Hunan Dinghan New Material Technology Co., LTD
| Delivery Time | (sample order) 7 days |
| Packaging Details | According to customers' requests |
| Payment Terms | T/T |
| Supply Ability | Negotiable |
| Product name | Robotic Joint Reduction Gear Transmission Component For Industrial Robots |
| Teeth profile | Gleason |
| Type | Robotic joint reduction gear |
| Category | A core transmission component |
| Features | High transmission precision; Large reduction ratio and high torque; Impact resistance and stability |
| Application | Industrial robots; Collaborative/humanoid robots |
| Brand Name | DINGSCO |
| Certification | ISO 9001 |
| Model Number | According to customers' requests |
| Place of Origin | Changsha, China |
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Product Specification
| Delivery Time | (sample order) 7 days | Packaging Details | According to customers' requests |
| Payment Terms | T/T | Supply Ability | Negotiable |
| Product name | Robotic Joint Reduction Gear Transmission Component For Industrial Robots | Teeth profile | Gleason |
| Type | Robotic joint reduction gear | Category | A core transmission component |
| Features | High transmission precision; Large reduction ratio and high torque; Impact resistance and stability | Application | Industrial robots; Collaborative/humanoid robots |
| Brand Name | DINGSCO | Certification | ISO 9001 |
| Model Number | According to customers' requests | Place of Origin | Changsha, China |
| High Light | Industrial Reducer Gear ,Reducer Gear ,Bevel Gear | ||
Robotic Joint Reduction Gear Transmission Component For Industrial Robots
Robotic Joint Reduction Gear (a core transmission component of the precision hypoid gear category), which acts as a key part of a robotic joint reducer. It can be elaborated from the following aspects:
1. Core Roles and Value
It undertakes the critical tasks of "speed reduction with torque amplification + enhancing motion precision":
▶In terms of precision: Via precise tooth profile meshing, it drastically reduces transmission errors, enabling the robotic repetitive positioning accuracy to be controlled at an extremely high level, allowing robots to accurately perform micron-level operations like welding and assembly.
▶In terms of torque: It can amplify the output torque of a servo motor several times or even a thousandfold, enabling a lightweight motor to also drive a heavy-load robotic arm; meanwhile, it reduces low-frequency vibration and wear of the motor, extending the service life of the joint system.
2. Performance Characteristics
▶High transmission precision: The gear adopts a precision helical tooth profile design and meshes smoothly, achieving low backlash or even zero backlash, which ensures the repetitive positioning accuracy of robotic movements and is suitable for precision operation scenarios such as semiconductor production and optical instrument manipulation.
▶Large reduction ratio and high torque: Through complex gear train meshing, a high reduction ratio can be realized; meanwhile, it has high rigid load-bearing capacity and can transmit large torque, meeting the requirements of heavy-load joints of industrial robots or power joints of humanoid robots.
▶Impact resistance and stability: The gear structure can resist the inertial impact during robotic arm movements, significantly improving path tracking stability, and is suitable for industrial scenarios with frequent start-stop operations and heavy loads.
3. Application Scenarios
This type of reduction gear is widely used in the joints of different types of robots:
▶Industrial robots: High-rigidity reduction gears are commonly used in heavy-load bases and large arm joints, relying on high torque and impact resistance to support high-frequency welding and handling tasks; high-precision types are commonly used in end wrist joints to meet the needs of 360° flexible rotation and precision assembly.
▶Collaborative/humanoid robots: Joints of collaborative robots require "human-robot integration", and such gears can achieve a torque density of 30 Nm/cm³ with noise levels lower than 45 dB through "compact volume + low noise + high precision"; joints of humanoid robots rely on the innovative gear structure of "high reduction ratio + lightweight" to meet the balance between joint power and flexibility.
4. Technological Development Trends
Currently, this type of reduction gear is evolving towards "more compact, smarter, and higher performance":
▶Structural innovation: For instance, the composite structure of "double-sided ring gear eccentric transmission + multi-stage reduction" can reduce the number of parts while increasing the reduction ratio by 300%, and also improve impact resistance and service life.
▶Process and material upgrading: Technologies such as CNC grinding, carburizing, and quenching are adopted to enhance tooth surface precision and hardness; new materials like carbon fiber and low-friction alloys are explored to promote the development of gears towards "miniaturization, long service life, and low energy consumption".
▶Intelligent integration: Some gears integrate torque sensors and vibration monitoring modules, which can provide early warnings of wear failures and realize adaptive adjustment of working conditions, helping the robotic joint system to upgrade to "intelligent operation and maintenance".
In summary, it is the core hub for the "precise, powerful, and stable movement" of robotic joints, and its technological evolution directly drives performance breakthroughs of robots in industrial, collaborative, humanoid, and other fields.
Robotic Joint Reduction Gear: Performance & Application Overview
| Category | Details | Target Scenarios |
|---|---|---|
| Core Role | Reduce motor speed, amplify torque, and enhance motion precision/stability. | All robotic joints requiring precise, powerful movement. |
| Transmission Precision | Achieve low/zero backlash via precision tooth profiles. | Micron-level tasks: semiconductor manufacturing, optical instrument alignment. |
| Reduction Ratio & Torque | High reduction ratio + large torque. | Industrial robot bases/arms; collaborative robot wrists. |
| Materials & Processes | Materials: Alloy steel, carbon fiber; Processes: CNC grinding, heat treatment. | Boost wear resistance, precision, and service life. |
| Technological Trends | Compact integration, smart monitoring, new materials. | Enable intelligent maintenance, miniaturization, and higher efficiency. |
| Precision Benchmark | Repetitive positioning accuracy: Down to arcsecond level. | Ultra-precise tasks: semiconductor chip handling, optical alignment. |
| Service Life | Exceeds 1 million cycles. | High-duty-cycle robots: 24/7 industrial operations. |
| Noise Performance | Below 45 dB. | Noise-sensitive environments: hospitals, service robotics. |
DINGSCO Precision Gear Solutions — Pioneering Force in Equipment Transmission
Core Advantages: Cutting-Edge Equipment × Digitalized Processes × Full-Cycle Services
As a leading precision gear manufacturer, DINGSCO specializes in customized production of micro high-precision spiral bevel gears and hypoid gears through our multiple CNC seven-axis five-linkage spiral bevel gear grinding/milling machines and Gleason spiral bevel cutter technology. With DIN 6 precision class (tooth profile error ≤ ±5μm), 95%+ transmission efficiency, and ultra-high reduction ratios, we deliver reliable transmission solutions for robotics, motor drives, new energy vehicles, and more.
Why Choose DINGSCO?
✅ High Precision: Achieving DIN 6 grade accuracy, leading the industry in controlling tooth profile errors.
✅ High Efficiency: With a single - stage reduction ratio of up to 300:1, and a transmission efficiency of over 95%.
✅ Durability: 40% lower lifecycle cost, <0.5% failure rate.
✅ Fast response: The digital process can shorten the delivery cycle to 20 working days.
Contact Us Soon for gear optimization proposals and 3D meshing simulations!
Company Details
Business Type:
Manufacturer,Exporter,Seller
Year Established:
1994
Total Annual:
70 million-100 million
Employee Number:
50~60
Ecer Certification:
Verified Supplier
Our company was formerly known as Changsha Double Star Gear Industrial Co., Ltd, which was established in 1994. It is a directly affiliated university-run enterprise founded by Central South University Professor Zeng Tao, the leading expert on spiral bevel gears in China. It was later renamed as Cha... Our company was formerly known as Changsha Double Star Gear Industrial Co., Ltd, which was established in 1994. It is a directly affiliated university-run enterprise founded by Central South University Professor Zeng Tao, the leading expert on spiral bevel gears in China. It was later renamed as Cha...
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