RU132146U1 - ROTARY VORTEX MACHINE - Google Patents

Abstract

A rotor-vortex machine containing a stator and a rotor, between which a working chamber is formed, connected with channels for supplying and discharging a working medium, in which blades are located, the thickness of which increases to their base, and a separator associated with the stator and rotor, respectively, each the blade contains a leading edge facing the rotor and is set at an angle β = 0 ÷ 26 ° to the meridian plane passing through the center of the leading edge of the blade, and the middle line of the cross section of the blade drawn through the center of the front its edge, inclined to the plane of the stator cross section at an angle α = 0 ÷ 50 °, characterized in that the front edge is made flat with the formation of a sharp edge between the edge plane and the surface of the blade facing the stator, and the edge plane is parallel to the plane of the stator cross section.

Description

The utility model relates to hydraulic machines of continuous displacement, namely, to vortex machines and can be used in pumps, compressors, etc.

A rotor-vortex machine is known from the prior art, comprising a stator and a rotor, between which a working chamber is formed, connected to channels for supplying and discharging a working medium, in which blades are located, the thickness of which increases to their base, and a separator associated with the stator and rotor, and each blade contains a leading edge facing the rotor, and is set at an angle β = 0 ÷ 26 ° to the meridian plane passing through the center of the leading edge of the blade, and the middle line of the cross section of the blade, ction through the center of the front edge is inclined to the cross sectional plane of the stator at an angle of α = 0 ÷ 50 °, wherein the front edge is formed by a circular arc (see. Patent RU 2449174, cl. F04D 5/00, publ. 27.04.2012). The main disadvantage of the known device is the inability to ensure a minimum clearance between the rotor and the stator due to the shape of the edge. In addition, the rounded edge affects the vortex performance of the generated flow.

The objective of the utility model is to eliminate these drawbacks. The technical result consists in providing the ability to minimize the gap between the rotor and the stator and, thereby, increase the efficiency of the device. The problem is solved, and the technical result is achieved by the fact that in a vortex machine containing a stator and a rotor, between which a working chamber is formed, connected with channels for supplying and discharging a working medium, in which there are blades, the thickness of which increases to their base, and a separator associated with the stator and rotor, respectively, wherein each blade contains a leading edge facing the rotor and is set at an angle β = 0 ÷ 26 ° to the meridian plane passing through the center of the leading edge of the blade, and the middle The cross-sectional line of the blade, drawn through the center of the leading edge, is inclined to the cross-sectional plane of the stator at an angle α = 0 ÷ 50 °, the leading edge is made flat with the formation of a sharp edge between the edge plane and the blade surface facing the stator, the edge plane being parallel the cross-sectional plane of the stator.

Figure 1 presents the cross section of the proposed machine;

figure 2 - section aa in figure 1.

The rotary vortex machine contains a stator 1 and a rotor 2, between which a working chamber 3 is formed, connected with channels for supplying and discharging a working medium (not shown in the drawings). In the chamber 3 there are blades 4 connected to the stator 1, and a separator 5 connected with the rotor 2. The thickness of the blades 4 increases to their base 6. The blades 4 contain a front edge 7 facing the rotor 2. Each blade 4 is installed at an angle β = 0 ÷ 26 ° to the meridian plane 8, passing through the center of its leading edge 7. Moreover, the middle line 9 of the cross section of the blade 4, drawn through the center of the leading edge 7, is inclined to the cross-section plane of the stator 1 at an angle α = 0 ÷ 50 °. The front edge 7 is made flat with the formation of a sharp edge 10 between the plane of the edge and the surface 11 of the blade facing the stator 1, and the plane of the edge 7 is parallel to the plane of the cross section of the stator 1.

Thus, due to such an embodiment of the edges, the rotor 2 can be almost close to the blades 4 of the stator 1, which will significantly reduce leakage, which reduces the efficiency of the vortex machine. In addition, the sharp edge 10 between the edge 7 and the surface 11 of the blade 4 reduces the intensity of the formation of vortices in this area, further reducing the number of leaks.

Claims (1)

A rotor-vortex machine containing a stator and a rotor, between which a working chamber is formed, connected with channels for supplying and discharging a working medium, in which blades are located, the thickness of which increases to their base, and a separator associated with the stator and rotor, respectively, each the blade contains a leading edge facing the rotor and is set at an angle β = 0 ÷ 26 ° to the meridian plane passing through the center of the leading edge of the blade, and the middle line of the cross section of the blade drawn through the center of the front its edge, inclined to the plane of the stator cross section at an angle α = 0 ÷ 50 °, characterized in that the front edge is made flat with the formation of a sharp edge between the edge plane and the surface of the blade facing the stator, and the edge plane is parallel to the plane of the stator cross section.

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