SU1068901A1 - Regulator of liquid level in reservoir - Google Patents

Abstract

1. A LIPPOST LEVEL REGULATOR IN A TANK, containing a regulating tank installed in a bell with a siphon placed in it, a connected pipe with a stop valve of the inlet pipe, an air passage, distinguishing to and with the fact that, for the purpose of BT, reliability and simplicity regulate the controller. , the air inlet duct consists of the outlet and inlet units, the outlet unit being designed as a nozzle with a valve communicating with a regulating tank and connected to the body of the bell hs5frirovan-. element, and the inlet assembly is made in the form of a tube, the upper end of which is placed in the regulating tank, and the lower end is installed in the tank at the mark of the lower specified level value. 2. A regulator according to claim 1, characterized in that the valve of the nozzle is made in the form of an annular membrane placed at the outlet openings of the nozzle. 3. The regulator according to claim 1, wherein the lower end of the tube of the inlet assembly is installed with the possibility of changing the location along the height of the reservoir.

Description

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The invention relates to hydraulics and is intended to regulate the fluid in the reservoir.

A device is known for automatically controlling the supply of water to a tank, which is provided with a regulating tank connected to a shut-off valve and control elements (siphon, bending pipe with a float) C13.

The drawback of the device is the complexity of the design and low reliability.

The closest in technical essence to the invention is a liquid level regulator in a tank, which contains a bell fixed on the tank body in which the regulating tank is installed, and the end of the flexible tube with the float is connected with a flexible minimum level limiter t21.

A disadvantage of the known regulator is the complexity of the design due to the large number of moving parts and the complex float assembly, the reliability is low due to the possibility of the float being frozen at minus temperature and large overall dimensions.

The purpose of the invention is to simplify and increase the reliability of the controller.

The goal is achieved by the fact that in a liquid level regulator in a tank containing a regulating capacity installed in the bell with a siphon placed in it, connected to an inlet nozzle with a void valve, and the air inlet duct, the latter consisting of outlet and inlet nodes, the exhaust unit is made in the form of a nozzle, with a valve in communication with the regulating capacity and a corrugated element connected to the bell body / and the inlet assembly is made in the form of a tube, the upper end of which is placed in ruyuschey container and the lower end face is mounted in the tank at the level of the lower predetermined level value.

The valve of the nozzle is made in the form of an annular membrane placed at the outlet openings of the nozzle.

In addition, the lower end of the inlet tube is installed with the possibility of changing the location along the height of the tank.

FIG. Figure 1 shows schematically the proposed reservoir level regulator; in fig. 2 node 1 in FIG. 1.

Regulator contains tank 1, in one pipe 2 of the water-supported pipe 3. Pipe 2 by means of strings 4 is rigidly connected with a water-insulating bell 5, in the cavity of which a spring-loaded regulating capacity is installed b. A nozzle 7 is connected to it with water-conducting openings 8. A shut-off valve 9 is installed at the inlet nozzle 2. In addition, the nozzle 7 is connected with a siphon 10 located in the cavity of the regulating vessel b. The regulator contains the air inlet duct, which is made in the form of inlet and outlet nodes.

The inlet assembly is designed as a tube 11, the upper end of which is located in the regulating tank, and the lower end in the tank at the level of the lower predetermined level value. .

The outlet assembly is made in the form of a nozzle 12 with outlet openings 13 placed along the perimeter and blocked by an annular membrane 14. The nozzle 12 is connected by means of a corrugated element 15 to the housing 16 of the bell 5.

The regulator is working in the following way. .

When the tank i is filled, the lower end of the tube 11 is immersed in water. As a result, the communication of the cavity of the regulating container b with the atmosphere is terminated. Upon reaching the water level of the lower end of the bell 5, the air contained in it closes and with a further increase in the level is removed under the action of an exceeding column of water in the tank 1. Simultaneously with filling the tank 1, water flows through the water inlets 8 into the pipe 7 and then into the siphon 10. When the water level reaches the crest of the siphon 10, it flows into the control tank b. The air contained in the regulating vessel 6, pressing the Membrane 14, is vented through the weekend from the version 13 to the atmosphere. The regulating tank, under the action of the mass of water, overcoming the resistance of the spring and compressing the corrugated element 15, is lowered. As a result, the shut-off valve 9 is closed and the flow of water into the reservoir is closed. As water flows from the tank, level 1 decreases.

By the time of the achievement of the predetermined lower level of water in the reservoir, the lower end of the tube 11 is detached; from the surface of water1. As a result, the cavity of the regulating container b receives a message with the atmosphere. From this moment on, the water flows from the reservoir of capacity b through the siphon 10, the branch pipe 7 and the holes 8 to the tank 1. After the start of emptying, starting with a certain moment, the regulating capacity b gradually rises up under the action of spring forces and water pressure in in addition to the pipe 3. In this case, the fallow valve 9 opens and water flow to the reservoir 1 is resumed.

But compared with the famous, the proposed level control is simpler.

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by design due to the reduction in the number of parts and dimensions, air handling unit,. a significant reduction in the inlet dpini, which reduces the size of the regulator, as well as increases its reliability in operation.

Claims (3)

1. The LIQUID LEVEL REGULATOR in the RESERVOIR containing a regulating tank installed in the bell with a siphon placed in it, a connected nozzle with an inlet shut-off valve, and an air passage, which is characterized in that, in order to increase reliability and simplify of the controller, the air passageway consists of an outlet and inlet nodes, the outlet node being made in the form of a nozzle with a valve in communication with the regulating capacity and connected to the bell housing is corrugated. element, and the inlet assembly is made in the form of a tube, the upper end of which is placed in the control tank, and the lower end is installed in the tank at the level of the lower set level value. 2. The regulator according to π. 1, l and m of h and w and d w i with that valve Pat cutting configured as an annular p: membranes wound published on ^{September 1} otvers- output tiyah nozzle. 3. The regulator according to π. 1, t l ^{1 -} characterized in that the lower end of the tube of the inlet assembly is installed with the possibility of changing the location along the height of the tank.