What are the advantages of cycloid reducer

The entire transmission device of the cycloid reducer can be divided into three parts: the input part of the reducer, the deceleration part of the reducer, and the output part of the reducer.
The cycloidal pinwheel reducer is equipped with a double eccentric sleeve that is misaligned by 180° on the input shaft, and two roller bearings called rotating arms are installed on the eccentric sleeve, forming the H mechanism and the two cycloids of the cycloidal pinwheel reducer. The center hole of the wheel is the raceway of the arm bearing on the eccentric sleeve, and the cycloidal wheel meshes with a group of annularly arranged needle teeth on the needle gear to form an internal meshing deceleration machine with a tooth difference of one tooth (for the purpose of Reduce friction, in a reducer with a small speed ratio, there is a pin tooth sleeve on the pin tooth).
  When the input shaft of the cycloid reducer rotates with eccentricity for one week, due to the characteristics of the tooth profile curve on the cycloid of the reducer and the needle teeth on the receiving gear, the movement of the cycloid becomes both revolution and rotation. When the input shaft of the reducer rotates for one round, the eccentric sleeve also rotates for one round, and the cycloidal wheel of the reducer rotates one tooth in the opposite direction to obtain deceleration. Then, with the help of the W output machine, the cycloid wheel of the reducer will be decelerated. The low-speed self-rotation motion is transmitted to the output shaft through the pin shaft, so as to obtain a lower output speed.

Design standard and manufacturing standard of cycloid reducer
1. Design standard of cycloid reducer
(1) Heavy machinery standards
(2) Current standards and norms issued by the state and relevant departments

2. Manufacturing standard of cycloid reducer
(1) General technical requirements for product inspection JB/ZQ4000.1-86
(2) The general technical conditions of processed parts are in accordance with JB/T5000.9-98
(3) The general technical requirements for welding parts are in accordance with JB/T5000.3-98
(4) Flame cutting parts according to general technical requirements JB/ZQ4000.4-86
(5)铸件按〈重型机械通用技术条件-铸铁件-铸钢件-有色金属铸件〉JB/T5000.4-6-1998执行。铸钢件按JB/T5000.14-98中相应条款进行超声波探伤,质量等级Ⅱ级
(6)锻件通用技术条件按JB/T5000.8-98执行按Ⅴ组锻件要求进行化学成分和机械性能测定。并按JB/T5000.15-98进行超声波探伤,锻件质量等级Ⅱ级。
(7)所有机上配管应遵照〈冶金机械设备安装工程施工及验收规范-液压、气动和润滑〉YB207-88标准和〈冶金机械设备安装工程质量评定标准-液压、气动和润滑〉YB9246-92标准。
(8) General technical requirements for assembly JB/ZQ4000.9-86
(9) Coating technical conditions shall be implemented according to JB/T5000.12-98
(10) Accuracy of involute cylindrical gears according to GB10095-1998
(11) Packaging technical conditions shall be implemented in accordance with JB/T5000.13-98
(12) Anti-rust packaging GB4879-85
(13) Dangerous Goods Packaging Mark GB190-85
(14) Graphical mark GB191-85 for packaging, storage and transportation
(15) Minimum internal size of general container GB1834-80
(16)行星摆线针轮减速机预组装应遵照〈冶金机械设备安装工程施工及验收规范-轧钢设备〉YB9249-93标准和〈冶金机械设备安装工程质量评定标准-轧钢设备〉YB9245-92标准。各运转件应转动两货,不得有卡阻和异常噪音。
(17) The standards not specified in the above 1-16 shall be manufactured according to the technical requirements and documents of the equipment drawings.