SU1134806A1 - Hydraulic compressor (modifications) - Google Patents

Description

2. A hydraulic compressor comprising a housing with inlet, outlet and additional nozzles, the internal cavity of the housing is formed by a cylindrical shell that is bounded by two side walls, one of which in the central part communicates with the output nozzle, a hydraulic pump and an ejector with a pressure part, a nozzle, communicated with the outlet nozzle and the mixing chamber communicated with the atmosphere, characterized in that, in order to increase productivity,

The inner surface of the shell is made with a screw groove, the beginning and end of which are communicated respectively with the additional and inlet nozzles located tangentially to the shell, with the input and additional nozzles communicating with each other bypass channel, the inlet nozzle contains a Venturi tube, the pressure side of the ejector is connected with the Venturi tube, and the hydraulic pump is made in the form of a paddle wheel and is located in the housing concentric to the shell.

one

The invention relates to a compressor engineering, in particular to a hydraulic compressor.

Known hydraulic compressor, comprising a housing with inlet and outlet nozzles, and the internal cavity of the housing is formed by a cylindrical shell, bounded by two side walls, one of which communicates with the outlet nozzle, and a hydraulic pump with a distribution device installed in the inlet nozzle 1.

However, this implementation of the hydraulic compressor does not provide. high performance due to blocking of the inlet with a distributor.

Closest to the proposed technical essence and the achieved effect is a hydraulic compressor, comprising a housing with inlet, outlet and additional nozzles, with the inner cavity of the housing formed by a cylindrical shell bounded by two side walls, one of which in the central part communicates with the outlet nozzle, hydraulic a pump and an ejector with a pressure part, a nozzle communicated with the outlet, and a mixing chamber communicated with the atmosphere 12.

Due to the incomplete use of the kinematic energy of the fluid movement, the productivity of the compressor is not high.

The purpose of the invention is to improve the performance of a hydraulic compressor.

This goal is achieved by the fact that in a hydraulic compressor comprising a housing with an inlet, outlet and additional nozzles, the internal cavity of the housing is formed by a cylindrical shell defined by two side walls, one of which is connected to the outlet nozzle in the central part with a hydraulic pump and an ejector with a pressure head the part, the nozzle communicated with the outlet nozzle, and the displacement chamber communicated with the atmosphere, a tide is made on the inner surface of the shell, one of the sides of which is coupled with the shell ykoy curvilinear surface formed by a radius of not less than the cylindrical radius.

shell, and on the other there is an additional branch pipe located tangentially to the shell side of the case, the hydraulic pump is connected to the inlet and additional branch pipes, in the latter of which the Venturi tube is installed, the pressure part of the ejector is inserted into the Venturi tube, and the inlet pipe is located on the side shell tangentially to the last .

According to the second variant, a screw groove is made on the inner surface of the shell of the proposed compressor, the beginning and the end of which are communicated respectively with the additional and inlet branch pipes located tangentially to the shell, with the inlet and the additional branch pipe communicating with each other bypass

By the 5th channel, the inlet pipe contains a Venturi tube, the pressure part of the ejector is connected to the Venturi tube, and the hydraulic pump is designed as a blade wheel and is located in the housing concentric to the shell.

FIG. I shows a hydraulic compressor, the first option; in fig. 2 - the same, the second option; in fig. 3 is a section A-A in FIG. 2

First hydraulic compressor

the variant comprises a housing 1 with inlet, outlet and additional nozzles 2. 3 and 4, respectively, the inner cavity 5 of the housing 1 being formed by a cylindrical shell 6 bounded by two side walls 7 and 8, one of which in the central part 9 communicates with the outlet nozzle 3, hydraulic a pump 10 and an ejector 11 with a pressure part 12, a nozzle 13 communicated with an outlet nozzle 3, and a mixing chamber 14 communicated with the atmosphere. On the inner surface 15 of the shell 6, the tide 16 is made, one of the sides 17 of which is joined to the shell 6 by a curvilinear surface 18 formed by a circle with a radius R not less than the radius R of the cylindrical shell, and on the other side 19 a window 20 is made. The additional nipple 4 is tangentially to shell 6 of the housing 1. Hydraulic pump 10 is connected to the inlet and additional nozzles 2 and 4. Venturi tube 21 is installed in nozzle 4, the pressure section 12 of ejector 11 is inserted into venturi tube 21 and the inlet nozzle 2 is located on the Step 6 tangentially to the last. To the outlet nozzle 3 through the pipe 22 is connected to the consumer (not shown). The hydraulic compressor according to the second embodiment comprises a housing 1 with inlet, outlet and additional nozzles 2, 3 and 4, respectively, and the internal cavity 5 of the housing 1 is formed by a cylindrical shell 6 bounded by two side walls 7 and 8, one of which in the central part 9 communicates with an outlet nozzle 3, a hydraulic pump 10 and an ejector 11 with a pressure part 12, a nozzle 13 communicated with the outlet nozzle, and a displacement chamber 14 communicated with the atmosphere. On the inner surface 15 of the shell 6, there is a screw groove 23. Beginning 24 and end 25 of the groove 23 are communicated respectively with the additional and inlet nozzles 4 and 2 located tangentially to the sidewall 6, the input 2 and the additional 4 nozzle being interconnected by an overflow channel 26. The input the nozzle contains a Venturi tube 21, the pressure part 12 of the ejector 11 communicates with the Venturi tube 21, and the hydraulic pump is designed as a blade wheel 27 and is located in the housing 1 concentric with the shell. The blade wheel 27 through the shaft 28c is driven with a drive (not shown), and the blade wheel 27 contains blades 29 bent in the direction of rotation of the wheel 27. The hydraulic compressor, made in the first embodiment, operates as follows. The hydraulic pump 10 pumps the fluid through the inlet 2 and an additional 4 nozzles into the cavity 5 of the housing 1. In the Venturi tube 21, the liquid creates a vacuum and through the pressure part 12 of the ejector 11 draws air from the atmosphere, which (moved with the liquid) enters the cavity 5. Under the action centrifugal forces, the air separated from the liquid enters the central part 9 and through the outlet 3 and pipe 22 enters the consumer. Part of the compressed air from the outlet 3 through the nozzle 13 enters the ejector 11, where it creates itelny pressure of the intake air from the atmosphere. Hydraulic compressor, made according to the second option, works as follows. The drive, rotating the blade wheel 27, creates a circulation of fluid in the cavity 5, while part of the fluid enters the bypass channel 26, in which in the region of the Venturi tube 21 the fluid draws air from the pressure section 12 of the ejector I. The fluid displaced with air enters cavity 5. Under the action of centrifugal forces, the air is separated from the liquid and through the outlet 3 and the pipe 22 is supplied to the consumer. To increase the time of air separation from the liquid, the last of the inlet nozzle 2 is guided along the helical groove 23. Such an embodiment of the hydraulic compressor provides high performance due to more complete utilization of the kinetic energy of the liquid of the compressor mainline.

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Claims (2)

(47) 1. A hydraulic compressor comprising a housing with inlet, outlet and additional nozzles, the inner cavity of the housing being formed by a cylindrical shell limited by two side walls, one of which is in the central part in communication with the outlet nozzle, a hydraulic pump and an ejector with a pressure part , a nozzle in communication with the outlet pipe, and a mixing chamber in communication with the atmosphere, characterized in that, in order to increase productivity, a tide is made on the inner surface of the shell, one of the sides otorogo is connected with the shell by a curved surface formed by a circle with a radius of at least the radius of the cylindrical shell, and on the other there is a window of the inlet pipe located tangentially to the shell of the housing, the hydraulic pump is connected to the inlet and additional pipes, the last of which has a venturi part of the ejector is inserted into the venturi, and the inlet pipe is located tangentially to the latter on the side of the shell. Riga 1 2. A hydraulic compressor comprising a housing with inlet, outlet, and additional nozzles, the inner cavity of the housing being formed by a cylindrical shell limited by two side walls, one of which is in communication with the outlet nozzle in the central part, a hydraulic pump and an ejector with a pressure part, a nozzle, in communication with the outlet pipe and a mixing chamber in communication with the atmosphere, characterized in that, in order to increase productivity, a helical groove is made on the inner surface of the shell, beginning and the end of which is connected respectively with the additional and inlet nozzles located tangentially to the shell, the inlet and additional nozzles being connected to each other by the bypass channel, the inlet nozzle contains a venturi, the pressure part of the ejector is in communication with the venturi, and the hydraulic pump is made in the form of a blade wheel and is located in the housing concentric with the shell.