SU1726848A1 - Vortex compressor - Google Patents

Abstract

The invention allows to increase the efficiency by flowing compressed working fluid from the interscapular space in the area of the cutters 7 through the openings 8 and the variable section channel 9 to the working channel 4. At the same time, the vanes 6 of constant pitch have a crescent shape in cross section and they are located on the side of the working disc wheels 5. Holes 8 are made tapering on the inside of the cutter and are located in the circumferential direction relative to each other at a distance equal to the pitch of the blades 6 and at a distance from the ends of the cutter 7 are larger than the pitch of the blades 6. 2 or .

Description

The invention relates to pump and compressor engineering, in particular, to vortex compressors.

Vortex machines are known, comprising a housing with suction and pressure windows and an annular working channel, an impeller mounted in the housing with constant pitch blades and a shut-off device.

The disadvantage of these machines is the relatively low efficiency due to the transfer of gas in the interscapular channels of the impeller through the cutter.

Closest to the present invention is a vortex compressor, comprising a housing with suction and discharge windows and an annular working channel, an impeller mounted in the housing with constant-pitch vanes and a shut-off device having an external part and an internal part with an opening communicated with the working channel in the sector of the suction window.

However, the known compressor has a relatively low efficiency due to radially terminating impeller blades and insufficient extraction of compressed gas from the interscapular channels of the impeller transferred to the suction side through the shut-off device.

The aim of the invention is to increase the efficiency of a vortex compressor.

The goal is achieved by the fact that the blades are crescent-shaped and located on the side of the disk, the inside of the shut-off device is provided with at least one more hole, the holes being made narrowing and arranged in the circumferential direction relative to each other at a distance equal to the pitch of the blades the cutter ends are larger than the blade pitch, the channel has a variable cross-section channel decreasing in the direction of its exit, and the holes are connected with the working channel in the sector of the suction port through your channel variable cross section.

Figure 1 shows a vortex compressor, a longitudinal section; figure 2 - section aa in figure 1.

The vortex compressor includes a housing 1 with a suction 2 and a discharge 3 windows and an annular working channel 4. The housing 1 has an impeller 5 with constant-pitch vanes 6 and a shut-off valve 7 having an outer and an inner part with an opening 8 communicated with the working channel 4 the sector of the suction window 2. Working blades 6 are made sickle-shaped and are located on the side of the disk. The inside of the shutter 7 is provided with at least

at least one more hole 8, and the holes 8 are made tapering and are located in the circumferential direction relative to each other at a distance equal to

pitch of the blades 6, and at a distance from the ends of the shutter 7 is greater than the pitch of the blades 6. In the housing 1, a channel 9 is made of variable cross section, decreasing in the side of its output, and the communication of the holes 8 with the working channel

4 in the sector of the suction port 2 is made by means of a channel of variable cross section 9.

During operation of the vortex compressor, gas from the suction port 2 enters the working channel 4 and onto the blades 6, where gas particles participate in the longitudinal-vortex movement, gradually receiving energy from the impeller 5. The gas pressure along the length of the working channel 4 rises and the compressed gas leaves

through the injection window 3. During the operation of the vortex compressor, part of the compressed gas in the interscapular channels of the impeller 5 enters the shut-off device 7, where through the narrowing openings 8 in its inner

the parts appear to transfer the working medium from the interscapular channels of the impeller 5 to the shaped channel 9, where the pressure drops, and then to the working channel 4 in the sector of the suction port 2, where

the pressure is only slightly different from the pressure of the discharged gas.

An additional gas path of fixed elements allows to significantly reduce the flow of portable

ballast gas to the suction side through a slam shutter and thereby increase the efficiency of the vortex compressor.

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Claims (1)

Invention Formula A vortex compressor, comprising a housing with suction and discharge windows and an annular working channel, an impeller mounted in the housing with constant pitch bars and a shut-off device having an external part and an internal part with an opening communicated with the working channel in the sector of the suction port, about t- characterized in that, in order to increase the efficiency, the blades are crescent-shaped and located on the side of the disk, the inside of the shutter is provided with at least one more opening, the holes being made narrowing 5 in the circumferential direction relative to each other at a distance equal to the step of blades and spaced from the ends stripper greater blade pitch, is formed in the housing of variable section channel in a decreasing the side of its exit, and the communication of the openings of the window is carried out through a channel with a working channel in the sector of the suction belt. A-D Phage .. I