Quasi-Hypoid Gear Spiral Tooth Meshing For Robotic Joint reducer
This quasi - hypoid gear pair is a core component of robotic joint reducers, and can be introduced from the following aspects:
1. Structural & Transmission Logic
It consists of a small quasi - hypoid gear (with an ultra - long shaft) and a large quasi - hypoid gear. The two shafts are orthogonally staggered (perpendicular and offset), and power transmission is achieved through spiral tooth meshing. It can efficiently complete "speed reduction with torque increase + directional transmission" — converting the "high - speed, low - torque" of the motor into "low - speed, high - torque" at the joint while changing the rotation direction.
2. Core Performance Advantages
▶High Transmission Efficiency: With a transmission efficiency of over 95%, it is significantly more efficient than worm gear transmission, reducing energy consumption for robotic operations.
▶Strong Load - Bearing Capacity: The spiral teeth achieve continuous meshing with a high contact ratio, increasing the tooth surface contact area and enabling it to bear large torques, which meets the heavy - load motion needs of robots.
▶Low Noise & High Precision: The arc - tooth structure reduces noise by about 20 dB. Combined with precision grinding processes, it can ensure micron - level transmission accuracy, laying a foundation for the robot's precise positioning.
3. Application in Robotic Joints
It is widely used in robotic joints, especially in:
▶Humanoid/Collaborative Robots: In compact joints such as wrists and elbows, its "compact structure + high torque" characteristic helps reduce the joint volume while ensuring power output.
▶Industrial Robots: In heavy - duty joints, its high efficiency and load - bearing capacity support long - term continuous operation.
| Dimension |
Structure and Form |
Performance |
| Overall Composition |
Small hypoid gear (with ultra-long shaft) + large hypoid gear, orthogonally staggered shaft layout |
Transmission efficiency >95%; High-contact-ratio spiral teeth for strong load capacity; Spiral teeth + grinding reduce noise and ensure micron-level precision |
| Core Transmission Logic |
Power transmission via spiral tooth meshing, achieving "speed reduction with torque increase + direction change" |
Efficiently convert motor's "high-speed, low-torque" to joint's "low-speed, high-torque" while changing rotation direction |
| Details of Performance Advantages |
Continuous meshing of spiral teeth, orthogonally staggered shaft design |
Efficiency superior to worm gear transmission; Large tooth surface contact area; Grinding ensures micron-level precision, and spiral teeth reduce noise by ~20 dB |
| Scenario Adaptation Logic |
Compact structure + high torque density |
Output large torque in a small space, balancing flexibility and power |
| Role in Industrial Development |
Breakthrough in domestic precision gear technology |
Performance matches international brands, achieving technical replacement |
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!
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