SU1605047A1 - Rotary generator of pressure fluctuations - Google Patents

Abstract

The invention relates to hydraulics and can be used in the chemical industry. The purpose of the invention is to increase reliability and efficiency. The radial channels 5 of the cylindrical hollow rotor 3 accommodates movable sleeves 7, which, when the rotor rotates, are pressed by centrifugal force to the inner surface of the stator 1, blocking the gap 4 between the rotor and the stator and reducing the leakage of the working medium into the gap. The pressure of the working medium at the end of the sleeve is compensated by the pressure in the over piston chamber 10 on the shoulder 8. With a stationary rotor, the sleeve 7 is pressed from the inner surface of the stator by a spring. 2 hp f-ly, 3 ill.

Description

FIG. 2

The invention relates to hydraulics and can be used in the chemical, petroleum industry and in construction.

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

FIG. 1 shows a rotary pressure oscillator; in fig. 2 - movable sleeve; in fig. 3 - the same, with the spring, placed in the extra piston chamber

generator. When rotating the rotor 6, the centrifugal force acts on the sleeves 7 and presses them against the inner surface of the stator 1. At the same time, the gap 4 closes and the leakage into the gap 4 of the working medium decreases. The pressure of the working medium from the side of the rotor 3 to the ends of the sleeves 7 is compensated by the pressure of the working medium in the above-piston chamber 10, which is connected by channel 13 with the cavity of the rotor 3, la la Kaj

The rotor oscillator pressure 10 pressure 14 provides a sub piston drainage

  11P-. 1O l. .. 1G1- tt1gtgch- LM P1 And neither consists of a hollow cylindrical stator 1 with radial channels 2. A hollow cylindrical rotor 3 is placed in the cavity of stator 1 with a gap 4. Radial channels 5 are made in the rotor 3. The rotor 3 The torus 3 is equipped with a drive 6 made in the form of a hydro turbine. The channels 5 are arranged to move the bushings 7, on the outer surface of which the flanges 8 are placed, placed in the chambers 11. The compression spring 12, which is placed in the piston chamber 10, ensures that the sleeves 7 do not contact the inner surface of the stator 1 when the formula is invented

Claims (3)

1. A rotor oscillator of pressure, containing a hollow stator with a radial groove 9 of the rotor 3 and dividing it by 20 channels, a hollow rotor placed by the rifle. .. on nadporshnevuyu 10 and podporshnevuyu 11 cameras. In the overmolder chamber 10 a spring 12 is placed. The over piston chamber 10 is in communication with the channel 13 with the rotor cavity 3, and the piston stone in the stator cavity with a gap, radial channels made in the rotor with the ability to interact with the channels of the stator, and the rotor drive, which 11 - channel 14 The torus 3 is installed in the cavity of the stator 1 on the thrust bearing 15. A hole 16 is made at the end of the rotor 3. The hydroturbine 6 is connected to the inlet 17, and the cavity of the rotor 3 is connected through the channel 18. The generator works as follows. The working medium enters the turbine 6 through the inlet pipe 17 and spins it. From turbine 6, the working medium through channel 18 enters the cavity of rotor 3. An axial orifice 16 ensures the launch of hydro turbine 6 when radial channels 5 are blocked. When rotor 3 is rotated, radial channels 2 of stator 1 intermittently communicate with radial channels 5 of rotor 3, creating pulses outlet pressure | Dporshneva Kame-shchiis those honors, with a whole pioishspg. ,.with. with a gap of 4. Rode-5 reliability and efficiency, the rotor is made of cylinder 30 35 The sleeves are movable along the channels in the rotor channels. 2. The generator according to claim 1, characterized in that the sleeves are provided with collars placed in annular grooves made in the walls of the rotor channels, and dividing the annular grooves into nicks and subscale chambers communicated with the inner rotor cavity and with a gap between rotor and stator, respectively. 3. The generator according to claim 2, characterized in that the areas of the end surfaces of the shoulders and the areas of the ends of the bushings are equal, and a compression spring is installed in the overmolded chamber. generator. When rotating the rotor 6, the centrifugal force acts on the sleeves 7 and presses them against the inner surface of the stator 1. At the same time, the gap 4 closes and the leakage into the gap 4 of the working medium decreases. The pressure of the working medium from the side of the rotor 3 to the ends of the sleeves 7 is compensated by the pressure of the working medium in the above-piston chamber 10, which is connected by channel 13 with the cavity of the rotor 3, la la Kaj  bilge 14 provides subsurface drainage bilge 14 provides subsurface drainage 11P-. 1O l., 1G1- tt1gtgch- LM P1 And the visitor rotor 3. chambers 11. A compression spring 12, which is placed in the above-piston chamber 10, ensures that the sleeves 7 do not contact the inner surface of the stator 1 while the rotor 3 is stationary. Invention Formula 1. A rotor oscillator of pressure, containing a hollow stator with radial channels, a hollow rotor, placed channels, a hollow rotor, placed „l ™ .., -. Ooo ri. EТ Q in the cavity of the stator with a gap, the radial channels made in the rotor with the ability to interact with the channels of the stator, and the drive of the rotor, characterized in that, in order to improve our performance with a whole pioishspg. ,.with. reliability and efficiency, the rotor is made of cylinder and efficiency, the rotor is made of cylinder The sleeves are movable along the channels in the rotor channels. 2. The generator according to claim 1, characterized in that the sleeves are provided with collars placed in annular grooves made in the walls of the rotor channels, and dividing the annular grooves into nicks and subscale chambers communicated with the inner rotor cavity and with a gap between rotor and stator, respectively. 3. The generator according to claim 2, characterized in that the areas of the end surfaces of the shoulders and the areas of the ends of the bushings are equal, and a compression spring is installed in the overmolded chamber. 12 Shchi2.1