JP2007276814A - Beverage supplying device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a beverage supplying device capable of avoiding an undesirable case wherein a beverage containing an inclusion inhibited beverage raw material, e.g., an allergy-causing substance, is mixed in a beverage other than the relevant beverage. <P>SOLUTION: A beverage dispenser 1 selectively supplies a plurality of beverage raw materials having different kinds in a cup 50, and supplies the beverage by mixing the beverage raw material and a diluted solution. The beverage dispenser is equipped with a specified nozzle 13 for discharging at least one kind of substance for repelling mixing, for example, the beverage raw material containing the allergy-causing substance in a cup 50, and a multi-nozzle 12 for discharging the beverage raw material except the beverage raw material containing the allergy-causing substance and/or the diluted solution in the cup 50. The tip end opening part 13A of the specified nozzle 13 is disposed at the outer side than a projection plane at the upper part of the opening of the cup 50. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention selectively supplies a plurality of beverage ingredients of different types, for example, a beverage ingredient serving as an ingredient of an allergy-causing dairy beverage, and other beverage ingredients into the cup, The present invention relates to a beverage supply device that mixes with a diluent and supplies a beverage.

  2. Description of the Related Art Conventionally, there is a beverage supply device that selectively mixes and supplies beverage materials such as a plurality of different types of syrup and a diluent such as diluted water or carbonated water. In such a beverage supply apparatus, a multi-nozzle is provided on the front surface, and from the multi-nozzle, beverage ingredients such as a plurality of syrups and a diluting liquid such as diluting water and carbonated water are selectively discharged, and below the multi-nozzle. The beverage is supplied into the cup to be placed.

A syrup used as a beverage ingredient supplied from a multi-nozzle is generally filled in a tank and supplied to the multi-nozzle via a syrup supply line connected to the tank. Therefore, a plurality of syrup supply lines are connected to the multi-nozzle, and any syrup supply line is opened according to the selected syrup type, and syrup is discharged. The multi-nozzle is connected to a dilution water supply line for supplying dilution water as a dilution liquid and a carbonated water supply line for supplying carbonated water, and supply dilution water according to the type of syrup and beverage selected. The line or the carbonated water supply line is opened, and the diluent is discharged together with the syrup. As a result, the syrup and the diluted solution discharged to the multi-nozzle are mixed in the multi-nozzle and discharged as a beverage in a state of a uniform concentration from the tip opening (see Patent Document 1).
JP-A-10-72099

  On the other hand, the beverage supply apparatus also supplies soft drinks, dairy drinks, and alcoholic drinks. Also in this case, the beverage raw material (syrup) that is the raw material of the beverage and the dilution liquid such as dilution water or carbonated water are discharged from the same multi-nozzle. Since dairy beverages and alcoholic beverages contain milk components and alcoholic components that are allergenic substances, when milky beverages or alcoholic beverages are selected in the previous beverage supply, milk is placed on the inner wall of the multi-nozzle. Ingredients and alcohol components adhere. Therefore, there is a problem that these milk components and alcohol components are mixed in the next beverage supply.

  The mixing amount of the milk component and alcohol component is limited to the amount adhering to the inner wall of the multi-nozzle, and although it is a small amount, there are customers who develop allergic symptoms sensitively to these milk component and alcohol component. For this reason, the customer demands the provision of soft drinks, while the beverage supply device supplies beverages containing milk components and alcohol components from the same nozzle as the soft drinks. There is a problem that cannot be asked.

  In addition, in the same beverage supply device, when alcoholic beverages are provided, the previous time when alcoholic beverages were supplied by a multi-nozzle, when soft drinks were supplied, a small amount, Alcoholic beverages adhering to the multi-nozzle are mixed in the soft drink, and in some cases, an alcoholic odor may be felt from the soft drink.

  Therefore, the present invention has been made to solve the conventional technical problems, and a beverage supply device capable of avoiding the disadvantage that a beverage containing a mixed repellent beverage ingredient is mixed into a beverage other than the beverage. I will provide a.

  The beverage supply apparatus of the present invention selectively supplies a plurality of different types of beverage ingredients into the cup, mixes the beverage ingredients and the diluent, and supplies the beverage, and includes at least one type of mixing Equipped with a mixed repellent beverage raw material supply nozzle that discharges beverage materials containing repellent substances into the cup, and a multi-nozzle that discharges beverage raw materials other than beverage raw materials containing mixed repellent materials and / or dilution liquid into the cup The opening part of the tip of the repellent beverage ingredient supply nozzle is arranged outside the upper projection surface of the cup.

  The beverage supply device of the invention of claim 2 is the above-mentioned invention, wherein the beverage raw material containing the mixed repellent material discharged from the mixed repellent beverage raw material supply nozzle is a beverage raw material and / or dilution liquid discharged from the multi-nozzle. It collides with the discharge flow of this.

  The beverage supply device of the invention of claim 3 is characterized in that, in each of the above-mentioned inventions, the mixed repellent substance is an allergen causing substance containing at least one of milk components or alcohol.

  According to the present invention, in a beverage supply device that selectively supplies a plurality of different beverage ingredients in a cup and mixes the beverage ingredients and a diluent to supply a beverage, at least one mixed repellent substance A mixed repellent beverage comprising a mixed repellent beverage raw material supply nozzle that discharges a beverage raw material containing a mixture into the cup and a multi-nozzle that discharges beverage raw materials other than the beverage raw material containing mixed repellent material and / or a dilute solution into the cup The tip opening of the raw material supply nozzle is disposed outside the upper projection surface of the opening of the cup, so when supplying a beverage containing mixed repellent beverage ingredients, the mixed repellent beverage raw material is fed from the mixed repellent beverage raw material supply nozzle. By discharging into the cup and discharging the diluted solution into the cup from the multi-nozzle, it becomes possible to supply a beverage containing mixed repellent beverage ingredients in the cup. In addition to beverages containing mixed repellent beverage ingredients, it is possible to supply beverages other than beverages containing mixed repellent drink ingredients by discharging the drink ingredients and diluent from the multi-nozzle into the cup. It becomes.

  Therefore, even when a beverage containing mixed repellent beverage ingredients is supplied at the time of the previous beverage supply, mixed repellent beverage ingredients are not discharged to the cup through the multi-nozzle. Sometimes, when a beverage that does not contain mixed repellent beverage ingredients is supplied, it is possible to avoid the inconvenience of mixed repellent drink ingredients adhering to the inner wall of the multi-nozzle in the cup.

  In addition, since the tip opening of the mixed repellent beverage raw material supply nozzle that discharges the mixed repellent beverage raw material is disposed outside the upper opening projection surface of the cup, the front opening of the nozzle and the inside of the nozzle etc. Even when the mixed repellent beverage ingredient remaining in the bottle is dripped, it is possible to avoid the inconvenience of unintentionally mixing in the cup.

  Therefore, when a beverage other than a beverage containing a mixed repellent beverage ingredient is selected, it is possible to reliably avoid the disadvantage that the mixed repellent beverage ingredient is mixed in the cup, and to provide an appropriate beverage Is possible.

  In particular, even when the mixed repellent beverage material is an allergy-causing substance containing at least one of milk components or alcohol as shown in claim 3, a beverage other than a beverage containing the mixed repellent beverage material is selected. In addition, it is possible to surely avoid the disadvantage that the allergy-causing substance, which is a raw material for mixed repellent beverages, is mixed into the cup, and even when the beverage containing the allergy-causing substance is provided in the same device, It is possible to receive beverages with peace of mind.

  According to the invention of claim 2, in the above invention, the discharge flow of the beverage raw material containing the mixed repellent material discharged from the mixed repellent beverage raw material supply nozzle is the beverage raw material and / or dilution liquid discharged from the multi-nozzle. The beverage raw material discharged from the mixed repellent beverage raw material supply nozzle and the beverage raw material and / or diluted liquid discharged from the multi-nozzle can be actively mixed.

  Thereby, the beverage raw material and the diluted solution are discharged from the same multi-nozzle, and the beverage raw material containing the mixed repellent material discharged from the mixed repellent beverage raw material supply nozzle, as in the case of supplying the beverage while mixing, The beverage can be supplied to the cup while being mixed with the diluting liquid discharged from the multi-nozzle, and the beverage in a state of being uniformly mixed in the cup can be provided.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1 is a front view of a beverage dispenser 1 to which the present invention is applied, FIG. 2 is a side view of the beverage dispenser 1, FIG. 3 is a front view of the beverage dispenser 1 with a door 28 opened, and FIG. 5 is a schematic configuration diagram of the beverage dispenser 1, FIG. 6 is an enlarged view showing a discharge state of the multi-nozzle 12 and the specific nozzle 13, and FIG. 7 shows a relationship between each nozzle and the tanks 3 and 53. A schematic piping diagram is shown.

  The beverage dispenser 1 according to the embodiment is a beverage dispenser used in restaurants, coffee shops, and the like. The BIB unit 5 supplies neutral beverages such as oolong tea and juice as a non-fruit juice sweetened beverage, and also has a strong and non-carbonated purpose. It is an apparatus which has the tank unit 4 which supplies a drink together. The beverage dispenser 1 has a structure in which a BIB unit 5 is disposed in a main body 2 and a tank unit 4 is connected to the outside of the main body. The BIB unit 5 is concealed by an openable / closable door 28 located on the front surface. Details of the tank unit 4 will be described later.

  An operation unit 27 for operating the beverage supply from the tank unit 4 and the BIB unit 5 is provided on the front surface of the opening / closing door 28, and a beverage supply amount or a beverage supply method is selected for each beverage supplied from each unit. For example, button S, button M, button L, button C / P, and the like are provided. The buttons S, M, and L are buttons for operating the supply of a predetermined amount of beverage, and the button C / P is a button for supplying a beverage only while the button is operated.

  A multi-nozzle 12 for discharging each beverage from the tank unit 4 is provided at the lower rear of the open / close door 28, and a table 14 is provided below the nozzle 12. A cup can be placed on top. A supply nozzle (hereinafter referred to as a specific nozzle) for supplying mixed repellent beverage ingredients such as a beverage ingredient (syrup) containing an allergy-causing substance as will be described in detail to the side of the multi-nozzle 12. 13 is provided. In this embodiment, the mixed repellent beverage raw material is described as a beverage raw material containing an allergen causing substance. However, the present invention is not limited to this. For example, a specific beverage raw material may be used for other types of beverages. Beverage materials containing substances that cause inconvenience such as separation due to being mixed may be used as mixed repellent beverage materials.

  On the other hand, the beverage ingredients supplied by the tank unit 4 are those contained in a container in which syrup as a beverage ingredient is sealed, for example, syrup (beverage ingredient) contained in the tank 3, and a diluent. At this time, when diluted water is used as the diluent, a non-carbonated beverage is supplied, and when carbonated water is used, a strong and weak carbonated beverage is supplied.

  In this embodiment, the tank unit 4 constitutes at least two types of syrup supply lines. That is, as an allergy-causing substance, for example, a specific syrup supply line 56 for supplying syrup containing milk components, alcohol components, specific fruit juice such as orange, kiwi, peach, apple, banana, buckwheat tea, soy beverage, A syrup supply line 6 for supplying syrup containing no substance is provided. The beverage dispenser 1 in the present embodiment can discharge three types of syrups that do not contain allergen-causing substances as beverage ingredients, and the syrup supply line 6 has three systems as shown in FIG. It is assumed that syrup supply lines 6A, 6B, and 6C connected to the tanks 3A, 3B, and 3C are provided. The configurations of these 6A, 6B, and 6C are substantially the same, and will be described as the syrup supply line 6.

  As shown in FIG. 5, a syrup supply line 6 for supplying a syrup containing no allergenic substances from the tank 3 includes a syrup cooling pipe (beverage cooling pipe) 7, a flow rate regulator 8 driven by a drive motor 10, and a syrup. The electromagnetic valve 9 is sequentially arranged. The ends of the syrup supply line 6 are respectively connected to a plurality of syrup inlets 34 (only one is shown in FIG. 7) provided in the multi-nozzle 12.

  On the other hand, a specific syrup supply line 56 for supplying syrup containing allergens from the tank 53 includes a syrup cooling pipe (beverage cooling pipe) 57, a flow rate regulator 58 driven by a drive motor 60, and a syrup solenoid valve 59. Are arranged sequentially. An end portion of the specific syrup supply line 56 is connected to a syrup inlet 13 </ b> C of the specific nozzle 13 provided on the side of the multi-nozzle 12.

  As shown in FIG. 6, the specific nozzle 13 is a nozzle provided in the vicinity of the multi-nozzle 12, and the tip of the nozzle 13 is bent at a predetermined angle on the multi-nozzle 12 side. . At this time, the tip opening portion 13 </ b> A of the nozzle 13 is disposed so as to be located outside the upper projection surface of the cup 50 placed below the multi-nozzle 12.

  Therefore, the syrup discharged from the specific nozzle 13 is discharged obliquely downward at a predetermined angle, and the discharge flow 13B by the syrup is simultaneously diluted water or carbonated water discharged from the multi-nozzle 12. It is set as the structure colliding with the discharge flow 12A by a diluent. In this embodiment, the syrup discharge flow 13B and the diluent discharge flow 12A collide above the opening edge of the cup 50, but the present invention is not limited to this. It is good also as a structure which collides in the upper part inside.

  In this embodiment, the specific nozzle 13 and the multi-nozzle 12 are inserted and fixed to a mounting plate 23 having a mounting hole (not shown) for mounting the nozzles 12 and 13, and are attached to the mounting plate 23. 2 is attached. As a result, positioning for mounting the nozzle 12 and the nozzle 13 can be easily performed, and mounting workability can be improved.

  On the other hand, the tanks 3 (3A, 3B, 3C) and 53 are connected to a carbon dioxide cylinder 20 via a gas supply line 16 in which a gas regulator 15 is interposed. Accordingly, since the gas regulator 15 as the pressure reducing valve is always opened, the syrup electromagnetic valve 9 located on the downstream side of the syrup supply line 6 and the syrup electromagnetic valve 59 located on the downstream side of the specific syrup supply line 56. Is released, carbon dioxide gas of a predetermined pressure is supplied from the carbon dioxide gas cylinder 20, and the syrup is sent to the syrup supply line 6 or the specific syrup supply line 56.

  The syrup cooling pipes 7 and 57 are disposed in a heat exchange manner in a water tank 29 disposed in the main body 2 as shown in FIG. The water tank 29 is provided with an evaporating pipe (cooler) 30 constituting a refrigerant circuit together with a cooling device R constituted by a compressor 51, a condenser 52, a condensing fan motor 53, and the like. The cooling water stored in 29 is cooled to a predetermined temperature.

  The flow rate regulator 8 continuously feeds a fixed volume of syrup to the syrup supply line 6 or 56 by a pair of rotors 32 and 32 housed therein. The drive motor 10 (drive motor 60 in the case of a specific syrup) is connected to the shaft of one rotor 32, and a pulse having a frequency corresponding to the rotation speed of the motor 10 is generated in the motor 10. A magnet encoder 33 is attached.

  Thereby, the energization to the rotor drive motor 10 of the syrup solenoid valve 9 and the flow regulator 8 is controlled by the control unit 11 which will be described later, so that the multi-nozzle connected from the tank 3 to the end of the syrup supply line 6. 12 to control the supply of syrup. Similarly, the energization to the rotor drive motor 60 of the syrup solenoid valve 59 and the flow regulator 58 is controlled by the control unit 11, whereby the specific nozzle 13 connected from the tank 53 to the end of the specific syrup supply line 56. The supply of a specific syrup is controlled.

  On the other hand, a dilution water supply pipe 17 for supplying tap water such as city water as a diluent is disposed in the main body 2. A water inlet solenoid valve 18, a water pump 19, a dilution water cooling pipe (beverage cooling pipe) 21, a dilution water flow meter 22, and a dilution water supply line 24 are sequentially connected to the dilution water supply pipe 17. Has been. The dilution water cooling pipe 21 cools the dilution water flowing through the dilution water cooling pipe 21 with the cooling water cooled by the cooling device R in the same manner as the syrup cooling pipe 7.

  The dilution water flow meter 22 outputs a flow rate signal corresponding to the flow rate of the inflowing dilution water to the control unit 11. Further, the dilution water supply line 24 is provided with a dilution water electromagnetic valve 25, whereby opening / closing control of the dilution water supply line 24 is performed. The dilution water supply line 24 is also connected to a dilution water inlet 35 provided in the multi-nozzle 12 in the same manner as the syrup supply line 6. As a result, the dilution water electromagnetic valve 25 is controlled by the control unit 11 to control the supply of the dilution water sent to the multi-nozzle 12.

  The dilution water supply line 24 is connected to a water branch line 38 interposed between the dilution water flow meter 22 and the dilution water electromagnetic valve 25 and having an electromagnetic valve 39 interposed therebetween. The water branch line 38 is connected to a carbonator 40 for producing carbonated water, and a gas supply line 42 having one end connected to the carbon dioxide gas cylinder 20 is connected to the carbonator 40. A gas regulator 41 is interposed in the gas supply line 42. Thus, the dilution water is supplied to the carbonator 40 via the water branch line 38 and the carbon dioxide gas is supplied via the gas supply line 42. By mixing these dilution water and carbon dioxide, the carbonate water Is generated.

  The carbonater 40 is connected to a carbonated water flow meter 43, a carbonated water cooling pipe (beverage cooling pipe) 44, and a carbonated water supply line 46 provided with a carbonated water electromagnetic valve 45. The end of the supply line 46 is connected to a carbonated water inlet 36 provided in the multi-nozzle 12.

  The carbonated water flow meter 43 outputs a flow rate signal corresponding to the flow rate of the infused carbonated water to the control unit 11. The carbonated water cooling pipe 44 cools carbonated water flowing through the carbonated water cooling pipe 44 with the cooling water cooled by the cooling device R in the same manner as the syrup cooling pipe 7. Further, the carbonated water supply line 46 is controlled to open and close by a carbonated water electromagnetic valve 45 interposed in the carbonated water supply line 46. Note that the carbonated water supply line 46 is also controlled by the control unit 11 so that the carbonated water supplied to the multi-nozzle 12 is supplied, similarly to the syrup supply line 6. .

  With the above configuration, the beverage supply operation of the beverage dispenser 1 will be described. The carbonator 40 is supplied with the carbon dioxide gas in the carbon dioxide cylinder 20 from the gas supply line 42 in advance and the dilution water from the water branch line 38 via the dilution water supply line 24. It is assumed that carbonated water having a carbonic acid concentration is manufactured and stored, and is in a standby state for sale.

  When any one of the operation buttons of the operation unit 27 is operated in the sales standby state, the beverage is supplied according to the button operation. Here, when a beverage button that is non-carbonated and does not contain an allergenic substance is operated, the controller 11 opens the water inlet solenoid valve 18 and is supplied from city water by the water pump 19. The tap water is caused to flow into the dilution water supply line 24 via the dilution water cooling pipe 21 and the dilution water flow meter 22. In addition, the control unit 11 performs energization control on the rotor drive motor 10 that drives the syrup solenoid valve 9 and the flow rate regulator 8, so that the syrup supplied from the tank 3 is converted into the syrup cooling pipe 7 and the flow rate regulator 8. To the syrup supply line 6. Thereby, the target beverage is generated by diluting the syrup with dilution water at a predetermined ratio, and is supplied to the cup 50 from the multi-nozzle 12.

  When the button of a beverage that is carbonated and does not contain an allergenic substance is operated, the control unit 11 controls the carbonated water electromagnetic valve 45 to open and close, so that a predetermined amount of carbonated water is discharged from the carbonator 40 to the multi-nozzle. 12 is discharged. Also in this case, a predetermined amount of syrup is supplied to the syrup supply line 6 in the same manner as described above, so that the target beverage is generated by diluting the syrup with carbonated water at a predetermined ratio. To be supplied.

  On the other hand, when a button for a beverage containing no carbonic acid and containing an allergenic substance is operated, the control unit 11 opens the water inlet solenoid valve 18 and supplies water from the city water by the water pump 19. Water is discharged from the multi-nozzle 12 via a dilution water supply line 24 provided with a dilution water cooling pipe 21 and a dilution water flow meter 22. In addition, the control unit 11 performs energization control on the rotor drive motor 60 that drives the syrup solenoid valve 59 and the flow rate regulator 58, thereby converting the specific syrup supplied from the tank 53 into the syrup cooling pipe 57 and the flow rate regulator. Then, it flows into a syrup supply line 56 provided with 58 and discharged from the specific nozzle 13.

  Thereby, the dilution water is discharged from the multi-nozzle 12 and the specific syrup is discharged from the specific nozzle 13. At this time, the discharge flow 13B discharged from the specific nozzle 13 is received by the cup 50 by being discharged so as to collide with the discharge flow 12A of the dilution water discharged from the multi-nozzle 12 as described above. In the previous stage, it becomes possible to actively mix and agitate the diluted water and the specific syrup, and it is possible to provide a beverage that is diluted in the cup 50 at a predetermined ratio and uniformly mixed. It becomes.

  When the button of the carbonated beverage containing the allergen causing substance is operated, the control unit 11 controls the carbonated water electromagnetic valve 45 to open and close, so that a predetermined amount of carbonated water is supplied from the carbonator 40 to the multi-nozzle. 12 is discharged. Also in this case, a predetermined amount of syrup is discharged from the specific nozzle 13 to the specific syrup supply line 56 as described above.

  Even in such a case, carbonated water is discharged from the multi-nozzle 12 and the specific syrup is discharged from the specific nozzle 13. At this time, the discharge flow 13B discharged from the specific nozzle 13 is received by the cup 50 by being discharged so as to collide with the discharge flow 12A of carbonated water discharged from the multi-nozzle 12 as described above. In the previous stage, carbonated water and specific syrup can be actively mixed and stirred, and it is possible to provide a beverage that is diluted and uniformly mixed in the cup 50 at a predetermined ratio. It becomes.

  Thereby, the beverage raw material containing the allergen causing substance is configured to be discharged from a different nozzle (specific nozzle 13) from the beverage raw material not containing the allergenic substance and the diluted liquid such as diluted water or carbonated water. Therefore, at the time of the previous beverage supply, even if the beverage raw material containing the allergenic agent is supplied, the beverage raw material containing the allergenic agent is not discharged to the cup 50 through the multi-nozzle 12. From this, it is possible to avoid the inconvenience that the allergenic substance adhering to the inner wall of the multi-nozzle 12 is mixed in the cup 50 when the beverage raw material not containing the allergenic substance is supplied at the next beverage supply. Become.

  Further, the tip opening 13A of the specific nozzle 13 that discharges the beverage ingredients containing the allergenic substance is disposed outside the upper projection surface of the cup 50 that is placed corresponding to the lower side of the multi-nozzle 12. Therefore, even when a beverage ingredient containing allergen-causing substances remaining in the nozzle 13 or the like is dripped from the tip opening 13A of the nozzle 13, it is inadvertently mixed into the cup 50. Can be avoided.

  Therefore, when a beverage other than a beverage containing an allergenic substance is selected, it is possible to reliably avoid the inconvenience that a beverage raw material containing the allergenic substance is mixed in the cup 50, and to provide an appropriate beverage Can be realized.

  Thereby, for example, when a beverage other than a beverage containing an allergenic substance such as a milk component or alcohol is selected, it is possible to reliably avoid the disadvantage that the beverage raw material containing the allergenic substance is mixed into the cup 50. Even if the beverage containing the allergen causing substance is provided in the same device, the beverage can be provided with peace of mind.

  In this embodiment, the beverage raw material discharged from the specific nozzle 13 is a beverage raw material containing an allergy-causing substance, but is not limited to this and may be an alcoholic beverage. In such a case, it is assumed that beverage ingredients such as syrup and / or diluted water or carbonated water as a diluent are simultaneously discharged from the multi-nozzle 12 as an alcohol diluent. Thereby, when a beverage other than a beverage containing alcohol is selected, it is possible to avoid the inconvenience of alcohol mixing in the cup 50, and to provide an appropriate beverage.

It is a front view of the drink dispenser to which the present invention is applied. It is a side view of a drink dispenser. It is a front view of the state which opened the door of the beverage dispenser. It is the side view which saw through the inside of a drink dispenser. It is a schematic block diagram of a drink dispenser. It is an enlarged view which shows the discharge state of a multi nozzle and a specific nozzle. It is a schematic piping diagram which shows the relationship between each nozzle and a tank.

Explanation of symbols

R Cooling device 1 Beverage dispenser 3, 3A, 3B, 3C, 53 Tank 4 Tank unit 6, 6A, 6B, 6C Syrup supply line 7 Syrup cooling pipe (beverage cooling pipe)
11 Control unit 12 Multi-nozzle 12A Discharge flow 13 Specific nozzle (mixed repellent beverage ingredient supply nozzle)
13A End opening 13B Discharge flow 13C Syrup inlet 14 Table 23 Mounting plate 25 Diluted water solenoid valve 34 Syrup inlet 35 Diluted water inlet 36 Carbonated water inlet 40 Carbonator 45 Carbonated water solenoid valve 46 Carbonated water supply line 50 Cup 56 Specific syrup Supply line

Claims (3)

In a beverage supply device that selectively supplies a plurality of different types of beverage ingredients into a cup, and mixes the beverage ingredients with a diluent to supply a beverage,
A mixed repellent beverage raw material supply nozzle for discharging a beverage raw material containing at least one mixed repellent material into the cup;
A multi-nozzle that discharges beverage ingredients other than beverage ingredients containing the mixed repellent material and / or diluent into the cup,
A beverage supply device, wherein a tip opening of the mixed repellent beverage raw material supply nozzle is disposed outside a projection surface above the opening of the cup.   The discharge flow of the beverage raw material containing the mixed repellent material discharged from the mixed repellent beverage raw material supply nozzle collides with the discharge flow of the beverage raw material and / or dilution liquid discharged from the multi-nozzle. Item 2. A beverage supply apparatus according to Item 1.   The beverage supply apparatus according to claim 1 or 2, wherein the mixed repellent substance is an allergy-causing substance containing at least one of milk components or alcohol.

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