China Hot selling Advance HCD1000 Marine Main Propulsion Propeller Reduction Gearbox bevel spiral gear

Product Description

Advance HCD1000 marine main propulsion propeller reduction gearbox,; with advance gearbox mdel list as:;

Model Max Power Input
(hp/rpm);
Speed Rang
(rpm);
Reduction Ration Weight Suitable Engines
06 12.;5/2100 1000-2100 2.;52/3.;05/3.;50 58kg Yanmar TS130/TS155 Hatz E786
HC038A   1500-2300 1.;51 2.;03 2.;52 2.;92 3.;45 70  
16A 33/2000 1000-2000 2.;07/2.;48/2.;95/3.;35/3.;83 84kg MWM D226-2,; Hatz 3M31
26   1000-2500 2.;5/3/3.;5/4 92  
MA100A 37/3000 1500-3000 1.;6/2/2.;55/3.;11/3.;59/3.;88 75 Isuzu UM02AB1,; CHINAMFG ME125
MA125 82/3000 1500-3000 2.;03/2.;46/3.;04/3.;57/4.;05
/4.;39/4.;7
115 Isuzu UM02AB1,; CHINAMFG ME125
MA142 102/2500 1500-3000 1.;97/2.;52/3.;03/3.;54/3.;95/4.;5 140 Cummins 4BTA3.;9-M MWM D226-4
40A 82/2000 750-2000 2.;07/2.;96/3.;44 225 Yanmar ME400L,; Baudouin 4D
MB170 132/2500 1000-2500 1.;97/2.;52/3.;04/3.;96/4.;5/5.;06
/5.;47/5.;88
240 MWM D226-6,; CHINAMFG ME400L
HC65 163/2500 1000-2500 1.;53/2.;03/2.;5/2.;96 130 6BT5.;9-M
120B   750-1800 2.;03/2.;81/3.;73 400  
120C 340/2500 1000-2500 1.;48/1.;94/2.;45/2.;96/3.;35 225 Cummins NT855-M240,; CAT 3208TA
MV100 408/3000 1500-3000 1.;23/1.;62/2.;07/2.;52/2.;87 220 NT855-M240,; MWM D234 V8
135A 272/2000 1000-2000 2.;03/2.;59/3.;04/3.;62/4.;11/4.;65
/5.;06/5.;47/5.;81
470 NT855-M240,; CAT 3406
HCQ138 390/2600 1000-2600 1.;03/1.;5/2.;03/2.;48/2.;95 200 NT855-M240,; CAT 3406
HC138 375/2500 1000-2500 2/2.;52/3/3.;57/4.;05/4.;45 360 6135Ca,; NT855-M240
HCD138 375/2500 1000-2500 5.;05/5.;63/6.;06/6.;47 415 6135Ca,; NT855-M240
HCA138 390/2600 1000-2600 1.;095/1.;28/1.;5/2.;03/2.;52/3 200 NT855-M240,; MWM D234 V8
MB242 350/2500 1000-2500 3.;04/3.;52/3.;95/4.;53/5.;12
/5.;56/5.;88
385 NT855-M240,; CAT 3406
HC200 440/2200 1000-2200 1.;48/2/2.;28 280 NT855-M240,; CAT 3406TA
HC201 500/2500 1000-2500 2.;46/2.;955/3.;526 350 6135ZLCa,; CHINAMFG NTA855-M400
MB270A 500/2500 1000-2500 4.;05/4.;53/5.;12/5.;5/5.;95/6.;39/6.;82 675 NTA855-M400,; CAT 3406TA
HCQ300 782/2300 1000-2300 1.;05/1.;46/2.;05/2.;38 350 KTA19-M600,; 3412T,; TBD234 V12
HC300   700-2500 1.;5/1.;87/2.;04/2.;23/2.;54/3/3.;53/
4.;1/4.;47/4.;61/4.;94/5.;44
680  
300 805/2300 1000-2300 2.;04/2.;54/3/3.;53/4.;1/4.;61/4.;94
/5.;44
740 KTA19-M600,; TBD234 V12
D300 805/2300 1000-2300 4/4.;48/5.;05/5.;52/5.;9/6.;56/7.;06
/7.;63
940 KTA19-M600,; TBD234 V12
T300 759/2300 1000-2300 4.;95/6.;03/6.;65/7.;04/7.;54/8.;02
/8.;47
1120 KTA19-M600,; 3412T,; TBD234 V12
T300/1 611/2300 1000-2300 8.;94/9.;45 1120 KTA19-M600,; 3412T
HCA300 850/2500 1000-2500 1.;5/2/2.;57/2.;95 370 KTA19-M600,; 3412T,; TBD234 V12
HCA301   1000-2500 1.;5 2 2.;57 2.;95 370  
M300 850/2300 1000-2300 1.;45/2/2.;52/3.;05/3.;45/3.;94 700 KTA19-M600,; TBD234 V12
MD300 850/2300 1000-2300 3.;96/4.;48/4.;96/5.;52/5.;9 940 KTA19-M600,; TBD234 V12
HCQ400 810/1800 1000-2300 1.;5/2.;04/2.;5/3/3.;42/3.;77/4.;06
/4.;61/4.;94
1100 KT38-M800,; TBD604BL6,; 3412TA
HC400 810/1800 1000-2300 1.;5/2.;04/2.;5/3/3.;42/3.;77/4.;06
/4.;61/4.;94
820 3412TA,; TBD604BL6
HCD400A 810/1800 1000-1800 3.;96/4.;33/4.;43/4.;476/4.;7/5/5.;53
/5.;7/5.;89
1100 KT38-M800,; TBD604BL6
HCT400A 945/2100 1000-2100 6.;09/6.;49/6.;93/7.;42/7.;95/8.;4
/9/9.;47
1450 KT38-M800,; 6BD604BL6
HCT400A/1 945/2100 1000-2100 8.;15/8.;69/9.;27/10.;6/11.;46/12 1500 KTA38-M800,; 3412TA,; TBD604BL6
HCQ501 1265/2300 1000-2300 1.;03/1.;46/2/2.;45 560 KTA38-M940,; 3508B,; TBD234 V16
HCQ502 1265/2300 1000-2300 2.;95 700 KTA38-M940,; 3508TA,; TBD234 V16
HC600A 1365/2100 1000-2100 2/2.;48/3/3.;58/3.;89 1300 KTA38-M1045,; 3508B,; TBD604B V8
HCD600A 1365/2100 1000-2100 4.;18/4.;43/4.;7/5/5.;44/5.;71 1550 KTA38-M1045,; 3508B,; TBD604B V8
HCT600A 1260/2100 1000-2100 6.;06/6.;49/6.;97/7.;51/8.;04/8.;66/9.;35 1600 KTA38-M940,; 3508TA,; TBD234 V16
HCT600A/1 1260/2100 1000-2100 7.;69/8.;23/8.;82/9.;47/10.;1/10.;8
/11.;65/12.;57/14.;44
1700 KTA38-M940,; TBD234 V16
HCD800 1530/1800 1000-1800 3.;429/3.;96/4.;391/4.;905/5.;474/5.;889 1900 6190Z1CZ,; CW6200,; KTA38-M1
HCT800 1530/1800 800-1800 4.;95/5.;57/5.;68/5.;93/6.;43/6.;86
/7.;33/7.;84
2000 KTA38-M
HCT800-1   800-1800 6.;91/7.;28/7.;69/8.;12/8.;6/9.;12
/9.;68/10.;3/10.;98/11.;76/12.;43
/13.;17/13.;97/14.;85/15.;82/16.;58
3200  
HC900 1440/1600 600-1600 1.;46/2.;04/2.;47/3/3.;6/4.;08/4.;63/4.;95 1600 12V190DC,; M200
HCD1000   600-1900 3.;429/3.;96/4.;391/4.;45/4.;905/
5.;06/5.;474/5.;833
1900  
HCT1100 1841/1600 700-1600 5.;6/5.;98/6.;39/6.;85/7.;35/7.;9 3000 CW6200
HC1200   600-1900 2.;03/2.;5/2.;96/3.;55/3.;79/4.;05/4.;2/4.;47 2000  
HC1200-1   600-1800 3.;74 3.;95 4.;45 5 5.;25 5.;58 2500  
HC1250 1654/1800 400-1800 2.;03/2.;48/3.;04/3.;48/3.;96 2200 CW8200ZC,; 6210ZL,; Z12V190
HC701 1286/2400 1200-2400 1.;93/2.;58/2.;9/3.;26/3.;91/4.;6/5.;17
/6.;18/7/7.;47
2000 KTA38-M2
HCA1400   1600-2100 2.;926   7 degrees down angle
HCAM1400   1600-2100 2.;926    
HCT1400   600-1800 4/4.;511/5.;03/5.;52/5.;97/6.;48/
7.;03/7.;5/8.;01/8.;465/8.;593/8.;984
/9.;118/9.;552
3700  
HCT1600   500-1650 5.;454/5.;972/6.;585/6.;99/7.;456/
7.;9/8.;45/9/9.;5
4200  
HCAM500   1000-2600 1.;35 2.;034 3 500 10 degrees down
HCT2000   600-1500 5.;185/5.;494/5.;943/6.;583/7.;012/
7.;483/8/8.;57/8.;843/9.;428/10.;05
5600  

manufactured by 1 of the biggest gearbox manufacturer in China,; with technologies
introduced from Bosch,; Twindisc,; Eaton,; etc.;
Besides gearbox,; we mainly sell diesel/petrol engines and related spare parts,; with brands
including:; Cummins,; Deutz,; CAT,;Isuzu,; VM,; Toyota,; Mitsubishi,; Suzuki,; Yuchai,;
Weichai,; Changchai,; etc,; for various applications,; such as automobile,; bus,; coach,; van,; truck,;
bulldozer,; forklift,; excavator,; road roller,; wheel loader,; hoister,; generator,; water pump,;
fire pump,; marine main propulsion,; marine auxiliary,; etc.;

Application: Marine, Marine
Hardness: Hardened
Type: Circular Gear
Overall Dimension: 1082*1280*1345mm
Material: Stainless Steel
Center Distance: 450mm

plastic gear

What are the benefits of using plastic gears over traditional materials?

Using plastic gears instead of traditional materials offers several benefits. Here’s a detailed explanation of the advantages of using plastic gears:

  • Weight Reduction: Plastic gears are significantly lighter in weight compared to gears made from traditional materials such as metal. This lightweight characteristic is advantageous in applications where weight reduction is important, as it can contribute to energy efficiency, lower inertia, and reduced wear on supporting components.
  • Noise and Vibration Reduction: Plastic gears have inherent damping properties that help reduce noise and vibration levels during operation. This makes them suitable for applications where noise reduction is desired, such as in consumer electronics or office equipment. Metal gears, on the other hand, tend to generate more noise and vibration due to their higher stiffness.
  • Self-Lubrication: Certain plastic materials used in gears have inherent lubricating properties, allowing for self-lubrication between gear teeth. This reduces friction and wear, eliminating the need for external lubrication and simplifying maintenance requirements. Metal gears, on the other hand, typically require lubrication to reduce friction and wear.
  • Corrosion Resistance: Plastic gears can exhibit excellent resistance to corrosion and chemicals, depending on the chosen plastic material. This makes them suitable for applications in corrosive environments where metal gears may suffer from degradation or require additional protective measures.
  • Design Flexibility: Plastic gears offer greater design flexibility compared to metal gears. Plastic materials can be easily molded into complex shapes, allowing for the creation of custom gear profiles and tooth geometries. This design flexibility enables gear optimization for specific applications, improving performance, efficiency, and overall machinery design.
  • Cost-Effectiveness: Plastic gears are often more cost-effective compared to gears made from traditional materials. Plastic materials are generally less expensive than metals, and the manufacturing processes for plastic gears, such as injection molding, can be more efficient and economical for large-scale production.
  • Electrical Insulation: Plastic gears offer electrical insulation properties, which can be advantageous in applications where electrical isolation is required. Metal gears, on the other hand, can conduct electricity and may require additional insulation measures in certain situations.
  • Customization and Color Options: Plastic gears can be easily customized in terms of shape, size, color, and surface finish. This allows for branding, aesthetic preferences, or specific identification requirements in various applications. Metal gears, on the other hand, have more limited options for customization.

These benefits make plastic gears attractive alternatives to traditional materials in many applications. However, it’s important to consider the specific requirements and operating conditions of the application when selecting the appropriate gear material.

plastic gear

How do you prevent premature wear and degradation in plastic gears?

Preventing premature wear and degradation in plastic gears requires implementing various measures and considerations. Here’s a detailed explanation of how to achieve this:

1. Material Selection: Choose a plastic material with suitable properties for the specific application. Consider factors such as strength, stiffness, wear resistance, and compatibility with operating conditions. Opt for materials that have good resistance to wear, fatigue, and environmental factors to minimize premature degradation.

2. Gear Design: Pay attention to the design of the plastic gears to minimize wear and degradation. Optimize the tooth profile, gear geometry, and load distribution to reduce stress concentrations and ensure even load sharing among the teeth. Incorporate features such as fillets, reinforcements, and optimized tooth profiles to enhance the gear’s durability.

3. Lubrication: Proper lubrication is essential to reduce friction, minimize wear, and prevent premature degradation. Choose lubricants that are compatible with the plastic material and the operating conditions. Ensure adequate lubrication by following manufacturer recommendations and implementing proper lubrication techniques such as oil bath, grease, or dry lubrication.

4. Operating Conditions: Consider the operating conditions and make adjustments to prevent premature wear and degradation. Control operating temperatures within the recommended range for the plastic material to avoid thermal degradation. Avoid excessive speeds or loads that can lead to increased friction and wear. Minimize exposure to harsh chemicals, UV radiation, or abrasive particles that can degrade the plastic material.

5. Maintenance: Implement regular maintenance practices to prevent premature wear and degradation. Conduct periodic inspections to identify signs of wear or damage. Replace worn or damaged gears promptly to prevent further degradation. Follow recommended maintenance schedules for lubrication, cleaning, and any other specific requirements for the plastic gears.

6. Proper Installation: Ensure that plastic gears are installed correctly to minimize wear and degradation. Follow manufacturer guidelines and recommendations for installation procedures, such as proper alignment, torque values, and fastening techniques. Improper installation can lead to misalignment, increased stress concentrations, and accelerated wear.

7. Optimized Load Distribution: Design the gear system to ensure even load distribution across the gear teeth. Consider factors such as tooth profile, tooth width, and the number of teeth to optimize load sharing. Uneven load distribution can lead to localized wear and premature degradation of specific gear teeth.

8. Environmental Protection: Protect plastic gears from harsh environmental conditions that can accelerate wear and degradation. Implement measures such as sealing mechanisms, coatings, or encapsulation to shield the gears from exposure to chemicals, moisture, UV radiation, or abrasive particles.

9. Quality Manufacturing: Ensure high-quality manufacturing processes to minimize defects and inconsistencies that can compromise the durability of plastic gears. Use reputable suppliers and manufacturers that adhere to strict quality control measures. Conduct thorough inspections and testing to verify the quality of the gears before installation.

By considering these preventive measures, such as material selection, gear design, lubrication, operating conditions, maintenance, proper installation, load distribution optimization, environmental protection, and quality manufacturing, it’s possible to minimize premature wear and degradation in plastic gears, ensuring their longevity and performance.

plastic gear

What are the advantages of using plastic gears in machinery?

Plastic gears offer several advantages when used in machinery. Here’s a detailed explanation of the advantages of using plastic gears:

  • Lightweight: Plastic gears are significantly lighter in weight compared to metal gears. This lightweight characteristic is particularly beneficial in applications where weight reduction is important, as it can contribute to energy efficiency, lower inertia, and reduced wear on supporting components.
  • Low Noise and Vibration: Plastic gears have inherent damping properties, which help reduce noise and vibration levels during operation. The ability to absorb and dissipate vibrations leads to quieter machinery, making plastic gears suitable for applications where noise reduction is desired, such as in consumer electronics or office equipment.
  • Corrosion Resistance: Certain plastic materials used in gear manufacturing exhibit excellent resistance to corrosion and chemicals. This makes plastic gears suitable for applications in corrosive environments, where metal gears may suffer from degradation or require additional protective coatings.
  • Self-Lubrication: Some plastic materials used for gear manufacturing have self-lubricating properties. These materials can reduce friction and wear between gear teeth, eliminating the need for external lubrication. Self-lubricating plastic gears can simplify maintenance requirements and reduce the risk of lubricant contamination or leakage in machinery.
  • Cost-Effective: Plastic gears can be more cost-effective compared to metal gears, especially in large-scale production. Plastic materials are often less expensive than metals, and the manufacturing processes for plastic gears can be more efficient, resulting in lower overall production costs. This cost advantage makes plastic gears an attractive option for applications where budget considerations are important.
  • Design Flexibility: Plastic gears offer greater design flexibility compared to metal gears. Plastic materials can be easily molded into complex shapes, allowing for the creation of custom gear profiles and tooth geometries. This design flexibility enables gear optimization for specific applications, improving performance, efficiency, and overall machinery design.
  • Electrical Insulation: Plastic gears provide electrical insulation properties, which can be advantageous in machinery where electrical or electronic components are in close proximity to the gears. The electrical insulation helps prevent the risk of electrical short circuits or interference caused by metal gears coming into contact with conductive parts.

It’s important to note that while plastic gears offer unique advantages, they also have limitations. They may not be suitable for applications requiring extremely high torque, high temperatures, or where precise positioning is critical. The selection of plastic gears should consider the specific requirements of the machinery and the mechanical properties of the chosen plastic material.

China Hot selling Advance HCD1000 Marine Main Propulsion Propeller Reduction Gearbox bevel spiral gearChina Hot selling Advance HCD1000 Marine Main Propulsion Propeller Reduction Gearbox bevel spiral gear
editor by CX 2023-10-18