RU2163984C1 - Pump-compressor jet plant - Google Patents

Abstract

FIELD: mechanical engineering; pumps. SUBSTANCE: proposed pump-compressor jet plant has shaft, housing with inner working chamber accommodating impeller, tangentially installed nozzle, diffuser connected with tangential outlet of working chamber, and suction branch pipe installed coaxially with impeller. Working chamber has additional section in form of branch pipe installed between diffuser and tangential outlet of working chamber. EFFECT: increased efficiency of plant. 2 cl, 2 dwg

Description

 The invention relates to the field of pump engineering, compressor engineering and vacuum devices and is intended for transportation (movement) of liquids, gases and their mixtures.

 The closest to the invention in technical essence and the achieved result is an inkjet pump and compressor unit containing a shaft, a housing with an internal working chamber and an impeller placed therein, a tangentially mounted nozzle, a diffuser connected to the tangential output of the working chamber and a suction pipe mounted coaxially with a paddle wheel (see USSR author's certificate 1733714 A, class F 04 F 5/54, 05/15/1992).

 Known technical solution does not provide the required efficiency.

 The problem to which the present invention is directed, is to improve the technical performance of the installation and increase the efficiency.

 The technical result that can be obtained by implementing the described installation is to reduce backflows in the working chamber, to improve the mixture formation of liquid and gas, to reduce the energy loss of the working fluid supplied to the working chamber.

 This problem is solved due to the fact that the jet pump-compressor installation comprises a shaft, a housing with an internal working chamber and an impeller placed therein, a tangentially mounted nozzle, a diffuser connected to the tangential output of the working chamber, and a suction nozzle mounted coaxially with the impeller while the working chamber has an additional section in the form of a pipe installed between the diffuser and the tangential exit from the working chamber.

 An additional nozzle can be installed between the working chamber and the suction nozzle, the diameter of any cross section thereof does not exceed the diameter of the impeller, and a tangential channel is made on the side surface of the additional nozzle in which the nozzle is located.

 A general view of the installation is shown in FIG. 1, and in FIG. 2 is a section A-A of FIG. 1.

 The proposed installation comprises an electric motor 1, shaft 2, housing 3. In the housing 3, a (inner) working chamber 4 is formed. In the working chamber 4 there is a blade wheel 5 consisting of a rotor 6 and blades 7. The blades 7 are rigidly fixed to the shaft by means of the rotor 6 2. The impeller 5 receives rotation through the shaft from the electric motor 1. In the housing 3 from the side of the working chamber 4 there is a tangential exit 8. The working chamber 4 has an additional section 9, made in the form of a pipe, fixed on one side to the tangential exit 8, and with another to a diffuser 10. An additional nozzle 11 is installed on the housing 3, connecting the working chamber 4 with the suction nozzle 12. Moreover, the diameter of the nozzle 11 in any cross section does not exceed the diameter of the impeller 5. In the nozzle 11 the channel 13 is tangentially made, in which the nozzle 14. B the composition of the jet pump installation includes a separator 15 with pipelines 16, 17, 18. Pipeline 16 connects the separator 15 to the diffuser 10, and pipe 17 to the nozzle 14. Pipeline 18 is designed to discharge compressed gas to the consumer.

 The installation works as follows.

 The electric motor 1 provides, through the shaft 2, the rotation of the impeller 5. The liquid located in the working chamber 4 receives kinematic energy from the rotating impeller 5, while gas (gas-liquid mixture) is supplied through the suction pipe 12 to the working chamber 4. In the working chamber 4, the pumped medium is accelerated by the blades 7, due to this, its kinematic energy increases. By tangential output 8, the pumped medium is pulled by pulses to an additional section 9. The pulse frequency is determined by the number of blades 7 of the wheel 5 and the frequency of its rotation. In the additional section 9 of the working chamber 4 and then in the diffuser, further mixing of the liquid with gas and deceleration of the gas-liquid mixture flow occurs, accompanied by an increase in hydrostatic pressure with a decrease in the flow velocity. With a reduced flow rate, but at a higher hydrostatic pressure, the gas-liquid mixture through line 16 enters the separator 15, where it is separated into liquid and gas. Compressed gas from the separator 15 is discharged through the pipe 18 to the consumer, and the liquid through the pipe 17 is returned to the working chamber 4 through the nozzle 14, the channel 13 and the additional pipe 11. By changing the orifice of the nozzle 14, the flow rate of the fluid circulating in a closed circuit is controlled. When pumping a gas-liquid mixture, the principle of operation of the installation does not change, only not only gas but also liquid is removed from the separator 15, and part of the liquid is constantly circulated in a closed circuit, as described above.

 The supply of the pumped medium to the additional section 9 of the working chamber by pulses helps to reduce backflows in it, since with such a supply, the liquid phase almost completely covers its cross section. The use of an additional section 9 of the working chamber 4 improves the mixing of liquid and gas, and the use of an additional pipe 11 with a nozzle 14 installed in the tangentially made channel allows to reduce the loss of energy of the working fluid supplied to the working chamber 4. In general, this allows to improve the technical parameters of the installation, to increase it efficiency.

Claims (2)

 1. An inkjet tubing installation comprising a shaft, a housing with an internal working chamber and an impeller placed therein, a tangentially mounted nozzle, a diffuser connected to the tangential output of the working chamber, a suction pipe mounted coaxially with the impeller, characterized in that the working the chamber has an additional section in the form of a nozzle mounted between the diffuser and the tangential exit from the working chamber.  2. Installation according to claim 1, characterized in that an additional nozzle is installed between the working chamber and the suction pipe, the diameter of any cross section thereof does not exceed the diameter of the impeller, and a tangential channel is made on the side surface of the additional pipe in which the nozzle is located.

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