SU529448A1 - Device for regulating pressure in a gas-dynamic installation - Google Patents

Description

gas flow rate at the exit to a given mode due to the outflow of gas through the critical nozzle.

The purpose of the invention is to increase the speed of the device.

To do this, an additional shut-off valve, installed between the control chamber and the critical nozzle, and a null organ, whose input is connected to the DUBLING comparison element, one make contact to the power winding of the mode selection relay, and the other to the full shut-off valve

In the drawing, a diagram of a device for controlling pressure in a gas-dynamic installation,

The high pressure KafviGpa 1 is connected via a serially connected back valve 2 and a regulating valve 3 to the control chamber 4, which is connected to a gas-dynamic installation 7 through up to a primary reluctant valve. 5 and a critical nozzle 6. 3, one input of the pressure regulator 8 is connected via a common contact of the mode selection relay 9 to the output of the pre-opening comparison element 1O, to the inputs of which the setting device 11 and the pre-opening sensor 12 are connected, In addition, with a regulating valve 3, another input through the closing contact of the mode selection relay 9 is connected to the output of the pressure comparison element 13, the inputs of which are connected to the control unit 14 and the pressure sensor 15 connected to the control chamber 4. The output of the pressure comparison element 13 is connected also with the input of zero-gan 16, one output of which is connected to the power winding of the relay 9 of the sampling mode of operation, and the other to the additional shut-off valve 5.

In the initial state, the shut-off valves 2, 3 and valve 3 are closed, the power is turned off. The remote sensor 11 sets the pre-opening value of the control valve 3, which provides the required flow through the nozzle 6 at the current pressure of gas in the high-pressure chamber 1 and the specified pressure in the control chamber 4. The pressure in the control chamber 4 is set to the power supply. The error signal at the output of the pressure comparison element 13 keeps the null organ 16 in the zero state, in which there are no output signals, as a result of which the relay 9 is de-energized and the shut-off valve 5 is locked. The error signal from the output of the comparison element 10, through the disconnecting contact of the relay 9 enters the input of the regulator 8 and opens

valve 3 to a predetermined value. After that, the operator (or automatically) opens the shut-off valve 2, and the gas from the high-pressure chamber 1 through the valve 2 and the valve 3 enters the control chamber 4. At that moment when the pressure in the chamber 4 reaches a predetermined value, the output signal is 13 comparison will be equal to zero, the null-body 16 will operate, and at its inputs, there will be signals in the TC, as a result, the relay 9 will operate and the junction / spike 5 will open. Simultaneously closes the closing 9-contact relay, the input controller 8 is connected to the comparing element 1D and pressure regulator and mode switches automatically controlling the gas pressure in the chamber 4, podder.kiva it at a predetermined level.

At the same time, the transient process, and, consequently, the unproductive losses of expensive gases, when they reach the specified pressure regime, is completely excluded. It should be noted that the time of the transient process without this device depends on a whole number of factors and can range from a few seconds to minutes, the operating time of the unit in a given mode is of the order of several minutes. Consequently, the proposed device significantly reduces gas production losses (up to 1O% of the total consumption) and increases the speed of the device when it reaches the specified mode, which improves the quality of the installation.

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A device for regulating pressure in a gas-dynamic installation, comprising a high-pressure chamber connected through a series-connected shut-off valve and a control valve to the control chamber, a critical nozzle connected to the gas-dynamic installation, a pressure regulator whose output is connected to the control valve inlet, one inlet the disconnecting contact of the mode selection relay is connected to the output of the comparison valve element of the pre-opening of the control valve; the rear is connected to the inlets to the outlets A tchik and a pre-opening sensor connected to a control valve, another input through the closing contact of the mode selection relay, is connected to the output of a pressure comparison element, to the inputs of which the supply controller and pressure sensor connected to the control chamber, characterized by

that, in order to increase the speed of the device, an additional shut-off valve installed between the control chamber and the critical nozzle and a null organ, whose input is connected to the pressure comparison element, one make contact to the relay power winding, and the other to the additional shut-off valve, are introduced.