SU584189A1 - Powder-like material micrometering device - Google Patents

Description

(54) MICRODOSETER OF POWDERED MATERIALS

one

The invention relates to devices for dispensing powdered materials with their simultaneous spraying and can be used in the practice of laboratory research, in particular, when measuring the dispersed composition of dust produced during various technological processes.

Dosing and spraying devices are known, which contain a container equipped with an opening for the release of powdered material and a cylindrical channel for supplying compressed air, ending with a nozzle.

one.

The disadvantage of these devices is incomplete disaggregation of powder-like materials, the need for large volumes for analysis, and the lack of reproducibility of the dispersed composition of powders with particles less than 10 microns.

Of the known devices, the closest in technical essence to the proposed is a device for dispensing powder-like materials, comprising a dust-filled canister with a capillary, a conveyor in the form of a thread with a fibrous surface and a suction device 2.

A disadvantage of this device is that when passing a dust-air mixture through a narrow section of the spray nozzle, on the one hand, the particles are crushed due to their collision with the inner walls of the channel, and on the other side of the side, their electrification facilitates the deposition of particles on the walls of the diffuser. .

The phenomena of crushing and electrification of particles significantly reduce the accuracy of dosing, which leads to errors in determining the dispersed composition of dusts. The aim of the invention is to alter

dosing accuracy.

This is achieved by the fact that the proposed suction device is designed in the form of a chamber, which covers a capillary and is connected to a source of compressed air,

In this case, an aperture is made in the chamber wall axially with the opening of the capillary, the diameter of which exceeds by an order of magnitude the gap between it and the end of the capillary.

The drawing schematically depicts the described micro-dispenser of powder-like materials, containing a dust-filled canister 1 with a capillary 2, an endless thread 3 with a fibrous surface, tensioned on the outside of the pulleys 4 and 5, one of which is rotated by an electric motor, chamber 6 connected by means of nipple 7 with a source of compressed air, an opening 8, in the wall of which is made axially to the opening of the capillary 2 and whose diameter is an order of magnitude greater than the gap between it and the end of the capillary 2.

Microdosing works as follows. The thread 3, the passage through the cartridge 1, captures with its fibrous surface a powder that fills the gap between it and the walls of the capillary 2. Due to the small friction between the walls of the capillary 2 and the powder, the latter moves unhindered along the capillary 2, forming a column 3 on the thread . Compressed air is supplied through pipe 7 to spray this column.

The air stream, the passage w, and between the wall of the chamber 6 and the end of the capillary 2, hits the surface of the dust column and forms an annular jet of aerosol between the thread 3 and the edges of the opening 8 of the chamber 6. Since the diameter of the opening 8 exceeds the gap between and the end of the capillary 2, the rate of aerosol passing through it decreases, which eliminates the danger of crushing and intensive electric charging of particles.

Thus, the proposed device allows to increase the accuracy of dosing of small amounts of dust by eliminating the fragmentation of particles during grinding and reducing the electrification of particles.

Claims (2)

1. Vereshchagin, IP, et al., Fundamentals of electrogasdynamics of disperse systems, M., Energie, 1974. 2. The author's certificate number 163007, cl. G 01N 1/22, 1962.