SU881690A1 - Device for stabilizing liquid flow - Google Patents

Description

The invention relates to automatic control and can be used in automatic gas analyzers in which a reaction liquid is used to interact with the analyzed gas component. In particular, it can be used in electroconductometric gas analyzers.

Known automatic gas analyzers in which the stabilization of the flow rate of the reaction liquid — electrolyte is carried out by maintaining a certain gas pressure above the liquid and installing diaphragms of a certain section [1].

The solution closest in technical essence to the invention is a device for controlling the flow of liquid, containing a supply tank for the reagent, in which there is a bubbler pipe connected to the pipeline of the analyzed gas [2}.

The disadvantage of this device is the discharge of fluid through a bubbler pipe into the gas pipeline when the pressure in it.

The purpose of the invention is to increase the reliability of the device.

This goal is achieved by the fact that a membrane valve is introduced into the device for stabilizing the flow of liquid containing a supply tank with a liquid, into which a bubbler tube connected to a source of stabilized gas pressure is immersed, the nozzle of which is connected to the gas cavity of the supply tank, and the membrane and submembrane cavities - with a source of stabilized gas pressure and atmosphere, respectively.

The drawing shows a diagram of a device for stabilizing fluid flow.

The device comprises a supply tank 1 with liquid, into which a bubbler tube 2 is connected, connected to a source of stabilized gas pressure 3, and a membrane valve 4, a nozzle 5 of which is connected to the gas cavity b of the supply tank 1, and the supmembrane 7 and the submembrane 8 cavities are connected with the source stabilized gas pressure 3 and atmosphere, respectively. The diaphragm valve 4 contains a separation membrane 9 with a shut-off plug 10. A source of stabilized gas pressure 3 is connected to the diaphragm valve 4 by a gas supply pipe 11. An absorber 12 is installed at the liquid outlet from the supply tank 1. The bubbler tube 2 can be equipped with a diaphragm 13.

The device operates as follows.

When gas is supplied to the pipeline 11 due to the hydrostatic resistance of the gas outlet through the bubbler tube 2, the pressure in the supramembrane cavity 7 increases. Under the influence of this pressure, the membrane 9 bends and presses the shut-off plug 10 to the nozzle 5 and thereby seals the flow tank 1. As a result, filling occurs the gas cavity 6 of the tank, to the gas pressure in the line minus the hydrostatic pressure of the liquid column equal to the immersion depth of the bubbler tube 2 in the liquid i.e. normal fluid pressure. When the pressure of the analyzed gas in the pipe 11 is relieved, its force is removed from the membrane 9, the nozzle 5 opens, and the gas cavity 6 of the tank communicates with the atmosphere, which prevents the liquid from being transferred to the gas supply pipe. To increase the inertia in the liquid transfer line, the bubbler tube has a constriction - diaphragm 13, which has a greater resistance for liquid than for gas. Reliability of sealing the supply tank is ensured by the large area of the separation membrane, where the force increases many times. In this way _ provided conditions on the operation of the device ^e reliably during emergency and normal conditions.

Claims (2)

diaphragm valve 4 gas supply pipe 11. At the outlet of the liquid from the supply tank 1 is installed the absorber 12. The bubbling tube 2 can be equipped with a diaphragm 13. The device works as follows. When gas is supplied to the pipeline 11 due to the hydrostatic resistance of the gas outlet through the bubble tube 2, the pressure in the supermembrane cavity 7 increases. Under the influence of this pressure, the membrane 9 bends and presses the stop plug 10 to the nozzle 5 and thereby seals the feed tank 1 This results in filling the gas cavity 6 of the tank, to the pressure of the gas in the line minus the hydrostatic pressure of the liquid column equal to the depth of the immersion, NIN of the bubble tube 2 into the liquid i.e. normal fluid pressure. When the test gas in the pipeline 11 is depressurized, its force is removed from the membrane 9, the nozzle 5 opens, and the gas cavity of the tank bats with the atmosphere, which prevents the gas from transferring to the pipeline to supply gas. To increase the inertia in the transfer line of the bubbling tube has a narrowing - the diaphragm 13, which has a greater resistance for a liquid than for a gas. The reliability of sealing the supply tank is provided by a large area of the separation membrane, where the force increases many times. In this way, the conditions for reliable operation of the device under emergency and normal conditions are ensured. Apparatus of the Invention A device for stabilizing a fluid flow, comprising a supply tank with a liquid in which a bubbling tube is immersed and connected to a source of stabilized gas pressure, characterized in that, in order to increase the reliability of the device, a membrane valve is inserted in it, the nozzle of which is connected to a gas the cavity of the supply tank, and the supramembrane and submembrane cavities with a source of stabilized gas pressure and atmosphere. respectively. Sources of information taken into account in the examination 1. Van I, Analyzers of gases and liquids. M., Energie, 1970. 2. USSR author's certificate number 746449, cl. G 05 D 7/03, 1977 (prototype). . 12 on 7 S 3  h