SU1370069A1 - Device for filling liquid to vessel - Google Patents

Abstract

The invention relates to equipment for dosed loading of various liquids, including aggressive ones, in containers and can be used both in the production of liquids, their transportation, and in devices for supplying liquids to technological baths of various productions. The aim of the invention is the possibility of the dosed supply of liquid in containers of various sizes. The device is equipped with an ejector 7, the active nozzle of which is connected to the gas pipeline 3 for injecting gas into the dispensing tank 1, which displaces the liquid. The gas passing through the jack 7 creates a vacuum in its mixing chamber, under the action of which the gas from the cavity of the filled tank 14 is sucked into the cavity of the sensor 4 through the level nozzle 5. When a predetermined level is reached, the liquid in the tank 14 together with the gas Sensor 4 will receive a portion of the fluid, and a signal will appear in it, which is sent to converter 6, is processed and energizes the electromagnet of the pneumatic valve 8. The gas inlet channel into the cavity of tank 1 will close and it will connect to the atmosphere, the pressure will drop and the supply will The liquid from tank 1 to tank 14 will stop. 1 il. $ (L SLE vj

Description

 13700692

This invention relates to a telescopic replaceable equipment or

for the dosed loading of different-different designs.

liquids, including aggressin-device works as follows, in a container, and can be used at once.

with in various areas of the people. The depth of the nozzle 5 is immersed as in the production of liquids into the container 14 by the holder of 12 reference numbers, and transported so that its inlet device for supplying the liquid is at the level of the limiting

technological baths of various pro-Q; pouring liquid into the container 14.

The holder 12 is installed on it. The purpose of the invention is the possibility 14. The electromagnet is switched on.

dosed supply of fluid in the pneumatic valve 8, while the pipework of various standard sizes. The conductor 10 from the source of compressed gaNa drawing shows a diagram of the mouth 15 for 9 into the cavity of the tank 1 filled

liquid, gas is injected in it

The liquid loading device creates pressure

the tank consists of a pressurized tube, from which the liquid from the tank 1 is transferred to the tank 14 through the tube-supporting tank 1 connected to the bridge 2.

pipeline 2 for a liquid, the gas-20 Piping through the pipeline Yuivstrovodnogo pipeline 3 for the active ejector nozzle injected into it into the transfer tank 1 of the gas, the compressor 7 creates a stream of compressed gas

liquid, sensor 4 limit-in his chamber mixing vacuum,

level with the pipe 5 and the circuit by which the pipeline supplying fluid supply.25 DU 13 through the pipe of level 5, the fluid supply control circuit 4 and the check valve 11 from the tank consists of a signal converter 14 is sucked out of the displaced liquid 6, the ejector 7, pneumatic valve 8 gas. When the liquid and the source connected to it are squeezed-in the tank 14 of a predetermined level of the filling gas 9, the input of the active ZONE together with the gas to the sensor 4 will flow into the nozzle of the ejector connected to the pipeline-liquid. The presence of 10 in the sensor with the output of the pneumatic valve 8, the void portion of this fluid is registered with the transfer tank 1, and the mixing chamber is sent to the signal through the return valve to the converter 6, after processing the pan 1 1 with a transducer 4 of the limiting transducer, it includes n, and the latter 1 through a transformer-electromagnet of the pneumatic valve 8, and the receiver 6 is connected to the pneumatic valve 8. This pipeline 10 is connected to

the atmosphere and from the super-liquid strips. The outlet part of the pipeline 2 for this tank 1 is depressurized. In order to fill the liquid and the Q-level pipe 5, the step of the liquid from the tank 1 is fixed to the holder 12. In quality 14, it stops. The back plate of sensor 4 can be used 11 when pressure is released from tank 1, sensors of various designs react to prevent gas from entering the capacitive for the presence of liquid, on-bone 14. Restoration (drying) is an example of resistive, capacitive, inductive sensor 4 for repeated operation of the opposite light, etc. In the case, it starts with the beginning of filling the tank with the device for filling 14 with liquid due to the passage of the movable tanks of a part of the pipeline in the initial period of filling of ports 2 and 13 after points a and b can take on gas without liquid. The limitation of the mini- be made for the convenience of the operational amount of fluid required from flexible hoses. To activate the sensor 4. When using the device, it is done by installing a jet-level nozzle 2 and 13 defined by installing an aggressive liquid into the cavity, As well as the injector 7, a cross section (not shown), a valve 11 and a sensor 4 are made-55. Since the amount of liquid is from neutral, with respect to falling into the sensor 4 is small, the material is liquid. Nozzle 5 has shown experiments, restoring the level to set different doses, by means of its gas flow, the filling of the tank 11 can be done quickly.

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Claims (1)

Invention Formula A device for pouring liquid into a container consisting of a dispensing tank, a liquid pipeline connected to it, an exhaust pipe, a limit level sensor, characterized in that, in order to be able to dose the liquid into the tank of various sizes, it is equipped with a circuit 70069 flow control In addition, the inlet of the ejector is connected to the outlet of the pneumatic valve, the outlet is connected to the dispensing tank, and its mixing chamber is via a non-return valve with a sensor of the limit level, the latter through the converter is connected to the pneumatic valve.