RU166587U1 - EJECTOR - Google Patents

Abstract

The utility model relates to the field of inkjet technology and can be used, for example, in the national economy in various technological processes of production, where continuous introduction of additional gas-air components into the main fluid stream with a sufficiently high and stable constancy is required in small quantities. An ejector containing an active nozzle, a conical receiving chamber, a mixing chamber, and a diffuser is characterized in that the active nozzle in cross section has a shape formed by intersecting at least three equal Euler circles, so that connected circles pass through the external and internal points of their intersection equality D = (0.4 ÷ 0.6) d, while the formation of such a section begins at a distance of at least two diameters of the outlet from its end.

Description

The utility model relates to the field of inkjet technology and can be used, for example, in the national economy in various technological processes of production, where continuous introduction of additional gas-air components into the main fluid stream with a sufficiently high and stable constancy is required in small quantities.

From special scientific and technical literature it is known that jet mixers in the national economy are common for mixing fertilizers, aeration.

Such mixing devices are mounted on sprinklers, agricultural units.

The principle of operation of such devices is based on ejection and they are called ejectors.

Known ejector containing an active nozzle, a passive nozzle, a mixing chamber and a diffuser (patent RU 1269593 A1, IPC F04F 5/16, publ. 07.05.1992).

However, this ejector has a relatively low efficiency due to a too short mixing chamber (the ratio of the length of the mixing chamber to its diameter is 1.8-2.4), which does not provide effective mixing of the passive and active flows.

Also known is an ejector containing an active nozzle, a mixing chamber with confuser and cylindrical sections and a diffuser (copyright certificate SU 767405, IPC F04F 5/04, publ. 09/30/1980).

This design does not provide high efficiency in the entire range of gas contents of the passive flow due to the mixing chamber that is too long (the ratio of the length of the mixing chamber to its diameter is 30-32).

The closest to the proposed technical essence and achieving the effect is an ejector containing an active nozzle, a mixing chamber with conical and cylindrical sections and a diffuser (RF Patent No. 2151919, IPC F04F 5/04, publ. June 27, 2000) where the length of the mixing chamber and the length of the diffuser is selected on the basis of compliance with the conditions l / d = 3 ÷ 5; L / d = 10 ÷ 11, where the shape of both the (active) pressure nozzle and the diffuser is not reflected, and at low flow rates of the passive medium up to 1.0% of the flow rate of the pressure fluid, constant flow rates are not provided and there is insufficient efficiency in small dosage ranges passive environment due to insufficient involvement of the fluid in the process throughout the cross section of the receiving chamber of the ejector.

The technical task of the utility model is to expand technological capabilities and increase efficiency by optimizing the ratio of geometric parameters and ejector shapes.

The problem is solved in that the ejector contains a conical receiving chamber, a mixing chamber, a diffuser and an active nozzle.

The difference from the prototype is that the active nozzle in the section has a shape formed by intersecting at least three equal Euler circles, so that circles connected by the equality D = (0.4 ÷ 0.6) pass through the external and internal points of their intersection d, while the formation of such a section begins at a distance of at least two diameters of the outlet from its end.

In FIG. 1 shows an ejector that contains an active nozzle 1 through which the active medium passes. The active nozzle 1 is a cross-section petal tube, described by at least three equal Euler circles, aligns the fluid flow to close to the laminar one, thereby ensuring uniformity of the introduction of the gas-air mixture along the fluid flow in the conical receiving chamber 2 and enters the mixing chamber 3 .

The ejector works as follows.

The active medium, flowing out of the active nozzle 1, ejects a passive medium entering the conical receiving chamber 2. In the mixing chamber 3, the energy is exchanged between the active and passive flows and pressure is restored. If the ejector has an excess length l of the mixing chamber, then an increase in friction losses and a decrease in efficiency occurs due to excessive turbulization of the flow in the mixing chamber.

Thus, the use of an ejector with the indicated geometric parameters allows to increase its efficiency.

Claims (1)

An ejector containing an active nozzle, a conical receiving chamber, a mixing chamber, a diffuser, characterized in that the active nozzle in cross section has a shape formed by intersecting at least three equal Euler circles, so that circles pass through the outer and inner points of their intersection, related by the equality D = (0.4 ÷ 0.6) d, while the formation of such a section begins at a distance of at least two diameters of the outlet from its end.