KR200476480Y1 - Apparatus for measurement of beverage discharge - Google Patents

Abstract

The present invention relates to a device for measuring a beverage discharge amount, wherein the device for detecting the beverage discharge amount is not located in a liquid pipe, thereby completely solving the above-mentioned problem. The beverage discharge amount measuring device is configured such that a device for detecting the flow rate or the flow rate of the beverage does not exist in the pipeline between the storage tank and the beverage discharge port. That is, the present invention includes a beverage storage tank, a beverage line connected between a beverage storage tank and a beverage outlet, and a measuring means for measuring the amount of discharge from the beverage outlet, but not located in the beverage line.

Description

[0001] Apparatus for measurement of beverage discharge [0002]

The present invention relates to a device for measuring the amount of beverage discharged from water, liquor, soft drinks and the like.

In order to sell water, liquor (especially beer), soft drinks (hereinafter collectively referred to as "drinks"), the amount of these beverages discharged from the outlet must be measured.

Most draft beer stores offer beer to customers in a certain volume (eg, 300 cc, 500 cc, 1000 cc, 2000 cc) rather than measuring beer emissions, and finally calculate the total number of beers and calculate the amount of beer . In recent years, some stores have been using automated beer gauges to secure customers and reduce operating costs.

An example of such a device is Utility Model Publication 1996-0004673 (pipeline-connected draft beer direct feeder). This technique is to supply the draft beer through the pipeline so that the customer at each table can take the draft beer directly at the draft beer sales floor and automatically display the prices of the draft beer and the snack that the customer drinks on the counter and the customer table To a pipeline-connected draft beer supply device. This technology does not provide a concrete measure of the measurement and control of beer emissions, but merely suggests the concept of automatically measuring the amount of beer discharged by customers.

Another example is disclosed in JP-A-2004-0080252 (draft beer price display and billing system). In this technique, a capacity detector is provided which is installed in the beer supply line and detects the amount of draft beer.

On the other hand, in the case of a household water meter, a rotary impeller or a flow velocity sensor has been conventionally installed in an arbitrary pipe through which tap water is discharged, and the flow rate of water is sensed to measure tap water usage. That is, these physical devices must be installed in the pipeline through which tap water flows.

In this conventional technique, a physical sensing device required to measure the amount of beverage discharged is installed in a pipe through which beverage flows. The problem at this time is that since such a physical sensing device basically acts as a foreign substance to beverage, There is a concern that the ingredients of the beverage passing through the body may be altered. Particularly, in the case where the sensing device is a mechanical device, the problem of contamination of the beverage may be further exacerbated by the lubricating oil of the movable portion or the abrasion of the movable portion. Conversely, there is a concern that the sensing device may be corroded or deteriorated by beverages.

There is also a need to provide means for cleaning the sensing device to reduce the likelihood of such beverage contamination and alteration, corrosion and deterioration of the sensing device, which, in addition to the increased cost of the overall system, is cumbersome and costly to maintain do.

The object of the present invention is to provide a device for measuring a beverage discharge amount, wherein the device for detecting the amount of beverage discharged is not located in the liquid pipe, thereby completely solving the above-mentioned problem.

The basic starting point of the present invention is to constitute a beverage discharge amount measuring device such that a device for detecting the flow rate or flow rate of the beverage does not exist in the pipeline between the beverage storage tank and the beverage discharge port.

More specifically, the structure of the present invention includes a beverage storage tank; A beverage line connected between the beverage storage tank and the beverage outlet; And a measuring means for measuring the amount of discharged water from the beverage outlet but not located in the beverage duct.

The measurement means basically includes a pre-discharge parameter measurement means, a post-discharge parameter measurement means, and a means for estimating the emission amount with these two parameters.

According to one embodiment, the pre-discharge parameter is a predetermined discharge amount per hour as a specification of the valve (hereinafter referred to as a reference discharge amount), the post-discharge parameter is a discharge operation time of the valve, )}. ≪ / RTI >

According to another embodiment, the pre-discharge parameter is the initial weight of the storage tank (initial tank weight) and the post-discharge parameter is the weight of the storage tank after beverage discharge (tank weight after discharge) Weight) - (tank weight after discharge)} to the volume.

According to yet another embodiment, the pre-discharge parameters are each specific discharge capacity of a plurality of valves having different discharge capacities (the maximum discharge volume the valve can discharge), wherein each valve is operated ), The post-discharge parameter is a valve selected for discharging the beverage, and the discharge amount calculating means outputs the specific discharge capacity of the selected valve as a result value.

Hereinafter, the specific configuration and operation of the measurement means for calculating the emission amount using the above parameters will be described.

According to the first embodiment of the invention, the measurement means includes reference discharge amount storage means for storing reference discharge amount data (unit: cc / sec) of the discharge port, time at which the beverage is discharged from the discharge port, (For example, seconds), means for calculating a discharge amount of the beverage from the standard discharge amount and the beverage discharge time, and means for storing the calculated discharge amount.

The beverage discharge time measuring means can be implemented in various ways. According to one embodiment, a liquid detection sensor may be provided at the outlet, and the difference between the detection time of the liquid, that is, the moment the beverage starts to pass, and the detection time after the beverage has passed, may be determined. Alternatively, according to another embodiment, a difference between the signal detection times of the two sensors may be determined by installing a first sensor for detecting the opening operation of the valve or the switch and a second sensor for detecting the closing operation in the valve or switch.

According to this embodiment, for example, assuming that the reference discharge amount of the valve or the switch is 100 cc / sec and the time for discharging the beverage by the user's operation is 10 seconds, the discharge amount of 100 cc / sec x 10 sec = 1000 cc is calculated. The discharge amount calculation value is stored in the discharge amount storage means of the measurement means. These emissions may be cumulatively stored and later configured to be summed and output when needed (eg, when the beer is at the beer house and the counter is calculating).

According to a second embodiment of the invention, the measuring means includes a first tank weight measuring means for measuring an initial weight of the beverage storage tank, a first tank weight storing means for storing the measured weight value, Means for measuring the weight of the beverage storage tank after the discharge, means for calculating the amount of discharge according to the difference between the weight of the initial tank and the weight of the tank after discharge, and means for storing the calculated discharge amount.

The initial tank weight measuring means and the discharged tank weight measuring means can be substantially constituted by electronic balances. For example, by installing an electronic balance on a beverage storage tank mounting portion (not shown) in the apparatus of the present invention and placing the storage tank on the electronic balance, the initial weight of the storage tank and the weight after discharge of the beverage can be measured.

According to this embodiment, for example, assuming that the initial tank weight (i.e., the total tank weight in a fully charged state of the beverage) is 20000 g and the tank weight after the beverage is discharged by the user's first outlet operation is 19500 g The first discharge amount of the beverage becomes 500 g. And the first emission amount is once stored in the emission amount storage means of the measurement means. The first, second, and third emission amounts of the second, third, and fourth drinks are cumulatively stored every time the drinks are discharged, will be.

According to the third embodiment of the invention, the measurement means includes a valve parameter storing means for storing each identifier (for example, ID) of a plurality of discharge valves and each discharge capacity, a valve for recognizing the identifier of the discharge valve Means for recognizing the discharge amount by using the identifier of the operated discharge valve and the discharge capacity after the operation of the discharge valve is completed, and means for storing the calculated discharge amount.

In this embodiment, the discharge valve is provided with a plurality of different discharge capacities, in which the amount of beverage that can be discharged to the maximum (specific discharge capacity) is specified as a specification. For example, four different valves with 300 cc, 500 cc, 1000 cc and 2000 cc discharge capacity can be installed in this design, which is the typical sales unit of draft beer. In this case, the valve should operate in a one-touch opening / closing manner in which the maximum amount (i.e., the discharge capacity) of the beverage can be discharged by one opening and closing operation. These valves are applied to a one-touch shower in public baths.

For example, the operation of this embodiment will be described. (Ie 00, 01, 10, 11) and each discharge capacity (that is, the discharge capacity) of the valves in the apparatuses having 00, 01, 10 and 11 valves having discharge capacities of 300 cc, 500 cc, 300cc, 500cc, 1000ccc, 2000cc) is stored in the valve parameter storage means. When the user operates the 500 cc valve to discharge 500 cc of beverage, the valve recognition means recognizes the valve ID of 01. In the discharge amount calculation means, 500 cc which is the discharge capacity of the valve No. 01 is calculated as the discharge amount, . Emissions will continue to accumulate and be configured to be summed later to output final emissions as needed.

According to the present invention there is no contamination problem of the beverage and there is concern that the sensing device will be corroded or deteriorated because there is no sensor or mechanical device that may deteriorate the beverage ingredient passing through the pipeline between the beverage storage tank and the outlet Disappear. In addition, the automatic beverage measuring system can be constructed at a very low cost, and a separate channel cleaning means becomes unnecessary.

The configuration, features, and functions of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the drawings. The accompanying drawings are as follows.
Fig. 1 shows a beverage discharge measuring apparatus according to a first embodiment of the present invention.
2 shows a beverage discharge measuring apparatus according to a second embodiment of the present invention.
3 shows a beverage discharge measuring apparatus according to a third embodiment of the present invention.

In the following examples, the beverage is limited to beer. In addition, detailed descriptions of what is obvious to those skilled in the art have been omitted.

1 shows a beer discharge amount measuring apparatus according to a first embodiment of the present invention. A beer pipe 30 is connected between the beer storage tank 10 and the discharge valve 20 and the measurement unit 40 is electrically connected to the discharge valve 20 through the signal line 41 to exchange signals.

The measuring unit 40 is provided with a reference discharge amount storage unit for storing the reference discharge amount data of the valve 20, not shown, a beer discharge time measuring unit for measuring the beer discharge time at the discharge port, An emission calculation unit for calculating the emission amount of beer from the standard emission amount and the beer emission time, and an emission amount storage unit for storing the calculated emission amount.

Reference emission amount data of the valve 20 is stored in the reference emission amount storage unit. A liquid detection sensor (not shown) is provided at the outlet of the valve 20 to measure the time for discharging the discharged beer in the beer discharge time measuring unit, and a liquid detection signal from the sensor is sent to the measuring unit 40), the beer discharge time measuring unit reads this signal and measures the discharge time of the liquid. The emission estimator calculates actual emissions by multiplying the stored reference emissions by the measured liquid emission times. This calculated amount of emission is stored in the emission storage section. The amount of each time the user operates the valve 20 is cumulatively stored in the discharge amount storage section. Then, after drinking the beer and counting at the counter, all the emissions are finally summed up.

According to another embodiment of the present invention, a first sensor (not shown) for detecting the opening operation of the valve 20 and a second sensor (not shown) for detecting the closing operation are installed in the valve 20, Can be transmitted to the measuring unit 40 through the signal line 41 to measure the beer discharge time.

Fig. 2 shows a beer discharge amount measuring apparatus according to a second embodiment of the present invention. As shown in Fig. 1, the beer pipe 30 is connected between the beer storage tank 10 and the discharge valve 20 is similar. The storage tank 10 is placed on the electronic balance 52 and the electronic balance is electrically connected to the measurement unit 50 through the signal line 51 to exchange signals. The measuring unit 50 also exchanges signals with a valve operation detecting sensor (not shown) provided on the valve 20 via the signal line 41. [

The measuring unit 50 is provided with a first tank weight measuring unit for measuring the initial weight of the beer storage tank 10, a first tank weight storing unit for storing the measured initial weight value, An aftertreatment tank weight measuring unit for measuring the weight of the beer storage tank after the beer storage tank, an emission calculating unit for calculating the amount of emission according to the difference between the weight of the initial tank and the weight of the tank after discharge, and an emission storage unit for storing the calculated emission.

The initial tank weight measuring unit and the discharged tank weight measuring unit perform the measurement through the electronic scale 52. For example, when the microcomputer is used to measure and store the initial weight of the storage tank 10 for the first time, the valve operation detection signal is inputted through the signal line 41 to indicate that the valve 20 has been operated It is possible to automatically measure the weight of the storage tank 10 by using a predetermined software program. Accordingly, the initial tank weight measuring unit and the discharged tank weight measuring unit may be implemented by a software program included in or outside the measuring unit 50. [ As described above, it is obvious that the weight of the storage tank 10 is used to estimate the amount of discharged fuel by weight. It is of course possible to use the difference in weight of the storage tank 20 as the emission data because it is necessary to calculate the price per weight even if the weight is not necessarily converted into the volume. The emissions thus calculated are stored in the emission storage.

As in the case of Fig. 1, the estimated emission amount is stored in the emission amount storage section. And the amount of each time the user operates the valve 20 is cumulatively stored in the discharge amount storage section. Then, after drinking the beer and counting at the counter, all the emissions are finally summed up.

Fig. 3 shows a beer discharge amount measuring apparatus according to the third embodiment of the present invention. It is similar that the beer pipe 30 is connected between the beer storage tank 10 and the discharge valve 20 as shown in Figs. According to the present embodiment, a plurality of valves 20, 20 ', 20 "are provided. Each of these valves has a different specific discharge capacity (the maximum dischargeable amount of the valve) The valves 20, 20 ', 20 "and the measuring unit 60 are connected to each other through respective signal lines 41, 41', 41" to exchange signals. do.

The measuring section 60 is provided with a valve parameter storing section for storing the respective IDs of the plurality of discharge valves 20, 20 ', 20 "and each discharge capacity, not shown, the specific valves 20, 20 ', 20' ') of the valves 20, 20', 20 "after the operations of the valves 20, 20 ', 20" An emission calculation unit for calculating the emission amount, and an emission storage unit for storing the calculated emission amount.

The operation of this embodiment will be described as an example. In the state in which the discharge capacity and the ID of each valve 20, 20 ', 20 "are stored in the valve parameter storage unit, the user operates the valve 20, When the amount corresponding to the discharge capacity is discharged, the valve recognition unit of the measuring unit 60 recognizes the ID of the corresponding valve 20 via the signal line 41. In the discharge amount calculating unit, And temporarily stores it in the emission amount storage unit.

As in the cases of FIGS. 1 and 2, once the amount of discharged fuel is stored in the amount of fuel stored in the discharged amount storage section, the amount of each time the user operates the specific valve 20, 20 or 20 "continues to be cumulatively stored in the discharged amount storage section. Then, after drinking the beer and counting at the counter, all the emissions are finally summed up.

The preferred embodiments of the present invention have been described with reference to the drawings. However, the scope of the invention is not limited to these embodiments, and it is within the scope of the present invention to modify or modify the embodiments within the technical scope of the invention.

The beer storage tank 10, the discharge valve 20, the valves 20, 20 ', 20 ", the pipe 30, the measuring section 40, the measuring section 50, the measuring section 60, the signal line 41, Signal lines 41, 41 ', 41 ", electronic scales 52,

Claims (7)

A beverage discharge amount measuring apparatus comprising:
Beverage storage tanks; A beverage line connected between the beverage storage tank and the beverage outlet; And measuring means for measuring the amount of the liquid discharged through the valve of the beverage outlet but not located in the beverage line,
Wherein the outlet comprises a liquid detection sensor,
A reference emission amount storage means for storing a predetermined amount of emission per hour as a specification of the valve (hereinafter referred to as a reference emission amount); a detection time of a liquid, that is, (Reference emission amount) x (operation time) from the reference emission amount and the beverage emission time stored in the reference emission amount storage means to calculate a beverage emission time operation time And means for calculating the amount of the discharged beverage. delete delete 2. The apparatus according to claim 1, wherein the liquid detection sensor of the outlet includes a first sensor for sensing an opening operation of the valve and a second sensor for sensing a closing operation,
Wherein the beverage discharge time measuring means of the measuring means further comprises means for determining a difference between signal detection times of the first and second sensors. A beverage discharge amount measuring apparatus comprising:
Beverage storage tanks; A beverage line connected between the beverage storage tank and the beverage outlet; Measuring means for measuring the amount of the liquid discharged from the beverage outlet and not located in the beverage duct,
The measuring means includes means for measuring the initial weight of the storage tank (hereinafter referred to as initial tank weight), initial tank weight storage means for storing the measured weight value, weight of the storage tank after discharge of the beverage Means for measuring the weight of the tank after the discharge, means for measuring the weight of the tank, (means for measuring the weight of the tank after the discharge), means for calculating the amount of discharge Emission measuring device. The beverage discharge amount measuring device according to claim 5, wherein the initial tank weight measuring means of the measuring means and the after-discharge tank weight measuring means comprise an electronic balance. A beverage discharge amount measuring apparatus comprising:
Beverage storage tanks; A beverage line connected between the beverage storage tank and the beverage outlet; Measuring means for measuring the amount of the liquid discharged from the beverage outlet and not located in the beverage duct,
The measuring means may include means for measuring a specific discharge capacity, which is a maximum dischargeable quantity of a plurality of valves having different discharge capacities (each valve is operated so that the total capacity is discharged by one-touch), a plurality of discharge valves A valve recognition means for recognizing the identifier of the discharge valve which the user has selected and operated from among the plurality of valves, a valve recognition means for storing the unique discharge of the selected discharge valve after completion of the operation of the discharge valve, And means for outputting the capacity as a discharge amount result value.

Images