SU1352216A2 - Device for metering liquid - Google Patents

Abstract

The invention relates to a measuring technique and allows to increase the reliability and expand the functionality of the device through the use of natural gas as a control agent. The source of pneumatic pulses is made in the form of an additional spool valve 7, kinematically connected with an additional piston actuator 8. The input lines 16 and 17 connect the pneumatic actuator 8 through the distributor 7 with a source of natural gas. The speed of movement of the piston of the pneumatic actuator 8, equipped with a hydraulic brake 9 with an adjustable stroke speed, is determined by the position of the stroke speed regulator-valve 10. The source of pneumatic pulleys controls the direction of dose supply, as well as the number of switchings of the spool valve, 7. 1 il. sl f G7 to to sl the th o: N)

Description

The invention relates to a metered distribution of liquid media and can be used in gas, oil, chemical industry and is an improvement of the device according to the author. No. 877336.

The aim of the invention is to increase the reliability of operation in various operating conditions using natural gas as a control agent.

On the above drawing, the schematic difference in the design of the source of pneumatic impulses of the sleeve 12 allows one to accumulate a certain amount of gas in the cavity B of the pneumatic actuator 8, which is under the inlet pressure, at which time the cavity B of the pneumatic actuator is connected to the atmosphere by drilling in the spool valve 7. At the moment of switching the spool distributor, the pneumatic actuator 8 is disconnected from the input and output lines of the gas system. Due to the accumulated energy of compressed gas and the presence of an additional system, the proposed device is shown

The device includes volumetric i5-s containers 11 piston pneumatic-piston metering devices 1 containing the cylinder 8 continues to move to the right the vanishing pistons 2, the piston stroke limiters 3, the spool valves 4 of the rotary-type flow, sensors 5

to the left, switching the spool valve 7 to another extreme position. Piston speed

double strokes of magnetic type, secondary-20 pneumatic actuator 8 depends on the position

the stroke rate regulator — a valve 10 — which determines the rate of fluid outflow from the right cavity of the hydraulic brake 9 into the left cavity of the hydraulic brake. 25 Pneumatic signal enters lines 16 and 17.

The diagram shows the position when the inlet pressure is supplied via line 16, and line 17 is connected to an input control device 6. The source of pneumo pulses is made of a kinematically coupled additional spool valve 7 for gas flow with an additional piston pneumatic actuator 8 equipped with a hydraulic brake 9, a stroke rate regulator — a valve 10 and additional capacitors 11. The design also includes a sleeve 12 with a hollow air, t . pressure is supplied to the train, the inlet manifold 13, the lines D to the cylinder of the pneumatic cylinder 18. 14 and 15 as well as lines 16 and 17 connecting the additional pneumatic actuator 8 and the pneumatic cylinder 18 through the additional spool valve 7 to a natural gas source.

When bleeding pressure from line 16 and feeding it to line 17, i.e. When pressure is applied to the chamber 1 of a pneumatic actuator installed on the line a ... ... n, a redistribution of the fluid supply over the points occurs. As a result, the inhibitor along the line a through the working process, two positions of spool 4 are possible: in the first position, the inhibitor is delivered to the P g line. a ,, in the second - the filing of an IN ghibitor in the Pg line, a.

Distributed medium, for example (Corrosion Inhibitor, under high pressure Pg from the inlet manifold 13 along the lines a, b, c, ... n and further

40

through the spool valve 4 flow and line 14 enters the chamber of the piston metering device 1, moving the piston 2 of the metering device to the extreme left position. In this case, the portion of the fluid in chamber A is displaced along line 15 through spool valve 4 into line P g, | but,..

The position of the spools and, therefore, the direction of dose supply to the points a, ... n and ai ... nj, as well as the number of switchings, is controlled by a source of pneumatic pulses operating from the input gas pressure

the lottery valve through line 45 15 enters chamber A, and the inhibitor from chamber K through line 14 and the spool valve goes into line Pgjix a. The same process occurs in the line n with the only difference that the 50 inhibitor is directed to the line Pd, n ,. The presence in the flow distributor of two output channels, T ei "2, ensures the introduction of a dose at two different points located under different

(40 kgf / cm). Gas under high pressure - 55 pressure. Application Niemi limiters enters the distribution spool stroke length of the piston provides a WHO-splitter 7 and enters through line 16 into the possibility of adjusting productivity pneumatic piston 8 causes NOSTA for input. Using its piston to move from right to left, the source of pneumatic impulses, the proposed design of the source of pneumatic impulses of the sleeve 12 allows accumulating in the cavity B of the pneumatic actuator 8 a certain amount of gas under the inlet pressure, at that time the cavity B of the pneumatic actuator is connected through holes in the spool valve 7 the atmosphere. At the moment of switching the spool valve, the pneumatic actuator 8 is disconnected from the input and output lines of the gas system. Due to the accumulated energy of compressed gas and the presence in the system of additional tanks 11, the piston of the pneumatic actuator 8 continues to move to the right

to the left, switching the spool valve 7 to another extreme position. Piston speed

the stroke rate regulator — a valve 10 — which determines the rate of fluid outflow from the right cavity of the hydraulic brake 9 into the left cavity of the hydraulic brake. 25 Pneumatic signal enters lines 16 and 17.

The diagram shows the position when the inlet pressure is supplied via line 16, and line 17 is connected to the at30 m sphere, i.e. the pressure is supplied to chamber D by a pneumatic cylinder 18. The atmosphere, i.e. pressure is applied to chamber D of cylinder 18.

During operation, two positions of spool 4 are possible: in the first position, the inhibitor is fed into the P g line. a ,, in the second - the filing of an IN ghibitor in the Pg line, a.

the lottery valve through line 45 15 enters chamber A, and the inhibitor from chamber K through line 14 and the spool valve goes into line Pgjix a. The same process occurs in the line n with the only difference that the 50 inhibitor is directed to the line Pd, n ,. The presence in the flow distributor of two output channels, T ei "2, ensures the introduction of a dose at two different points located under different

55 pressure. The use of piston stroke length limiters makes it possible to adjust the performance of the input. The use of a source of pneumatic impulses of the proposed design allows to expand the field of application of the device for dispensing liquids, as well as simultaneously increase the reliability of its operation.

The invention can be used where there are no injection and air treatment units with the unit being placed in open areas, for example, directly at the wells.

Claims (1)

Invention Formula It is so that, with a chain of increased reliability and expansion of functional capabilities due to the use of natural gas as a control agent, the source of pneumatic pulses is made in the form of an additional spool flow distributor, kinematically connected with an additional piston pneumatic actuator, equipped with a hydraulic brake with an adjustable stroke speed, and the input lines of all pneumatic actuators are connected through an additional gold meter. The device for metering a liquid-gas distributor with a source ball ten Tei Auth. № 877336, about t of l and h and Editor L. Povkhan Compiled by M. Veshchunov Tehred A. Kravchuk Proofreader I. Muska Order 5552/35 Circulation 694 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 natural gas.