KPM90C KPB86C 300 297.21  4.8 450  6500     N/A N/A N/A N/A
KPM90C KPB86C 250 240.89  5.9 450  6500       N/A N/A N/A
KPM90C KPB86C 200 200.66  7.0  450  6500       N/A N/A N/A
KPM90C KPB86C 150 151.20  9.3 500  6500       N/A N/A N/A
KPM90C KPB86C 125 125.95  12 500  5980       N/A N/A N/A
KPM90C KPB86C 100 99.22  15 500  5520 N/A       N/A N/A
KPM90C KPB86C 75 75.45  19 500  5040 N/A       N/A N/A
KPM90C KPB86C 60 62.43  23 500  4730 N/A       N/A N/A
KPM90C KPB86C 50 49.18  29 500  4370 N/A       N/A N/A
2 Stage
KPM90B KPB86B 60 59.44  24 450  5890 N/A         N/A
KPM90B KPB86B 50 48.18  30 450  5500 N/A         N/A
KPM90B KPB86B 40 40.13  35 450  5170 N/A N/A        
KPM90B KPB86B 30 30.24  47 500  4710 N/A N/A        
KPM90B KPB86B 25 25.19  56 500  4430 N/A N/A        
KPM90B KPB86B 20 19.84  71 500  4090 N/A N/A N/A      
KPM90B KPB86B 15 15.09  93 500  3730 N/A N/A N/A      
KPM90B KPB86B 12.5 12.49  113 500  3510 N/A N/A N/A      
KPM90B KPB86B 10 9.84  143 500  3240 N/A N/A N/A      
KPM90B KPB86B 7.5 7.48  188 500  2950 N/A N/A N/A      

Outline Dimension:

Company Profile

About our company:
We are a professional reducer manufacturer located in HangZhou, ZHangZhoug province.Our leading products is  full range of RV571-150 worm reducers , also supplied hypoid helical gearbox, PC units, UDL Variators and AC Motors.Products are widely used for applications such as: foodstuffs, ceramics, packing, chemicals, pharmacy, plastics, paper-making, construction machinery, metallurgic mine, environmental protection engineering, and all kinds of automatic lines, and assembly lines.With fast delivery, superior after-sales service, advanced producing facility, our products sell well  both at home and abroad. We have exported our reducers to Southeast Asia, Eastern Europe and Middle East and so on.Our aim is to develop and innovate on basis of high quality, and create a good reputation for reducers.

 Packing information:Plastic Bags+Cartons+Wooden Cases , or on request
We participate Germany Hannver Exhibition-ZheJiang PTC Fair-Turkey Win Eurasia

Logistics

After Sales Service

1.Maintenance Time and Warranty:Within 1 year after receiving goods.
2.Other ServiceIncluding modeling selection guide, installation guide, and problem resolution guide, etc.

FAQ

1.Q:Can you make as per customer drawing?
A: Yes, we offer customized service for customers accordingly. We can use customer’s nameplate for gearboxes.
2.Q:What is your terms of payment ?
A: 30% deposit before production,balance T/T before delivery.
3.Q:Are you a trading company or manufacturer?
A:We are a manufacurer with advanced equipment and experienced workers.
4.Q:What’s your production capacity?
A:8000-9000 PCS/MONTH
5.Q:Free sample is available or not?
A:Yes, we can supply free sample if customer agree to pay for the courier cost
6.Q:Do you have any certificate?
A:Yes, we have CE certificate and SGS certificate report.

Contact information:
Ms Lingel Pan
For any questions just feel free ton contact me. Many thanks for your kind attention to our company!

 

 

Application: Motor, Machinery, Marine, Agricultural Machinery, Industry
Function: Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Right-Angle
Hardness: Hardened Tooth Surface
Installation: Horizontal Type
Step: Two Stage-Three Stage
Samples:
US$ 45/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

aluminum gear

How do aluminum gears handle lubrication and wear?

Aluminum gears handle lubrication and wear in specific ways. Here’s a detailed explanation:

1. Lubrication: Proper lubrication is crucial for the performance and longevity of aluminum gears. Lubricants reduce friction between gear surfaces, prevent metal-to-metal contact, and dissipate heat. Aluminum gears typically require lubricants with good film-forming properties and adequate load-carrying capacity. The lubricant forms a thin film between the gear teeth, reducing wear and providing protection against surface damage. Lubrication also helps minimize noise and vibration in the gear system.

2. Lubricant Selection: When selecting a lubricant for aluminum gears, several factors need to be considered. These include the operating conditions (temperature, speed, and load), compatibility with the gear material and other components, desired viscosity, and the lubricant’s ability to resist oxidation and maintain its properties over time. It’s important to consult lubricant manufacturers or industry standards to ensure the right lubricant is chosen for the specific application.

3. Lubrication Methods: Aluminum gears can be lubricated using various methods. Common approaches include splash lubrication, oil bath lubrication, and forced lubrication systems. The lubrication method depends on the gear design, operating conditions, and lubrication requirements of the specific application. Proper lubrication system design and maintenance are essential to ensure effective lubrication throughout the gear’s service life.

4. Wear: Wear is an inevitable phenomenon in gear systems, including those with aluminum gears. Wear occurs due to the cyclic contact and sliding between gear teeth, which leads to material removal and surface degradation. However, aluminum gears can exhibit good wear resistance, especially when properly lubricated and designed. The lubricant forms a protective film that minimizes direct metal-to-metal contact, reducing wear. Additionally, aluminum alloys often have self-lubricating properties, resulting from the formation of oxide layers on the gear surface.

5. Surface Treatments: Surface treatments can improve the wear resistance of aluminum gears. Processes such as hard coating, anodizing, or surface modification techniques can enhance the surface hardness, reduce friction, and provide additional protection against wear. These treatments can extend the gear’s lifespan and enhance its performance in demanding applications.

6. Inspections and Maintenance: Regular inspections and maintenance are vital to monitor the condition of aluminum gears and ensure proper lubrication. Visual inspections, oil analysis, and monitoring gear performance can help detect signs of wear, lubricant degradation, or inadequate lubrication. Timely maintenance actions such as lubricant replenishment, filter replacement, and gear reconditioning can prevent excessive wear and prolong the gear’s service life.

It’s important to note that the specific lubrication and wear characteristics of aluminum gears may vary depending on factors such as the alloy used, gear geometry, operating conditions, and maintenance practices. Consulting with gear manufacturers, lubrication experts, or industry professionals can provide further insights into optimizing lubrication and mitigating wear in aluminum gear applications.

In summary, aluminum gears handle lubrication and wear through proper lubrication practices, careful selection of lubricants, appropriate lubrication methods, wear-resistant surface treatments, and regular inspections and maintenance. These measures ensure effective lubrication, reduce wear, and extend the lifespan of aluminum gears in various applications.

aluminum gear

Are there specific design considerations for using aluminum gears?

Using aluminum gears requires specific design considerations. Here’s a detailed explanation:

1. Material Selection: Aluminum alloys have different mechanical properties and characteristics. When designing aluminum gears, it’s important to select an alloy that meets the specific requirements of the application. Factors to consider include the desired strength, hardness, wear resistance, corrosion resistance, and thermal conductivity of the gear. The selected alloy should be suitable for the operating conditions and loads expected in the application.

2. Strength and Load Capacity: Aluminum is generally not as strong as some other materials like steel or cast iron. Therefore, when designing aluminum gears, it’s important to carefully consider the anticipated loads and stresses they will experience. Structural analysis, such as finite element analysis (FEA), can help determine the gear’s load capacity and structural integrity. Reinforcement techniques or incorporating additional support structures may be necessary in high-load applications.

3. Heat Dissipation: Aluminum has good thermal conductivity, which allows it to dissipate heat effectively. However, in applications where gears generate significant heat, thermal management becomes critical. Designing gear systems with proper cooling mechanisms, such as fins, heat sinks, or forced air circulation, can help prevent overheating and maintain optimal operating temperatures for the aluminum gears.

4. Gear Geometry: The design of aluminum gears should consider factors such as tooth profile, module, pressure angle, and tooth thickness. The gear geometry affects the gear’s load-carrying capacity, efficiency, noise level, and overall performance. It’s important to ensure proper tooth engagement, minimize stress concentrations, and optimize gear meshing characteristics to achieve the desired functionality and durability.

5. Lubrication: Lubrication is essential for aluminum gears to minimize friction, wear, and heat generation. Design considerations should include providing adequate space for lubricant reservoirs, channels, or oil passages to ensure proper lubricant distribution across the gear surfaces. The gear design should also facilitate efficient lubricant retention and minimize the risk of lubricant leakage or contamination.

6. Noise and Vibration: Aluminum gears can contribute to noise reduction due to their damping properties. However, the gear design should aim to further minimize noise and vibration levels. Considerations include gear tooth profile optimization, gear tooth surface finish, backlash control, and the use of noise-dampening features such as gear coatings or sound-absorbing materials.

7. Manufacturability: Designing aluminum gears should take into account the manufacturability aspects. Aluminum is a highly formable material, allowing for complex gear shapes and intricate designs. However, considerations such as casting or machining processes, tooling requirements, dimensional tolerances, and surface finish specifications should be addressed to ensure consistent and cost-effective production.

8. Compatibility with Other Components: Aluminum gears are often used in conjunction with other components within a larger system. It’s important to ensure compatibility between aluminum gears and other materials or components they interact with. Factors such as galvanic corrosion, differential thermal expansion, or material compatibility should be considered to prevent premature failure or performance issues.

By addressing these specific design considerations, aluminum gears can be effectively utilized in various applications, taking advantage of their unique properties and benefits.

aluminum gear

What are aluminum gears and how are they used?

Aluminum gears are gears made from aluminum, a lightweight and versatile metal. Here’s a detailed explanation of aluminum gears and their uses:

1. Material Properties: Aluminum gears are typically made from aluminum alloys, which offer several advantages. Aluminum is lightweight, with a density significantly lower than that of steel or other metals. It also has good corrosion resistance, excellent thermal conductivity, and is easy to machine, making it suitable for various applications.

2. Applications: Aluminum gears find application in a range of industries and systems, including:

  • Automotive: Aluminum gears are used in automotive transmissions, where their lightweight nature helps reduce the overall weight of the vehicle, contributing to improved fuel efficiency.
  • Aerospace: In aerospace applications, aluminum gears are utilized in aircraft components, such as landing gear systems and actuation mechanisms, where weight reduction is critical for fuel efficiency and performance.
  • Robotics: Aluminum gears are commonly employed in robotics for their lightweight characteristics, allowing for efficient movement and reduced power requirements.
  • Electrical and Electronics: Aluminum gears are utilized in various electrical and electronic devices, such as printers, scanners, and small appliances, where low weight and noise reduction are important.
  • Sports Equipment: Aluminum gears are found in sporting equipment, including bicycles, where weight reduction and durability are essential for enhanced performance.

3. Advantages: Aluminum gears offer several advantages:

  • Lightweight: Aluminum gears contribute to weight reduction in systems, resulting in improved energy efficiency and performance.
  • Corrosion Resistance: Aluminum alloys can exhibit good corrosion resistance, making them suitable for applications where exposure to moisture or harsh environments is a concern.
  • Low Noise: Aluminum gears can help reduce noise levels in gear systems due to their natural damping properties.
  • Heat Dissipation: Aluminum’s high thermal conductivity allows for effective heat dissipation, making it suitable for applications where temperature management is important.
  • Cost-Effective: Aluminum is relatively inexpensive compared to other metals, making aluminum gears a cost-effective option for various applications.

4. Limited Load Capacity: It’s important to note that aluminum gears have lower strength compared to steel gears, limiting their load-carrying capacity. They are typically used in applications with lighter loads and lower torque requirements.

5. Proper Lubrication: Lubrication is crucial for aluminum gears to minimize friction and wear. It’s important to use lubricants specifically designed for aluminum gears and follow appropriate maintenance practices to ensure their optimal performance and longevity.

Overall, aluminum gears provide lightweight, corrosion-resistant, and cost-effective solutions for various applications. They are commonly used in automotive, aerospace, robotics, electrical and electronics, and sports equipment industries, among others, where weight reduction, corrosion resistance, and noise reduction are key considerations.

China supplier Non-Rusting Aluminum Helical Gearbox Hypoid Gear Reducers for Industrial Transmission gear boxChina supplier Non-Rusting Aluminum Helical Gearbox Hypoid Gear Reducers for Industrial Transmission gear box
editor by CX 2023-10-25