RU2645635C2 - Jet equipment with changed axial distance between nozzle and mixing chamber - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: equipment includes sequentially arranged passive medium supply piping, nozzle, receiving chamber, mixing chamber, diffuser and transition tube. The passive medium is fed to the nozzle through a pipe located coaxially with the nozzle. The receiving chamber has a shape with a cross-sectional area decreasing in the direction of the active medium movement. The receiving chamber and the inlet part of the mixing chamber are connected by a split cage consisting of two parts connected by a bellows. The outer surfaces of both parts of the split cage are threaded, one with a left-hand thread, and the other with a right-hand thread, and both parts are interconnected by a threaded coupling on the inner surface. The outlet part of the diffuser and the transition tube are also connected by a split cage consisting of two parts and equipped with a bellows.

EFFECT: increased efficiency and reliability of jet equipment operation.

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Description

The invention relates to the field of power engineering and can be applied to increase the efficiency of the operation of vacuum pumps.

A known design of an inkjet apparatus with a variable axial distance between the nozzle and the mixing chamber due to the device for fixing and moving the nozzle along the axis (No. 787736), the feature of which is that the nozzle is made of elastic material and is fixed in a moving sleeve. An important disadvantage of this design is the need to turn it off and disassemble the steam jet apparatus to move the nozzle. In this case, the cessation of the functioning of the technological scheme in which the structure operates.

Closest to the technical nature of the claimed technical solution is the invention described in patent No. 937791, which is a device that fixes the nozzle and moves it along the axis in transient modes of operation of the ejector. The nozzle, intake chamber, mixing chamber and diffuser are arranged in series. The nozzle is equipped with a shell surrounding it to form a thermo-controlling cavity made of a heat-sensitive material and equipped with a spring-loaded conical nozzle located in the zone of the nozzle exit section. When the temperature of the medium entering the thermo-controlling cavity changes, the heat-sensitive material expands and, overcoming the pressure of the spring, moves the nozzle towards the receiving chamber, while lowering the temperature, the spring moves the nozzle in the opposite direction.

The described design has several disadvantages. In particular, the range of distances over which the nozzle can be moved is insufficient for the full adjustment of the operation of the inkjet apparatus. In addition, for the functioning of the device, an additional medium with an adjustable temperature value is required. The distance between the nozzle and the mixing chamber cannot be changed quickly, since it is necessary to change the temperature of the supplied medium. And also it should be noted that the operation of the proposed device cannot be debugged due to the lack of access to it during operation.

The objective of the claimed technical solution is to increase the efficiency (increase the compression ratio of the passive medium and the injection coefficient) and the reliability of the jet apparatus by changing the axial distance between the nozzle and the mixing chamber without disconnecting the apparatus from operation.

This problem is solved in that the receiving chamber is connected to the input part of the mixing chamber with a split cage, consisting of two parts connected by a bellows, and the outer surfaces of both parts of the split cage are threaded, one part with left-handed thread, and the other with right-handed thread, and both the parts are interconnected by a threaded sleeve on the inner surface, the outlet of the diffuser and the adapter pipe are also connected by a split cage, consisting of two parts and equipped with a bellows. The pipeline for supplying a passive medium to the receiving chamber is made along the axis of the nozzle. Elements of the inkjet apparatus are arranged in series.

The invention is illustrated in the drawing (Fig. 1), which shows the design of the inkjet apparatus, where 1 is a pipeline for supplying a passive medium; 2 - nozzle; 3 - receiving chamber; 4 - mixing chamber; 5 - diffuser; 6 - transition pipe; 7 - split clip with thread; 8 - bellows split cage; 9 - coupling; 10 - split clip without thread; 11 - bellows split clips.

The device operates as follows. The passive medium enters through the pipe 1 coaxially with the active medium passing through the nozzle 2, into the receiving chamber 3, made with a decreasing cross-sectional area. The flow of the active medium, having a high speed and low pressure, captures the passive medium and carries it along with it into the mixing chamber 4, then into the diffuser 5 and then into the transition pipe 6. To adjust the distance between the nozzle and the mixing chamber, coupling 9 is used. By rotating the coupling 9, the mixing and dilution of parts of the split casing 7 are achieved, thus, the mixing chamber 4 approaches the receiving chamber 3 and the nozzle 2 located therein or moves away from it. The tightness of the device is ensured by the bellows 8. In this case, to ensure the tightness of the device, the diffuser is connected to the adapter pipe with a split ferrule 10 with the bellows 11.

The proposed design allows to achieve the following results:

1. The ability to change the distance between the nozzle and the mixing chamber allows you to set up the functioning of the inkjet apparatus, depending on the conditions of its operation. According to the developed design, the distance between the nozzle and the mixing chamber can be changed by an amount sufficient to optimize the operation of the apparatus.

2. To change the distance, the rotation of the coupling is sufficient, access to which is possible during the operation of the device. Thus, it becomes possible to change the distance between the nozzle and the mixing chamber without stopping the operation of the device and its disassembly, which helps to avoid structural disruptions during disassembly and assembly of the device, as well as to maintain the operability of the technological scheme in which the device is included.

3. Coaxial supply of a passive medium provides an increase in the speed of supply of a passive medium and a decrease in irreversible losses from mixing the active and passive flow.

The technical result of the invention is to increase the reliability and efficiency of the inkjet apparatus, in particular:

- the possibility of adjusting the functioning of the inkjet apparatus can improve the efficiency of the device,

- the ability to change the distance between the nozzle and the mixing chamber without stopping the operation of the device and its disassembly can improve the reliability of the equipment. In addition, the efficiency of use of equipment increases, since the adjustment of the functioning of the device is not accompanied by a shutdown of the technological scheme in which it operates,

- increasing the speed of the passive medium allows you to increase its compression ratio and, as a result, increase the efficiency of the device.

Claims (2)

1. The jet apparatus with a variable axial distance between the nozzle and the mixing chamber, including a passive medium supply pipe, a nozzle, a receiving chamber, a mixing chamber, a diffuser and a transition pipe arranged in series, characterized in that the receiving chamber is connected to the input part of the mixing chamber by a split clip consisting of two parts connected by a bellows, the outer surfaces of both parts of the split ring are threaded, one part with a left-handed thread and the other with a right-handed thread, and both Asti interconnected with threaded coupling the inner surface, the outlet portion of the diffuser and the transition fitting also coupled slotted yoke consisting of two parts and provided with bellows. 2. Inkjet apparatus according to claim 1, characterized in that the pipeline for supplying a passive medium to the receiving chamber is parallel to the axis of the nozzle.

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