RU90866U1 - FLOATING LIQUID REGULATOR IN SEPARATOR - Google Patents

Abstract

1. The regulator of the liquid level in the tank with a gas-liquid mixture containing a float associated with a valve draining the liquid from the tank with the possibility of blocking the bore of the valve when the liquid level is lower and with the valve of the gas discharge with the possibility of blocking its bore with increasing liquid level, characterized in that the float is provided with at least one ventilation tube protruding above the float and communicating the internal cavity of the float and the cavity of the tank. ! 2. The regulator according to claim 1, characterized in that each ventilation tube has a gap with the bottom of the float, providing an area of the bore in the tube is not less than the area of the inner cross section of the tube. ! 3. The regulator according to claim 1, characterized in that it is equipped with a flexible hose connected to the cavity of the float and designed to pressurize the float with gas from an external source.

Description

The invention relates to a technique for controlling the level of a liquid in separators of gas-liquid mixtures.

The float regulators of the liquid level in the tank are widely known, in which, when the liquid level rises, the float moves up and opens the liquid drain valve, thereby increasing the discharge rate and reducing the rate of level increase to negative, and vice versa, when the level is lower, the discharge rate decreases. However, such regulators have a significant drawback when used for a gas-liquid mixture, when separate outlets for gas and for liquids are required, and only the outlet of the fluid is regulated. In this case, when the amount of gas in the supplied gas-liquid mixture is reduced, liquid may flow into the gas exhaust line.

This problem was solved in the float regulators of the liquid level in the separators, when the valve driven by the float is installed not only on the liquid outlet line, but also on the gas outlet line (see, for example, SU 337766, RU 2032204). In this case, the gas valve closes when the liquid level rises and the float moves upward, eliminating the possibility of liquid entering the gas exhaust line.

Closest to the proposed one is a liquid level regulator in a tank with a gas-liquid mixture containing a float connected to a valve draining the liquid from the tank with the possibility of blocking the valve bore when the liquid level is lower and with a gas discharge valve with the possibility of blocking its gas bore when the liquid level rises ( SU 337766, publ. 05/05/1972).

However, under high pressure conditions, the float with an open cavity will lose buoyancy due to a reduction in the volume of the displaced liquid. A float with a closed cavity will crumple under pressure, and with an increase in the wall thickness of the float, it will sink.

The objective of the utility model is to create a float regulator of the liquid level in the separator, operable at high pressures.

The technical result of the utility model is to ensure the buoyancy and shape stability of the float at high pressures.

The technical result is achieved by the fact that in the liquid level regulator in a container with a gas-liquid mixture containing a float connected to a valve draining the liquid from the tank with the possibility of blocking the passage section of the valve with decreasing liquid level and with a gas discharge valve with the possibility of blocking its passage section with increasing level liquid, according to the proposal, the float is equipped with at least one ventilation tube protruding above the float and communicating the internal cavity of the float and the cavity of the tank.

In this case, it is preferable that each ventilation tube has a gap with the bottom of the float, providing an area of the bore in the tube is not less than the area of the inner cross section of the tube.

In addition, the regulator is equipped with a flexible hose connected to the cavity of the float and designed to pressurize the float with gas from an external source.

The drawing shows the proposed level control.

The float regulator of the liquid level in the separator includes a chamber 1, equipped with a pipe 2 for supplying gas, pipe 3 for venting gas, pipe 4 for supplying fluid and pipe 5 for venting liquid. A float 6 is placed in the chamber 1, in which vertical ventilation tubes 7 are installed, having a gap with the bottom of the float 6, providing a passage sectional area into the tube 7 not less than the internal cross-sectional area of the tube 7. Ventilation tubes 7 protrude above the float 6 to a height not exceeding the distance from its upper surface to the upper wall of the chamber 1 at the highest (working) level of liquid in the chamber 1.

On the float 6 fixed profile 8 regulation of the gas outlet valve gas discharge and profile 9 regulation of the fluid outlet valve drain fluid.

The regulator operates as follows.

When the liquid level in the chamber 1 rises, the float 6 moves up along with the profile 9 and opens the liquid drain valve, thereby increasing the discharge rate and reducing the rate of increase of the level to negative, and vice versa, when the level decreases, the discharge rate decreases. In this case, the profile 8 closes the gas discharge valve, eliminating the possibility of liquid entering the gas exhaust line.

When the liquid level decreases, the float moves down, profile 8 moves down, opening the gas relief valve, and profile 9, moving down, closes the liquid drain valve and the drain discharge decreases.

Ventilation tubes 7, rising with the float 6 to the upper wall of the chamber 1, equalize the pressure in the chamber 1 and in the cavity of the float 6, which eliminates the crushing of the float and its flooding.

However, if the residual volume of gas is less than the volume of the float 6, the liquid will begin to fill the float through the ventilation tubes 7 and reduce its buoyancy. With a further increase in pressure, the float 6 may sink and block the drainage of liquid from the separator through the pipe 5 of the drainage fluid. Such a situation may arise during the initial filling of a system equipped with the indicated float regulator, a gas-liquid mixture with a low gas content or a liquid without gas. With a lack of gas supply to the system, the float 6 will float to the upper working level and completely block the gas discharge. However, if the pressure in the system does not reach the working one, and the flow of liquid without gas continues, the liquid level will rise above the maximum working level, compressing the residual gas. When the liquid level rises to the upper wall of chamber 1, flooding of float 6 will begin. Thus, in the extremely unfavorable mode of initial filling of the system with the mixture, flooding of float 6 and loss of normal operation of the regulator can occur, up to complete flooding of float 6 and blocking fluid discharge (liquid will go to the gas line)

To prevent this, the float 6 is connected with a flexible hose to the fitting on the wall of the chamber 1 (not shown in the drawing) to pressurize the float with gas from an external source.

Claims (3)

1. The regulator of the liquid level in the tank with a gas-liquid mixture containing a float associated with a valve draining the liquid from the tank with the possibility of blocking the bore of the valve when the liquid level is lower and with the valve of the gas discharge with the possibility of blocking its bore with increasing liquid level, characterized in that the float is provided with at least one ventilation tube protruding above the float and communicating the internal cavity of the float and the cavity of the tank. 2. The regulator according to claim 1, characterized in that each ventilation tube has a gap with the bottom of the float, providing an area of the bore in the tube is not less than the area of the inner cross section of the tube. 3. The regulator according to claim 1, characterized in that it is equipped with a flexible hose connected to the cavity of the float and designed to pressurize the float with gas from an external source.