SU436984A1 - Powder feeder - Google Patents

Description

one

Vibrating feeders for feeding powder, designed for uniform feeding of the powder material of a multicomponent composition, mainly to the plasma torch.

However, with their help it is impossible to prevent the inclusion of a multicomponent mixture of powders into the plasma torch. As a result of the vibration, the mixture of powdered materials poured into the bunker is distributed so that small particles accumulate in the lower part of the bunker, and the larger ones from above. This leads to a variation in the electrophysical parameters of the films in different batches. Similarly, in the lower parts of the bunker, particles of a material with a higher specific gravity accumulate, and particles of a material with a lower specific gravity remain on the surface. This leads to a violation of the percentage content of the components of the sprayed material and, consequently, to the deterioration of the electrophysical properties of the sprayed films. In addition, in the known devices, the place of entry of the screw into the hopper is not filled up from the powder from the bunker, as a result of which the uniformity of the powder supply to the plasma torch is disturbed.

In the proposed feeder, in order to improve the quality of the multicomponent mixture of powdered material and improve the uniformity of supply, the bunker is equipped with a separate rotation drive and installed in the bearing supports on one side with a sleeve rigidly fastened to it, on the other

using a protective chamber installed at the point of entry of the auger into the bunker and rigidly fastened to the bunker. The axis of rotation of the hopper is aligned with the axis of rotation of the auger. The inert gas feed channel passes inside the auger.

In addition, to prevent powder B from clogging, the gap between the auger and the hopper at the point of the auger entry into the hopper is provided with a protective chamber, forming a gap with the auger. Inert gas feed channel passing

inside the screw, put into the chamber.

The drawing shows the proposed powder feeder.

The feeder consists of a hopper 1, a screw 2 with a multiple thread, inside of which there is a channel 3 and diametrical holes 4 for supplying gas to the hopper. The hopper 1 is rigidly fastened to the camera 5 and the sleeve 6. The sleeve 6 rotates in the bearing assembly 7. The camera 5 is rigidly connected to the pulley 8, which is mounted in the bearing assembly 9. The pulley is connected by a belt 10 to the motor 11.

The screw 2 is installed in the bearing unit 12. At the end of the screw there is a pulley 13 connected by a driving belt 14 to a motor

15. Bearing units 7, 9 and 12 install