The design of the high-precision micro cycloidal gearbox is based on a new reduction principle and a newly developed radial-axial output bearing, representing a new generation of power transmission systems. The newly developed transmission technology, combined with revolutionary innovations in structure, not only reduces the difficulty of manufacturing and assembly but also enables the design of ultra-high speed ratio transmission. Therefore, it can replace RV gearboxes and harmonic gearboxes directly in applications such as robot joints, rotating worktables, and various transportation systems....
In recent years, with the advent of the industry 4.0 trend, the wave of intelligent manufacturing has directly facilitated the upgrading of the manufacturing industry. In discrete manufacturing sectors such as semiconductors, automotive manufacturing, 3C electronics, and the mobile phone industry chain, enterprises aim to achieve value growth by enhancing production efficiency and product effectiveness through the development of intelligent manufacturing. Naturally, automation equipment plays a crucial role in this process, and as a mechanical transmission device, the right-angle planetary gearbox plays a key role in industrial production....
The precision cycloidal gearbox series, which has achieved remarkable success in the robotics industry, has been further upgraded! Building upon the WF series, the WR series is born with a design concept focused on compactness and lightweight, offering a wider range of application scenarios and powerful functionality. In this edition, we will introduce the features and application scenarios of the WR series....
Discover the crucial role of gearboxes in machinery, bridging power sources and actuators. Precision gearboxes, like harmonic and RV gearboxes, ensure accurate speed matching and torque transmission. While RV gearboxes excel in heavy-load applications, harmonic gearboxes offer compactness and high precision. These gearboxes find applications in diverse industries, from automotive and transportation to 3C and medical equipment. Explore their technical characteristics, product performance, and ideal use cases in this informative comparison....
Controlling gearbox noise is a comprehensive engineering process that involves the design, manufacturing, installation, usage, maintenance, and even upgrading of the transmission system (gears, housing, connecting components, bearings, etc.). It imposes various requirements not only on designers and manufacturers but also on installers and maintenance personnel. If any of these aspects are not effectively controlled, the control of gearbox noise will be compromised....
This article discusses various measures to reduce vibration and noise in gearboxes during installation. It emphasizes the importance of avoiding resonance and implementing vibration damping and blocking measures between the gearbox body, support base, and connecting parts. The adjustment of component geometric precision is highlighted as a crucial factor in preventing resonance and noise. Loose components and damage to transmission components during installation are also addressed, emphasizing the need for stable connections, multiple connection methods, and careful handling to maintain a stable noise level in the system....
This article discusses the factors that influence noise levels in planetary gearboxes, such as gear errors, assembly concentricity, gear surface hardness, and verification of system specifications. It highlights the impact of gear form errors and tooth alignment errors on noise levels and efficiency. The importance of precision machining and hardening of gear surfaces is emphasized to reduce noise. Additionally, the significance of concentric assembly and dynamic balancing in minimizing noise and maintaining transmission accuracy is highlighted. The article concludes by emphasizing the need to verify system specifications to control noise levels in gearboxes....
When it comes to hollow servo motors, it may be difficult for non-professionals to accurately understand what this device is, its purpose, and how it is used. However, given the wide range of applications for hollow servo motors, it is necessary to understand their characteristics and advantages, and compare them to the commonly seen stepper motors, in order to provide you with a more intuitive and vivid understanding of the advantages of hollow servo motors....
Design factors and countermeasures for reducing transmission noise in gearboxes are discussed in this summary. It highlights the importance of gear precision grade, gear width, gear pitch, pressure angle, gear profile modification coefficient, and tooth profile modification in minimizing noise and improving gear performance. These design considerations aim to reduce transmission errors, enhance load-carrying capacity, improve accuracy, and prolong gear service life. By implementing these measures, gearbox designers can effectively control backlash, temperature rise, and noise to optimize gear transmission performance....
With the continuous development of technology, the application of high precision gearboxes in industrial production is becoming increasingly widespread. A high precision gearbox is a device that reduces the output speed of an electric motor while increasing the output torque. It is characterized by compact structure, high transmission efficiency, and smooth operation, making it widely used in mechanical equipment. However, when using high precision gearboxes, we need to pay attention to the following points....
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