RU127411U1 - PISTON ANGULAR COMPRESSOR THREE-STAGE - Google Patents

Abstract

1. A three-stage angular piston compressor containing a base, a cylinder-piston group, intermediate coolers of the first and second stages, characterized in that the compressor is double-row and contains a differential piston of the second and third stages, while the cylinder of the second stage is combined with the cylinder of the third stage in one block located in a horizontal row, and the cylinder of the first stage is located in a vertical row; - piston rings are made of graphite-based antifriction material. 2. The compressor according to claim 1, characterized in that the piston rings are made of graphitophotoplast. The compressor according to claim 1, characterized in that a lantern is installed in each row between the base frame and the cylinder. The compressor according to claim 1, characterized in that it contains an end refrigerator. The compressor according to claim 1, characterized in that it contains a power drive made in the form of an electric motor, the rotor of which is mounted on the crankshaft of the base. The compressor according to claim 1, characterized in that a suction filter is placed at the gas inlet of the compressor, and a discharge filter is located at the gas outlet. The compressor according to claim 1, characterized in that it contains safety valves. The compressor according to claim 1, characterized in that it contains a lubrication system of the movement mechanism. The compressor according to claim 1, characterized in that it contains an automation system. The compressor according to claim 1, characterized in that it contains a cooling system.

Description

The inventive utility model relates to the field of engineering, namely compressor engineering. The inventive piston angular three-stage compressor is designed to produce compressed gas used as an energy carrier in various industries.

The prior art.

Among the reciprocating three-stage compressors, a vertical-horizontal three-stage compressor of the company "Clark", USA is known. The aforementioned compressor comprises a cylinder group, a piston group, an intermediate cooler of the first stage and an intermediate cooler of the second stage. In this case, the cylinder group contains one cylinder in a vertical row and one cylinder in two horizontal rows, and the cylinders in horizontal rows are located opposite to each other (Frenkel MI, “Piston compressors”, M. - L .: Mashgiz, 1960 city, p. 123, [1]).

The first drawback of the analogue [1] is the placement of each cylinder in a separate row and the opposed arrangement of the cylinders in the horizontal rows of the compressor. This arrangement leads to an increase in size and material consumption of the compressor. This also leads to the fact that during installation and dismantling of the compressor, as well as during its repair and maintenance, it is necessary to have a larger area. The second disadvantage of the analogue [1] is that when the compressor is lubricated with cylinders, oil deposits form in the compressor air duct system. In addition, the oil content in the gas at the outlet of the compressor is high. Such a compressor cannot be used at enterprises in those industries where the requirements for the quality of compressed gas are high, for example, at enterprises in the food and pharmaceutical industries. Moreover, for compressors with cylinder lubrication, piston rings, as a rule, are made of materials with a high coefficient of friction, which leads to the formation of scoring on the working surfaces of the cylinders.

Disclosure of a utility model.

The technical result provided by the claimed utility model is to reduce the size of the oil-free compressor.

The essence of the utility model is that a three-stage angular piston compressor contains a base, a cylinder-piston group, intermediate refrigerators of the first and second stages. Wherein:

- the compressor is double-row and contains a differential piston of the second and third stages, while the cylinder of the second stage is combined with the cylinder of the third stage in one block located in a horizontal row, and the cylinder of the first stage is located in a vertical row;

- piston rings are made of graphite-based antifriction material.

The compressor piston rings are preferably made of graphitophotoplastics.

A lantern can be installed in each row between the base frame and the cylinder.

The compressor desirably comprises an end cooler.

The compressor mainly contains a power drive, made in the form of an electric motor, the rotor of which is mounted on the crankshaft of the base.

A suction filter is preferably located at the compressor gas inlet, and a pressure filter is located at the gas outlet.

The compressor advantageously comprises safety valves.

The compressor preferably comprises a motion lubrication system.

The compressor preferably comprises an automation system.

The compressor preferably comprises a cooling system.

A brief description of the drawings.

The drawing shows a diagram of a three-stage reciprocating piston compressor.

Implementation of a utility model.

A three-stage cylinder piston compressor contains a base, a cylinder-piston group, working valves, intermediate coolers of the first and second stages (9, 10), an end cooler (10), a lubrication system for movement mechanisms, an automation system and a cooling system.

The compressor base contains a bed, a crankshaft (1), connecting rods (2) and crossheads (3) (Fig. 1).

The cylinder-piston group contains vertical and horizontal rows of cylinders (4, 5, 6), a piston of the first stage (7) and a differential piston of the second and third stages (8). The cylinder of the first stage (4) is located in a vertical row. The cylinder of the second stage (5) is combined with the cylinder of the third stage (6) in one block located in a horizontal row. In each row, between the bed and the cylinder (4, 5), a lantern (not shown) is installed. Sealing and closing the gap between the piston (7) and the cylinder (4) of the first stage, and sealing and closing the gap between the differential piston (8) and the cylinders (5, 6) of the second and third stages is carried out by piston rings. In this case, the piston rings are made of graphite-based antifriction material. This choice of material for the piston rings is due to the fact that graphite and materials based on it have high thermal conductivity, chemical resistance, sufficiently high mechanical strength and the ability to lubricate friction surfaces.

The compressor is driven by an electric motor, the rotor of which is mounted on the crankshaft (1).

An intermediate refrigerator of the first stage (9) is designed to cool the gas between the first and second compression stages, and an intermediate refrigerator of the second stage (10) is designed to cool the gas between the second and third compression stages.

The terminal cooler (11) is designed to cool the hot compressed gas after the third stage of the compressor. The intermediate refrigerator of the second stage (10) and the end refrigerator (11) are made horizontal.

The lubrication system of the movement mechanisms is designed to lubricate the rubbing surfaces of the movement mechanism, namely the crankshaft (1), connecting rods (2) and crossheads (3).

The automation system provides monitoring, control and emergency protection of the compressor.

The cooling system is designed to remove excess heat from the compressor.

Examples of specific performance.

Example 1. In order to purify gas from contaminants in the form of solid particles, a suction filter is placed at the compressor gas inlet. In order to clean the gas supplied to the consumer from particles of oil and water, an injection filter is placed at the compressor gas outlet.

Example 2. Piston rings are made of graphitophotoplastics with high antifriction properties.

Work description.

Gas, mainly oxygen, enters the suction filter, and then into the first stage of a three-stage reciprocating compressor. From the first stage of the compressor, gas with a higher pressure and temperature enters the intermediate cooler of the first stage (9), where the gas is cooled. From the output of the intermediate refrigerator of the first stage (9), the cooled gas enters the second and third stages of compression, cooling after the second stage in the intermediate refrigerator of the second stage (10). In the third stage of compression, the gas is compressed to a final pressure and enters the consumer. In this case, the compressed gas is obtained of high purity - without the content of oil vapor.

When the compressor is operating, the piston rings rub against the working surfaces of the cylinders (4, 5, 6). In this case, the piston rings overlap the gap between the pistons (7, 8) and the working surfaces of the cylinders (4, 5, 6). Each piston ring during operation is pressed by its outer surface to the working surface of the cylinder under the action of a gas pressure drop in front of and behind the ring, as well as by elastic forces. When the piston rings rub against the working surfaces of the cylinders (4, 5, 6), graphite-based antifriction material from which the aforementioned rings are made lubricates the friction surfaces. This leads to a significant decrease in the wear rate of the working surfaces of the cylinders (4, 5, 6) and makes it possible to operate the compressor without supplying lubricant to the cylinders.

Thus, from the foregoing, it follows that in the inventive compressor of a three-stage angular piston, the claimed technical result: "reducing the dimensions of an oil-free compressor" is achieved due to the fact that the three-stage angular piston compressor contains a base, a piston-cylinder group, intermediate coolers of the first and second stages. Wherein:

- the compressor is double-row and contains a differential piston of the second and third stages, while the cylinder of the second stage is combined with the cylinder of the third stage in one block located in a horizontal row, and the cylinder of the first stage is located in a vertical row;

- piston rings are made of graphite-based antifriction material.

The authors of the utility model made a prototype of the inventive piston angular three-stage compressor, the tests of which confirmed the achievement of the technical result.

The inventive utility model is implemented using industrially produced devices and materials, can be manufactured at a machine-building enterprise and will be widely used in the chemical, coal and mining industries, the fields of extraction, processing, transportation and marketing of oil and gas products.

Claims (10)

1. A three-stage angular piston compressor containing a base, a cylinder-piston group, intermediate refrigerators of the first and second stages, characterized in that - the compressor is double-row and contains a differential piston of the second and third stages, while the cylinder of the second stage is combined with the cylinder of the third stage in one block located in a horizontal row, and the cylinder of the first stage is located in a vertical row; - piston rings are made of graphite-based antifriction material. 2. The compressor according to claim 1, characterized in that the piston rings are made of graphitophotoplastics. 3. The compressor according to claim 1, characterized in that a lantern is installed in each row between the base frame and the cylinder. 4. The compressor according to claim 1, characterized in that it contains an end refrigerator. 5. The compressor according to claim 1, characterized in that it contains a power drive made in the form of an electric motor, the rotor of which is mounted on the crankshaft of the base. 6. The compressor according to claim 1, characterized in that at the gas inlet of the compressor there is a suction filter, and at the gas outlet there is a pressure filter. 7. The compressor according to claim 1, characterized in that it contains safety valves. 8. The compressor according to claim 1, characterized in that it contains a lubrication system of the movement mechanism. 9. The compressor according to claim 1, characterized in that it contains an automation system. 10. The compressor according to claim 1, characterized in that it contains a cooling system.

Images