RU2499157C1 - Six-stage piston compressor with rectangular location of cylinders - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: six-stage piston compressor with rectangular location of cylinders comprises a base, cylinder-piston groups, refrigerators (16, 17, 18, 19, 20, 21) and the first buffer reservoir (22). The compressor is made as double-row, besides, in the vertical row there is a cylinder-piston group of the first, third and fifth stages, and in the horizontal row there is the cylinder-piston group of the second, fourth and sixth stages, at the same time the inlet of the first buffer reservoir (22) is connected with the outlet of the sixth compression stage. The outlet of the fourth stage of compression is connected to the inlet of the second buffer reservoir (23), and the outlet of the fifth stage of compression is connected to the inlet of the third buffer reservoir (24).

EFFECT: prevention of gas pulsations on the fourth, fifth and sixth stages of a piston six-stage compressor with rectangular location of cylinders.

8 cl, 1 dwg

Description

The field of technology.

The claimed invention relates to the field of mechanical engineering, namely compressor engineering. The inventive six-speed piston compressor with a rectangular arrangement of cylinders is designed to produce compressed gas and is used to create excess pressure in oil wells, to supply compressed gas to various mechanisms and pneumatic tools, in many technological processes of the chemical industry and other industries.

The prior art.

Among piston six-speed compressors with a rectangular arrangement of cylinders, for example, a compressor containing a base, cylinder-piston groups, refrigerators and a buffer tank is known. In this case, the compressor is made in two rows, with the cylinder-piston group of the first, third and fifth stages located in the vertical row, and the cylinder-piston group of the second, fourth and sixth stages located in the horizontal row. In addition, a buffer tank is placed in front of the terminal refrigerator (M. Frenkel, “Piston Compressors”, L .: Mashinostroenie, 1969, p. 630, [1]).

The disadvantage of the above analogue [1] is that when the refrigerators of the fourth and fifth steps are tubular, pressure fluctuations — pulsations — occur in the tubes of the refrigerators. This is due to the periodic absorption of gas into the cylinders and the periodic injection of gas from the cylinders. These pulsations significantly affect the operation of the compressor, namely, they increase the specific energy consumption, worsen the operation of the valves and cause vibrations in gas communications.

Disclosure of the invention.

The technical problem to which the claimed invention is directed is to expand the types of heat exchangers that can be used as inter-stage refrigerators in six-stage piston compressors with a rectangular arrangement of cylinders.

The technical result provided by the claimed invention is the prevention of pulsations of gas at the fourth, fifth and sixth stages of a piston six-stage compressor with a rectangular arrangement of cylinders.

The essence of the invention lies in the fact that the six-stage piston compressor with a rectangular arrangement of cylinders contains a base, cylinder-piston groups, refrigerators and a first buffer tank. In this case, the compressor is made in two rows, with the cylinder-piston group of the first, third and fifth stages located in the vertical row, and the cylinder-piston group of the second, fourth and sixth stages located in the horizontal row, while the input of the first buffer tank is connected to the output of the sixth compression stage . The output of the fourth compression stage is connected to the input of the second buffer tank, and the output of the fifth compression stage is connected to the input of the third buffer tank.

An air filter is usually located at the compressor gas inlet.

Refrigerators of the first, second and third stages preferably contain finned tubes.

Refrigerators of the fourth, fifth and sixth stages are preferably located on a common frame.

The refrigerators of the fourth, fifth and sixth steps are preferably of the “pipe in pipe” type.

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

The compressor desirably comprises first, second and third dehumidifiers. The input of the first dehumidifier is connected to the outlet of the fourth stage refrigerator, the input of the second dehumidifier is connected to the outlet of the fifth stage refrigerator, the inlet of the third dehumidifier is connected to the outlet of the sixth stage refrigerator.

The piston of the first to third stage and the piston of the second to fourth stage are preferably made differential.

A brief description of the drawings.

The drawing shows a diagram of a six-stage piston compressor with a rectangular arrangement of cylinders.

The implementation of the invention.

A six-stage piston compressor with a rectangular arrangement of cylinders is double-row and contains a base, a cylinder-piston group of the first, third and fifth stages, a cylinder-piston group of the second, fourth and sixth stages, a first stage refrigerator (16), a second stage refrigerator (17), a refrigerator third stage (18), fourth stage refrigerator (19), fifth stage refrigerator (20), sixth stage refrigerator (21), first buffer tank (22), second buffer tank (23), third buffer tank (24), first dehumidifier (25) WTO a swarm of water separator (26) and a third moisture separator (27).

An air filter (1) is placed at the gas inlet to the compressor.

The compressor drive is a high-voltage electric motor, the rotor of which is mounted on the crankshaft of the base.

The compressor base contains a bed (not shown), a crankshaft (2), connecting rods (3) and crossheads (4).

The cylinder-piston group of the first, third and fifth stages is located in a vertical row and contains the cylinder of the first stage (5), the cylinder of the third stage (6), the cylinder of the fifth stage (7), the differential piston of the first and third stage (8), the piston of the fifth stage (9) and the first stem (10). The differential piston of the first and third stages (8) is made of cast iron, and the piston of the fifth stage (9) and the first rod (10) are made of steel.

The cylinder-piston group of the second, fourth and sixth stages is located in a horizontal row and contains a second stage cylinder (11), a fourth stage cylinder (12), a sixth stage cylinder (13), a second and fourth stage differential piston (14), a sixth stage piston (15) and the second stem (28). The differential piston of the second and fourth stages (14) is made of cast iron, and the piston of the sixth stage (15) and the second rod (28) are made of steel.

Refrigerators (16, 17, 18, 19, 20, 21) are made tubular and are designed to cool the gas after compression stages. Refrigerators of the first, second and third stages (16, 17, 18) contain finned tubes. The refrigerators of the fourth, fifth and sixth stages (19, 20, 21) are preferably of the “pipe in pipe” type and placed on a common frame (not shown).

The first, second and third buffer tanks (22, 23, 24) are designed to smooth the pulsations of the gas leaving the compressor cylinders, so that after leaving the buffer tanks (22, 23, 24) the gas flow does not affect the operation of gas communications and refrigerators of the sixth, fourth, fifth and steps (21, 19, 20). The first buffer tank (22) is located after the sixth stage of compression, preferably in front of the refrigerator of the sixth stage (21). The second buffer tank (23) is placed after the fourth compression stage, preferably in front of the fourth stage refrigerator (19). The third buffer tank (24) is located after the fifth compression stage, preferably in front of the refrigerator of the fifth compression stage (20).

The first, second and third dehumidifiers (25, 26, 27) are designed to separate condensate from the compressed gas cooled in refrigerators (19, 20, 21). The first dehumidifier (25) is located after the fourth-stage refrigerator (19). The second dehumidifier (26) is located after the fifth stage refrigerator (20). A third dehumidifier (27) is located after the sixth stage refrigerator (21).

Examples of specific performance.

Example 1. In order to ensure compressor performance equal to 19 ÷ 21 m ³ / min, when the compressor is operating with an initial pressure in the range of 0.86 ÷ 1.09 kgf / cm ² and a final pressure of 220 kgf / cm ² , the main dimensions of the compressor are the following values (table 1):

Table 1 The main parameters and characteristics of the compressor Parameter Name Value The diameter of the cylinder of the first stage, mm 420 The diameter of the cylinder of the second stage, mm 260 The diameter of the cylinder of the third stage, mm 220 The diameter of the cylinder of the fourth stage, mm 150 Diameter of the fifth stage cylinder, mm 85 The diameter of the cylinder of the sixth stage, mm 55 Piston stroke mm 300 Rod diameter mm 60 The frequency of rotation of the crankshaft, rpm 375 The pressure of the first stage, kgf / cm ² 1.6 ÷ 2.2 The discharge pressure of the second stage is, kgf / cm ² 5.0 ÷ 6.8 The discharge pressure of the third stage is, kgf / cm ² 14.0 ÷ 18.0 The discharge pressure of the fourth stage is, kgf / cm ² 33.2 ÷ 40.0

The discharge pressure of the fifth stage is, kgf / cm ² 85.0 ÷ 98.0 Dimensions of the compressor, m - length 8.63 - width 5.00 - height 3.80 Mass of the compressor, kg, no more - without power drive and automation system 7500

Work description.

Gas, mainly air, enters the first stage of the compressor, where it is compressed, and then cooled in the refrigerator (16). After that, the cooled gas passes through the second, third and fourth stages of compression, while cooling between the stages in refrigerators (17, 18). After the fourth stage of compression, the gas enters the buffer tank (23), where smoothing of the gas pulsation takes place. From here, the compressed gas enters the fourth stage refrigerator (19) and then to the first dehumidifier (25), where condensate is separated from the gas. After the first dehumidifier (25), the compressed gas enters the fifth and sixth stages of compression, after which the same processes occur - smoothing of gas pulsations in buffer tanks (24, 22), gas cooling in the fifth and sixth stage refrigerators (20, 21) and separation condensate from gas in the second and third dehumidifiers (26, 27). After the third dehumidifier (27), the gas enters the consumer.

Thus, from the foregoing, it follows that in the inventive six-speed piston compressor with a rectangular arrangement of cylinders, the claimed technical result: "preventing gas pulsations at the fourth, fifth and sixth stages of a six-speed piston compressor with a rectangular arrangement of cylinders" is achieved due to the fact that the six-speed piston compressor has a rectangular arrangement of cylinders contains a base, cylinder-piston groups, refrigerators and a first buffer tank. In this case, the compressor is made in two rows, with the cylinder-piston group of the first, third and fifth stages located in the vertical row, and the cylinder-piston group of the second, fourth and sixth stages located in the horizontal row, while the input of the first buffer tank is connected to the output of the sixth compression stage . The output of the fourth compression stage is connected to the input of the second buffer tank, and the output of the fifth compression stage is connected to the input of the third buffer tank.

Industrial applicability.

The inventors made a prototype of the inventive six-speed piston compressor with a rectangular arrangement of cylinders, the tests of which confirmed the achievement of the technical result.

The invention 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, and in the fields of extraction, processing, transportation and marketing of oil and gas products.

Claims (8)

1. A six-stage piston compressor with a rectangular arrangement of cylinders, containing a base, cylinder-piston groups, refrigerators and a first buffer tank, the compressor being double-row, with a cylinder-piston group of the first, third and fifth stages in a vertical row, and in a horizontal row a cylinder-piston group of the second, fourth and sixth stages is located, wherein the input of the first buffer tank is connected to the output of the sixth compression stage, characterized in that the output of the fourth compression stage with of the connections to the input of the second buffer capacitance, and the output of the fifth stage of compression is connected to the input of the third buffer tank. 2. The compressor according to claim 1, characterized in that an air filter is placed at its gas inlet. 3. The compressor according to claim 1, characterized in that the refrigerators of the first, second and third stages contain finned tubes. 4. The compressor according to claim 1, characterized in that the refrigerators of the fourth, fifth and sixth stages are placed on a common frame. 5. The compressor according to claim 3, characterized in that the refrigerators of the fourth, fifth and sixth stages are made according to the “pipe in pipe” type. 6. The compressor according to claim 1, characterized in that it contains a power drive made in the form of a high-voltage electric motor, the rotor of which is mounted on the crankshaft of the base. 7. The compressor according to claim 1, characterized in that it contains first, second and third dehumidifiers, wherein the input of the first dehumidifier is connected to the outlet of the fourth stage refrigerator, the inlet of the second dehumidifier is connected to the outlet of the fifth stage refrigerator, the inlet of the third dehumidifier is connected to the outlet of the sixth refrigerator steps. 8. The compressor according to claim 1, characterized in that the piston of the first or third stage and the piston of the second or fourth stage are made differential.