RU178984U1 - Compressor installation - Google Patents

Abstract

1. Industry of Use The useful model belongs to compressor engineering and can be used to produce compressed air or gas. 2. The essence of the utility model The peculiarity of the novelty is that in the ejector compressor, unlike the compressors used in industry and at home, the counter pressure of compressed air or gas on the piston is eliminated. The “stabilizer” capacity will ensure stable operation when receiving compressed air or gas of the necessary pressure and volume. 3. Technical result The counter pressure of compressed air or gas on the piston is eliminated in the ejector compressor, which makes it possible to use a piston of any diameter and increase its stroke, this makes it possible to obtain the required volume of the required pressure in industry and in everyday life with minimal energy consumption. 4. The relevance of the utility model The relevance of the utility model is to obtain a cheap, environmentally friendly source of energy, which is especially important in connection with the signing by President V.V. Putin’s Decree on the Year of Ecology in the Russian Federation in 2017.

Description

The utility model relates to the field of compressor engineering and can be used to produce compressed air of the required volume and pressure at the minimum cost of energy consumption, which allows to increase the piston stroke of the compressor and its diameter.

The closest device of the same purpose to the declared one, by the totality of the features adopted for the prototype is a compressor unit containing a reciprocating compressor containing two cylinders with a common partition. They are equipped with pistons on a common rod, which divide the cylinders into the piston and rod chambers. The chambers of the first cylinder are connected through the inlet valves of the ejectors of the intake manifolds with the valves of the second cylinder. The chambers of the second cylinder through the outlet valves are connected to the discharge line, which, in turn, is connected to a container with compressible air.

The reason that impedes the achievement of a stable technical result during the operation of a compressor installation, including a piston compressor adopted as a prototype, is that it uses a container for compressible air, in which the pressure is not constant.

The technical result is that as a result of the fact that in the compressor installation there is no counter pressure of compressible air on the compressor piston, it is possible to use minimal energy consumption, while the stroke of the compressor piston and its diameter are increased, the design of the installation as a whole is simplified.

The technical result is achieved due to the fact that the compressor installation contains one cylinder in which a through rod is installed with a two-cavity piston fixed to it. It forms a chamber filled with oil to lubricate it. The cylinder is connected through a forced intake valve, an intake manifold with an ejector and through exhaust valves and an exhaust manifold pre-filled with compressed air to the required pressure. This tank is connected through a check valve to a tank for collecting air with increasing pressure flowing through the ejector.

The described design of the installation allows using a container pre-filled with compressed air to ensure the stable operation of the compressor installation. When the piston moves back and forth in the cylinder, the compressed air in the container with pre-compressed air is rotated, which eliminates the counter pressure on the piston. This is the main difference between the utility model and other compressor units used in industry and in everyday life. The incoming air through the self-acting valve of the ejector when it enters the tank with pre-compressed air increases the pressure in it and through the check valve goes into the tank to collect the increasing air pressure.

The drawing shows a diagram of a compressor installation.

The installation consists of a cylinder 1, a rod 2, a two-cavity piston 3, a lubrication chamber 4, a circular motion translator 5, forced intake valves 6 and 7, forced exhaust valves 8 and 9, an intake manifold 10, an ejector with a self-acting valve 10, exhaust manifold 12, containers with pre-compressed air 13, check valve 14, containers for collecting increasing air pressure 15.

Installation works as follows.

The circular motion translator-reciprocating movement 5 moves the piston to the left and displaces the air from the cylinder along the exhaust manifold 12 through the exhaust valve 8 into a container with pre-compressed air. At the same time, from this tank, the air through the ejector 11 together with the incoming air through the valve of the ejector 11 enters the cylinder 1 through the intake manifold through the forced valve 7. At the same time, the forced valves 6 and 9 are closed. With the reverse movement of the rod 2 with the piston 3, the valves 7 and 8 are closed, and the valves 6 and 9 are open. The movement of air from the container with pre-compressed air 13 is repeated in the same direction. Thus, with further movement of the piston, the air in the container 13 moves in a circle. The air entering through the self-acting valve of the ejector 11 into the container with pre-compressed air 13 creates an increased pressure in it, after which the check valve 14 is activated. This air enters the tank 15 to limit the increase in pressure of the air entering through the ejector.

Claims (1)

A compressor installation comprising a cylinder in which a through rod with a two-plate piston mounted on it, the two-plate piston forms a chamber filled with oil for lubricating the piston, the rod is connected to a transducer of mechanical rotational motion into a reciprocating piston movement, characterized in that in the operation of the installation one cylinder is used, which is connected to a container pre-filled with compressed air to the required pressure through exhaust valves, exhaust manifold and through inlet main line with an ejector and inlet valves, while the tank filled with compressed air is connected in turn through a check valve to a tank to collect the increasing pressure of the air entering through the ejector.

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