SU456114A1 - Gas Pressure Regulator - Google Patents

Description

The minimum ki simultaneously serves as a guide rod. All changes in the return-and-return parts of the air sensor occur from changes in the working pressure of the gas and, accordingly, affect the diaphragm 33, which is fastened centrally to the stem with the help of washer 34 and lock nut 35.

To install the pulse shut-off valve into the working position, it is necessary to turn the eccentric 19 on the axis 18 until it engages with the groove of the pusher 25 and stop against the plate 23. At the same time, the spring 16 and the bellows 14 will be compressed, the rod 15 together with the valve 13 will move away from the saddle 2. Gas through pipe 9 freely passes to the pilot. A spring 30 is clamped with a nut of maximum 29. At the same time, the pilot 8 raises the operating pressure to an acceptable maximum. Then, using a special nut of maximum 29, it is necessary to loosen the action of the spring of maximum 30 until the eccentric 19 is released from the engagement and, accordingly, the shut-off valve 10 is activated to maximum. Having set the pilot 8 to a minimum of the operating pressure, the spring 31 presses the minimum 32 nut. At the same time, the response of the valve-shutter 10 is adjusted to the minimum. After that, nilotom 8 sets the required working pressure.

When the gas distribution points are operating, the throttled pulsed gas by the pilot 8 enters through the tube 7 under the membrane of the pressure regulator 6 and the force of the pressure of this gas by the pusher 5 and the stem 4 raises the valve 2, detaching itself from the seat 3. In this case, depending on the gas consumption by the consumer, pilot 8 It maintains a predetermined pressure in the regulator network by changing the supply of a pulsed gas through the tube 7 under the membrane 6. According to this principle, pressure regulators operate under normal conditions.

In all cases, when the gas pressure in the output network exceeds the maximum adjustment level, this pressure will reflect on the diaphragm 33 of the air sensor, which, overcoming the spring force of maximum 30, raises the rod 26 and the eccentric pusher 25 with it. In this case, the eccentric 19 comes out of the locking and out of the groove of the stop plate 23. Under the action of the compressed spring 16, the valve 13 sits on the saddle 12, stopping the supply of gas to the pilot 8. As a result, the discharge of the impulse gas under the regulator membrane 6 and the regulator valve 2 under with its own weight sits on its saddle 3, as the pressure of the gas under and above the membrane 6 is immediately equalized. When the operating pressure in the network drops below the permissible set pressure by the spring minimum 32, the minimum gas pressure on the diaphragm 33 is overcome. The rod 26 is lowered, and the eccentric pusher 25 also lowers. The eccentric 19 rotates 90 ° on the axis 18, comes out of loosing and from the groove of the plate 32. Then the valve 10 acts in the same way as at the maximum pressure, and the valve 2 closes, stopping the gas supply to the network.

Subject invention

Gas pressure cutoff regulator with a main valve body having a diaphragm actuator and a pilot valve of the membrane type, characterized in that, in order to expand the functionality of the device, a pulse valve consisting of a spring-loaded valve member is installed in front of the pilot valve and in series with it and a cam drive with a pneumatic sensor.

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