KR0113128Y1 - Drink pump device - Google Patents

Abstract

In the state where the conventional beverage pump device is intact, it was not possible to respond to the request so that the finished amount of the beverage for sale, that is, the amount of syrup discharged, could be arbitrarily changed according to the type of beverage, the customer's choice, and the like.

In order to solve this problem, the beverage pump of the present invention extends on the same axis and is provided with two sets of reciprocating reciprocating pumps arranged horizontally and symmetrically. The slider consists of a drive motor reciprocating through a cam mechanism, a beverage suction pipe and a discharge pipe drawn out in parallel with each pump through a suction valve and a discharge valve of a cylinder.

In addition, a cup-type beverage vending machine by controlling the driving motor by controlling the driving motor by giving the output signal and the beverage discharge amount set value of the rotation angle detector connected to the driving motor, for example, the pulse generator, to control the discharge in the pump device, Equipped with a beverage distributor, it is to provide a beverage pump device for discharging and supplying the syrup to the cup by a specified amount.

Description

Beverage Pump Unit

1 is a block diagram of an embodiment of the present invention.

2 is a schematic diagram of the piping system in FIG.

3 (a) and 3 (b) are explanatory diagrams of the operation of the pump apparatus.

4 (a) to 4 (b) are explanatory diagrams of a configuration and operation of a pump device in the related art.

* Explanation of symbols for main parts of the drawings

1: Reciprocating metering pump 1a: Intake valve

1b: discharge valve 1c: cylinder

1d: piston 8: slider

9: driving motor 10: cam

13 control unit 18 pulse generator (rotation angle detector)

The present invention relates to a beverage pump device mounted on a cup-type beverage vending machine, beverage dispenser, etc. to discharge the syrup into a cup by a specified amount.

First, the structure and operation | movement of the bar drink pump apparatus mentioned above conventionally are demonstrated in FIG. In the drawing, reference numeral 1 denotes a beverage pump which is a throttle metering pump, and includes a cylinder 1c and a piston 1d provided with a suction valve 1a and a discharge valve 1b, and a suction pipe for the suction valve 1a. The syrup tank 3 was connected via (2), and the front end nozzle 5 of the discharge pipe 4 connected to the discharge valve 1b is opened toward the beverage cup 6. On the other hand, a slider 8 supported by the frame 7 and linearly guided to the piston 1d is connected, and a cam 10 attached to the drive motor 9 for reciprocating the slider 8 is provided. In the center, the slider 8 is provided with a pair of front and rear guide rollers 8a and 8b, and these constitute a reciprocating crank mechanism.

Furthermore, 11 is an independent cam 12 provided on a camshaft, a standby position detection switch, and 13 is a control part of the drive motor 9.

With this configuration, the motor is stopped in the state of FIG. 4 (a). When the syrup supply command is given to the control unit 13, the drive motor 9 starts to turn the cam 10 at a slow speed. Rotate clockwise. Then, in the stroke where the cam 10 rotates from 0 ° to 90 ° based on the standby position, the slider 8 retreats in the direction of the arrow P via the guide roller 8b as shown in (b). Accordingly, the pump 1 sucks the syrup from the syrup tank 3 into the cylinder 1c through the suction valve 1a. Subsequently, in the stroke where the cam 10 rotates from 90 ° to 270 °, the cam 10 causes the slider 8 to move in the direction of the arrow Q through the guide roller 8a as shown in (c).

As a result, the piston 1d is advanced to discharge the syrup stored in the cylinder 1c to the beverage cup 6 through the discharge valve 1b and the discharge pipe 4.

Then, when the cam 10 is rotated once and returns to the standby position again, the switch 12 is operated in accordance with the autonomous cam 11 to stop the driving motor 9 and the one-time syrup feeding operation is finished.

Moreover, the reciprocating stroke of the piston 1d by the rotation of the cam 10 is changed by changing the distance l between the guide rollers 8a and 8b with the above-described configuration, so that one syrup discharge amount is discharged. Allows for variable adjustment within the volume range of (1c).

In addition, when the syrup drink is actually produced by a beverage vending machine or a beverage pulverizer, it is well known that in addition to the syrup supply, the beverage cup 5 is supplied with diluted cold water, carbonated water, and ice if necessary.

However, as described above, the beverage pump device composed of a single reciprocating static displacement pump has a syrup discharge amount in one selling operation, i.e., the syrup discharged from the pump during one rotation of the cylinder due to the limitation of the operating surface. It is decided arbitrarily within a range. Moreover, it is also conceivable to double pump the pump, in order to increase the discharge of the syrup, but in this case, the suction stroke enters between the discharge stroke of the pump and the next discharge stroke. The operation is long and not practical.

For this reason, in the state of the conventional beverage pump apparatus, it is not possible to respond to the request to arbitrarily change the completion amount of the plate beverage, that is, the syrup discharge amount according to the type of beverage, the customer's choice, and the like.

The present invention has been made in view of the above, and an object of the present invention is to provide a beverage pump apparatus that can continuously supply and discharge the syrup while employing a reciprocating constant capacity pump, and furthermore, to arbitrarily vary its discharge.

In order to solve the above problems, the beverage pump of the present invention provides two sets of reciprocating metering pumps arranged symmetrically on the same axis and a slider which provides a 180 ° stroke phase difference between each pump to interconnect pistons. And the slider comprises a drive motor reciprocating through a cam mechanism, a beverage suction pipe and a discharge pipe drawn out in parallel with each pump through a suction valve and a discharge valve of a cylinder.

In addition, the drive motor can be controlled by giving the controller the output angle of the rotation angle detector connected to the drive motor, for example, the pulse generator and the output value of the beverage discharge amount, in order to variably adjust the discharge amount by the pump device having the above-described configuration.

According to the above configuration, when the slider is reciprocated through the cam by the drive motor, two sets of pumps are alternately discharged and attracted with a 180 ° phase shift.

Accordingly, the beverage is simply and continuously discharged through the beverage discharge pipe drawn out from the pump device.

In this case, the amount of beverage discharged is proportional to the rotation angle of the cam, that is, the rotation angle of the driving motor for rotating the cam. Therefore, the drive motor is detected by comparing the rotation angle of the drive motor with a rotation angle detector such as a pulse generator, and counting the pulse signal output from the detector at the control unit and comparing it with a separately set emission value. By controlling the amount of beverage discharge can be arbitrarily adjusted.

Next, an embodiment of the present invention will be described with reference to the drawings. Moreover, the same code | symbol is attached | subjected to the same component corresponding to the code | symbol of FIG.

First, FIG. 1, FIG. 2 means the structure of the whole pump apparatus. In other words, the pump device of the present invention is designed to drive two sets of reciprocating metering pumps 1 arranged coaxially on the left and right by one drive motor 9. Here, each pump (1) is provided at the left and right ends of the slider (8) connected to the driving motor (9) via the cam (10) so as to suck and discharge the respective pumps (1) at 180 ° stroke phase differences. The piston 1d of is coupled. In addition, as shown in FIG. 2, each of the pumps 1 arranged on the left and right sides has an inlet side and an outlet side through the inlet valves 1a and 1b attached to the cylinder 1c. It connected to each other via (15), and the drink suction pipe 16 and the discharge pipe 17 are pulled out from this pipe line to the outside. In addition, a pulse generator 18 is connected to the drive motor 9 as a rotation angle detector to detect the rotation angle of the drive motor.

In this configuration, when the syrup supply command is given to the control unit 13, the drive motor 9 is started by the command from the control unit, and the cam 10 is rotated. (1) operates as shown in FIG. 3 (a) and (b).

That is, in the stroke stroke (arrow P) of the first half where the cam 10 rotates from 0 ° (the standby position in FIG. 2) to 180 °, the pump 1 on the left side becomes the discharge stroke as shown in (a). The syrup stored in (1c) is discharged through the discharge valve 1b.

In the same first half stroke, the pump 1 on the right side becomes a suction stroke, and the syrup is sucked into the cylinder 1c through the suction valve 1a. In the subsequent stroke stroke from 180 ° to 360 ° (arrow Q), on the contrary, as shown in (b), the pump on the left side becomes the intake stroke and the pump on the right side becomes the discharge stroke. Alternately, the continuous syrup is discharged toward the beverage cup from the beverage discharge pipe 17 drawn to the outside.

In the pump operation described above, the syrup discharge amount from the pump device is proportional to the rotation angle of the driving motor 9. Therefore, the rotation angle of the drive motor 9 is detected by the pulse generator 18, and the pulse signal is applied to the controller 13, and the syrup discharge amount given separately from the pulse signal by the controller 13 is set to the set value and the deviation counter. In comparison, by controlling the drive motor, the syrup discharge amount can be arbitrarily adjusted according to the set value.

The beverage pump device of the present invention is configured as described above, so the following effects are achieved.

In the structure of claim 1, two sets of reciprocating metering pumps are provided with a 180 ° stroke phase difference therebetween to reciprocate the driving motor, so that syrup and the like can be continuously discharged and supplied to the cup. .

In addition, by combining the control system according to claim 2 and the pulse generator according to claim 3, the beverage pump device can be arbitrarily and variably adjusted according to the discharge set value. It is possible to cope with the requirement to change the amount of completed beverages at vending machines, beverage distributors, and the like, thereby increasing the function.

Claims (3)

Two sets of reciprocating metering pumps 1 extending on the same axis and arranged in left-right symmetry, and a slider 8 which provides a 180 ° stroke phase difference between the pumps and connects pistons 1d to each other; The beverage suction pipe 16 drawn in parallel with each pump through the drive motor 9, the cylinder 1c, the intake valve 1a, and the discharge valve 1b which reciprocate this slider 8 via a cam mechanism, Beverage pump device, characterized in that configured to the discharge pipe (17). The beverage pump apparatus according to claim 1, wherein the drive motor (9) is controlled to drive the output motor and the beverage discharge amount set value of the rotation angle detector connected to the drive motor (9). 3. The beverage pump apparatus according to claim 2, wherein the rotation angle detector is a pulse generator.