RU2004922C1 - Device for emergency shutting off pipeline in hydraulic system with pump station and hydraulic tank - Google Patents

Description

two-position three-way valve 9, hydroback 10, while the control cavity of the valve 7 and its first hydraulic line are connected to the inlet, the hydraulic resistance 5, its second hydraulic line is connected to the control cavity of valve 1, the third hydraulic line is connected to the hydraulic tank 10, the fourth hydraulic line is connected to one from the inputs of the valve 8, the fifth hydraulic line is connected to another input of the valve 8 and the first hydraulic line of the control valve 9, the second hydraulic line of which is connected to the output of the pumping station 4, a third of the hydraulic audio is connected to the hydraulic tank 10 and the control chamber is connected to the outlet valve 8.

The device operates as follows. When the pumping station 4 is turned off, there is no flow and therefore pressure in the pipelines 3 and 6, the 7 t 9 valves are in the initial position 1. The control cavity of valve 1 is connected to the hydraulic tank 10 and the valve is open. When the pumping station 4 is turned on in line 3, then in line 6, a flow of liquid appears and under the influence of pressure in line 6, the distributor moves to position II, while pressure is applied to one of the inlets of valve 8, which transfers the shut-off-control element valve 8 and the fluid enters the control cavity of the distributor 9. DistributionFormula 1. The EMERGENCY-SHOP PIPING DEVICE IN A HYDRAULIC SYSTEM WITH A PUMPING STATION AND A HYDRAULIC SYSTEM, containing a locking mechanism and a flow sensor installed in the pressure pipe of the hydraulic system, characterized in that, in order to increase the efficiency of the hydraulic system, it is equipped with a flow sensor installed in the drain pipe of the hydraulic system, an HE element, two AND elements and a memory element, wherein the output of the flow sensor installed in the drain pipe connected to the input of the element NOT and one of the inputs of the first element And, the other input of which is connected to the output of the flow sensor installed in the pressure pipe, and the output is connected to the input of the memory element, exit for which it is connected to one of the inputs of the second AND element, the other input of which is connected to the output of the element NOT, and the output to the control input of the locking mechanism.

2. The device according to claim 1. characterized in that each flow sensor is implemented.

the extender 9 switches to position II and connects the output of the pumping station 4 through valve 8 with its control cavity, which ensures constant fixation of the cutter 5 of the limiter 9 in position II until the pump station 4 is turned off. This position is normal operating, wherein the distributor 7, located in position II, connects the control

10, the cavity of valve I with a hydraulic tank, and valve 1 remains open. When any pipeline ruptures, a decrease in flow rate and pressure drop in the pipeline 6 and, therefore, in the control cavity

5 of the distributor 7, Under the action of the spring, the distributor 7 moves to the initial position I, while controlling the cavity of the valve 1 through the distributor 9, located in position II, is connected to

0 by the outlet of the pumping station 4, and under the influence of pressure in the pressure pipe 3, valve 1 closes.

Thus, the pressure line of the pumping station is blocked and the possibility of loss of the working fluid through the place of emergency rupture of any pipeline is prevented, while the volume of losses will be determined by the pump flow and the response time of the device.

0

(56) Bashta, T.M. Hydraulics engineering. M. Engineering, 1972, p. 425.

in the form of hydraulic resistance, the element NOT connected to one of the And elements, in the form of a two-position pilinear directional control valve, the other And element, in the form of a two-position three,. linear valve, the memory element is in the form of a hydraulic valve OR, the locking mechanism is in the form of a hydraulic valve, while the control cavity of the two-position pilinear valve

5 and its first hydraulic line are connected to the input of the hydraulic resistance installed in the drain pipe, its second hydraulic line is connected to the control cavity of the hydraulic valve, one third of the hydraulic line is connected to the hydraulic tank, the fourth of the hydraulic line is connected to one of the inputs of the OR hydraulic valve, and the fifth of the hydraulic line is to the other input hydraulic valve OR and the first hydraulic line of a two-position three-line

5 of the control valve, in which the second hydraulic line is connected to the outlet of the pumping station to hydraulic resistance, a third of the hydraulic line is connected to the hydraulic tank, and the control cavity is connected to the output of the OR hydraulic valve.