RU205654U1 - Compressor unit - Google Patents

Abstract

The utility model relates to the field of compressor engineering and can be used to obtain compressed air of the required volume and pressure with minimal consumption of energy. The compressor unit includes a first cylinder with a piston, the rod of which is connected to a converter of a mechanical rotational into a reciprocating piston movement, a piston chamber of the first cylinder is connected through self-acting valves, an ejector with a container with compressed air, the rod chamber of the first cylinder through self-acting valves is connected to a container with compressed air, which is connected to a container for collecting air with increasing pressure through a check valve, while the installation is equipped with a second cylinder with a piston located parallel to the first cylinder, the rod of the second cylinder is connected to the rod of the first cylinder, the piston and rod chambers of the second cylinder are connected through self-acting valves to the incoming air and through the air duct to the ejector. 1 ill.

Description

The utility model relates to the field of compressor engineering and can be used to obtain compressed air of the required volume and pressure with minimal energy consumption.

As a prototype, a compressor unit was selected containing a cylinder in which a through rod with a double-cavity piston fixed on it is located, the double-cavity piston forms a chamber filled with oil for lubricating the piston, the rod is connected to a transducer of mechanical rotational motion into the reciprocating movement of the piston, while in the operation of the installation uses one cylinder, which is connected to a tank pre-filled with compressed air to the required pressure through the exhaust valves, an exhaust line and through an inlet line with an ejector and inlet valves, while the tank filled with compressed air is connected through a check valve with a container for collecting the increasing pressure of air entering through the ejector. [RF patent No. 178984. IPC: F04B 41/02. Compressor installation. Published: 24.04.2018. Bul. No. 12].

The disadvantage of the prototype is the insufficient pressure of atmospheric air entering through the ejector for further compression, which prevents the required pressure and volume from being obtained.

The technical result is the elimination of the counter pressure of the compressed air on the piston. This makes it possible to increase the piston area and obtain high performance with minimal energy consumption.

The technical result is achieved due to the fact that the compressor unit includes the first cylinder with a piston, the rod of which is connected to the converter of the mechanical rotary into the reciprocating movement of the piston, the piston chamber of the first cylinder is connected through self-acting valves, the ejector with a container with compressed air, the rod chamber of the first cylinder through self-acting valves it is connected to a container with compressed air, which is connected to a container for collecting air with increasing pressure through a check valve, while the installation is equipped with a second cylinder with a piston placed parallel to the first cylinder, the rod of the second cylinder is connected to the rod of the first cylinder, piston and rod the chambers of the second cylinder are connected through self-acting valves to the incoming air and through the air duct to the ejector.

The device is presented graphically in the drawing, which indicates: the axis of the gearbox of the circular motion converter - 1, the disc with an offset center - 2, the frame - 3, the pusher - 4, the cylinder - 5, the piston - 6, the over-piston chamber - 7, the rod - 8, the rod chamber - 9, outlet line - 10, valve - 11, valve - 12, ejector - 13, container, stabilizer - 14, inlet line - 15, valve - 16, valve - 17, cylinder - 18, piston - 19, overpiston chamber - 20, stem - 21, rod chamber - 22, outlet valve - 23, inlet valve - 24, outlet valve - 25, inlet valve - 26, air duct - 27, channel connecting with check valve 28, compressed air collection container - 29, valve pressure limitation - 30, consumer valve - 31.

The compressor unit works as follows.

When the installation is turned on, the axis 1 of the gearbox of the circular motion converter to the forward-return, rotating, sets in motion a disk fixed on it with an offset center 2. A frame 3 with a pusher is installed on the disk 4. The installation has two parallel cylinders 5 and 18, pistons 6 and 19 connected by rods 8 and 21, fixed to the pusher 4.

When moving, the disc 2 changes the distance from its edge to the center 1, which drives the frame 3, after which the frame through the pusher 4 drives the pistons 6 and 19 of cylinders 5 and 18.

The piston 6 of the cylinder 5, when moving, displaces air from the above-piston chamber 7 along the outlet line 10, the valve 11, the ejector 13, the "stabilizer" tank 14. From this tank 14, along the inlet line 15, the valve 16, enters the rod chamber 9.

When the piston 6 of the cylinder 5 moves in the opposite direction, valve 11 and valve 16 are closed, valves 12 and 17 are opened. The compressed air of the “stabilizer” tank 14 is set in circular motion along the inlet and outlet lines 10 and 15 with self-acting valves.

At the same time, the frame 3 through the pusher 4 drives the piston 19 of the cylinder 18, which displaces air from the above-piston chamber 20 through the valve 23, the air line 27, the valve 24 is closed. Air enters the ejector 13. The rod chamber 22 of the cylinder 19 is filled through the valve 26 to obtain compressed air, the valve 25 is closed.

When the piston 19 moves in the opposite direction, the valves 23 and 26 close, the valves 24, 25 open, the air through the air line 27 enters the ejector 13 in the circular air movement circuit of the container 14.

The intake air pressure must be higher than the circular pressure in the ejector 13.

The incoming air, together with the circular air, increases the pressure in the "stabilizer" tank 14, the check valve 28 of the channel opens, connecting the compressed air collection tank 29 to the "stabilizer" tank.

The air entering through the check valve 28 fills the container 29 to the required pressure without counter pressure.

Claims (1)

Compressor installation, including the first cylinder with a piston, the rod of which is connected to the converter of the mechanical rotary into the reciprocating movement of the piston, the piston chamber of the first cylinder is connected through self-acting valves, the ejector with a container with compressed air, the rod chamber of the first cylinder through self-acting valves is connected to the container with compressed air, which is connected to a tank for collecting air with increasing pressure through a check valve, characterized in that the installation is equipped with a second cylinder with a piston located parallel to the first cylinder, the rod of the second cylinder is connected to the rod of the first cylinder, the piston and rod chambers of the second cylinder through self-acting the valves are connected to the incoming air and through the duct to the ejector.

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