RU23397U1 - EJECTIVE MIXER - Google Patents

Abstract

An ejector mixer comprising a hollow cylindrical body with a side opening for collecting powder and a side opening for supplying compressed gas, characterized in that an ejector made in the form of two cylinders connected by a jumper in the cylindrical body is made in the form of two cylinders, in each of which and in the jumper a through longitudinal hole is coaxially made, which through this jumper communicates with the space between the cylinders, the diameter of the hole in one of the cylinders being the input being smaller than the diameter a hole made in another cylinder, which is the outlet, while in the cylindrical body there are additionally n lateral holes for powder intake located above the jumper, and the outer surface of the cylinders mates hermetically with the inner surface of the cylindrical body, where n≥0.

Description

EJECTIVE MIXER

The proposed technical solution relates to the field of technology where the dosage of bulk and powder materials is necessary, in particular, for applying protective coatings by spraying dispersed materials.

Known atomizer of powder materials containing a hollow cylindrical body with a diffuser and a central nozzle with an axial air channel, a lateral hole for powder intake made between the diffuser and the central nozzle, and a peripheral metering nozzle, (England patent No. 1409423, class B 2 F, 1972

Known Dosir skinny ejector containing a hollow cylindrical body with a diffuser and a Central nozzle with an axial air channel, a side hole for powder intake made between the diffuser and the Central nozzle, and a peripheral metering nozzle in communication with the air channel, the output end of the Central sonnel is made with a conically expanding the outer surface, and the inner cavity of the housing - mating with the outer surface of the output end of the nozzle with a gap forming a peripheral nozzle, while the Central nozzle tanovleno axially movable. Av. St. USSR No. 1077648, Cl. B 05 V 7/12, Bull. No. 9, 1984

A drawback of the dosing ejector described above is that when the central sonle is moved, the distance to the diffuser changes, which affects the degree of vacuum in the body cavity, which affects the accuracy of the adjustment of the amount of powder supplied.

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IPC 7 V05V 7 / U

The technical problem to be solved is to increase the accuracy of regulating the amount of powder supplied, due to the stability of the generated vacuum in the mixing cavity of the powder mixture with gas.

The technical problem to be solved in an ejector mixer containing a hollow cylindrical body with a side opening for collecting powder and a side opening for supplying compressed gas is achieved by the fact that the size of the cylindrical body is flexible; axial displacement of the ejector made in the form of two cylinders connected by a jumper each of which in the jumper is coaxially made through a longitudinal hole, which through this jumper communicates with the space between the cylinders, the diameter of the hole in one of the cylinders being which is smaller than the diameter of the hole made in the other cylinder, which is the outlet, moreover, in the cylindrical body there are additionally made "n side openings for powder intake located above the jumper, and the outer surface of the cylinders mates hermetically with the inner surface of the cylindrical body, where" n J, 0.

In FIG. 1 shows a sectional view of an ejector mixer.

The ejector mixer contains a hollow cylindrical body 1 with side openings 2 for collecting powder and for supplying compressed gas 3; in the cylindrical body 1, an ejector made in the form of two cylinders 4, 5 connected by a jumper 6, each of which in the jumper 6 is coaxially made through a longitudinal hole, which through this jumper 6 communicates with the space between the cylinders 4,5, and the diameter of the hole in one of the cylinders, which is the input 4 is less than the diameter of the holes made in another cylinder 5, which is the output, wherein, in the cylindrical body 1 is further configured "n side holes 2 for collecting powder.

located above the jumper 6, and the outer surface of the cylinders 4, 5 mates hermetically with the inner surface of the cylindrical body 1. The handle 7 of the ejector serves for its axial movement. Side holes 2 can be made of any shape.

Consider the proposed ejector mixer in use.

Using a flexible hose, compressed gas is supplied to the compressed gas supply opening 3, and a powder hopper is connected to the side openings 2 by means of a flexible hose.

The gas supplied through the hole 3, passing through the hole in the inlet cylinder 4, significantly increases its speed, then passing through the jumper 6 and the hole in the outlet cylinder 5 due to the friction forces of the rapidly moving gas against the surrounding gas in the region of the jumper 6, the entrainment of the surrounding gas into the hole in the outlet cylinder 5, and a vacuum is created in the region of the bridge 6. The powder mixture under the action of rarefaction through the lateral openings 2 enters the lintel cavity and leaves the outgoing cylinder 5 as a gas-powder mixture. When the ejector is axially displaced by the handle 7, the lateral openings 2 overlap, as a result of which a metered supply of powder can be ensured.

Compared with the prototype using the proposed ejector, the accuracy of controlling the amount of powder supplied is increased, due to the stability of the generated vacuum in the cavity for mixing the powder mixture with gas.

Claims (1)

An ejector mixer comprising a hollow cylindrical body with a side opening for collecting powder and a side opening for supplying compressed gas, characterized in that an ejector made in the form of two cylinders connected by a jumper in the cylindrical body is made in the form of two cylinders, in each of which and in the jumper a through longitudinal hole is coaxially made, which through this jumper communicates with the space between the cylinders, the diameter of the hole in one of the cylinders being the input being smaller than the diameter a hole made in another cylinder, which is the outlet, while in the cylindrical body there are additionally made n lateral holes for powder intake located above the jumper, and the outer surface of the cylinders mates hermetically with the inner surface of the cylindrical body, where n≥0.