SU1239520A1 - Device for metered dispensing of liquid - Google Patents

Abstract

The invention relates to volumetric dosing means, is used in vending machines for dispensing foaming liquids and allows to increase the dosing accuracy. For V. this source 1 of compressed gas through reducer 2 is connected to the pneumatic cavity 3 of the supply tank 4, the cavity 5 of which is connected by pipeline 7 to valve 8. The device contains a pressure sensor, a cam switch 10 and pressure regulators 11, 12 with set points 13, 14 and valves 15, 16. The control device 10 is equipped with a valve control cam 15, 16, on which two switching zones are made, the first of which is made smaller than the shutdown zone of the cam of the output valve 8, and the second one is less than 3 switching points of the cam. Liquid dosing is carried out at constant pressure with the help of sensor 9, pressure regulators 11, 12, and valves 15, 16. 1 il. i (L

Description

The invention relates to volumetric dosing and can be used in vending machines for dispensing frothing liquids, such as beer or kvass.

The purpose of the invention is the improvement of metering accuracy.

FIG. 1 is a schematic diagram of the device; in fig. 2 - scheme of the command device; in fig. 3 - relative position and control cam profiles.

The device for dosed off-start liquid contains a source of compressed gas, through a reducer 2, connected to the pneumatic cavity 3 of the supply tank L, the liquid cavity 5 of which through the gas discharge valve 6 is connected by a liquid pipeline 7 to a controlled outlet valve 8 | In line 7, pressure sensor 9, cam control unit U and two pressure regulators 11 and 12 with control devices 13 and 14 and valves 15 and 16. Komachdo device 10 is connected to output valve 8 and the first inputs of valves 15 and 16. The pressure regulators 11 and 12 and the setting units 13 and 14 are connected to the pressure sensor 9. The control device 10 is equipped with a control cam 17 for the valves 15 and 16, on which two switching zones A are provided, & , the first of which is made smaller than the shutdown zone of the cam 18 of the output valve 8, and the second smaller than the switching zone of the cam 18.

The device works as follows. .

At the start command is included. the motor 19 of the controller 10, which cam 18 gives the command to turn on the valve 8.

Liquid from reservoir 4 under pressure of compressed gas coming from source 1 of compressed gas through gas line 5 through gearboxes 2 and valve 15 passes through liquid pipe 7, valve 6 to discharge gas, liquid cooler (not indicated) and enters discharge through valve 8 At the end of the dose, the control unit 10 locks the valve 8.

ten

15

20

The dosing of the fluid occurs at a constant pressure, provided by the pressure sensor 9, the pressure regulators 11 and 12, and the valves 15 and 16 as follows.

After unlocking the valve 8, the pressure in the liquid line 7, including the connection point of the sensor 9, decreases. Sensor 9 senses this pressure drop and sends a signal to the lower and upper pressure regulators 11 and 12. At the same time, only the lower pressure regulator 11, which turns on the valve 15, opens, the valve 15 passes an additional amount of compressed gas into the tank 4. At the same time, the pressure inside the tank 4 increases and, accordingly, inside the liquid line 7 despite that at this time the outflow of the fluid continues. As soon as the pressure on the sensor 9 reaches the set value of 25, the lower pressure controller 11 closes valve 15. If the pressure drops off again during the dose dispensing process, it will be restored by the same amount.

thirty .

If the pressure in the liquid

; line 7 increases beyond the allowable (and this can occur in the event of an increase in fluid temperature, as well as in the case of a weak valve stub 15), the sensor 9 will give a signal to the lower and upper pressure regulators 11 and 12. In this case, only the upper pressure regulator 12, which reacts to the pressure increase, turns on the valve 16. The latter opens and reduces the pressure in the system to such a value that the valve 16 closes again at the signal of the upper pressure regulator 12.

The pressure of the fluid is ensured in this way not only in the dosing process, but also in the intervals between dosing cycles when the pressure in the system due to the heating of the fluid is most likely to increase.

Thus, a high accuracy of maintaining a given

40

45

50

The magnitude of the dose given out determines the pressure of the outflow of fluid — the dynamic rate of the outflow of the fluid set by cam 18 of the control device 10.

five

0

The dosing of the fluid occurs at a constant pressure provided by the pressure sensor 9, the pressure regulators 11 and 12, and the valves 15 and 16 as follows.

After unlocking the valve 8, the pressure in the liquid line 7, including the connection point of the sensor 9, decreases. Sensor 9 senses this pressure drop and sends a signal to the lower and upper pressure regulators 11 and 12. In this case, only the lower pressure regulator 11, which reacts to a decrease in pressure, activates the valve 15i Opening, the valve 15 passes an additional amount of compressed gas inside the tank 4. This increases the pressure inside the tank 4 and, accordingly, inside the liquid line 7 despite the fact that at this time the outflow of the fluid continues. As soon as the pressure on the sensor 9 reaches the set value 5, the lower pressure controller 11 closes valve 15. If the pressure drops again in the dose dispensing process, it will be restored by a similar pressure.

0

If the pressure in the liquid

; line 7 increases beyond the allowable (and this can occur in the event of an increase in fluid temperature, as well as in the case of a weak valve stub 15), the sensor 9 will give a signal to the lower and upper pressure regulators 11 and 12. In this case, only the upper pressure regulator 12, which reacts to the pressure increase, turns on the valve 16. The latter opens and reduces the pressure in the system to such a value that the valve 16 closes again at the signal of the upper pressure regulator 12.

The pressure of the fluid is ensured in this way not only in the dosing process, but also in the intervals between dosing cycles when the pressure in the system due to the heating of the fluid is most likely to increase.

Thus, a high accuracy of maintaining a given

0

five

0

 pressures of outflow of fluid — dynamic pressure, which, in combination with the constant time of outflow of fluid, provides an increase in metering accuracy. Likewise, the static pressure of the fluid is maintained in the intervals between doses.

In order to prevent the impact of hydraulic shocks on the metering accuracy during the period when the valve 8 is turned on and off, the valves 15 and 16 with the cam 17 are previously turned off and restarted again after the liquid is disturbed those. at the end of transients i

Claims (1)

Invention Formula A device for dispensing a liquid containing a compressed gas source through a reducer associated with the pneumatic cavity of the supply tank, the liquid cavity of which is connected through a gas discharge valve ; ABOUT five 0 a liquid pipe with a controlled outlet valve, and a pressure sensor installed on the liquid pipe, characterized in that, in order to increase the metering accuracy, a cam controller and two pressure regulators with control devices and valves are inserted into it, while the cam controller is connected to a controlled one the output valve and the first, the valve inputs of the pressure regulators, the second inputs of which through the pressure regulators and the set points are connected to the pressure sensor, and the control unit is equipped with a cam control valves with pressure regulators on which two switching zones are made, one of which is smaller than the output valve cam shut-off zone, and the other smaller than the output valve cam switch-on zone. FIG. H Compiled by Y. Motorin Editor N. Tupitsa. Tehred O.Gortvay Proofreader A.Obruchar Order 3384/39 Circulation 705Subscription VNIIPI USSR State Committee. for inventions and openings 113035, Moscow, Zh-35, 4/5 Raushsk nab. . Production and printing company, Uzhgorod, Projecto st., 4