Product Description
Product Description
JT400A Model
Feature |
Oil pump rotating 180 degree can change the input direction |
|||
Housing:SAE 0.1 |
Flange:14″,16″,18″ |
|||
L×W×H:832x1052x1160mm | N.W.: 1150KG | |||
Type |
Nominal |
Accurate |
Ratio (horsepower HP/r.min) |
|
JT400A | 6.0:1 | 6.108:1 | 0.450 | |
6.5:1 | 6.513:1 | 0.450 | ||
7.0:1 | 6.957:1 | 0.450 | ||
7.5:1 | 7.445:1 | 0.450 | ||
8.0:1 | 7.950:1 | 0.415 | ||
8.5:1 | 8.526:1 | 0.386 | ||
9.0:1 | 9.000:1 | 0.360 | ||
9.5:1 | 9.474:1 | 0.333 |
JT400-1 Model
Feature |
Oil pump rotating 180 degree can change the input direction |
|||
Housing:SAE 0.1 |
Flange:14″,16″,18″ |
|||
L×W×H:832x1100x1350mm | N.W.:1450KG | |||
Type |
Nominal |
Accurate |
Ratio (horsepower HP/r.min) |
|
JT400-1 | 8.0:1 | 8. 0571 :1 | 0.450 | |
8.5:1 | 8.6104:1 | 0.450 | ||
9.0:1 | 9.1973:1 | 0.450 | ||
10.0:1 | 9.8429:1 | 0.450 | ||
10.5:1 | 10.4675:1 | 0.400 | ||
11.0:1 | 11.2263:1 | 0.370 | ||
12.0:1 | 11.8500:1 | 0.356 | ||
12.5:1 | 12.4737:1 | 0.333 | ||
13.5:1 | 13.5000:1 | 0.313 | ||
14.0:1 | 14.2105:1 | 0.299 |
JT400-1 Model
Feature |
Oil pump rotating 180 degree can change the input direction |
|||
Housing:SAE 0.1 |
Flange:14″,16″,18″ |
|||
L×W×H:832x1100x1350mm | N.W.:1450KG | |||
Type |
Nominal |
Accurate |
Ratio (horsepower HP/r.min) |
|
JT400-1 | 8.0:1 | 8. 0571 :1 | 0.450 | |
8.5:1 | 8.6104:1 | 0.450 | ||
9.0:1 | 9.1973:1 | 0.450 | ||
10.0:1 | 9.8429:1 | 0.450 | ||
10.5:1 | 10.4675:1 | 0.400 | ||
11.0:1 | 11.2263:1 | 0.370 | ||
12.0:1 | 11.8500:1 | 0.356 | ||
12.5:1 | 12.4737:1 | 0.333 | ||
13.5:1 | 13.5000:1 | 0.313 | ||
14.0:1 | 14.2105:1 | 0.299 |
JT450-1 Model
Feature |
Oil pump rotating 180 degree can change the input direction |
|||
Housing:SAE 0.1 |
Flange:14″,16″,18″ |
|||
L×W×H:832x1100x1350mm | N.W.:1450KG | |||
Type |
Nominal |
Accurate |
Ratio (horsepower HP/r.min) |
|
JT450-1 | 8.0:1 | 8. 0571 :1 | 0.450 | |
8.5:1 | 8.6104:1 | 0.450 | ||
9.0:1 | 9.1973:1 | 0.450 | ||
10.0:1 | 9.8429:1 | 0.450 | ||
10.5:1 | 10.4675:1 | 0.400 | ||
11.0:1 | 11.2263:1 | 0.370 | ||
12.0:1 | 11.8500:1 | 0.356 | ||
12.5:1 | 12.4737:1 | 0.333 | ||
13.5:1 | 13.5000:1 | 0.313 | ||
14.0:1 | 14.2105:1 | 0.299 |
Company Profile
Our Advantages
1. Ensure good quality, good package for transporation and deliver on time during the production phase;
2. Manging sea freight to customer’s port of destination;
3. Be responsible for the after-sales service.
Packaging & Shipping
Recommed products
Quality Assurance
1. Marine class certificate.
2. Three party inspection can be arranged.
FAQ
Q1: Why we choose you?
11 professional engineers can provide overall solution services.
15 years specialising in marine deck equipment.
18 long-term cooperation supporting factories.
24 hours a day after-sale technical support.
Q2: What kind of payments do you accept?
T/T, L/C, Western Union, D/A, D/P, etc.
Q3: How about the Delivery Time?
We could finish the production within 30 days.
Q4: What’s the MOQ?
MOQ is 1 set.
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Application: | Machinery, Marine |
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Function: | Distribution Power, Clutch, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction, Speed Increase |
Layout: | Coaxial |
Hardness: | Hardened Tooth Surface |
Installation: | Horizontal Type |
Step: | Single-Step |
Customization: |
Available
| Customized Request |
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Considerations for Selecting Planetary Gearboxes for Aerospace and Satellite Applications
Selecting planetary gearboxes for aerospace and satellite applications requires careful consideration due to the unique demands of these industries:
- Weight and Size: Aerospace and satellite systems demand lightweight and compact components. Planetary gearboxes with high power density and lightweight materials are preferred to minimize the overall weight and size of the equipment.
- Reliability: Aerospace missions involve critical operations where component failure is not an option. Planetary gearboxes with a proven track record of reliability and durability are essential to ensure mission success.
- High Efficiency: Efficiency is crucial in aerospace applications to optimize power usage and extend the operational life of satellites. Planetary gearboxes with high efficiency ratings contribute to energy conservation.
- Extreme Environments: Aerospace and satellite systems are exposed to harsh conditions such as vacuum, extreme temperatures, and radiation. Planetary gearboxes need to be designed and tested to withstand these conditions without compromising performance.
- Precision and Accuracy: Many aerospace operations require precise positioning and accurate control. Planetary gearboxes with minimal backlash and high precision gear meshing contribute to accurate movements.
- Lubrication: Lubrication plays a vital role in aerospace gearboxes to ensure smooth operation and prevent wear. Gearboxes with efficient lubrication systems or self-lubricating materials are favored.
- Redundancy and Fail-Safe: Some aerospace systems incorporate redundancy to ensure mission success even in case of component failure. Planetary gearboxes with built-in redundancy or fail-safe mechanisms enhance system reliability.
- Integration: Planetary gearboxes need to be seamlessly integrated into the overall design of aerospace and satellite systems. Customization options and compatibility with other components are important factors.
Overall, selecting planetary gearboxes for aerospace and satellite applications involves a comprehensive evaluation of factors related to weight, reliability, efficiency, durability, environmental resistance, precision, and integration to meet the unique demands of these industries.
Maintenance Practices to Extend the Lifespan of Planetary Gearboxes
Proper maintenance is essential for ensuring the longevity and optimal performance of planetary gearboxes. Here are specific maintenance practices that can help extend the lifespan of planetary gearboxes:
1. Regular Inspections: Implement a schedule for routine visual inspections of the gearbox. Look for signs of wear, damage, oil leaks, and any abnormal conditions. Early detection of issues can prevent more significant problems.
2. Lubrication: Adequate lubrication is crucial for reducing friction and wear between gearbox components. Follow the manufacturer’s recommendations for lubricant type, viscosity, and change intervals. Ensure that the gearbox is properly lubricated to prevent premature wear.
3. Proper Installation: Ensure the gearbox is installed correctly, following the manufacturer’s guidelines and specifications. Proper alignment, torque settings, and clearances are critical to prevent misalignment-related wear and other issues.
4. Load Monitoring: Avoid overloading the gearbox beyond its designed capacity. Excessive loads can accelerate wear and reduce the gearbox’s lifespan. Regularly monitor the load conditions and ensure they are within the gearbox’s rated capacity.
5. Temperature Control: Maintain the operating temperature within the recommended range. Excessive heat can lead to accelerated wear and lubricant breakdown. Adequate ventilation and cooling measures may be necessary in high-temperature environments.
6. Seal and Gasket Inspection: Regularly check seals and gaskets for signs of leakage. Damaged seals can lead to lubricant loss and contamination, which can cause premature wear and gear damage.
7. Vibration Analysis: Use vibration analysis techniques to detect early signs of misalignment, imbalance, or other mechanical issues. Monitoring vibration levels can help identify problems before they lead to serious damage.
8. Preventive Maintenance: Establish a preventive maintenance program based on the gearbox’s operational conditions and usage. Perform scheduled maintenance tasks such as gear inspections, lubricant changes, and component replacements as needed.
9. Training and Documentation: Ensure that maintenance personnel are trained in proper gearbox maintenance procedures. Keep comprehensive records of maintenance activities, inspections, and repairs to track the gearbox’s condition and history.
10. Consult Manufacturer Guidelines: Always refer to the manufacturer’s maintenance and servicing guidelines specific to the gearbox model and application. Following these guidelines will help maintain warranty coverage and ensure best practices are followed.
By adhering to these maintenance practices, you can significantly extend the lifespan of your planetary gearbox, minimize downtime, and ensure reliable performance for your industrial machinery or application.
Factors to Consider When Selecting a Planetary Gearbox
Choosing the right planetary gearbox for a specific application involves considering various factors to ensure optimal performance and compatibility. Here are the key factors to keep in mind:
- Load Requirements: Determine the torque and speed requirements of your application. Planetary gearboxes offer different torque and speed ratios, so selecting the appropriate gearbox with the right load capacity is crucial.
- Ratio: Evaluate the gear reduction ratio needed to achieve the desired output speed and torque. Planetary gearboxes come in various gear ratios, allowing you to customize the output characteristics.
- Efficiency: Consider the gearbox’s efficiency, as it affects energy consumption and heat generation. Higher efficiency gearboxes minimize power losses during transmission.
- Size and Compactness: Planetary gearboxes are known for their compact size, but it’s essential to choose a size that fits within the available space while meeting performance requirements.
- Mounting Configuration: Determine how the gearbox will be mounted in your application. Planetary gearboxes can have different mounting options, including flange, shaft, or foot mountings.
- Input and Output Types: Select the appropriate input and output shaft configurations, such as male, female, keyed, splined, or hollow shafts, to ensure compatibility with your equipment.
- Environment: Consider the operating environment, including temperature, humidity, dust, and potential exposure to chemicals. Choose a gearbox with appropriate seals and materials to withstand the conditions.
- Accuracy: Some applications require precise motion control. If accuracy is essential, choose a gearbox with minimal backlash and high gear mesh quality.
- Service Life and Reliability: Evaluate the gearbox’s expected service life and reliability based on the manufacturer’s specifications. Choose a reputable manufacturer known for producing reliable products.
- Backlash: Backlash is the play between gears that can affect positioning accuracy. Depending on your application, you might need a gearbox with low backlash or a method to compensate for it.
- Budget: Consider your budget constraints while balancing performance requirements. Sometimes, investing in a higher-quality gearbox upfront can lead to long-term cost savings through reduced maintenance and downtime.
By carefully considering these factors and consulting with gearbox manufacturers or experts, you can select a planetary gearbox that best meets the unique demands of your application.
editor by CX 2023-12-20