RU2672200C1 - Adjustable ejector (options) - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: ejector is designed for pumping various liquids or gases, as well as their mixtures. Ejector includes an active nozzle with a regulating needle installed with the possibility of axial movement, a mixing chamber, a diffuser made of an elastic material, a nozzle for supplying an active medium. Ejector is equipped with a mechanism that regulates the distance from the nozzle to the initial section of the diffuser, which is a bracket rigidly mounted on the mixing chamber and the sleeve and mounted in the guides with the ability to move in the axial direction, as well as a mechanism regulating the size of the input cross-section of the diffuser. According to the second variant, the ejector includes an active nozzle with an adjusting needle mounted for axial movement, a mixing chamber, a diffuser made of an elastic material. Diffuser is closed by a casing with the formation of a cavity outside the entrance section of the diffuser. Ejector is equipped with a mechanism that regulates the distance from the nozzle to the initial section of the diffuser, which is a bracket rigidly mounted on the mixing chamber and the housing and mounted in the guides with the ability to move in the axial direction. Mechanism regulating the size of the inlet cross section of the diffuser is made in the form of an elastic chamber installed in the cavity formed by the diffuser and housing, with the possibility of pumping gas/liquid into it and the possibility of pressure of the camera on the diffuser outside the inlet section of the latter.EFFECT: invention is aimed at expanding the parameters of the regulation of the ejector.7 cl, 4 dwg

Description

The invention relates to a pump engineering industry, in particular to adjustable ejectors.

In the prior art, a jet pump is known comprising an active nozzle, a mixing chamber, a diffuser and nozzles for supplying an active and passive medium. The pump does not allow you to adjust the mode of its operation when changing the parameters of the passive and active environments. (US 2892582)

From patent SU 1465624 (publ. 1973), an adjustable ejector is known including an active nozzle with the possibility of axial movement and equipped with a drive, an active medium pipe, a mixing chamber and a diffuser. The ejector is equipped with a control unit for monitoring the position of the active nozzle. The ejector provides accurate control of the nozzle position, but this is not enough to obtain stable parameters at the output.

An adjustable ejector is known from the Internet (website www.s-k.com, Schutte Koerting), including an axially adjustable nozzle, a mixing chamber, a diffuser and nozzles for supplying active and passive media. The ejector provides axial adjustment of the nozzle position, but this is not enough to obtain stable parameters at the output.

The design of the jet pump (No. 1343118 publ. 10/07/1987), consisting of a receiving chamber, a mixing chamber, a diffuser, an active nozzle with a control needle with a drive, inlet pipes of the active and passive medium, was adopted as a prototype. In the ejector, the flow of the active medium through the active nozzle is controlled, thereby controlling the total supply of the mixture of media to the consumer, but this is not enough to obtain stable parameters at the output.

The technical result is aimed at expanding the parameters of regulation of the ejector.

The technical result according to the first embodiment is achieved by the fact that the adjustable ejector includes an active nozzle with a regulating needle mounted with the possibility of axial movement, a mixing chamber, a diffuser, a nozzle for supplying an active medium. According to the invention, the diffuser is made of an elastic material (such as rubber) and is connected by a crimping device to the mixing chamber and the sleeve, the ejector is equipped with a mechanism that controls the size of the input cross section of the diffuser, as well as a mechanism that regulates the distance from the nozzle to the initial section of the diffuser, which is a bracket, rigidly fixed on the mixing chamber and the sleeve and installed in the guides, with the possibility of movement in the axial direction.

The technical result is also achieved by the fact that the mechanism that controls the size of the initial cross section of the diffuser is made in the form of a clamp mounted on the outside of the input cross section of the diffuser;

The technical result is also achieved by the fact that the mechanism regulating the size of the input cross-section of the diffuser is made in the form of a diaphragm mounted in the housing, which is rigidly connected to the mixing chamber and the diffuser;

The technical result is also achieved by the fact that the diffuser is made of elastic material with a conical thickening on the outside of the diffuser from the input section;

The technical result is achieved by the fact that the mechanism regulating the size of the input cross-section of the diffuser is made in the form of a nut with the possibility of screwing it onto the mixing chamber and pressure on the conical thickening of the diffuser.

The technical result according to the second embodiment is achieved by the fact that the adjustable ejector includes an active nozzle with a regulating needle mounted with axial movement, a mixing chamber, a diffuser, a nozzle for supplying an active medium. According to the invention, the diffuser made of an elastic material (such as rubber) is closed by a casing, the ejector is equipped with a mechanism that controls the size of the inlet cross section of the diffuser, as well as a mechanism that regulates the distance from the nozzle to the initial section of the diffuser, which is a bracket that is rigidly fixed to the mixing chamber and the casing and mounted in the rails with the possibility of movement in the axial direction.

The technical result is also achieved by the fact that the mechanism regulating the size of the inlet cross section of the diffuser is made in the form of a chamber with compressed air installed in the cavity formed by the diffuser and the casing, with the possibility of pressure on the diffuser from the outside in the place of the inlet section of the diffuser.

In FIG. 1 shows a longitudinal section of an ejector with a size control of the input cross section of the diffuser using a clamp.

In FIG. 2 shows a longitudinal section of an ejector with adjustment of the size of the input cross section of the diffuser using a diaphragm.

In FIG. Figure 3 shows a longitudinal section of an ejector with adjustment of the size of the inlet cross section of the diffuser using a nut.

In FIG. Figure 4 shows a longitudinal section of an ejector with adjustment of the size of the input cross section of the diffuser using a hollow chamber.

According to the first embodiment (Fig. 1-3), the adjustable ejector contains an active nozzle 1, a needle 2, which regulates the cross-sectional size of the nozzle 1, and a supply pipe 3 of the active medium (compressed air), a mixing chamber 4 with a suction port of the passive medium (atmospheric air) , a diffuser 5 made of an elastic material, a mechanism that controls the size D of the input cross section of the diffuser 5, and a mechanism that regulates the distance L from the nozzle 1 to the entrance to the diffuser 5. The mechanism that controls the distance L is made in the form of a bracket 6, which is installed in on governing 7. The bracket is rigidly connected to the mixing chamber 4 and the sleeve 9. The sleeve 9 is connected to the pipe 11, made in the form of a flexible hose.

In the particular case (Fig. 1), the mechanism that controls the size of the cross section of the nozzle 1 is made in the form of a clamp 8 mounted on the outside of the input cross section of the diffuser 5. The diffuser 5 is connected to the mixing chamber 4 and the sleeve 9 by means of a crimp ring 10.

In another particular case (Fig. 2), the mechanism controlling the size of the inlet section of the diffuser 5 is made in the form of a diaphragm 12 consisting of petals 13. The diaphragm 12 is installed in the housing on the outside of the input cross-section of the diffuser 5. The body of the diaphragm 12 is mounted on the mixing chamber four.

In the third particular case (Fig. 3), the diffuser 5 is made of elastic material with a conical bulge 14 on the outside of the diffuser 5 (from the side of smaller diameter).

The diffuser 5 is rigidly connected to the mixing chamber 4 and to the sleeve 9 by means of a compression ring 10. The mechanism that controls the size of the input cross-section of the diffuser 5 is made in the form of a nut 15 with the possibility of screwing it onto the outer surface of the mixing chamber 4. The surface 16 of the nut 15 in contact with a conical bulge 14 of the diffuser 5, is also made on a cone (with the possibility of squeezing the bulge 14).

In the second embodiment (Fig. 4), the adjustable ejector contains an active nozzle 1, a needle 2, which regulates the cross-sectional size of the nozzle 1, and a supply pipe 3 of the active medium (compressed air), a mixing chamber 4 with a suction port of the passive medium (atmospheric air), a diffuser 5, a mechanism that controls the size of the input cross section of the diffuser 5, and a mechanism that controls the distance from the nozzle 1 to the entrance to the diffuser 5. The diffuser 5 is made of elastic material and is closed by the casing 17. On one side, the diffuser 5 is pressed against the sleeve 4 by the casing 17, and other side Now the diffuser 5 is connected to the casing 17 by a compression ring 10. The casing 17 and the diffuser 5 form a cavity 18 into which a hollow elastic chamber 19 with a pipe 20 is installed. The pipe 20 is connected to the gas / liquid supply pipe 21. A nipple 22 and a pressure gauge 23 are installed on the pipeline 21. The bracket 6 mounted in the guides 7 is rigidly connected to the mixing chamber 4 and the housing 17.

The ejector works as follows.

The active medium (compressed air) through the nozzle 3 enters the nozzle 1. The compressed air entering the mixing chamber 4 carries with it a passive medium (atmospheric air). Further, the flow passes through the diffuser 5 and is supplied to the consumer.

Setting of operating parameters is carried out by mechanical regulation. The adjusting needle 2, made with the possibility of axial movement, regulates the supply of compressed air to the mixing chamber 4. We also adjust the distance L from the nozzle 1 to the entrance to the diffuser 5, moving the bracket 6 in the guides 7 in the axial direction.

In a particular case, the control of the input cross-section of the diffuser is as follows: we tighten the screw (not shown in Fig. 1) of the clamp 8, thereby adjusting the size D of the input cross-section of the diffuser 5;

In the second particular case, the size D of the input cross section of the diffuser 5 is adjusted by turning the handle (in Fig. 2 not shown) of the diaphragm 12 in one direction or another, changing the input cross section of the diffuser 5.

In the third particular case: the nut 13, made with the possibility of twisting on the mixing chamber 4, the surface 16 presses on the conical bulge 14, changing the input cross section of the diffuser 5.

In the second embodiment, the regulation of the size D of the input cross section of the diffuser 5 is as follows. We supply gas or liquid under pressure to the chamber 19 through the nozzle 20. The chamber 19, increasing in size, presses on the portion of the diffuser 5, which is in contact with the chamber 19, the input cross section of the diffuser 5 decreases. If it is necessary to increase the inlet cross section of the diffuser, then open the nipple 22 and bleed the air (gas, liquid).

Claims (7)

1. Adjustable ejector, including an active nozzle with a regulating needle mounted with axial movement, a mixing chamber, a diffuser, a nozzle for supplying an active medium, characterized in that the diffuser made of elastic material is connected by a crimping device to the mixing chamber and the sleeve, the ejector is equipped with a mechanism that controls the size of the inlet cross section of the diffuser, as well as a mechanism that regulates the distance from the nozzle to the inlet section of the diffuser, which is a bracket rigidly mounted on the mixing chamber and the sleeve and mounted in the rails with the possibility of movement in the axial direction. 2. The adjustable ejector according to claim 1, characterized in that the mechanism regulating the size of the input cross-section of the diffuser is made in the form of a clamp mounted on the outside of the input cross-section of the diffuser. 3. The adjustable ejector according to claim 1, characterized in that the mechanism regulating the size of the input cross section of the diffuser is made in the form of a diaphragm mounted in a housing that is rigidly connected to the mixing chamber and the diffuser. 4. The adjustable ejector according to claim 1, characterized in that the diffuser is made of elastic material with a conical thickening on the outside of the diffuser from the input section. 5. The adjustable ejector according to claim 4, characterized in that the mechanism that controls the size of the input cross section of the diffuser is made in the form of a nut with the possibility of screwing it onto the mixing chamber and the possibility of pressure on the conical thickening of the diffuser. 6. Adjustable ejector, including an active nozzle with a regulating needle mounted for axial movement, a mixing chamber, a diffuser, a nozzle for supplying an active medium, characterized in that the diffuser made of elastic material is closed by a casing, the ejector is equipped with a mechanism regulating the size of the input transverse section of the diffuser, as well as a mechanism that regulates the distance from the nozzle to the inlet section of the diffuser, which is a bracket rigidly mounted on the mixing chamber and the casing and installed in directs movable in the axial direction. 7. The adjustable ejector according to claim 6, characterized in that the mechanism regulating the size of the inlet cross section of the diffuser is made in the form of an elastic chamber with the possibility of pumping gas / liquid into it and the possibility of pressure from the chamber on the diffuser outside the inlet section of the latter.

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