RU33184U1 - COMPRESSOR - Google Patents

Abstract

1. A compressor including a hollow body, a rotor, a suction valve, an outlet, characterized in that the rotor is made with at least one piston, the body is equipped with a decompression valve and a shutter located between the decompression valve and the suction valve. The compressor according to claim 1, characterized in that the casing is equipped with a one-way valve connected to the high-pressure tank and located on the side of the decompression valve. Compressor according to any one of claims 1 or 2, characterized in that the decompression valve is connected to the suction valve. The compressor according to claim 2, characterized in that the high pressure vessel is connected to a suction valve through a control valve.

Description

The utility model is used to produce compressed air or gas and can be used in various fields of technology.

A known compressor (see, for example, Polytechnical Dictionary, M., 1976. P.222 - prototype), which includes a hollow body, a rotor with slots, sliding vanes, a suction valve, an outlet for the release of compressed air. According to the technical nature and the achieved result, it is the closest to the offer and is selected as a prototype. A disadvantage of the known compressor is its sufficient complexity due to the presence of sliding blades and the need to perform a rotor with slots.

The technical problem solved by the utility model is to simplify the design of the compressor.

The technical problem is solved as follows. In a compressor including a hollow body, a rotor, a suction valve, an outlet, the rotor is made with at least one piston, the body is equipped with a decompression valve and a shutter located between the decompression valve and the suction valve. Due to the implementation of the compressor with a rotor made with at least one piston, the housing is equipped with a decompression valve and a shutter located between the decompression valve and the suction valve, simplification of the compressor design is achieved. To create excess pressure, it is advisable to provide the casing with a one-way valve connected to the high-pressure tank and located on the side of the decompression valve. It is advisable to more quickly equalize the pressure in the compression chamber and the low-pressure chamber to connect the decompression valve to the suction valve. It is advisable to maintain a high pressure to connect a high pressure tank with a suction valve.

COMPRESSOR

depending on the purpose, the required power and productivity of the compressor, the number of pistons can be increased, while the size and shape of the pistons and valves are determined by calculations, they are placed with minimal gaps to ensure the necessary tightness and the ability to move. Opening and closing the valves can be carried out mechanically, hydraulically or electrically, depending on the purpose of the compressor, ensuring ease of use and operational reliability. With minor design changes, the compressor can be used as a pump.

The utility model is illustrated in the figure. Pa fig. The compressor is shown in section. The compressor includes a hollow housing 1, a rotor 2 with an axis 3, a piston 4, a suction valve 5, a decompression valve 6, a shutter 7, a one-way valve 8, a high pressure tank 9, while the walls of the housing 1, the piston 4, and the shutter 7 form a compression chamber 10 , the other walls of the housing 1, the piston 4 and the shutter 7 form a low-pressure chamber 11, a dotted line 12 shows the connection of the high-pressure tank with a suction valve.

The compressor operates as follows. The piston is in position I, the shutter 7, the suction valve 5 and the decompression valve 6 are closed. In the opposite direction from the shutter 7 from the external source through the axis 3, the rotor 2 and the piston 4 are set in motion. In the compression chamber 10, air is compressed, which is supplied through the one-way valve 8 to the external medium or to the high pressure vessel 9. As the piston 4 moves away from the valve 7 in the low pressure chamber 11, pressure decreases, as a result of which the suction valve 5 opens and air or gas fills the low pressure chamber. When the piston 4 reaches position II, the suction valve 5 closes, the decompression valve 6 opens, the one-way valve 8 closes. The pressure in the compression chamber 10 and the low-pressure chamber 11 is equalized, the valve 7 opens, the piston 4 returns to position I, the valve 7 closes. Then the cycle repeats. The decompression valve 6 can be connected to the suction valve 5. If it is necessary to maintain high pressure, the high pressure vessel 9 can be connected (12) to the suction valve 5 through a control valve (not shown).

Thus, the proposed compressor is easy to manufacture and makes it possible to use it to produce compressed air and gas in plants of various capacities and capacities.

Claims (4)

1. A compressor comprising a hollow body, a rotor, a suction valve, an outlet, characterized in that the rotor is made with at least one piston, the body is equipped with a decompression valve and a shutter located between the decompression valve and the suction valve. 2. The compressor according to claim 1, characterized in that the casing is equipped with a one-way valve connected to a high-pressure tank and located on the side of the decompression valve. 3. The compressor according to any one of claims 1 or 2, characterized in that the decompression valve is connected to the suction valve. 4. The compressor according to claim 2, characterized in that the high pressure vessel is connected to a suction valve through a control valve.