SU473059A1 - Liquid dispenser - Google Patents

Description

one

This invention relates to a weight measuring technique.

Devices for metering liquids are known, comprising a metering device, an adjustment unit, valves, a command node, a source and a receiver for the product to be dosed. In these devices, the amount of product to be dosed is adjusted manually.

In the proposed device, the dispenser is made in the form of a container with an inlaid diaphragm, one cavity of which is connected through valves to the source and receiver of the product to be dosed, and the other cavity is connected through clalans to the atmosphere and to the outlet of the regulating unit, one cavity of which is connected through valves to two sources of constant pressure, and the other cavity, which is connected to the output of the control unit, is connected through a valve to a constant tank connected through a valve to a signal source ation.

The drawing shows a diagram of the device.

The device contains a dispenser formed by a container 1 s in the left-hand diaphragm, a throttle 2 and valves 3-7, an adjustment unit formed by a container 8 with a left-handed membrane, a constant container 9 and valves 10-13, a command node 14, a source 15 and a receiver 16 dosed product. Tanks with in the Loy

the membrane is a constant volume in which the membrane 17 is installed, dividing the volume into two sealed cavities A and B having channels for supplying the working medium.

The cavity And the tank 1 through the valves 3 and 4 are connected respectively to the source 15 and the receiver of the metered liquid 16, and through

the throttle 2 and the valve 5 are with drainage 18. The cavity B of the tank 1 is connected to the atmosphere through valve 6, and through the valve 7 to the cavity B of the vessel 8, which is the output of the regulator assembly. Cavity B of tank B through valve

10 is connected to a constant tank 9. The tank 9 through the valve 11 is in communication with a source of a control signal, in proportion to the magnitude of which the dosing of the product changes during the operation of the device.

The cavity A of the tank 8 is connected via valves 12 and 13, respectively, to a zero pressure source PO and a pressure source PK-R. The pressure value PB slightly exceeds the pressure in the receptacle of the product to be dosed 16. The command unit 14 forms the command PI, Pa and P valve control in the required sequence. The PI command switches valves 10 and 11, the PZ valves command 7, 12 and 13, and the PZ valves 3, 4 command

5 and 6.

In the initial state (at, 2 0 and), valves 3, 7, 11, and 13 are closed, and valves 4, 10, and 12 are open. The liquid under dosing under pressure, due to the installation on the drainage line of the throttles 2, enters the cavity A of the tank 1 and is discharged into the drainage. Since the cavity B of the container 1 is in communication with the atmosphere, the membrane 17 of this container is in a compressed state and the volume of the cavity B is minimal. The cavity A of the container 8 is connected to the pressure source P, and the cavity B is connected to the atmosphere, therefore the membrane 17 of the container 8 is also in a compressed state, and the volume of the cavity B of the container 8 is minimal. Capacity 9 is connected to a pressure source PBX. The operation of the device includes two cycles.

In the first cycle, the control unit prepares for the selection of the quantity of the product to be dosed, which is proportional to the current pressure value PBX.

When issuing commands, valves 7, 11 and 13 are open and valves 10 and 12 are closed. The container 9 is disconnected from the PSX source AND WILL BE CONNECTED to the cavity B of the container 8, which is disconnected from the dispenser. In cavity A of vessel 8, pressure PQ will be established. The gas from the tank 9 will flow into the cavity B of the tank 8, straightened into the diaphragm 17 until the cavity B of the tank 8 to the tank 9 in the system does not establish the pressure PO.

The amount of gas GX, which will go into the cavity B of the tank 8, is equal to

„(/ In - Ro) 1

Art. ,

RT

where Pin is the current value of the input pressure;

Y is the volume of capacity 9; R is a universal gas constant;

T - absolute temperature. Thus, the amount of gas GX entering the cavity B of capacity 8 is proportional to the current input pressure

/ in

In the second cycle, the dispenser takes to the receiver the amount of the product to be dosed, which is proportional to the signal Rvc.

When giving commands and P2 Q, valves 3, 5, 6 and 12 are open and valves 4, 7 and 13 are closed. The cavity A of the tank 1 is disconnected from the source of the product to be dosed 15 and the transfer and is connected to the receiver 16, the pressure Pup in which is constant. The cavity A of the tank 8 is connected to the pressure source RV, the value of which exceeds the pressure Rdr-B, the membrane G / tank 8 is compressed, is completely displaced gas from the cavity B of this tank into the cavity B of the tank 1. The membrane 17 of the tank 1 will be straightened, displaced in the receiver 16, until the pressure in the cavity B of the tank 1 becomes equal to the pressure

pr in the receiver.

The volume Vx, which will occupy the membrane 17 of the container 1, and hence the amount of the product to be dosed, which came from the cavity A of the container 1 to the receiver 16 is equal to

  V,

(.). (2)

W.

 , etc

Consequently, the amount of product Vx entering the receiver 16 when dispensing is proportional to the PBX signal at the end of the dispensing of command P and RH are removed (0 and), and the device returns to its original state.

Subject invention

A device for dispensing a liquid containing a dispenser, valves of the control unit and the atmosphere, a command node, a source and a receiver of the dispensed product, characterized in that, in order to automatically control the amount of the dispensed product, the dispenser is made in the form of a container with a hollow membrane, one cavity which is connected through valves to the source and receiver of the product to be dosed, and the other cavity is connected through valves to the atmosphere and to the outlet of the control unit | made in the form of a container with a hollow diaphragm; which it is connected through valves to

two sources of constant pressure, and the other cavity serves as the output of the control unit and is connected through a valve with a constant container connected through a valve to the source of the control signal.

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