SU883876A1 - Level gauge - Google Patents

Description

one

The invention relates to a technique for continuously discharging a jet from a tank at an equal dimensional speed and can be used for continuous cooling and consumption in various technological processes.

In all cases, special alarm devices are used in these devices, which immediately trigger BcUOT if the pressure of the fluid changes.

A device for uniformly emanating a jet of liquid from a container is known, based on the property of the Ma.Riotta vessel, which consists in that if a tube is inserted through the lid of the container with liquid, which communicates with the lower end of the container and then opens the drain valve, under the lower end of the tube, then all the liquid that is above the end of the loaded part of the tube flows out at a uniform rate, i.e. at equal intervals, an equal amount of liquid 1 flows out.

However, the known device does not allow the liquid to be injected at an even rate in a continuous mode, due to the limited linear dimensions of the containers, and is a cyclic device.

The closest technical solution is a device comprising a tank filled with liquid with inlet and outlet nozzles and floats. The uniform flow of the flow rate is maintained by the regulator and the stabilizer of the flow, the flow is set by the depth of the vertical tube in the liquid, which is made with the possibility of vertical movement 2.

A disadvantage of the known device is that it is capable

15 maintain the continuity of npottecca only if the fluid inflow into the dispenser is equal to or greater than the flow rate. In the case when the fluid flow is less flow, stability

20, the continuous jet outflow is disturbed.

The purpose of the invention is to expand the scope of the use of the regulator by

25 to ensure continuous flow of fluid from the discharge nozzle of the supply tank with a uniform jet.

This goal is achieved by

that in the level regulator containing

liquid filled main 30

A tank with inlet and outlet pipes, a float kinematically connected to the first control valve of the inlet pipe, contains an additional tank filled with liquid from the inlet and outlet pipe, and the additional pipe of the additional tank is installed in the main reservoir; re, at the maximum liquid level, mainly the tank has an additional float connected by a flexible element with a second control valve, mounted in the outlet pipe of the additional tank.

The drawing shows the level control.

The level regulator contains a main reservoir 1 filled with liquid, with an inlet 2 and an outlet 3 with a pair, a float 4, kinematically connected with the first control valve 5, an air nozzle 6 for pumping gas, a flow regulator tube 7 partially immersed in the liquid, scale 8 dosing fluid-filled additional tank 9 with inlet 10 and outlet 11 nozzles. The nozzle 11 is located above the upper level in the main tank, it has a second control valve connected by a flexible element 12 with an additional float 13.

The regulator works as follows.

Liquid is poured into tank 1 through valve 5 and gas is pumped out through air nozzle 6. At the same time, liquid is poured through pipe 10 into additional tank 9. After filling tank 1, float 4 is triggered and fluid flow stops. At the same time, the gas is pumped out through the nozzle 3 with such intensity that gas bubbles bubble through the tube 7 into the liquid. Then, the supply valve in the nozzle 3 opens.

If the flow of fluid into tank 1 is greater than or equal to the flow rate, then the device continuously delivers a uniform jet through tube 3. If fluid flow into tank 1 valve 5 is less than flow through tube 3, the fluid level gradually decreases. In this case, the floating float 13 of the nozzle 11, following the level of the liquid, is lowered until the flexible element is tensioned and the float 3 is suspended J above the level of the liquid. Then, due to its own weight, the float 13 opens the nozzle 11 and the E tank 1 from the additional tank 9 enters until the level

The Q liquid will not rise until it touches the float 13. In this case, the thread is weakened and the pipe 11 is closed, and from the pipe 2 it will constantly be liquid until the level reaches the initial value.

5 The flow rate of the liquid in the additional reservoir 9 is replenished through the nozzle 10.

The use of the proposed controller will ensure uninterrupted operation and reliability of thermostatically controlled devices, improve the quality of scientific results and allow achieving the optimal flow rate of thermostatic liquid.

Claims (2)

1. Perelman Ya.I. Interesting physics. M., 1972, Part 2, p. 106 2. USSR author's certificate number 593061, cl. In 67 C 3/04, 1978 (prototype).