TDR090 Series High Precision Planetary Gearbox Helical Gear Reducer

TDR090 Series High Precision Planetary Gearbox Helical Gear Reducer Overview

TDR090 Series High Precision Planetary Gearbox Helical Gear Reducer, also known as servo motor planetary gearbox and low backlash planetary gearbox, is a type of gearbox commonly used in industrial automation equipment. It is designed to provide high precision motion control and torque transmission while minimizing backlash. The gearbox features a compact design, high efficiency, and low noise.

High Precision Planetary Gearbox Basic Structure

High Precision Planetary Gearboxes consist of the following components:

1. Sun Gear: Located at the center of the planetary gearbox, the sun gear is usually connected to the input shaft or fixed to the housing as a stationary component.
2. Planet Gears: The planet gears rotate around the sun gear and are supported and kept in relative position to each other by the planet carrier. Each planet gear meshes with both the sun gear and the internal ring gear, and they collectively bear and distribute the load when power is input.
3. Planet Carrier: The planet carrier is a structure with multiple planet gear shaft holes that supports the planet gears and allows them to rotate relative to the sun gear. The planet carrier can serve as an output element or be connected to another shaft to transmit or receive torque.
4. Ring Gear/Annulus: The internal ring gear is a large diameter ring gear fixed inside the housing, with teeth on both its inner and outer surfaces that mesh with the planet gears. In some applications, the internal ring gear can also serve as an input or output terminal.
5. Bearings and Shaft System: Bearings in the high precision planetary gearbox support the input shaft, output shaft, and planet carrier, ensuring stable rotation and smooth operation between components.
6. Housing and Seals: The housing is the external frame of the entire gearbox, protecting internal components from external environmental influences and providing mounting interfaces. Seals prevent internal lubricants from leaking and prevent dust and water from entering the gearbox.

High Precision Planetary Gearbox Working Principle

The working principle of High Precision Planetary Gearbox is as follows:

1. Torque Transmission: When power is input to the sun gear, it drives the surrounding planet gears to rotate. Since the planet gears mesh with both the sun gear and the internal ring gear, they rotate on their own axis while revolving around the center of the sun gear with the planet carrier. In this way, the torque input to the sun gear is amplified and evenly distributed to the planet carrier at the output.
2. Speed Conversion and Torque Amplification: By adjusting the gear ratio of different components, speed conversion between input and output as well as torque amplification can be achieved. Generally, as the number of planet gears or gear ratios increases, the effect of torque amplification is more significant, but the output speed will be reduced accordingly.
3. Low Backlash Design: In high-precision applications, to ensure accurate position control and minimal mechanical clearance, high-precision planetary gearboxes use preloading technology to reduce or eliminate the clearance between gears, known as "zero/low backlash" design.
4. Load Distribution and Dynamic Response: An important advantage of the planetary gear mechanism is that it can evenly distribute the load among multiple planet gears, thereby improving the bearing capacity and stability of the entire system and optimizing dynamic response performance.

High Precision Planetary Gearbox Design and Selection Considerations

The design and selection considerations of high precision planetary gearbox include:

High Precision Planetary Gearbox Applications

The High Precision Planetary Gearbox is widely used in the following fields:

1. Servo Motor Systems: Used in industrial automation equipment for accurate speed control and position positioning, such as robot joint drives, precision machine tool feed mechanisms, semiconductor manufacturing equipment, etc.
2. Medical Equipment: Used for precise motion control and torque amplification in high-end medical equipment such as CT scanners, MRI machines, surgical robots, etc.
3. Aerospace: Used in aircraft landing gear systems, flight control system actuators, satellite attitude adjustment devices, etc. that require high reliability and precision.
4. Precision Instruments: Used in scientific experimental equipment, precision measuring instruments, optical tracking systems, etc. that require high transmission accuracy.
5. Automotive Manufacturing: Used in power steering systems for new energy vehicles, drive units for electric vehicles, and transmission systems for high-performance racing cars.
6. Robotics: Used in the joint drive part of industrial robots, service robots, and special operation robots.
7. Logistics Automation: Used in automatic storage systems such as lifters, conveyor drive units, AGVs (automated guided vehicles), etc.

About Our Company

We are a professional manufacturer of transmission equipment located in Ningbo, Zhejiang. Our company operates strictly according to the international quality management system standard ISO 9001:2015, and our products have passed the mandatory CCC certification in China and the CE certification of the European Union. Our products are produced according to international standards and reach the advanced level of similar products in the international market.

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• Strict quality control ensuring high quality products.
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Author: Miya