SU1406026A1 - Powder feeder - Google Patents

Abstract

The invention relates to devices for coating products by spraying metals and can be used for coating metal parts by plasma spraying. The purpose of the invention is to increase the reliability of operation by preventing the separation and segregation of the powder. To ensure the continuity of the powder supply and prevent its separation and segregating the bond of the powder

Description

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the inner surface of the hopper 1 is permanently disturbed by the booster rotating on the shaft 3, preventing the formation and clumping of the scraper. Moisture of the raw powder is impaired by the heating coil 9 of the hermetic bunker 1, and the smooth and vibration-free movement of a dry, well-flowing powder that is not associated with the walls of the bunker 1 is forced into the flow of transporting gas by means of gravity and working edges Archimedean spiral. 2 Il.

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The invention relates to methods and devices for coating articles by spraying metals and can be used for coating metal parts by plasma spraying.

The purpose of the invention is to increase the reliability of operation by preventing the separation and segregation of the powder.

Figure 1 shows a powder feeder, vertical section; figure 2 is a section aa in figure 1.

Placing vertical fingers and blades with working faces made in the shape of the Archimedean spiral on the expulsion stimulator, and fixed vertical fingers on the lid, in the powder feeder, prevent argling, clumping of dry, well-flowing powder and ensure its forced movement. Smooth, vibration-free movement of the powder prevents its separation and segregation.

The feeder consists of a sealed bunker 1 with a conical outlet part, a metering body in the form of an adjusting needle 2 with a central gas supply channel placed on the shaft 3 of the outflow actuator, containing a disk 4 with holes 5 and mounted on the disk with vertical fingers 6 and mounted under the disk blades 7, the working faces of which are made in the form of the Archimedean spiral, the actuator 8 is a driver. On the outer surfaces of the hermetic hopper I, there is a screw groove, into which the electrical heating coil 9 with electrical insulating sleeves 10, for example, porcelain, is placed. The latter are held by insulating, for example asbestos, cardboard 11 and a metal casing 12.

The needle 2 at the top has

thickening with keyway groove for the screw head and annular groove for the collar of the nut. From turning the needle is held by the screw 13, the raising and lowering of the needle is carried out by rotating the nut 14. The upper body of the needle is slitted around the body 15.

The outflow screw is attached to the drive shaft 3, which with its threaded part is connected to

intermediate shaft 16. Intermediate shaft 16 receives rotation from drive 8 through gear wheels 17 and 18. Bunker 1 is attached to cap 19 with ring 20, stud 21 and

nuts 22. Kryshka 19 has fixed stationary vertical fingers 23, it has a neck 24 for filling powder into a sealed bunker.

The device works as follows.

When the shaft 3 rotates at a low speed, for example I r / min, the vertical fingers and blades 7 continuously break the connection of the powder with the wall and conical part of the airtight bunker, and the fixed vertical fingers 23 break the connection of the powder with moving vertical fingers 6, preventing artifacting and clumping powder.

The working faces of the blades 7, made in the shape of the Archimedean spiral, smoothly move the powder to the outlet in the conical part of the bunker I, as a result of which powder particles in close proximity to the hole are pushed through the annular gap between

needle 2 and a sealed hopper 1 into the flow of carrier gas.

The heating coil 9, through the electrically insulating sleeves 10 and the wall of the hermetic hopper 1, heats the powder, the powder dries out, obtaining good flowability, the moisture is converted into water vapor, which is a plasma-forming gas. Subsequently, water vapor, mixing with the plasma-forming gas, participates in the plasma formation.

Powder dosage is performed by raising the needle 2 by rotating the nut 14, changing the speed of rotation of the agitator, changing the number of blades 7, and changing the angle of elevation of the Archimedean spiral of the working face of the blade 7. Wear of the moving elements caused them to interact with the particles by Editor Parfenova

Compiled by E. Bokova Tehred L. Serdyukova

High hardness powder does not affect

dosing accuracy.

Claims (1)

Invention Formula A powder feeder containing a hermetic hopper with a conical outlet part and a crush placed in the bunker on the shaft of an outflow booster and a gas supply channel, which, in order to increase the reliability of operation by preventing powder separation and segregation of the powder, outflow promoter contains a disk with holes, vertical fingers fixed on the latter, mounted under the disk blades with working edges, filled in the shape of an Archimedean spiral, while the device is equipped with additional vertical fingers, fastened on the collar. fae. 2 Proofreader E. Lonchakova