RU1166557C - Compressor with hydraulic drive - Google Patents

Description

 The invention relates to energy and can be used as a booster compressor.

 The purpose of the invention is to increase the efficiency of the compressor.

 The drawing schematically shows a compressor with a hydraulic drive.

 It contains working chambers 1 and 2 with suction 3 and 4 and discharge 5 and 6 valves, nozzles 7 and 8 for supplying and discharging liquid, located in chambers 1 and 2, signaling devices 9 and 10 of the upper liquid level, pump 11 and a rotary two-way on / off distribution valve 12, controlled by signaling devices 9 and 10, connected to the output 13 of the pump 11 and the nozzles of the corresponding chamber, alternately overlapping the nozzles 7 and 8 of the fluid supply and discharge. The compressor is equipped with a hydraulic turbine 15 mounted on the shaft 14 of the pump 11, the input 16 of which is connected to the discharge pipes 8 after the valve 12, and the output 17 is hydraulically connected to the input 18 of the pump 11. The pump 11 is connected to a source of mechanical energy 19. Gas is supplied to chambers 1 and 2 along highway 20, and is discharged along highway 21.

The compressor operates as follows. The source of mechanical energy 19 is turned on, the valve 12 is installed in a position that allows the passage of fluid through the nozzles 7 and 8. In this case, the fluid begins to be pumped from one chamber to another, for example from chamber 2 to chamber 1, as shown in the drawing, through the discharge pipe 8 through a crane 12, a hydraulic turbine 15, a pump 11 in the pipe 7 fluid supply. At the same time, gas from the line 20 through the suction valve 4 enters the chamber 2, thereby squeezing out the liquid, which acquires the potential energy that is converted into mechanical energy in the turbine 15, which is transmitted through the shaft 14 to the pump 11. In the pump 11, the mechanical energy of the turbine 15 and the source 19 is again it is converted into the potential energy of the liquid pressure, but already at a higher level, providing an increase in gas pressure compared to its initial pressure. After increasing the gas pressure in the chamber 1 to the gas pressure in the line 21, the discharge valve 5 opens, and the gas is displaced into the line 21. By the time the gas is completely displaced from the chamber 1, the indicator 9 closes in it, which gives the command to automatically turn ^the tap angle 90 ° 12, and the process repeats in the opposite direction.

 The proposed compressor design improves efficiency by reducing energy consumption.

Claims (1)

 A HYDRAULIC DRIVE COMPRESSOR, containing working chambers with suction and discharge valves and fluid supply and discharge pipes, high-level liquid level signaling devices located in the chambers, a pump and a rotary two-way on / off distribution valve controlled by signaling devices, connected to the pump outlet and pipes of the corresponding chamber and alternately blocking chambers for supplying and draining chambers, characterized in that, in order to increase efficiency, the compressor is equipped with a pump installed on the pump shaft idroturbine, the input of which is connected to the discharge pipes after the taps, and the output is hydraulically connected to the pump inlet.

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