Product Description
Product Description
factory hot sale CHINAMFG J40/40 53KW-61KW used for china vessel boat ship marine engine gearbox
| 40A Modle | ||
| Feature | Fluid control, price favorable | |
| Housing:SAE 1.2.3 | Flange:111/2″,14″ | |
| L×W×H: | 750×590×720mm | N.W.240kg |
| NOMINAL RATIO | EXACT RATIO | RATE(HP/RPM) |
| 2:01 | 2.066:1 | 0.04 |
| 3:01 | 2.957:1 | 0.04 |
| Recommended engine:YANMAR 6CHLN; BAUDOUIN 4D 106 | ||
| 120B Modle | ||
| Feature | Compact structure, fluid control | |
| Housing:SAE 1 | Flange:14″ | |
| L×W×H: | 720×850×870mm | N.W.360kg |
| Nominal coefficient | Accurate coefficient | Ratio (horsepower/r/m) |
| 2:01 | 2.571:1 | 0.12 |
| 3:01 | 2.815:1 | 0.12 |
| Recommended engine | CUMMINS N-885-M;CAT.3306B SCAC.;DAF DKVD1160M;DETROIT 6V-92TA YANMAR 6HA(M)-HTE | |
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| Applicable Industries: | Marine Engine |
|---|---|
| Output Speed: | 2000rpm |
| Gearing Arrangement: | Bevel / Miter |
| Input Speed: | 750rpm |
| Net Weight: | 230kg – 232kg |
| Product Name: | Fada J40/40 53kw-61kw Used China Marine Gearbox |
| Customization: |
Available
| Customized Request |
|---|
Role of Miter Gearboxes in the Automotive Manufacturing Process
Miter gearboxes play a significant role in the automotive manufacturing process, contributing to various aspects of vehicle production. One of their primary functions is in the assembly and adjustment of automotive components that require precise angle changes.
Automotive manufacturing involves the production of parts and assemblies with specific angles and orientations. Miter gearboxes are used in assembly line machinery to accurately position components such as axles, suspension systems, steering columns, and drivetrain elements. By allowing controlled and precise angular adjustments, miter gearboxes ensure that these components are aligned correctly and securely fitted together.
Furthermore, miter gearboxes find application in robotic systems used for tasks like welding, painting, and material handling in automotive manufacturing. They enable robots to manipulate tools and parts at precise angles, contributing to the accuracy and quality of manufacturing processes.
In summary, miter gearboxes contribute to the efficiency, accuracy, and quality of various processes within the automotive manufacturing industry, helping to produce vehicles that meet stringent quality standards and performance requirements.
Limitations of Torque and Speed in Miter Gearboxes
Miter gearboxes, like any mechanical component, have certain limitations when it comes to handling torque and speed. These limitations are influenced by factors such as design, materials, and manufacturing processes:
- Torque Capacity: The maximum torque that a miter gearbox can handle is determined by the size and strength of the gears, shafts, and housing. Exceeding the rated torque can lead to gear tooth wear, tooth breakage, and even gearbox failure.
- Speed Limitations: The rotational speed of a miter gearbox is limited by factors like the diameter of the gears and the quality of the gear teeth. High speeds can generate heat and cause excessive wear, reducing the lifespan of the gearbox.
- Heat Generation: Excessive torque or speed can lead to increased heat generation due to friction and load. Elevated temperatures can affect the lubrication, material strength, and overall performance of the gearbox.
- Lubrication: Inadequate or improper lubrication can limit the torque and speed capabilities of a miter gearbox. Lubrication helps reduce friction and dissipate heat, enabling the gearbox to handle higher loads and speeds.
- Material Strength: The choice of materials used in the gearbox’s construction influences its torque and speed limitations. High-quality materials with appropriate hardness and tensile strength are essential for withstanding heavy loads and high speeds.
It’s important to carefully consider the specific torque and speed requirements of an application when selecting a miter gearbox. Exceeding the gearbox’s rated limits can result in decreased performance, increased wear and tear, and potential system failures.
Types of Miter Gearboxes and Their Differences
There are two main types of miter gearboxes: straight miter gearboxes and spiral miter gearboxes.
Straight Miter Gearboxes: In straight miter gearboxes, the bevel gears have teeth that are cut straight across the gear’s face. This design allows for efficient power transmission and is suitable for applications where precise motion redirection is required. However, straight miter gearboxes may produce more noise and vibration due to the nature of the gear tooth engagement.
Spiral Miter Gearboxes: Spiral miter gearboxes use bevel gears with spiral-cut teeth. The spiral angle of the teeth helps to reduce noise and vibration by providing smoother tooth engagement and gradual contact between the gear teeth. This design is especially beneficial for applications where quieter operation and improved durability are desired.
The choice between straight and spiral miter gearboxes depends on the specific requirements of the application, including the desired level of noise, vibration, and efficiency. Both types of miter gearboxes offer the same fundamental motion transmission principle, but the design differences impact their performance characteristics.
editor by CX 2024-03-28