SU877336A1 - Device for metering liquids - Google Patents

Description

The invention relates to a device for dispensing liquids, namely for dispensing viscous and thickened media at several points, having the same or different characteristics both in pressure and in dose, and can find application in the gas, oil and chemical industries, for example, Corrosion or hydrate inhibitor distribution devices in gas and gas condensate wells.

A device for distributing a hydrate inhibitor is known, which is made in the form of a distributor -1 unit for 5-6 entry points, each line of which for providing ^: dosed supply and metering fluid flow at one point contains a fluid flow regulator and a rotametric flow meter G1].

However, the known device when working with a corrosion inhibitor quickly fails, since the latter, protecting the inner surface of the pipes from corrosion due to the formation of an indelible film on it, envelops the throttle spool pair of the fluid flow regulator, which leads to a change in the dosage or a complete cessation of supply inhibitor.

Closest to the proposed is a metering device containing a pneumatic pulse generator, volumetric piston metering devices and a flow distributor made in the form of hydraulic gold ^! nick trigger with counting input ~ G2].

However, in the known device trigger spools are made without pressure relief, which makes it impossible to work at high pressures. In addition, the complex design of the trigger (the presence of a throttle, check valves, buffer plungers, a free drain system) does not provide the required reliability and does not allow 20 to operate it. in the distribution system - dosing of viscous media.

The purpose of the invention is to increase the efficiency of work with viscous substances and the reliability of dosing.

This goal is achieved by the fact that pneumatic actuators of spool-type current distributors of 30 current are connected to the device, connected by input lines to a common source of pneumatic pulses.

The drawing shows the proposed device.

The device contains a pneumatic pulse source 1, including a pneumatic pulse generator 2, a gearbox 3, amplifiers 4, volumetric piston batchers 5, flush with two chambers 6 and 7, which are separated by a floating piston 8 and equipped with a piston travel limiter 9, spool valves 10 rotary flow type with pneumatic actuators \ 11, which have chambers 12 and 13, sensors 14 for the number of double strokes of the piston, secondary device 15 for monitoring the input of the medium, connecting lines 16-21.

The device operates as follows. ''

The medium to be distributed, for example, a high pressure corrosion inhibitor _Pax (tso 600 kgf / ^cmg ) from the inlet manifold along lines 16 a, b, c ... η and then through the spool flow distributor 10 and line 16 enters the piston chamber 7 the dispenser 5 by moving the piston 8 of the dispenser to the leftmost position. In this case, a portion of the liquid in the chamber 6 is displaced along line 17 through the spool flow distributor 10 to line P _{Bm q} _ ,.

The position of the spools, as well as the number of switching controls source 1 pneumatic pulses, operating from the input pressure P _P1LT . In the block, the pressure reducer 3 reduces the pressure to 1.4 kgf / cm ¹ , which is then converted using the pneumatic pulse generator 2 into pressure pulses supplied periodically to the amplifiers 4. The pneumatically amplified signal enters lines 20 and 21. In the diagram. the position is shown when the pressure is supplied to line 20 and to the chamber 12 of the pneumatic actuator installed on the line quince chamber 13 of the pneumatic actuator installed on the line p.

In the process, two positions of the spool are possible: in the first position, the inhibitor is fed into the line α_ · ι> in the second position, the inhibitor is fed into the line ^₽ % aa. ·

When bleeding pressure from line 20 and applying it to line 21, i.e. applying pressure to the chamber 13 of the pneumatic actuator installed on line a and applying pressure to the chamber 12 of the pneumatic actuator installed on line происходит, the redistribution of the fluid supply over the points occurs. As a result, the inhibitor along line a through the spool valve through line 17 enters chamber b, and the inhibitor from chamber 7 through line 16 and the spool distributor goes to line no. · The same process will occur in line η with the only difference being that the inhibitor will be directed to line P in _b1 x _n . ₁₍

The use of a spool flow distributor 10 makes it possible to supply the inhibitor from one dispenser to two points with different pressures. 1i, and also provides operation at large pressure drops (up to 600 kgf / cm7, The use of piston stroke length limiters 9 provides the ability to adjust the performance at the entry points separately .

Accounting for the amount of medium by point. The input cam is carried out by a secondary one (with a device 15 for monitoring the pulses of the sensors 14 of the number of double strokes, taking into account the position of the limiters. The piston stroke 9.

Thus, the proposed device provides a guaranteed supply of specified doses of the medium to the required number of points, reliable operation with viscous, thickening and sedimentary media, as well as at high pressures (drops up to 600 kgf / cm ¹ ·), while the use of a common generator of pneumatic pulses simplifies and reduces the cost of construction.

Claims (2)

The invention relates to devices for dispensing liquids, and:. It is for dosing viscous and thickened media at several points that have the same or different characteristics both in pressure and dose value and can be used in gas, oil and chemical industries, for example, in devices for the distribution of corrosion or hydrate inhibitors in gas and gas condensate wells. A device for distributing a hydrate formation inhibitor is known, which is made in the form of a distribution unit for 5-6 entry points, each line of which contains a flow regulator and a rotometric flow meter Tl to ensure the dosing and metering of fluid at one point. However, the known device when working with a corrosion inhibitor quickly goes out of order, since the latter, protecting the inner surface of pipes from corrosion due to the formation of an indelible film on it, envelops the throttle valve spool of the flow rate regulator, which leads to a change in the amount of dosing or complete cessation feed inhibitor. Closest to the present invention is a metering device containing a pneumatic pulse generator, volumetric piston metering devices and a flow distributor made in the form of a hydraulic golden trigger with a counting input. However, in a known device, the trigger spools are made without pressure relief, which makes it impossible to work at high pressure x In addition, the complex design of the trigger (the presence of throttles, check valves, buffer plungers, free drain system) does not provide the required reliability and does not allow to operate it. in the distribution system - dosing in viscous media. The purpose of the invention is to increase the efficiency of working with viscous substances and the reliability of dosing. This goal is achieved by the fact that pneumatic actuators of spool flow distributors connected by input lines to a common source of pneumatic pulses are introduced into the device. The drawing shows the offer device. The device contains a source of pneumatic pulses 1 that include a generator of pneumatic and pulses 2, a reducer 3, amplifiers 4, volumetric piston dispensers 5, equipped with two chambers b and 7, which are separated by a floating piston 8 and equipped with a piston stroke limiter spool valves 10 rotary type flow with pneumatic drives 11, which have chambers 12 and 13, sensors 14 of the number of double strokes of the piston, a secondary device 15 controls the input of the medium, connecting lines 16-21. The device works as follows. . Distributable medium, for example, a high-pressure corrosion inhibitor Pg (ffo 600 kgf / cm) from the inlet manifold along lines 1b, b, c ... and then through the spool distributor 10 flow and line 16 enters the piston chamber 7 dispenser 5 by moving the piston 8 of the dispenser to the edge of its left position. At the same time, the portion of liquid estes located in chamber 6 is displaced along line 17 through the flow gold distributor 10 to the line P,, the position of the spools, and the number of switchings is controlled by the source 1 of pneumatic pulses operating from the input pressure P dtW. 3 reduces the pressure to 1.4 kgf / cm, which is then converted by a generator of pneumatic impulses 2 into pressure impulses, periodically supplied to amplifiers 4 A pneumatically amplified signal enters lines 20 and 21. In the diagram. a position is shown when pressure is applied to line 20 and to chamber 12 of a pneumatic actuator mounted on line o and into chamber 13 of a pneumatic actuator mounted on line p. During operation, two positions of the spool are possible: in the first position, the inhibitor is supplied to line i- 1) in the second position, the flow of the inhibitor in the line would be aa. When pressure is relieved from line 20 and supplied to line 21, i.e., pressure is applied to chamber 13 of a pneumatic actuator installed on line e and pressure is supplied to chamber 12 of a pneumatic actuator mounted on line p, the fluid supply is redistributed point by point. As a result, the inhibitor goes through line 17 through spool distributor through line 17 to chamber 6, and the inhibitor from chamber 7 goes through line 16 and the spool distributor goes to line b) and the process will also occur in line n with the only difference that the inhibitor will be sent to the Peei p-1 line. The use of a spool valve 10 flow allows the inhibitor to be supplied from one dispenser to two points with different pressures. and also provides operation at high pressure drops (up to 600kgs / cm7). The screw 9 provides the possibility of adjusting the performance by the input points separately. The medium is taken into account by the input cells by the secondary one (the device 15 controls the pulses of the sensors 14 for the number of double strokes taking into account the position of the piston stroke limiters 9. Thus, the proposed device provides a guaranteed flow given doses of the medium to the required number of points, reliable operation with viscous media, thickening and forming sediment, as well as at high pressures (drops of up to 600 kgf / cm), The name of the common generator of pneumatic pulses simplifies and reduces the cost of construction. Claims An apparatus for dispensing liquids containing a source of pneumatic pulses, volumetric piston dispensers with spool flow distributors, characterized in that, in order to increase the efficiency of viscous substances and the reliability of dispensing, pneumatic actuators of the spool flow distributors connected to the input lines are introduced into it mi with a common source of pneumatic impulses. Sources of information taken into account during the examination 1. Dispenser of hydrate formation inhibitor PRG-1, Experimental Plant SPKO Promavtomatika, bg. 2. USSR author's certificate 249038, cl. G 01 F 11/02, 1867.