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The advantages of inner gears include:
1. Compact Design: Internal gears have a more compact design compared to external gears, as the teeth are located on the inside surface. This allows for more efficient use of available space in mechanical systems. The compact design is particularly beneficial in applications where space is limited, such as in compact gearboxes or small machinery.
2. Increased Load Capacity: Internal gears have a larger contact ratio compared to external gears. This means that a greater number of teeth are engaged at any given time, resulting in a higher load-carrying capacity. The increased load capacity makes internal gears suitable for applications that require the transmission of high torque and heavy loads.
3. Smooth and Quiet Operation: The larger contact ratio of internal gears also contributes to smoother and quieter operation. The increased number of teeth engaged at any given time helps to distribute the load more evenly, reducing noise and vibration. This is advantageous in applications where noise reduction is important, such as in precision instruments or noise-sensitive environments.
4. Smooth and Quiet Operation: The larger contact ratio of internal gears also contributes to smoother and quieter operation. The increased number of teeth engaged at any given time helps to distribute the load more evenly, reducing noise and vibration. This is advantageous in applications where noise reduction is important, such as in precision instruments or noise-sensitive environments.
5. Wide range of sizes and materials: Inner gears are available in a wide range of sizes, materials, and designs to accommodate different applications and requirements.
6. Versatility: Inner gears can be used in a variety of applications, including automotive, industrial, and agricultural machinery.
Overall, inner gears offer a compact design, high torque capacity, precise timing, and smooth operation, making them a reliable and versatile solution for power transmission systems. They are available in a wide range of sizes and materials, and can be used in a variety of applications, ensuring a long service life and low operating costs.
Technical Parameters
| Technical Parameter | Value |
| Module | 2 mm |
| Pressure Angle | 20 degrees |
| Number of Teeth | 24 |
| Pitch Diameter | 48 mm |
| Face Width | 25 mm |
| Addendum | 2 mm |
| Dedendum | 3 mm |
| Clearance | 1 mm |
| Material | Brass |
| Heat Treatment | Annealing |
Product Usage
Inner gears are commonly used in power transmission systems to transmit power and motion between the drive and driven shafts. They are typically used in industrial equipment, automotive systems, and other machinery. Some common applications of inner gears include:
1. Gearboxes: Inner gears are used in gearboxes to transmit power and motion between the input and output shafts.
2. Automotive systems: Inner gears are used in automotive systems such as transmissions and differentials to transmit power and motion between the engine and wheels.
3. Industrial equipment: Inner gears are used in industrial equipment such as pumps, compressors, and generators to transmit power and motion.
4. Robotics: Inner gears are used in robotics to transmit power and motion between the motor and the mechanical components.
5. Printing machinery: Inner gears are used in printing machinery to transmit power and motion between the motor and the printing components.
Overall, inner gears are a versatile and reliable solution for power transmission systems, and can be used in a wide range of applications to transmit power and motion between the drive and driven shafts.
Product Operation Guide
Here are some product operation guidelines for internal gears:
Careful inspection before installation: Before installing the inner gear, you should carefully check its surface for scratches, deformation and other defects to ensure that the internal gear meets the requirements.
Clean and lubricated: In the installation and operation of the inner gear, its surface should be kept clean and lubricated so that the internal gear can work normally.
Correct installation: The internal gear needs to be assembled in the correct installation order to ensure that the design of parameters such as top clearance meets the requirements, and the internal structure is reliable, such as trim, bevel gear, etc.
Avoid overload: In the work of the internal gear, overload and overload should be avoided, otherwise it may cause problems such as wear and damage of the internal gear.
Regular inspection and maintenance: In the work of the internal gear, it is necessary to regularly check, adjust, clean and lubricate it and other maintenance work to ensure its normal operation.
Ensure that the matching is normal: the matching clearance, structural performance, forward transmission or reversal of the gear mechanism need to ensure that the matching is normal, otherwise it may lead to the failure of the internal gear.
In short, in the actual operation and use of internal gear products, it is necessary to take corresponding methods and operations according to specific requirements and uses to ensure the normal operation and use effect of internal gears. Similarly, for different models and different uses of internal gear products, the operation and use guidelines are also different, so it is very important to carry out correct operation and use under the guidance of specific usage scenarios and product manufacturers. At the same time, regular inspection and maintenance are required to extend the service life of the internal gear.
Product Video
FAQ
The internal gear is an important component in mechanical transmission that transmits power and turns. However, in the process of use, some problems may occur, the following list of frequently asked questions and answers:
1. Tooth surface wear: When the internal gear is running for a long time, the friction between the tooth surfaces will cause the tooth surface to wear, making it noise increase and reduce power. Solution: replace the gear with new gears, clean and lubricate the tooth surface, use more wear-resistant materials, etc.
2. Tooth surface damage: The internal gear may suffer overload damage during use, such as tooth surface falling off, cracking, tooth surface depression, etc. Solution: replace the new gear, strengthen the design and structure of the gear, avoid overload, etc.
3. Abnormal flutter: If the internal gear is fluttered, it may affect the stability and operating accuracy of the gear. Solution: Enhance the structure and support of gears, adjust gear combinations, balance the load between gears, etc. All in all, in actual use, there may also be some problems with the internal gear, and only after understanding the cause of the problem can the corresponding solution be implemented to ensure its smooth work. Therefore, in addition to carrying out maintenance and maintenance in advance, close monitoring and timely repair should also be carried out.
The advantages of inner gears include:
1. Compact Design: Internal gears have a more compact design compared to external gears, as the teeth are located on the inside surface. This allows for more efficient use of available space in mechanical systems. The compact design is particularly beneficial in applications where space is limited, such as in compact gearboxes or small machinery.
2. Increased Load Capacity: Internal gears have a larger contact ratio compared to external gears. This means that a greater number of teeth are engaged at any given time, resulting in a higher load-carrying capacity. The increased load capacity makes internal gears suitable for applications that require the transmission of high torque and heavy loads.
3. Smooth and Quiet Operation: The larger contact ratio of internal gears also contributes to smoother and quieter operation. The increased number of teeth engaged at any given time helps to distribute the load more evenly, reducing noise and vibration. This is advantageous in applications where noise reduction is important, such as in precision instruments or noise-sensitive environments.
4. Smooth and Quiet Operation: The larger contact ratio of internal gears also contributes to smoother and quieter operation. The increased number of teeth engaged at any given time helps to distribute the load more evenly, reducing noise and vibration. This is advantageous in applications where noise reduction is important, such as in precision instruments or noise-sensitive environments.
5. Wide range of sizes and materials: Inner gears are available in a wide range of sizes, materials, and designs to accommodate different applications and requirements.
6. Versatility: Inner gears can be used in a variety of applications, including automotive, industrial, and agricultural machinery.
Overall, inner gears offer a compact design, high torque capacity, precise timing, and smooth operation, making them a reliable and versatile solution for power transmission systems. They are available in a wide range of sizes and materials, and can be used in a variety of applications, ensuring a long service life and low operating costs.
Technical Parameters
| Technical Parameter | Value |
| Module | 2 mm |
| Pressure Angle | 20 degrees |
| Number of Teeth | 24 |
| Pitch Diameter | 48 mm |
| Face Width | 25 mm |
| Addendum | 2 mm |
| Dedendum | 3 mm |
| Clearance | 1 mm |
| Material | Brass |
| Heat Treatment | Annealing |
Product Usage
Inner gears are commonly used in power transmission systems to transmit power and motion between the drive and driven shafts. They are typically used in industrial equipment, automotive systems, and other machinery. Some common applications of inner gears include:
1. Gearboxes: Inner gears are used in gearboxes to transmit power and motion between the input and output shafts.
2. Automotive systems: Inner gears are used in automotive systems such as transmissions and differentials to transmit power and motion between the engine and wheels.
3. Industrial equipment: Inner gears are used in industrial equipment such as pumps, compressors, and generators to transmit power and motion.
4. Robotics: Inner gears are used in robotics to transmit power and motion between the motor and the mechanical components.
5. Printing machinery: Inner gears are used in printing machinery to transmit power and motion between the motor and the printing components.
Overall, inner gears are a versatile and reliable solution for power transmission systems, and can be used in a wide range of applications to transmit power and motion between the drive and driven shafts.
Product Operation Guide
Here are some product operation guidelines for internal gears:
Careful inspection before installation: Before installing the inner gear, you should carefully check its surface for scratches, deformation and other defects to ensure that the internal gear meets the requirements.
Clean and lubricated: In the installation and operation of the inner gear, its surface should be kept clean and lubricated so that the internal gear can work normally.
Correct installation: The internal gear needs to be assembled in the correct installation order to ensure that the design of parameters such as top clearance meets the requirements, and the internal structure is reliable, such as trim, bevel gear, etc.
Avoid overload: In the work of the internal gear, overload and overload should be avoided, otherwise it may cause problems such as wear and damage of the internal gear.
Regular inspection and maintenance: In the work of the internal gear, it is necessary to regularly check, adjust, clean and lubricate it and other maintenance work to ensure its normal operation.
Ensure that the matching is normal: the matching clearance, structural performance, forward transmission or reversal of the gear mechanism need to ensure that the matching is normal, otherwise it may lead to the failure of the internal gear.
In short, in the actual operation and use of internal gear products, it is necessary to take corresponding methods and operations according to specific requirements and uses to ensure the normal operation and use effect of internal gears. Similarly, for different models and different uses of internal gear products, the operation and use guidelines are also different, so it is very important to carry out correct operation and use under the guidance of specific usage scenarios and product manufacturers. At the same time, regular inspection and maintenance are required to extend the service life of the internal gear.
Product Video
FAQ
The internal gear is an important component in mechanical transmission that transmits power and turns. However, in the process of use, some problems may occur, the following list of frequently asked questions and answers:
1. Tooth surface wear: When the internal gear is running for a long time, the friction between the tooth surfaces will cause the tooth surface to wear, making it noise increase and reduce power. Solution: replace the gear with new gears, clean and lubricate the tooth surface, use more wear-resistant materials, etc.
2. Tooth surface damage: The internal gear may suffer overload damage during use, such as tooth surface falling off, cracking, tooth surface depression, etc. Solution: replace the new gear, strengthen the design and structure of the gear, avoid overload, etc.
3. Abnormal flutter: If the internal gear is fluttered, it may affect the stability and operating accuracy of the gear. Solution: Enhance the structure and support of gears, adjust gear combinations, balance the load between gears, etc. All in all, in actual use, there may also be some problems with the internal gear, and only after understanding the cause of the problem can the corresponding solution be implemented to ensure its smooth work. Therefore, in addition to carrying out maintenance and maintenance in advance, close monitoring and timely repair should also be carried out.
