SU720324A1 - Device for measuring pressure in two-phase media - Google Patents

Description

The invention relates to instruments for measuring gas-dynamic parameters of flows, and more precisely to devices for measuring pressure in two-phase media. A device for measuring the pressure of a liquid is known, comprising a housing, a sweeping portion of the pipeline under study, a compensator made in the form of an additional housing capacity, a purge and a pulse tube with a measuring instrument 1. However, it does not provide the required measurement accuracy with regard to the dynamic head. The closest technical solution includes a device for measuring pressure in two-phase media, which contains a memory node with a three-position Memphana position indicator, a measurement medium supply line, a test medium, and a measuring device connected to a membrane node with a pulse line. The line for supplying the measured medium is made in the form of holes in the wall of the numb membrane. The line for removing the backpressure medium is sealed to a variable volume reservoir and connected to the submembrane cavity 2. A disadvantage of this device is that it cannot be used to measure pressures in dimensionally limited channels. The supply line of the measured medium in it cannot be made in the form of a full-pressure nozzle for studying liquid and two-phase media, since the nozzles and the membrane space in this device form a dummy cavity filled with air and liquid. Npo6KaNra, distorting the final measurement results. The purpose of the invention is to increase the accuracy of measurements in dimensionally limited channels. This goal is achieved by The backpressure supply line is connected to the supramembrane and submembrane cavities of the membrane assembly through a distributor. G-asiredoltepte can be made in the form of a three-way P1 crane. But the drawing is a picture of a conceptual scheme of the proposed device for measuring pressure in di-alpha media. The device contains a membrane unit 1c with a three-position indicator of the position of membrane 2, including contacts 3 and 4, signaling devices 5 and 6, for example, in the same color of light bulbs. The membrane 2 has a conductive layer on both sides and a connection to the voltage source through a switch (not shown). In node 1, the padmembra 1 is formed into cavity 7 and submembrane cavity 8. The lines of the measured medium are made in the form of a channel 9 in the body of the node 1 into which nozzles are screwed (not shown 5) fixed in the test kagul. The line 10 for supplying the medium with a pressure is equipped with a control valve 11 and a distributor in a three-way valve 12, connected by a pipe 13 to a valve 11, a pipe 14 - with a cavity 7 and m {gear line 15 - with a cavity 8 ,. The groove of the edge connects at a certain position the handle of the pipeline 15 with the atmosphere. Crane 12 three positions: 1 - pipelines 13, 14, and 15 are closed; P - pipe 13 is connected to the pipe by wire 14, pipe 15 - with the atmosphere; 111 — pipeline 13 is connected to pipeline 15, and pipeline 14 is closed. Instead of the tap 12 as a distributor. An automatic valve with an electromagnetic or other actuator can be used, providing a consistent shut-off of pipelines in accordance with the positions of the tap 1.11, П1 This ensures continuous automatic measurement of pressure according to a predetermined program. Pipelines 14 and 15 for monitoring the operation of the device may have transparent areas, for example, of high-strength glass. This is used in an opaque (colored) medium npoTimodavlo ha. A manometer or another instrument for measuring pressure in the flow connected to the cavity 8 is used as a measuring instrument boron 16: with a blue line, which is the pipe 15 and a part of the pipe 17, on which the device 16 is installed. The pipe 17 connects the pipelines 14 and 15 and has a valve 18 interlocked with a tap 12 so that, when it is in position 1, 14 1, the 1G device is connected to the pipe conductor L 5 IN POSITION P with the pipeline 14, the device 16 can be connected with the tap 12. The device works sloduki.im way. In the initial position (the valve 11 is closed, the valve 12 is located in position 1. After installing the device in the channel under study, the membrane 2) DIcont Juts to the voltage source, the valve 12 is set to position P and the valve 11 is opened until 16) will not show a pressure greater than the prediolt of the pressure in the studied canola:. This provides shyuduku cavity 7, dripping 9 and the nozzle with the heat-stimulating medium. During the production, the membrane 2 bends downward, closing the contact 3 of the bulb 5. After purging, the handle 12 is transferred to 111. In this cavity 8 it is filled with a backpressure medium before turning off the la1 / point 5, after which the valve 12 is in 1. If the pressure in cavity 7 at this moment exceeds the dissolution in the channel under study, part of the backpressure medium goes into it. A decrease in pressure in cavity 7 is detected by switching on the indicator (light bulb 6). The valve 11 is then shut off and the valve 12 is switched to position 111 before turning off the light bulb 5 and 6 and returning to position 1. At this point the light bulbs 5 and G are turned off. The pressure in cavity 7 and 8 are equal. The reading of the measuring gfibor 16 captures the pressure in the measured channel. When turning on the bulb 5 for the increase in pressure in the channel under study 1, the fan 12 is put in position 11 to its key; when the light bulb is turned on (J - to: P) before it is turned off. In the fifth case, a part of the backpressure medium comes out of cavity 8. If the lamp is 5, the valve 12 is set to position 11 before it is turned off. e n Formula 1. Ustroyst 5O for izmsreni da15leni in biphasic media, Rhodes 1iap1ee membrane unit with trehpoztiyuipym indicator popozhegt membrane podpoda line quantification srodu and medium back pressure connected to the measuring and podmombraggnoy polostg.yu gfiGyurom, characterized in that, with to increase accuracy and dimension According to the limited, the backpressure supply line is connected to the membrane node and submembrane cavity of the membrane assembly through the pacit separator.

2. The device according to claim 1, which is designed so that the distributor is made in the form of a three-position crane.

Sources of information received by her attention during examination

1, USSR Author's Certificate N9 537275, cl. G 01 L 19/06, 1974.

2. Authors svdedelstvo USSR K 547GGO, cl. G 01 L 7/18, 1975 (prototype).

Claims (2)

Claim 1. A device for measuring pressure in two-phase media, containing a membrane assembly with a three-position! Shion indicator of the position of the membrane, the supply line of the measured medium and the back pressure medium connected to the sub-membrane cavity and the measuring device, characterized in that, in order to increase the accuracy of measurements in 720327 in barred channels, the back pressure medium supply line is connected to the membrane and the submembrane cavities of the membrane unit through a distributor. 2. The device according to π. 1, with the fact that the distributor is made in the form of a three-position tap.