SU903708A2 - Continuous metering pump - Google Patents

Description

The invention relates to instrumentation, namely to devices for the continuous dosing of liquid materials having suspended particles in their composition. . According to the main author. St. No. 467234 is known for a continuous liquid dispenser, filled in the form of a sealed supply breeze with air inlet and outlet liquid nozzles, a distribution tank beneath it, from the discharge pipe of which the liquid enters the reservoir, and a dose sensor installed in the latter, connected via a converter and dose controller to control unit. The control unit is installed in the gap of the inlet air nozzle, and the lower end of the outlet nozzle is located in the zone of the distribution tank, below the level of the liquid entering it, and the device provides increased reliability of metering of the weighted-time liquid medium and simplifies the design of the continuous liquid metering 111 liquids from a hermetically sealed vessel continue until the air pressure inside the vessel, folded with the pressure of the liquid column in the vessel, is released. atmospheric. Thus, the air pressure inside the vessel and the height of the liquid column in the vessel are rigidly connected to each other. In addition, the pressure of the liquid column in the vessel depends on the specific weight of the container. After emptying, the hermetic supply tank is refilled with bladder dosing. After the tank is filled, the pressure in the air (above the lip) space is equal to the atmospheric pressure. Therefore, when opening the shut-off valve on the liquid nozzle of the supply tank, the liquid from the tank is poured until pressure (discharge) is created in the tank’s airspace, which is capable of holding a column of fluid in the tank.

This causes an unnecessary consumption of the dosed liquid, depending on the degree of filling of the tank and the specific gravity of the liquid.

The purpose of the invention is to save the consumption of the metered liquid.

This goal is achieved by the insertion of a successively connected second branch pipe on the supply Vake, a vacuum device, a control unit, a vacuum gauge and a vacuum gauge unit into the continuous liquid metering unit.

The drawing shows a diagram of a continuous liquid dispenser.

The device contains a sealed supply tank 1 filled with liquid 2, which through the outlet nozzle 3 enters the distribution tank 4. The upper end 5 of the discharge pipe 6 of the tank 4 is located at the level of the liquid 7 in this tank. The lower end of the pipe 6 is installed directly above the tank 8 s fluid 9. In the tank, a dose sensor 1O is connected, connected via a converter 11 and a dose controller 12 to a control unit 13. Parts 14 and 15 represent the common inlet air inlet, the gap of which, i.e. between parts 14 and 15, a control block 13 is placed. A supply pipe 16 is mounted on the supply tank 1, which connects the tank 1 with an evacuation device 17, which is connected through the control unit 18 and the vacuum gauge 19 to the gauge setter 2O. The device operates as follows.

Before starting, the setpoint gauge 2O is set to a division corresponding to the height of the liquid column 2 in the tank 1. After the liquid enters the tank 8, the evacuation device 17, the control unit 18, the gauge 19 and the gauge unit 20 are put into operation. In view of the fact that at this time the control unit 13 together with the dose regulator 12, the converter 11 and the dose sensor 10 were not yet included in the operation, and the liquid .7 in the tank 4 formed a hydraulic seal for the liquid 2,

the tank 1, then under the action of the discharge generated in the tank 1 as a result of the operation of the vacuumizing device 17, the further flow of liquid into the tank 5 4 and the tank 8 is stopped. After the liquid 2 in the tank 1 occupies the predetermined height of the liquid column, the sensor U of the dose, the converter 11, the controller 12 of the dose and the unit are put into operation

0 13 controls At the command of the sensor 10 of the azoa, which passes through the converter 11 and the regulator 12, unit 13 communicates the upper cavity of the tank 1 with the surrounding atmosphere and the liquid from the tank 1 begins to flow into the tank 4 and through the drain pipe 6 into the tank 8. After in the tank 8 there is a predetermined dose, the sensor 10 issues a command to the block 13 to disconnect the upper part of the tank

0 1 with ambient atmosphere. But due to the fact that at this time the evacuation device 17 is working at full capacity, the further flow of liquid into the tank 4 and, consequently, into the tank 8 stops and the filling of the tank 1 with an external source (not shown in the drawing) begins with liquid until liquid 2 in tank 1 occupies the specified column height. The dose dispensing process is then repeated.

The proposed device allows a more economical use of the metered liquid due to the more rapid cessation of the outflow of liquid from the supply tank.

Claims (1)

1. USSR author's certificate No. 467234, cl. GOI F 11/28, 1973. /.-H