SU547731A1 - Device for remote control of natural gas supply - Google Patents

Description

(54) DEVICE FOR REMOTE CONTROL OF SUPPLY

Claims (2)

NATURAL GAS valve 2 with pneumatic actuator 3 and control valve 4, as well as the first electromagnetic valve 5, control input 6 connected to the output of switch 7, and output 8 to the control input of the pneumatic actuator 3 shut-off valve 2. Input 9 and 10 of the first solenoid valve 5 are connected respectively to the supply channels 11 with compressed air and a vent. The control input 12 of the control valve 4 is connected by channel 13 to the output 14 of the second electromagnetic distributor 15. At the same time, channel 13 has a throttle 16, and on the bypass 17 of the channel 13 is a non-return valve 18. Inputs 19 and 20 of the second electromagnet distributor 15 are connected to the input channel 21 of the analog control signal and the power supply channel 11, and the control input 22 with the output of the switch 7. The device operates as follows :. When the contact is open, the switch 7 controls the inputs 6 and 22 of the electromagnetic valves 5 and 15 are de-energized. At that, the shut-off valve 2 is open, and the control input 12 of the control valve 4 receives an analog control signal regulating the supply of natural gas through the channels 21 and 13. When the contact of the switch 7 is closed, the control inputs 6 and the electromagnetic distributors 5 and 15 communicate with an electrical source . In this case, the electromagnetic distributors. 5 and 15 are switched so that the output 8 and, consequently, the pneumatic actuator 3 communicates with the atmosphere. The shut-off valve 2 is closed by the energy of the transported gas. At the same time, the Batec valve closes and the control valve 4 due to the fact that the control input 12 through channel 13 stops the supply of the analog filling signal to the input channel 21, and the output 14 of the distributor 15 communicates via the input 20 with the power channel 11 with compressed air. When the switch 7 is opened, the control inputs 6 and 22 of the electromagnetic valves 5 and 15 are de-energized. The output channel 8 of the electromagnetic distributor 5 is disconnected from the input 10 and is connected by the input 9 to the supply channel 11. Under the action of compressed air to the pneumatic actuator 3, the valve 2 opens. In this case, the control valve 4 is set to the position corresponding to the size of the analog control signal, due to the fact that the output 14 of the electromagnet} of the distributor 15 is disconnected from the input 20 and connected to the input 19. The required opening and closing times of the control valve 4 are adjusted to with the help of throttles 16 and a check valve 18. When closing the control valve 4, air simultaneously flows through two channels, which ensures its quick closing. When the control valve is opened, air flows through only one channel 13 through the throttle, i.e. along the line with the greatest resistance, which ensures its slow opening. As a result, the closing and opening of the shut-off valve 2 occurs at the moment when the gas flow is blocked by the control valve 4 and there is practically no pressure drop at the valve 2. As a result, the reliability and durability of the shut-off valve is improved. The proposed technical solution for remote control of the natural gas supply is economically justified, since at a cost of a three-way solenoid distributor (solenoid valve) approximately 100 rub. (under conditions of small-scale and pilot production) the reliability of the shut-off valve maintains the required tightness of the valve seal for a longer time (natural gas through the shut-off valves are not allowed), which shortens the valve overhaul time. Stopping the valve for repairs is associated with shutting down the natural gas supply line and short supply of gas to consumers. Eliminating even one well stop (with a debit of 1 million 1 m) to repair the valve within an hour will make it possible to recoup the additional costs. The invention The device for remote control of natural gas supply, containing in series natural gas in the main gas line and controlling 0 or 1 valves and the first solenoid valve, whose inputs are connected to the power and reset channels, the control input to the switch, and to A control input for a shut-off valve, characterized in that, in order to increase the reliability of the device, a second electrical solenoid valve is installed in it, the output of which is connected to the control input p iy; shruyuschego valve inputs - with the inlet channel and supply channel, and a control input - with the output switch. Sources of information taken into account during the examination: 1.Sb. Automation and advanced technology in gas fields abroad, a series of gas engineering, VNII OENT, Moscow, 1966, pp. 33-37. 2.To, in accordance with the topic: Automated control system of technological processes of gas preparation for transportation for the first stage of the Medvezhie gas field, N 76/0 558/52, 1969