Om oss
A Legacy of Mechanical Precision and Engineering Mastery
Our journey began with a singular focus on the high-precision mechanical transmission industry. Over the decades, we have evolved into a global powerhouse, recognized as a professional factory for the modern precision gear motor. Founded on the principles of technical innovation and uncompromising quality, our organization has established a leading position in the power transmission sector. We specialize in the development of low-backlash planetary gearboxes, bevel gearboxes, and integrated drive solutions that empower Industry 4.0.
By maintaining high-quality standards and a strong focus on customer satisfaction, we have expanded our reach to over 30 countries. Our R&D engineers do more than just design components; they provide comprehensive schemes of precision planetary gear systems, often traveling directly to client sites to discuss and determine the best possible engineering solutions.
Premium Materials: The Foundation of Durability
The longevity of a precision gear motor is determined by its internal material composition. In our professional factory, we select only the highest quality raw materials. Our planetary gears are forged from 40Cr alloy steel, followed by rigorous heat treatment and precision grinding. For the housing, we offer stainless steel options in our AT series for anti-corrosion needs, or black-painted carbon steel for standard industrial use. We utilize tapered roller bearings and double-support deep groove ball bearings to manage high axial and radial forces. Furthermore, all our units are pre-filled with high-performance synthetic grease, which is engineered to last the entire 20,000-hour service life of the precision gear motor. This ensures that the system is maintenance-free, environmentally friendly by reducing lubricant consumption, and highly reliable for critical applications.
Recommended motor locking torque table
| Skruvstorlek | Sex hörn huvudstorlek | Hållfasthetsklass 8.8 | Hållfasthetsklass 10.9 | Hållfasthetsklass 12.9 | |||
|---|---|---|---|---|---|---|---|
| [mm] | [Nm] | [I-lbs] | [Nm] | [I-lbs] | [Nm] | [I-lbs] | |
| M3 x 0,5P | 2.5 | 1.3 | 12 | 1.8 | 16 | 2.1 | 19 |
| M4 x 0,7P | 3 | 3 | 27 | 4.1 | 37 | 4.9 | 44 |
| M5 x 0,8P | 4 | 6.1 | 55 | 8.2 | 73 | 9.8 | 87 |
| M6 x 1P | 5 | 11 | 98 | 14 | 124 | 17 | 151 |
| M8 x 1,25P | 6 | 25 | 222 | 34 | 302 | 41 | 364 |
| M10 x 1,5P | 8 | 49 | 434 | 67 | 594 | 80 | 709 |
| M12 x 1,75P | 10 | 85 | 753 | 116 | 1028 | 139 | 1232 |
| M14 x 2P | 12 | 137 | 1214 | 186 | 1648 | 223 | 1976 |
| M16 x 2P | 14 | 210 | 1860 | 286 | 2534 | 343 | 3038 |
Precision Gear Motor VS Cycloidal Drive
Cycloidal drives are a compact, high-ratio gearing technology based on an eccentrically mounted circular disk (the cycloidal disc) that rolls inside a ring of pins, achieving gear ratios from 6:1 to 200:1 in a single stage with very low backlash and high shock-load resistance. The cycloidal drive is widely used in the wrist and elbow joints of large industrial robots and in the rotary axes of large machine tools where its high shock resistance is particularly valued. Compared with the precision gear motor planetary gearbox, the cycloidal drive typically achieves slightly lower backlash — in the range of one to three arcminutes — and handles higher shock loads, but has lower efficiency (typically eighty-five to ninety-three percent versus ninety-seven percent for the precision gear motor single stage), generates more heat per unit of output power, and is more expensive to manufacture. For applications where shock load resistance is the primary concern, the cycloidal drive may be the better choice, but for the majority of servo-motion applications where efficiency, cost, and delivery time are important, the precision gear motor provides a better overall value proposition.
About Our Factory’s Mission
Our organization is more than just a manufacturer; we are a dedicated partner in your engineering success. As an industry-leading professional factory, we focus on the intersection of AI, Industry 4.0, and Intelligent Manufacturing.
Our mission is to produce the world’s most reliable precision gear motor series, backed by a technical advisory team that offers years of application experience. From our international headquarters, we manage a global supply chain that emphasizes short delivery times and unparalleled technical support. We understand that every arcmin of backlash and every Nm of torque matters in your design. That is why we invest heavily in R&D and quality management systems, ensuring that every precision gear motor leaving our floor is a benchmark of reliability.
Precision Gear Motor: Frequently Asked Expert Questions
Q1. What is a precisionsväxelmotor and why is it essential for modern high-precision robotic automation systems?
A1. A precisionsväxelmotor is an integrated motion control unit that provides high torque output with extremely low backlash. It is essential for robotics because it allows for micro-positioning accuracy, ensuring that automated movements are smooth, repetitive, and efficient under high dynamic loads.
Q2. How does the precisionsväxelmotor professional factory manage quality control for high-speed industrial motor drives?
A2. Our professional factory utilizes cutting-edge gear inspection centers and vibration analysis tools. Every precisionsväxelmotor is tested for axial force resistance, radial load capacity, and noise levels to ensure it meets our strict internal standards before shipment.
Q3. What are the advantages of using a precisionsväxelmotor with a right-angle design in limited spaces?
A3. A right-angle precisionsväxelmotor (like the ABR or ADR series) allows for a compact footprint by mounting the motor perpendicular to the output shaft. This is highly advantageous in conveyor systems and robotics where cabinet or installation space is extremely constrained.
Q4. What is the expected precisionsväxelmotor service life when operating 24/7 in an automated packaging facility?
A4. Our precisionsväxelmotor series is designed for a nominal service life of over 20,000 hours. When used in a standard packaging environment with correct inertia matching, the system remains maintenance-free, thanks to our high-grade synthetic grease lubrication system.
Q5. How does a precisionsväxelmotor manual define the importance of backlash in high-speed medical diagnostic equipment?
A5. In our precisionsväxelmotor manual, backlash is highlighted as the critical factor for jitter-free imaging. By reducing this deviation to under 3 arcmin, we ensure that MRI tables and scanners move with the absolute smoothness required for high-resolution medical data capture.
Q6. Why should I choose a precisionsväxelmotor with a stainless steel housing for food processing applications?
A6. Selecting a precisionsväxelmotor with stainless steel housing (like our AT series) is vital for food processing because it offers superior anti-corrosion protection against frequent wash-downs. Our IP65/IP67 rated units prevent moisture ingress, ensuring long-term hygiene and mechanical reliability.
Q7. Where can I find a precisionsväxelmotor with a 100:1 ratio for low-speed high-torque actuators?
A7. Our double-stage precisionsväxelmotor series (L2) offers standard ratios up to 100:1, while our triple and quadruple stage configurations can reach ratios as high as 10,000:1 for specialized torque applications requiring extreme reduction and control.
