Under what circumstances would BLEY2215-391-1.1KW cycloidal pinwheel reducer be chosen

The selection of BLEY2215-391-1.1kW cycloidal pinwheel reducer is based on its characteristics of large reduction ratio, small volume, high torque, and low speed, which are highly matched with the requirements of low-speed heavy load, limited installation space, and high operational stability. The specific applicable scenarios and selection criteria are as follows:

1. Small and medium-sized equipment that requires a large reduction ratio and low-speed output

This model has a reduction ratio of up to 391 and is compatible with a 1.1kW 4-pole motor (input speed 1450r/min), with an output speed of only about 3.7r/min, making it a typical configuration for extremely low-speed and high torque transmission.

Suitable for small lifting winches, low-speed belt conveyors, silo gate opening and closing mechanisms, small mixers and other equipment, such as small electric hoists for workshop mold transfer, low-speed mixing kettles for chemical additives, and silo discharge gate drives for grain storage. This type of equipment does not require high-speed operation and requires a low-power motor to achieve high torque output. The large reduction ratio of 391 can directly meet the torque amplification requirements without the need for additional multi-stage transmission structures.

2. Compact equipment layout with narrow installation space

BLEY2215 belongs to the horizontal cycloidal pinwheel reducer, which has a compact structure, small volume, and light weight (the whole machine includes a motor of about 50-60kg), and adopts an integrated frame design, without the need for additional installation of a base.

Suitable for end effectors of automated production lines, built-in transmission systems of small equipment, and equipment in small spaces such as underground/cabinet bodies, such as feeding mechanisms of electronic component plug-in machines, transmission systems of sludge presses for small environmental protection equipment, and small material transfer equipment in underground mines. This type of scenario cannot accommodate larger gear reducers, and the compactness advantage of cycloidal pinwheel reducers is particularly prominent.

3. Intermittent working conditions with short-term impact loads

The multi tooth meshing structure of the cycloidal pinwheel reducer (with more than 50% of the teeth participating in meshing at the same time) has much better impact resistance than ordinary gear reducers. With a power of 1.1 kW and a reduction ratio of 391, the rated output torque can reach 800~1000 N · m, which can cope with short-term impacts of 1.5 times the rated torque.

Suitable for equipment with intermittent start stop, such as the lifting drive of small elevators (with load impact during start stop), the film feeding/cutting mechanism of packaging machinery (intermittent action), and the demolding drive of small block forming machines in the building materials industry. Under such working conditions, ordinary reducers are prone to gear tooth breakage due to impact, while the multi tooth meshing structure of cycloidal pinwheel reducers can disperse the impact load and extend the service life.