SU1718730A3 - Rotary machine - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to engine-building and compressor engineering. The rotor machine contains a stator with an inner annular chamber provided with vanes, inlet and outlet ports. A rotor with external chambers and bypass channels and with inlet and outlet openings is rotatably mounted in the stator. Cameras are made on the outer surface of the rotor symmetrically one another. The inlet window is made in the form of a channel located along the axis of the rotor and communicating with the inlets. 2 Il.

Description

The invention relates to rotary machines and can be used in the field of engine building and compressor engineering.

A known rotary machine, for example, an engine, comprising a stator with an inner working surface and inlet and outlet ports and a rotor mounted therein for rotation with an overflow channel having an inlet and an outlet.

This rotor machine works by converting the potential energy of the working medium to mechanical energy taken from the output shaft. The disadvantage of this engine is the presence of friction pairs, which reduce the reliability of its design, efficiency and speed. In addition, in such structures pressure pulsations in the working cavities are unavoidable, which can lead to machine breakage.

A known rotary machine comprising a stator with an inner annular chamber provided with blades, inlet and outlet ports and rotatably mounted therein a rotor with an outer chamber, an overflow channel having an inlet outlet.

A disadvantage of the known construction is the imbalance of the rotor, due to the uneven distribution of pressure along the periphery of the chrator from the inlet to the exit window, which leads to a decrease in durability and reliability. In addition, the disadvantage is low power.

The purpose of the invention is to increase reliability and efficiency.

The goal is achieved by the fact that the rotor machine contains an additional bypass channel and a partition mounted in the outer chamber of the rotor with its division into two parts, the inlet window is made in the form of a channel, placed along the axis of the rotor and communicated with the outlet openings of the bypass channels of the chamber parts.

Figure 1 shows a rotary machine, a longitudinal section; figure 2 - section aa in figure 1.

Rotary machine contains a stator. 1 with an inner working surface, an inlet window made in the form of channel 2, outlet ports 3 and 4. In the stator 1 there is a rotor 5 rotatably mounted with bypass channels 6 and 7, made respectively with inlets 8

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and 9, An annular chamber 10 is formed on the inner surface of the stator 1. Cameras 11 and 12 are formed on the outer surface of the rotor 5. The bypass ducts 6 and 7 have outlet openings 13m 14. The inlet and outlet openings of the rotor bypass duct are separated from each other by partitions 15 and 16 The annular chamber 10 is provided with paddles 17.

When a rotor high-pressure srsd machine is in operation, through the inlet port, made in the form of channel 2, and the inlets 8 and 9 of the bypass channels 6 and 7 enter the chambers 11 and 12, from there it is discharged through the outlet ports 13 and 14 and the outlet ports 3 and 4. In the annular chamber 10 of the stator 1 and the chambers 11 and 12 of the rotor 5, the movement of the medium from the inlet openings 8 and 9 to the outlet openings 13 and 14, due to its interaction with the blades 17, is spiral-shaped. This movement provides effective resistance to the free flow of air from the inlet to the outlet. On particles of working medium located between 15

Thus, there is an effective resistance to the reverse current of the medium. Due to the pressure difference between the inlet and outlet of the septum, the force difference is affected and a moment acts on the rotor, which is removed at the output shaft of the rotor machine.

Making the rotor chambers symmetrical with the medium flowing through the shaft will eliminate the radial forces on the rotor due to the uneven distribution of pressure along the rotor periphery from the inlet to the exit window. In addition, the implementation of two cameras will increase the power of the rotary machine in 2 times.

Formula l a wz about 5 times e

The rotor MR busbar a, containing a stator with an inner annular chamber equipped with blades, an inlet and outlet port l installed in the stator with the possibility of “growing a rotor with an outer chamber, an overflow channel having an inlet and an outlet orifice, so that , in order to increase reliability and efficiency,

Doing blades in chamber 10, acting 2B machine contains additional re-entrainment of centrifugal forces, under the action of which they are replaced by a new portion coming from chambers 11 and 12 of the rotor 5. t

1, y

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the window channel and the partition, installed in the outer chamber of the rotor with its division into two, the inlet window is made in the form of a channel, placed along the axis of the rotor and communicated with the outlet openings

five

Thus, there is an effective resistance to the reverse current of the medium. Due to the pressure difference between the inlet and outlet of the septum, the force difference is affected and a moment acts on the rotor, which is removed at the output shaft of the rotor machine.

Making the rotor chambers symmetrical with the medium flowing through the shaft will eliminate the radial forces on the rotor, due to the uneven distribution of pressure along the rotor periphery from the inlet to the exit window. In addition, the implementation of two cameras will increase the power of the rotary machine in 2 times.

Formula l a wz about 5 times e

The rotor MR busbar a, containing a stator with an inner annular chamber equipped with blades, an inlet and outlet port l installed in the stator with the possibility of “growing a rotor with an outer chamber, an overflow channel having an inlet and an outlet orifice, so that , in order to increase reliability and efficiency,

the window channel and the partition, installed in the outer chamber of the rotor with its division into two, the inlet window is made in the form of a channel, placed along the axis of the rotor and communicated with the outlet openings

17

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Claims (1)

Claim A rotor machine comprising a stator with an inner annular chamber equipped with vanes, an inlet and an outlet window 20 and a rotor with an external chamber, an overflow channel having an inlet and outlet openings rotatable with rotation in rotation and rotatable in the stator. that, in order to increase reliability and efficiency, the machine contains an additional bypass channel and a partition installed in the outer chamber of the rotor with its division into the lower part, the inlet window is made in the form of a channel, placed along the axis of the rotor and is in communication with the outlet openings of the bypass Therefore, when the flow moves from entrance to exit, the particle paths have a spiral