JP2007062746A - Beverage dispenser - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a beverage dispenser which can heat-sterilize an injection section and also passages in the vicinity of the injection section when the passages for a beverage are heat-sterilized. <P>SOLUTION: When the heat-sterilization of the passages 71, 72, 73 and 74 is performed, the injection section 10 is removed from a bottle 1, and is connected with a connecting member 60. Thus, the heated beverage in a hot water tank 20 is made to circulate through respective passages 71, 72, 73 and 74, a cold water nozzle 30, the connecting member 60 and the injection section 10. Therefore, when the heat-sterilization for respective passages 71, 72, 73 and 74 is performed by the heated beverage, the injection section 10 and the passages in the vicinity of the injection section 10 can be heat-sterilized, and this method is extremely advantageous to improve the hygienic state of the beverage. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、例えばミネラルウォーターを収容した飲料容器が着脱自在に装着され、飲料容器から供給されるミネラルウォーターを加熱または冷却して注出弁から任意に注出可能な飲料ディスペンサに関するものである。   The present invention relates to a beverage dispenser in which a beverage container containing, for example, mineral water is detachably mounted and can be dispensed arbitrarily from a dispensing valve by heating or cooling mineral water supplied from the beverage container.

従来、この種の飲料ディスペンサとしては、飲料容器が注出口を下方に向けて着脱自在に連結される注入部と、注入部に連結された飲料容器から供給される飲料を所定の温度に加熱して貯溜する加熱用貯溜部と、飲料容器から供給される飲料を所定の温度に冷却して貯溜する冷却用貯溜部と、注入部から加熱用貯溜部に飲料を流通させる第１連通管と、第１連通管から冷却用貯溜部に飲料を流通させる第２連通管と、加熱用貯溜部から冷却用貯溜部に飲料を流通させる第３連通管と、第３連通管の途中に設けられ、第３連通管内の飲料を冷却用貯溜部側に流通させるポンプとを備え、加熱用貯溜部内で加熱された飲料をポンプによって流通させることにより、第３連通管、冷却用貯溜部、第２連通管及び第２連通管と加熱用貯溜部との間の第１連通管を加熱殺菌するようにしたものが知られている（例えば、特許文献１参照。）。
特開平６−４８４８８号公報 Conventionally, as this type of beverage dispenser, a beverage container is detachably connected with a spout facing downward, and a beverage supplied from the beverage container connected to the injection portion is heated to a predetermined temperature. A heating reservoir that stores the beverage, a cooling reservoir that cools and stores the beverage supplied from the beverage container to a predetermined temperature, and a first communication pipe that distributes the beverage from the injection portion to the heating reservoir. Provided in the middle of the second communication pipe for flowing the beverage from the first communication pipe to the cooling reservoir, the third communication pipe for flowing the beverage from the heating reservoir to the cooling reservoir, and the third communication pipe, And a pump for circulating the beverage in the third communication pipe toward the cooling reservoir, and the beverage heated in the heating reservoir is circulated by the pump, whereby the third communication pipe, the cooling reservoir, and the second communication Between the pipe and the second communication pipe and the heating reservoir. Those to heat sterilize the communication pipe is known (e.g., see Patent Document 1.).
JP-A-6-48488

しかしながら、前記飲料ディスペンサでは、第２連通管と注入部との間の第１連通管には加熱された飲料が流通しないので、注入部及び注入部近傍の第１連通管を加熱殺菌することができないという問題点があった。   However, in the beverage dispenser, since the heated beverage does not flow through the first communication pipe between the second communication pipe and the injection part, the first communication pipe near the injection part and the injection part can be sterilized by heating. There was a problem that it was not possible.

本発明は前記問題点に鑑みてなされたものであり、その目的とするところは、飲料の流路を加熱殺菌する際に、注入部及び注入部近傍の流路も加熱殺菌することのできる飲料ディスペンサを提供することにある。   The present invention has been made in view of the above problems, and the object of the present invention is to provide a beverage capable of heat sterilizing the injection portion and the flow passage in the vicinity of the injection portion when the flow passage of the beverage is heat sterilized. To provide a dispenser.

本発明は前記目的を達成するために、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な注入部と、飲料容器の注出口と連結していない注入部と着脱自在に連結可能な連結部材と、注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、第３流路から連結部材に飲料を流通させる第４流路と、第１乃至第４流路のいずれかに設けられた飲料流通用のポンプとを備えている。   In order to achieve the above object, the present invention provides a storage part capable of heating and storing a beverage supplied from a beverage container, a first dispensing valve capable of dispensing a beverage in the beverage container, and a beverage in the storage part. In a beverage dispenser comprising a second dispensing valve capable of dispensing a beverage, an injection portion detachably connectable to the beverage container's spout, and an injection portion not connected to the beverage container's spout A connection member that can be connected to the first flow path, a first flow path for flowing the beverage from the injection section to the first dispensing valve, a second flow path for flowing the drink from the first flow path to the storage section, and a first flow from the storage section. Provided in any of the third flow path for flowing the beverage to the first dispensing valve side of the flow path, the fourth flow path for flowing the beverage from the third flow path to the connecting member, and the first to fourth flow paths And a beverage distribution pump.

これにより、連結部材と注入部とを連結することにより、貯溜部、第３流路、第３流路と第２流路との間の第１流路及び第２流路が連通するとともに、貯溜部、第３流路、第４流路、連結部材、注入部及び注入部と第２流路との間の第１流路が連通し、また、第１乃至第４流路のいずれかに飲料流通用のポンプが設けられていることから、ポンプを駆動することにより、貯溜部内の加熱された飲料が第１乃至第４流路、連結部材及び注入部に流通する。即ち、加熱された飲料により各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   Thus, by connecting the connecting member and the injection portion, the reservoir, the third flow path, the first flow path and the second flow path between the third flow path and the second flow path are communicated, The storage section, the third flow path, the fourth flow path, the connecting member, the injection section, and the first flow path between the injection section and the second flow path communicate with each other, and any one of the first to fourth flow paths Since the beverage distribution pump is provided, the heated beverage in the storage portion flows through the first to fourth flow paths, the connecting member, and the injection portion by driving the pump. That is, when heat sterilizing each flow path with a heated beverage, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、第１注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、第３流路から連結部材に飲料を流通させる第４流路と、第２注入部から第１流路に飲料を流通させる第５流路と、第１乃至第４流路のいずれかに設けられた飲料流通用のポンプとを備えている。   Moreover, this invention can pour the drink in the storage part which can heat and store the drink supplied from a drink container, the 1st extraction valve which can pour the drink in a drink container, and the storage part A beverage dispenser comprising a second dispensing valve, wherein the first and second injection portions are detachably connectable to the beverage container outlet, and the injection portion is not connected to the beverage container outlet. A connecting member that is detachably connectable, a first channel that allows beverage to flow from the first inlet to the first dispensing valve, a second channel that allows beverage to flow from the first channel to the reservoir, and a reservoir A third flow path for flowing the beverage from the first flow path to the first dispensing valve side, a fourth flow path for flowing the beverage from the third flow path to the connecting member, and a first flow from the second injection section. A fifth flow path for distributing the beverage in the path and a beverage distribution pump provided in any of the first to fourth flow paths are provided.

これにより、連結部材と第１注入部とを連結することにより、貯溜部、第３流路、第３流路と第２流路との間の第１流路及び第２流路が連通するとともに、貯溜部、第３流路、第４流路、連結部材、第１注入部及び第１注入部と第２流路との間の第１流路が連通し、また、第１乃至第４流路のいずれかに飲料流通用のポンプが設けられていることから、ポンプを駆動することにより、貯溜部内の加熱された飲料が第１乃至第４流路、連結部材及び第１注入部に流通する。即ち、加熱された飲料により各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   Thereby, the 1st flow path and the 2nd flow path between the storage part, the 3rd flow path, and the 3rd flow path and the 2nd flow path are connected by connecting a connecting member and the 1st injection part. In addition, the reservoir, the third flow path, the fourth flow path, the connecting member, the first injection section, and the first flow path between the first injection section and the second flow path communicate with each other. Since a beverage distribution pump is provided in any of the four flow paths, the heated beverage in the reservoir is moved to the first to fourth flow paths, the connecting member, and the first injection section by driving the pump. Circulate in That is, when heat sterilizing each flow path with a heated beverage, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、飲料容器の注出口と連結していない第１注入部と着脱自在に連結可能な第１連結部材と、飲料容器の注出口と連結していない第２注入部と着脱自在に連結可能な第２連結部材と、第１注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、第３流路から第１連結部材に飲料を流通させる第４流路と、第３流路から第２連結部材に飲料を流通させる第５流路と、第２注入部から第１流路に飲料を流通させる第６流路と、第１乃至第３流路のいずれかに設けられた飲料流通用のポンプとを備えている。   Moreover, this invention can pour the drink in the storage part which can heat and store the drink supplied from a drink container, the 1st extraction valve which can pour the drink in a drink container, and the storage part A beverage dispenser comprising a second dispensing valve, wherein the first and second injection portions are detachably connectable to the beverage container outlet, and the first injection portion is not connected to the beverage container outlet. A first connecting member that is detachably connectable, a second connecting member that is detachably connectable to a second injection portion that is not connected to the spout of the beverage container, and a first injection valve that is detachably connected to the second injection portion. A first flow path for distributing the beverage, a second flow path for distributing the beverage from the first flow path to the storage section, and a third flow for distributing the beverage from the storage section to the first dispensing valve side of the first flow path. The beverage is circulated from the third passage to the second connecting member, the fourth passage for allowing the beverage to circulate from the third passage to the first connecting member. A fifth flow path, a sixth flow path for flowing the beverage from the second injection part to the first flow path, and a beverage flow pump provided in any of the first to third flow paths. Yes.

これにより、第１連結部材と第１注入部とを連結することにより、貯溜部、第３流路、第３流路と第２流路との間の第１流路及び第２流路が連通するとともに、貯溜部、第３流路、第４流路、第１連結部材、第１注入部及び第１注入部と第２流路との間の第１流路が連通し、また、第１乃至第３流路のいずれかに飲料流通用のポンプが設けられていることから、ポンプを駆動することにより、貯溜部内の加熱された飲料が第１乃至第４流路、第１連結部材及び第１注入部に流通する。即ち、加熱された飲料により各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   Thereby, by connecting the first connecting member and the first injection part, the reservoir, the third flow path, the first flow path and the second flow path between the third flow path and the second flow path are formed. In addition to communication, the reservoir, the third flow path, the fourth flow path, the first connection member, the first injection portion and the first flow path between the first injection portion and the second flow path, Since a beverage circulation pump is provided in any of the first to third channels, the heated beverage in the reservoir is driven by the first to fourth channels and the first connection by driving the pump. It distribute | circulates to a member and a 1st injection | pouring part. That is, when heat sterilizing each flow path with a heated beverage, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な注入部と、飲料容器の注出口と連結していない注入部と着脱自在に連結可能な連結部材と、連結部材を加熱可能な加熱器と、注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、第１乃至第３流路のいずれかに設けられた飲料流通用のポンプとを備えている。   Moreover, this invention can pour the drink in the storage part which can heat and store the drink supplied from a drink container, the 1st extraction valve which can pour the drink in a drink container, and the storage part In a beverage dispenser comprising a second dispensing valve, an injectable portion that can be detachably connected to the spout of the beverage container, and a connectable that can be detachably connected to an injectable portion that is not connected to the spout of the beverage container A member, a heater capable of heating the connecting member, a first flow path for flowing beverage from the injection section to the first dispensing valve, and a second flow path for flowing beverage from the first flow path to the storage section, A third flow path for flowing the beverage from the reservoir to the first dispensing valve side of the first flow path, and a beverage flow pump provided in any of the first to third flow paths are provided.

これにより、貯溜部、第３流路、第３流路と第２流路との間の第１流路及び第２流路が連通していることから、ポンプを駆動することにより、貯溜部内の加熱された飲料により各流路の加熱殺菌を行うことができる。また、連結部材と注入部とを連結するとともに、加熱器によって連結部材を加熱することにより、加熱器に連結している注入部及び注入部近傍の第１流路が加熱される。即ち、加熱された飲料により各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   As a result, the reservoir, the third channel, the first channel and the second channel between the third channel and the second channel communicate with each other. Each channel can be sterilized by heating with the heated beverage. Moreover, while connecting a connection member and an injection | pouring part and heating a connection member with a heater, the 1st flow path near the injection | pouring part connected to a heater and an injection | pouring part is heated. That is, when heat sterilizing each flow path with a heated beverage, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、連結部材を加熱可能な加熱器と、第１注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、第２注入部から第１流路に飲料を流通させる第４流路と、第１乃至第３流路のいずれかに設けられた飲料流通用のポンプとを備えている。   Moreover, this invention can pour the drink in the storage part which can heat and store the drink supplied from a drink container, the 1st extraction valve which can pour the drink in a drink container, and the storage part A beverage dispenser comprising a second dispensing valve, wherein the first and second injection portions are detachably connectable to the beverage container outlet, and the injection portion is not connected to the beverage container outlet. A connecting member that can be detachably connected, a heater that can heat the connecting member, a first flow path for allowing beverage to flow from the first injection portion to the first dispensing valve, and a beverage from the first flow passage to the storage portion A second flow path for circulating the beverage, a third flow path for circulating the beverage from the reservoir to the first dispensing valve side of the first flow path, and a fourth flow for circulating the beverage from the second injection section to the first flow path. A flow path and a beverage circulation pump provided in any of the first to third flow paths.

これにより、貯溜部、第３流路、第３流路と第２流路との間の第１流路及び第２流路が連通していることから、ポンプを駆動することにより、貯溜部内の加熱された飲料により各流路の加熱殺菌を行うことができる。また、連結部材と第１注入部とを連結するとともに、加熱器によって連結部材を加熱することにより、加熱器に連結している第１注入部及び第１注入部近傍の第１流路が加熱される。即ち、加熱された飲料により各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   As a result, the reservoir, the third channel, the first channel and the second channel between the third channel and the second channel communicate with each other. Each channel can be sterilized by heating with the heated beverage. Moreover, while connecting a connection member and a 1st injection | pouring part and heating a connection member with a heater, the 1st flow path near the 1st injection | pouring part connected to a heater and a 1st injection | pouring part is heated. Is done. That is, when heat sterilizing each flow path with a heated beverage, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な注入部と、飲料容器の注出口と連結していない注入部と着脱自在に連結可能な連結部材と、注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、連結部材を加熱可能な第１加熱器と、第２流路と注出弁との間の第１流路を加熱可能な第２加熱器とを備えている。   Moreover, this invention can pour the drink in the storage part which can heat and store the drink supplied from a drink container, the 1st extraction valve which can pour the drink in a drink container, and the storage part In a beverage dispenser comprising a second dispensing valve, an injectable portion that can be detachably connected to the spout of the beverage container, and a connectable that can be detachably connected to an injectable portion that is not connected to the spout of the beverage container A first flow path through which the beverage flows from the member to the first dispensing valve; a second flow path from which the beverage flows from the first flow path to the reservoir; and a first heater capable of heating the connecting member And a second heater capable of heating the first flow path between the second flow path and the dispensing valve.

これにより、第２加熱器によって第２流路と第１注出弁との間の第１流路を加熱することにより、第１流路に連通している第２流路も加熱されることから、第２加熱器によって第１注出弁側の第１流路及び第２流路を加熱殺菌することができる。また、連結部材に注入部を連結するとともに、第１加熱器によって連結部材を加熱することにより、連結部材に連結している注入部及び注入部近傍の第１流路が加熱される。即ち、各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   Thereby, the 2nd channel connected to the 1st channel is also heated by heating the 1st channel between the 2nd channel and the 1st pouring valve with the 2nd heater. Thus, the first flow path and the second flow path on the first pouring valve side can be heat sterilized by the second heater. Moreover, while connecting an injection | pouring part to a connection member and heating a connection member with a 1st heater, the 1st flow path near the injection | pouring part connected to a connection member and an injection | pouring part is heated. That is, when performing heat sterilization of each flow path, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、第１注入部から第１注出弁に飲料を流通させる第１流路と、第１流路から貯溜部に飲料を流通させる第２流路と、第２注入部から第１流路に飲料を流通させる第３流路と、連結部材を加熱可能な第１加熱器と、第２流路と第１注出弁との間の第１流路を加熱可能な第２加熱器とを備えている。   Moreover, this invention can pour the drink in the storage part which can heat and store the drink supplied from a drink container, the 1st extraction valve which can pour the drink in a drink container, and the storage part A beverage dispenser comprising a second dispensing valve, wherein the first and second injection portions are detachably connectable to the beverage container outlet, and the injection portion is not connected to the beverage container outlet. A releasably connectable connecting member, a first flow path through which the beverage flows from the first injection part to the first dispensing valve, a second flow path through which the drink flows from the first flow path to the storage part, 2 a third flow path for allowing the beverage to flow from the injection part to the first flow path, a first heater capable of heating the connecting member, and a first flow path between the second flow path and the first dispensing valve. And a second heater that can be heated.

これにより、第２加熱器によって第２流路と第１注出弁との間の第１流路を加熱することにより、第１流路に連通している第２流路も加熱されることから、第２加熱器によって第１注出弁側の第１流路及び第２流路を加熱殺菌することができる。また、連結部材に第１注入部を連結するとともに、第１加熱器によって連結部材を加熱することにより、連結部材に連結している第１注入部及び第１注入部近傍の第１流路が加熱殺菌される。即ち、各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   Thereby, the 2nd channel connected to the 1st channel is also heated by heating the 1st channel between the 2nd channel and the 1st pouring valve with the 2nd heater. Thus, the first flow path and the second flow path on the first pouring valve side can be heat sterilized by the second heater. Moreover, while connecting a 1st injection | pouring part to a connection member and heating a connection member by a 1st heater, the 1st flow path near the 1st injection | pouring part connected to a connection member and a 1st injection | pouring part is formed. Sterilized by heating. That is, when performing heat sterilization of each flow path, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を冷却して貯溜可能な冷却用貯溜部と、注入部と連結された飲料容器から供給される飲料を加熱して貯溜可能な加熱用貯溜部と、冷却用貯溜部内の飲料を注出可能な第１注出弁と、加熱用貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、第１注入部から冷却用貯溜部に飲料を流通させる第１流路と、第１流路から加熱用貯溜部に飲料を流通させる第２流路と、冷却用貯溜部から第１注出弁に飲料を流通させる第３流路と、加熱用貯溜部から第３流路の第１注出弁側に飲料を流通させる第４流路と、第４流路から連結部材に飲料を流通させる第５流路と、第２注入部から第１流路に飲料を流通させる第６流路と、第１乃至第５流路のいずれかに設けられた飲料流通用のポンプとを備えている。   The present invention also relates to a cooling reservoir capable of cooling and storing a beverage supplied from a beverage container, and a heating reservoir capable of heating and storing a beverage supplied from a beverage container connected to an injection portion. A beverage dispenser comprising: a first dispensing valve capable of dispensing the beverage in the cooling reservoir; and a second dispensing valve capable of dispensing the beverage in the heating reservoir. First and second injection parts detachably connectable to each other, a connection member detachably connectable to the injection part not connected to the spout of the beverage container, and a cooling storage part from the first injection part A first flow path through which the beverage flows, a second flow path through which the beverage flows from the first flow path to the heating reservoir, and a third flow path through which the beverage flows from the cooling reservoir to the first dispensing valve. A fourth flow path for flowing beverage from the heating reservoir to the first dispensing valve side of the third flow path, and a fourth flow path Beverage distribution provided in any one of the fifth channel for distributing the beverage through the connecting member, the sixth channel for distributing the beverage from the second injection part to the first channel, and the first to fifth channels. With a pump.

これにより、連結部材と第１注入部を連結することにより、加熱用貯溜部、第４流路、第３流路、冷却用貯溜部、冷却用貯溜部と第２流路との間の第１流路及び第２流路が連通するとともに、加熱用貯溜部、第４流路、第５流路、連結部材、第１注入部及び第１注入部と第２流路との間の第１流路が連通することから、ポンプを駆動することにより、貯溜部内の加熱された飲料が第１乃至第５流路、連結部材及び第１注入部に流通する。即ち、加熱された飲料により各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   Thus, by connecting the connecting member and the first injection portion, the heating reservoir, the fourth flow channel, the third flow channel, the cooling reservoir, and the first between the cooling reservoir and the second flow channel. The first flow path and the second flow path communicate with each other, and the heating storage section, the fourth flow path, the fifth flow path, the connecting member, the first injection section, and the first injection section between the first injection section and the second flow path. Since the one flow path communicates, the heated beverage in the storage part flows through the first to fifth flow paths, the connecting member, and the first injection part by driving the pump. That is, when heat sterilizing each flow path with a heated beverage, the flow path near the injection section and the injection section can also be heat sterilized.

また、本発明は、飲料容器から供給される飲料を冷却して貯溜可能な冷却用貯溜部と、注入部と連結された飲料容器から供給される飲料を加熱して貯溜可能な加熱用貯溜部と、冷却用貯溜部内の飲料を注出可能な第１注出弁と、加熱用貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、第１注入部から冷却用貯溜部に飲料を流通させる第１流路と、第１流路から加熱用貯溜部に飲料を流通させる第２流路と、冷却用貯溜部から第１注出弁に飲料を流通させる第３流路と、第２注入部から第１流路に飲料を流通させる第４流路と、連結部材を加熱可能な第１加熱器と、第２流路と冷却用貯溜部との間の第１流路を加熱可能な第２加熱器と、第３流路を加熱可能な第３加熱器とを備えている。   The present invention also relates to a cooling reservoir capable of cooling and storing a beverage supplied from a beverage container, and a heating reservoir capable of heating and storing a beverage supplied from a beverage container connected to an injection portion. A beverage dispenser comprising: a first dispensing valve capable of dispensing the beverage in the cooling reservoir; and a second dispensing valve capable of dispensing the beverage in the heating reservoir. First and second injection parts detachably connectable to each other, a connection member detachably connectable to the injection part not connected to the spout of the beverage container, and a cooling storage part from the first injection part A first flow path through which the beverage flows, a second flow path through which the beverage flows from the first flow path to the heating reservoir, and a third flow path through which the beverage flows from the cooling reservoir to the first dispensing valve. A fourth flow path for distributing the beverage from the second injection part to the first flow path, and a first pressure capable of heating the connecting member. And vessels includes a second heater capable of heating a first flow path between the second passage and the cooling reservoir, and a second heatable the third flow path 3 heater.

これにより、第２加熱器によって第２流路と冷却用貯溜部との間の第１流路を加熱することにより、第１流路に連通している第２流路も加熱されることから、第２加熱器によって冷却用貯溜部側の第１流路及び第２流路を加熱殺菌することができる。また、第３加熱器によって第３流路を加熱殺菌することができる。さらに、連結部材に第１注入部を連結するとともに、第１加熱器によって連結部材を加熱することにより、連結部材に連結している第１注入部及び第１注入部近傍の第１流路が加熱殺菌される。即ち、各流路の加熱殺菌を行う際に、注入部及び注入部近傍の流路も加熱殺菌することができる。   As a result, by heating the first flow path between the second flow path and the cooling reservoir by the second heater, the second flow path communicating with the first flow path is also heated. The first flow path and the second flow path on the cooling storage section side can be heat sterilized by the second heater. Moreover, a 3rd flow path can be heat-sterilized with a 3rd heater. Furthermore, while connecting a 1st injection | pouring part to a connection member and heating a connection member with a 1st heater, the 1st flow path near the 1st injection | pouring part connected to a connection member and a 1st injection | pouring part is formed. Sterilized by heating. That is, when performing heat sterilization of each flow path, the flow path near the injection section and the injection section can also be heat sterilized.

本発明の飲料ディスペンサによれば、飲料の流路の加熱殺菌を行う際に注入部及び注入部近傍の流路も加熱殺菌することができるので、飲料の衛生状態の向上を図る上で極めて有利である。   According to the beverage dispenser of the present invention, when the beverage flow path is heat sterilized, the injection portion and the flow passage in the vicinity of the injection portion can also be heat sterilized, which is extremely advantageous in improving the sanitary condition of the beverage. It is.

図１乃至図３は本発明の第１の実施形態を示すもので、図１は飲料ディスペンサの一部断面正面図、図２は加熱殺菌する際の飲料ディスペンサの一部断面正面図、図３は冷水ノズルの正面図である。   1 to 3 show a first embodiment of the present invention, FIG. 1 is a partially sectional front view of a beverage dispenser, FIG. 2 is a partially sectional front view of a beverage dispenser during heat sterilization, and FIG. FIG. 3 is a front view of a cold water nozzle.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１と着脱自在に連結可能な注入部１０と、注入部１０に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル３０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、注入部１０に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられた連結部材６０と、注入部１０から冷水ノズル３０に飲料を流通させる第１流路７１と、第１流路７１から温水タンク２０に飲料を流通させる第２流路７２と、温水タンク２０から第１流路７１の冷水ノズル３０側に飲料を流通させる第３流路７３と、第３流路７３の途中から連結部材６０に飲料を流通させる第４流路７４と、第３流路７３に設けられた飲料流通用の周知のポンプ８０と、第３流路７３に設けられた周知の開閉弁８１とを備えている。   The beverage dispenser of the present embodiment is an injecting portion 10 that can be detachably connected to a bottle 1 as a beverage container, and a reservoir that can store the beverage supplied from the bottle 1 connected to the injecting portion 10 by heating. A hot water tank 20, a cold water nozzle 30 as a first pouring valve capable of pouring a beverage in the bottle 1, and a hot water nozzle 40 as a second pouring valve capable of pouring a beverage in the hot water tank 20, The well-known refrigerator 50 capable of accommodating the bottle 1 connected to the injection unit 10, the connecting member 60 provided in the refrigerator 50, and the first flow path for distributing the beverage from the injection unit 10 to the cold water nozzle 30 71, a second flow path 72 through which the beverage flows from the first flow path 71 to the hot water tank 20, and a third flow path 73 through which the drink flows from the hot water tank 20 to the cold water nozzle 30 side of the first flow path 71, Connecting member from the middle of the third flow path 73 A fourth flow path 74 for distributing the beverage to 0, a known pump 80 for distributing the beverage provided in the third flow path 73, and a known on-off valve 81 provided in the third flow path 73. Yes.

ボトル１はプラスチック製の容器であり、ミネラルウォーター等の飲料を収容している。ボトル１はその注出口を蓋２によって閉鎖され、冷却庫５０内に設けられた載置台５１に蓋２を下方に向けた状態で載置されている。   The bottle 1 is a plastic container and contains a beverage such as mineral water. The bottle 1 has its spout closed by the lid 2 and is placed on a placement table 51 provided in the refrigerator 50 with the lid 2 facing downward.

注入部１０は差込管１１を有し、差込管１１は上端部が斜めに切断された金属製パイプからなる。差込管１１が載置台５１に載置されたボトル１の蓋２に下方から差込まれると、注入部１０がボトル１の注出口に連結されるとともに、差込管１１がボトル１内と連通する。差込管１１の下端部は第１流路７１の一端に連結されている。   The injection part 10 has the insertion pipe 11, and the insertion pipe 11 consists of a metal pipe with the upper end cut obliquely. When the insertion tube 11 is inserted into the lid 2 of the bottle 1 mounted on the mounting table 51 from below, the injection unit 10 is connected to the spout of the bottle 1 and the insertion tube 11 is connected to the inside of the bottle 1. Communicate. The lower end portion of the insertion tube 11 is connected to one end of the first flow path 71.

温水タンク２０は両端部を閉鎖された円筒状であり、飲料を加熱するための周知の電熱ヒータ２１と、飲料の温度を検出可能な温度センサ２２とを備えている。電熱ヒータ２１は温度センサ２２の検出結果に基づき制御され、温水タンク２０内の飲料を所定の温度に加熱している。   The hot water tank 20 has a cylindrical shape with both ends closed, and includes a known electric heater 21 for heating the beverage and a temperature sensor 22 capable of detecting the temperature of the beverage. The electric heater 21 is controlled based on the detection result of the temperature sensor 22 and heats the beverage in the hot water tank 20 to a predetermined temperature.

冷水ノズル３０は、図３に示すように、第１接続口３１と、第１接続口３１に連通している第２接続口３２とを有する。第１接続口３１には第１連通管７１の他端が接続され、第２接続口３２には第３連通管の一端が接続されている。また、冷水ノズル３０は下方に延びる注出用パイプ３３を有する。冷水ノズル３０は内部に図示しない開閉弁が設けられ、注出用パイプ３３の下方に配置されたコップＣＡに飲料を注出可能である。冷水ノズル３０はその一部が冷却庫５０内に配置されている。   As illustrated in FIG. 3, the cold water nozzle 30 includes a first connection port 31 and a second connection port 32 that communicates with the first connection port 31. The other end of the first communication pipe 71 is connected to the first connection port 31, and one end of the third communication pipe is connected to the second connection port 32. Moreover, the cold water nozzle 30 has the extraction pipe 33 extended below. The cold water nozzle 30 is provided with an open / close valve (not shown) inside, and can dispense a beverage into a cup CA disposed below the dispensing pipe 33. A part of the cold water nozzle 30 is disposed in the refrigerator 50.

温水ノズル４０は温水タンク２０から延びる温水用連通管２３の一端に接続され、下方に延びる注出用パイプ４１を有する。温水ノズル４０は内部に図示しない開閉弁が設けられ、注出用パイプ４１の下方に配置されたコップＣＡに飲料を注出可能である。   The hot water nozzle 40 is connected to one end of a hot water communication pipe 23 extending from the hot water tank 20 and has a pouring pipe 41 extending downward. The hot water nozzle 40 is provided with an open / close valve (not shown) in the inside thereof, and can pour a beverage into a cup CA disposed below the pouring pipe 41.

連結部材６０は樹脂等の弾性を有する材料からなり、下面の中央部に差込管１１を差込可能な図示しない穴が設けられている。連結部材６０に下方から差込管１１を差し込むことにより、連結部材６０と差込管１１とが連結する。   The connecting member 60 is made of an elastic material such as resin, and a hole (not shown) into which the insertion tube 11 can be inserted is provided at the center of the lower surface. By inserting the insertion tube 11 into the connection member 60 from below, the connection member 60 and the insertion tube 11 are connected.

第１流路７１は、注入部１０に連結された注入部側流路７１ａと、冷水ノズル３０に連結されたノズル側流路７１ｂとを有する。注入部側流路７１ａとノズル側流路７１ｂとは連結されている。注入部側流路７１ａは樹脂配管（ポリエチレン、シリコン等）、蛇腹状ステンレス配管等の可撓性を有する管状部材からなり、ノズル側流路７１ｂはステンレス等の金属製パイプからなる。第１流路７１は冷却庫５０内に配置されている。   The first flow path 71 has an injection part side flow path 71 a connected to the injection part 10 and a nozzle side flow path 71 b connected to the cold water nozzle 30. The injection part side flow path 71a and the nozzle side flow path 71b are connected. The injection portion side flow path 71a is made of a flexible tubular member such as a resin pipe (polyethylene, silicon, etc.) or a bellows-like stainless steel pipe, and the nozzle side flow path 71b is made of a metal pipe such as stainless steel. The first flow path 71 is disposed in the refrigerator 50.

第２流路７２はステンレス等の金属製パイプからなり、一端がノズル側流路７１ｂの注入部１０側に連通するとともに、他端が温水タンク２０に上方から連通している。第２流路７２の一端側は冷却庫５０内に配置されている。   The second flow path 72 is made of a metal pipe such as stainless steel, and one end communicates with the injection portion 10 side of the nozzle side flow path 71b and the other end communicates with the hot water tank 20 from above. One end side of the second flow path 72 is disposed in the refrigerator 50.

第３流路７３はステンレス等の金属製パイプからなり、一端が冷水ノズル３０に連通するとともに、他端が温水タンク２０に下方から連通している。第３流路７３の一端側は冷却庫５０内に配置されている。   The third flow path 73 is made of a metal pipe such as stainless steel, and has one end communicating with the cold water nozzle 30 and the other end communicating with the hot water tank 20 from below. One end side of the third flow path 73 is disposed in the refrigerator 50.

第４流路７４はステンレス等の金属製パイプからなり、一端が第３流路７３に連通するとともに、他端が連結部材６０に連通している。第４流路７４は冷却庫５０内に配置されている。   The fourth flow path 74 is made of a metal pipe such as stainless steel, and one end communicates with the third flow path 73 and the other end communicates with the connecting member 60. The fourth flow path 74 is disposed in the refrigerator 50.

このように構成された飲料ディスペンサは、図１に示すように、注入部１０に連結されたボトル１内の飲料は第１流路７１及び第２流路７２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路７１を介して冷水ノズル３０から任意に注出される。このとき、ポンプ８０は停止しており、開閉弁８１は閉鎖されている。   In the beverage dispenser configured as described above, as shown in FIG. 1, the beverage in the bottle 1 connected to the injection unit 10 flows into the hot water tank 20 through the first channel 71 and the second channel 72. To do. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Further, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 30 via the first flow path 71. At this time, the pump 80 is stopped and the on-off valve 81 is closed.

ここで、各流路７１，７２，７３，７４の加熱殺菌を行う場合は、注入部１０をボトル１から取外して連結部材６０に連結し、開閉弁８１を開放するとともに、ポンプ８０を駆動する。これにより、温水タンク２０、第３流路７３、冷水ノズル３０、冷水ノズル３０と第２流路７２との間の第１流路７１及び第２流路７２が連通するとともに、温水タンク２０、第３流路７３、第４流路７４、連結部材６０、注入部１０及び注入部１０と第２流路７２との間の第１流路７１が連通する。従って、温水タンク２０内の加熱された飲料が各流路７１，７２，７３，７４、冷水ノズル３０、連結部材６０及び注入部１０に流通する。即ち、加熱された飲料により各流路７１，７２，７３，７４の加熱殺菌を行う際に、注入部１０及び注入部１０近傍の流路も加熱殺菌することができる。   Here, when performing heat sterilization of each flow path 71,72,73,74, the injection | pouring part 10 is removed from the bottle 1, it connects with the connection member 60, while opening the on-off valve 81 and driving the pump 80. . Thereby, while the hot water tank 20, the 3rd flow path 73, the cold water nozzle 30, the 1st flow path 71 and the 2nd flow path 72 between the cold water nozzle 30 and the 2nd flow path 72 are connected, the hot water tank 20, The third flow path 73, the fourth flow path 74, the connecting member 60, the injection section 10, and the first flow path 71 between the injection section 10 and the second flow path 72 communicate with each other. Therefore, the heated beverage in the hot water tank 20 flows through each flow path 71, 72, 73, 74, the cold water nozzle 30, the connecting member 60, and the injection unit 10. That is, when performing heat sterilization of each flow path 71, 72, 73, 74 with a heated beverage, the flow path in the vicinity of the injection section 10 and the injection section 10 can also be heat sterilized.

このように、本実施形態によれば、各流路７１，７２，７３，７４の加熱殺菌を行う場合に、注入部１０をボトル１から取外して連結部材６０に連結し、温水タンク２０内の加熱された飲料が各流路７１，７２，７３，７４、冷水ノズル３０、連結部材６０及び注入部１０に流通するようにしたので、加熱された飲料により各流路７１，７２，７３，７４の加熱殺菌を行う際に、注入部１０及び注入部１０近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。尚、加熱殺菌はボトル１の交換時に行うか、１日に１回定期的に行うことが望ましい。   Thus, according to the present embodiment, when heat sterilization of each flow path 71, 72, 73, 74 is performed, the injection part 10 is removed from the bottle 1 and connected to the connecting member 60, and the hot water tank 20 Since the heated beverage circulates in each of the flow paths 71, 72, 73, 74, the cold water nozzle 30, the connecting member 60, and the injection unit 10, each of the flow paths 71, 72, 73, 74 is heated by the heated beverage. When the heat sterilization is performed, the injection part 10 and the flow path in the vicinity of the injection part 10 can also be heat sterilized, which is extremely advantageous for improving the sanitary condition of the beverage. The heat sterilization is preferably performed when the bottle 1 is replaced or periodically once a day.

また、冷水ノズル３０に、第１流路７１と接続可能な第１接続口３１と、第１接続口３１に連通するとともに、第３流路７３と接続可能な第２接続口３２とを設けたので、第１流路７１及び第３流路７３を冷水ノズル３０に連結することにより、第３流路７３を第１流路７１の冷水ノズル３０側に容易に連通させることができる。即ち、装置の組立を容易に行うことができ、製造コストを低減する上で極めて有利である。   The cold water nozzle 30 is provided with a first connection port 31 that can be connected to the first flow path 71, and a second connection port 32 that communicates with the first connection port 31 and can be connected to the third flow path 73. Therefore, by connecting the first flow path 71 and the third flow path 73 to the cold water nozzle 30, the third flow path 73 can be easily communicated with the cold water nozzle 30 side of the first flow path 71. That is, the apparatus can be easily assembled, which is extremely advantageous in reducing the manufacturing cost.

また、注入部１０を一端がボトル１の蓋２に差込まれてボトル１内に連通する差込管１１から形成したので、注入部１０とボトル１との連結を容易に行うことができ、ボトル１の交換作業の短縮を図ることができる。   Moreover, since the injection | pouring part 10 was formed from the insertion pipe | tube 11 which one end was inserted in the lid | cover 2 of the bottle 1 and connected in the bottle 1, the connection with the injection | pouring part 10 and the bottle 1 can be performed easily, The replacement work of the bottle 1 can be shortened.

また、注入部１０に連結されたボトル１を冷却する冷却庫５０を設けたので、ボトル１内の飲料を低温に維持することができ、飲料の衛生状態を向上することができる。   Moreover, since the refrigerator 50 which cools the bottle 1 connected with the injection | pouring part 10 was provided, the drink in the bottle 1 can be maintained at low temperature, and the sanitation state of a drink can be improved.

また、各流路７１，７２，７３，７４を少なくとも一部が冷却庫５０内に配置されるように設けたので、各流路７１，７２，７３，７４内の飲料を低温に維持することができ、飲料の衛生状態を向上することができる。尚、冷水ノズル３０の第２接続口３２側に逆流防止のための弁を設けても良い。第４流路７４の最上端をボトル１の最上面よりも上方に配置して第４流路７４内に空気層を設け、冷水ノズル３０からの逆流を防止しても良い。   Moreover, since each flow path 71,72,73,74 was provided so that at least one part might be arrange | positioned in the refrigerator 50, the drink in each flow path 71,72,73,74 is maintained at low temperature. Can improve the sanitary condition of the beverage. In addition, you may provide the valve for backflow prevention in the 2nd connection port 32 side of the cold water nozzle 30. FIG. The uppermost end of the fourth channel 74 may be disposed above the uppermost surface of the bottle 1 to provide an air layer in the fourth channel 74 to prevent backflow from the cold water nozzle 30.

図４乃至図５は本発明の第２の実施形態を示すもので、図４は飲料ディスペンサの一部断面正面図、図５は加熱殺菌する際の飲料ディスペンサの一部断面正面図である。尚、第１の実施形態と同等の構成部分には同一の符号を付して示す。   4 to 5 show a second embodiment of the present invention. FIG. 4 is a partial cross-sectional front view of the beverage dispenser, and FIG. 5 is a partial cross-sectional front view of the beverage dispenser during heat sterilization. In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 1st Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１に着脱自在に連結可能な第１注入部１００と、第１注入部１００に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル３０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、第１注入部１００に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない注入部１００と着脱自在に連結可能な連結部材６０と、ボトル１及び連結部材６０と着脱自在に連結可能な第２注入部１１０と、第１注入部１００から冷水ノズル３０に飲料を流通させる第１流路１２１と、第１流路１２１から温水タンク２０に飲料を流通させる第２流路１２２と、温水タンク２０から第１流路１２１の冷水ノズル３０側に飲料を流通させる第３流路１２３と、第３流路１２３の途中から連結部材６０に飲料を流通させる第４流路１２４と、第２注入部１１０から第１流路１２１に飲料を流通させる第５流路１２５と、第３流路１２３に設けられた飲料流通用の周知のポンプ８０と、第３流路１２３に設けられた周知の開閉弁８１とを備えている。   The beverage dispenser of the present embodiment can heat and store a beverage supplied from a bottle 1 connected to the first injection unit 100 and a first injection unit 100 that can be detachably connected to a bottle 1 as a beverage container. As a hot water tank 20 serving as a reservoir, a cold water nozzle 30 serving as a first dispensing valve capable of dispensing the beverage in the bottle 1, and a second dispensing valve capable of dispensing the beverage in the warm water tank 20. A hot water nozzle 40, a known cooler 50 capable of accommodating the bottle 1 connected to the first injection unit 100, and an injection unit 100 provided in the cooler 50 and not connected to the bottle 1 are detachably connected. A possible connecting member 60, a second injection part 110 that can be detachably connected to the bottle 1 and the connecting member 60, a first flow path 121 that distributes the beverage from the first injection part 100 to the cold water nozzle 30, and a first Hot water from the channel 121 The second flow path 122 for distributing the beverage to the cup 20, the third flow path 123 for distributing the beverage from the hot water tank 20 to the cold water nozzle 30 side of the first flow path 121, and the connecting member from the middle of the third flow path 123. A fourth flow path 124 through which the beverage flows through 60, a fifth flow path 125 through which the beverage flows from the second injection part 110 to the first flow path 121, and a well-known beverage distribution system provided in the third flow path 123. And a known on-off valve 81 provided in the third flow path 123.

温水タンク２０、冷水ノズル３０、温水ノズル４０、冷却庫５０、連結部材６０、ポンプ８０及び開閉弁８１は第１の実施形態と同等である。   The hot water tank 20, the cold water nozzle 30, the hot water nozzle 40, the refrigerator 50, the connecting member 60, the pump 80, and the on-off valve 81 are the same as those in the first embodiment.

第１注入部１００は差込管１０１を有し、差込管１０１は上端部が斜めに切断された金属製パイプからなる。差込管１０１が載置台５１に載置されたボトル１の蓋２に下方から差込まれると、第１注入部１００がボトル１の注出口に連結されるとともに、差込管１０１がボトル１内と連通する。   The 1st injection | pouring part 100 has the insertion tube 101, and the insertion tube 101 consists of a metal pipe by which the upper end part was cut | disconnected diagonally. When the insertion tube 101 is inserted from below into the lid 2 of the bottle 1 mounted on the mounting table 51, the first injection unit 100 is connected to the spout of the bottle 1, and the insertion tube 101 is connected to the bottle 1. Communicate with the inside.

第２注入部１１０は第１注入部１００と同等の構成である。第２注入部１１０は差込管１１１を有し、差込管１１１は上端部が斜めに切断された金属製パイプからなる。差込管１１１が載置台５１に載置されたボトル１の蓋２に下方から差込まれると、差込管１１１がボトル１内と連通する。   The second injection unit 110 has the same configuration as the first injection unit 100. The 2nd injection | pouring part 110 has the insertion pipe 111, and the insertion pipe 111 consists of a metal pipe by which the upper end part was cut | disconnected diagonally. When the insertion tube 111 is inserted into the lid 2 of the bottle 1 placed on the placement table 51 from below, the insertion tube 111 communicates with the inside of the bottle 1.

第１流路１２１は、第１注入部１００に連結された注入部側流路１２１ａと、冷水ノズル３０に連結されたノズル側流路１２１ｂと、注入部側流路１２１ａとノズル側流路１２１ｂとを連結する中間流路１２１ｃとを有する。注入部側流路１２１ａ及びノズル側流路１２１ｂはステンレス等の金属製パイプからなる。中間流路１２１ｃは樹脂配管（ポリエチレン、シリコン等）、蛇腹状ステンレス配管等の可撓性を有する管状部材からなる。第１流路１２１は冷却庫５０内に配置されている。   The first channel 121 includes an injection unit side channel 121a connected to the first injection unit 100, a nozzle side channel 121b connected to the cold water nozzle 30, an injection unit side channel 121a, and a nozzle side channel 121b. And an intermediate flow path 121c. The injection part side flow path 121a and the nozzle side flow path 121b are made of a metal pipe such as stainless steel. The intermediate flow path 121c is made of a flexible tubular member such as a resin pipe (polyethylene, silicon, etc.) or a bellows-like stainless steel pipe. The first flow path 121 is disposed in the refrigerator 50.

第２流路１２２はステンレス等の金属製パイプからなり、一端がノズル側流路１２１ｂの第１注入部１００側に連通するとともに、他端が温水タンク２０に上方から連通している。第２流路１２２の一端側は冷却庫５０内に配置されている。   The second flow path 122 is made of a metal pipe such as stainless steel, and one end communicates with the first injection section 100 side of the nozzle side flow path 121b and the other end communicates with the hot water tank 20 from above. One end side of the second flow path 122 is disposed in the refrigerator 50.

第３流路１２３はステンレス等の金属製パイプからなり、一端が冷水ノズル３０に連通するとともに、他端が温水タンク２０に下方から連通している。第３流路１２３の一端側は冷却庫５０内に配置されている。   The third flow path 123 is made of a metal pipe such as stainless steel, and has one end communicating with the cold water nozzle 30 and the other end communicating with the hot water tank 20 from below. One end side of the third flow path 123 is disposed in the refrigerator 50.

第４流路１２４はステンレス等の金属製パイプからなり、一端が第３流路１２３に連通するとともに、他端が連結部材６０に連通している。第４流路１２４は冷却庫５０内に配置されている。   The fourth flow path 124 is made of a metal pipe such as stainless steel, and has one end communicating with the third flow path 123 and the other end communicating with the connecting member 60. The fourth flow path 124 is disposed in the refrigerator 50.

第５流路１２５はステンレス等の金属製パイプからなり、一端が第２注入部１１０に連通するとともに、他端が注入部側流路１２１ａに連通している。即ち、第１注入部１００と第２注入部１１０とは注入部側流路１２１ａ及び第５流路１２５を介して連結されている。また、第１注入部１００が載置台５１に載置されたボトル１に連結している際に第２注入部１１０が連結部材６０に連結し、第１注入部１００が連結部材６０に連結している際に第２注入部１１０がボトル１に連結する。   The fifth flow path 125 is made of a metal pipe such as stainless steel, and has one end communicating with the second injection section 110 and the other end communicating with the injection section side flow path 121a. That is, the first injection part 100 and the second injection part 110 are connected via the injection part side flow path 121a and the fifth flow path 125. Further, when the first injection unit 100 is connected to the bottle 1 placed on the mounting table 51, the second injection unit 110 is connected to the connection member 60, and the first injection unit 100 is connected to the connection member 60. The second injection part 110 is connected to the bottle 1 during the operation.

このように構成された飲料ディスペンサは、図４に示すように、第１注入部１００に連結されたボトル１内の飲料は第１流路１２１及び第２流路１２２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路１２１を介して冷水ノズル３０から任意に注出される。このとき、ポンプ８０は停止しており、開閉弁８１は閉鎖されている。   As shown in FIG. 4, in the beverage dispenser configured in this way, the beverage in the bottle 1 connected to the first injection unit 100 is in the hot water tank 20 via the first flow path 121 and the second flow path 122. Flow into. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Moreover, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 30 through the first flow path 121. At this time, the pump 80 is stopped and the on-off valve 81 is closed.

ここで、各流路１２１，１２２，１２３，１２４の加熱殺菌を行う場合は、第１注入部１００をボトル１から取外して連結部材６０に連結し、第２注入部１１０を連結部材６０から取外してボトル１に連結する。また、開閉弁８１を開放するとともに、ポンプ８０を駆動する。これにより、温水タンク２０、第３流路１２３、冷水ノズル３０、冷水ノズル３０と第２流路１２２との間の第１流路１２１及び第２流路１２２が連通するとともに、温水タンク２０、第３流路１２３、第４流路１２４、連結部材６０、第１注入部１００及び第１注入部１００と第２流路１２２との間の第１流路１２１が連通する。従って、温水タンク２０内の加熱された飲料が各流路１２１，１２２，１２３，１２４、冷水ノズル３０、連結部材６０及び第１注入部１００に流通する。即ち、加熱された飲料により各流路１２１，１２２，１２３，１２４の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができる。   Here, when performing heat sterilization of each flow path 121,122,123,124, the 1st injection | pouring part 100 is removed from the bottle 1, and it connects with the connection member 60, and the 2nd injection | pouring part 110 is removed from the connection member 60. And connect to bottle 1. Further, the on-off valve 81 is opened and the pump 80 is driven. Thereby, while the hot water tank 20, the 3rd flow path 123, the cold water nozzle 30, the 1st flow path 121 and the 2nd flow path 122 between the cold water nozzle 30 and the 2nd flow path 122 are connected, the hot water tank 20, The third channel 123, the fourth channel 124, the connecting member 60, the first injection unit 100, and the first channel 121 between the first injection unit 100 and the second channel 122 communicate with each other. Therefore, the heated beverage in the hot water tank 20 flows through each flow path 121, 122, 123, 124, the cold water nozzle 30, the connecting member 60, and the first injection unit 100. That is, when performing heat sterilization of each of the flow paths 121, 122, 123, and 124 with a heated beverage, the flow path in the vicinity of the first injection part 100 and the first injection part 100 can also be heat sterilized.

このように、本実施形態によれば、各流路１２１，１２２，１２３，１２４の加熱殺菌を行う場合に、第１注入部１００をボトル１から取外して連結部材６０に連結し、温水タンク２０内の加熱された飲料が各流路１２１，１２２，１２３，１２４、冷水ノズル３０、連結部材６０及び第１注入部１００に流通するようにしたので、加熱された飲料により各流路１２１，１２２，１２３，１２４の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   Thus, according to the present embodiment, when the heat sterilization of each flow path 121, 122, 123, 124 is performed, the first injection unit 100 is removed from the bottle 1 and connected to the connecting member 60, and the hot water tank 20 is connected. Since the heated beverage in the channel circulates in each of the channels 121, 122, 123, 124, the cold water nozzle 30, the connecting member 60, and the first injection part 100, each channel 121, 122 is heated by the heated beverage. , 123 and 124 can be heat sterilized also in the first injection part 100 and the flow path in the vicinity of the first injection part 100, which is extremely advantageous for improving the sanitary condition of the beverage.

尚、本実施形態では、第１注入部１００を加熱殺菌するようにしたものを示したが、第２注入部１１０を連結部材６０に連結するとともに、ポンプ８０を駆動することにより、第２注入部１１０を加熱殺菌することができる。これにより、ボトル１内の飲料が無くなり、新しいボトル１に交換する時などは、加熱殺菌済の注入部１００，１１０を用いることで、飲料の衛生状態の向上を図ることができる。   In the present embodiment, the first injection part 100 is sterilized by heating. However, the second injection part 110 is connected to the connecting member 60 and the pump 80 is driven to drive the second injection part. The part 110 can be sterilized by heating. Thereby, when the drink in the bottle 1 is lost and replaced with a new bottle 1, the hygienic state of the drink can be improved by using the heat-sterilized injection parts 100 and 110.

図６乃至図７は本発明の第３の実施形態を示すもので、図６は飲料ディスペンサの一部断面正面図、図７は加熱殺菌する際の飲料ディスペンサの一部断面正面図である。尚、第２の実施形態と同等の構成部分には同一の符号を付して示す。   FIGS. 6 to 7 show a third embodiment of the present invention. FIG. 6 is a partially sectional front view of a beverage dispenser, and FIG. 7 is a partially sectional front view of the beverage dispenser during heat sterilization. In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 2nd Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１と着脱自在に連結可能な第１注入部１００と、第１注入部１００に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル３０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、第１注入部１００に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられた第１連結部材１３１及び第２連結部材１３２と、ボトル１及び第２連結部材１３２と着脱自在に連結可能な第２注入部１１０と、第１注入部１００から冷水ノズル３０に飲料を流通させる第１流路１４１と、第１流路１４１から温水タンク２０に飲料を流通させる第２流路１４２と、温水タンク２０から第１流路１４１の冷水ノズル３０側に飲料を流通させる第３流路１４３と、第３流路１４３から第１連結部材１３１に飲料を流通させる第４流路１４４と、第３流路１４３から第２連結部材１３２に飲料を流通させる第５流路１４５と、第２注入部１１０から第１流路１４１に飲料を流通させる第６流路１４６と、第３流路１４３に設けられた飲料流通用の周知のポンプ８０と、第３流路１４３に設けられた周知の開閉弁８１とを備えている。   The beverage dispenser of this embodiment can heat and store a beverage supplied from a bottle 1 connected to the first injection unit 100 and a first injection unit 100 that can be detachably connected to a bottle 1 as a beverage container. As a hot water tank 20 serving as a reservoir, a cold water nozzle 30 serving as a first dispensing valve capable of dispensing the beverage in the bottle 1, and a second dispensing valve capable of dispensing the beverage in the warm water tank 20. The hot water nozzle 40, the well-known cooler 50 capable of accommodating the bottle 1 connected to the first injection unit 100, the first connecting member 131 and the second connecting member 132 provided in the cooler 50, and the bottle 1 And the second injection part 110 that can be detachably connected to the second connection member 132, the first flow path 141 through which the beverage flows from the first injection part 100 to the cold water nozzle 30, and the hot water tank 20 from the first flow path 141. Distribute beverages to The second flow path 142, the third flow path 143 that distributes the beverage from the hot water tank 20 to the cold water nozzle 30 side of the first flow path 141, and the fourth flow that distributes the beverage from the third flow path 143 to the first connecting member 131. A flow path 144, a fifth flow path 145 for flowing the beverage from the third flow path 143 to the second connecting member 132, and a sixth flow path 146 for flowing the drink from the second injection part 110 to the first flow path 141. And a well-known pump 80 for beverage distribution provided in the third flow path 143 and a well-known on-off valve 81 provided in the third flow path 143.

温水タンク２０、冷水ノズル３０、温水ノズル４０、冷却庫５０、第１注入部１００、第２注入部１１０、ポンプ８０及び開閉弁８１は第２の実施形態と同等である。   The hot water tank 20, the cold water nozzle 30, the hot water nozzle 40, the cooler 50, the first injection unit 100, the second injection unit 110, the pump 80, and the on-off valve 81 are the same as those in the second embodiment.

第１連結部材１３１は樹脂等の弾性を有する材料からなり、下面の中央部に第１注入部１００の差込管１０１を差込可能な図示しない穴が設けられている。第１連結部材１３１に下方から差込管１０１を差込むことにより、第１連結部材１３１と差込管１０１とが連結する。   The first connecting member 131 is made of a material having elasticity such as resin, and a hole (not shown) into which the insertion pipe 101 of the first injection part 100 can be inserted is provided at the center of the lower surface. By inserting the insertion tube 101 into the first connection member 131 from below, the first connection member 131 and the insertion tube 101 are connected.

第２連結部材１３２は樹脂等の弾性を有する材料からなり、下面の中央部に第２注入部１１０の差込管１１１を差込可能な図示しない穴が設けられている。第２連結部材１３２に下方から差込管１１１を差込むことにより、第２連結部材１３２と差込管１１１とが連結する。   The second connecting member 132 is made of an elastic material such as resin, and a hole (not shown) into which the insertion tube 111 of the second injection unit 110 can be inserted is provided at the center of the lower surface. By inserting the insertion tube 111 into the second connection member 132 from below, the second connection member 132 and the insertion tube 111 are connected.

第１流路１４１は、第１注入部１００に連結された注入部側流路１４１ａと、冷水ノズル３０に連結されたノズル側流路１４１ｂと、注入部側流路１４１ａとノズル側流路１４１ｂとを連結する中間流路１４１ｃとを有する。注入部側流路１４１ａ及びノズル側流路１４１ｂはステンレス等の金属製パイプからなる。中間流路１４１ｃは樹脂配管（ポリエチレン、シリコン等）、蛇腹状ステンレス配管等の可撓性を有する管状部材からなる。第１流路１４１は冷却庫５０内に配置されている。   The first channel 141 includes an injection unit side channel 141a connected to the first injection unit 100, a nozzle side channel 141b connected to the cold water nozzle 30, an injection unit side channel 141a, and a nozzle side channel 141b. And an intermediate flow path 141c connecting the two. The injection part side channel 141a and the nozzle side channel 141b are made of metal pipes such as stainless steel. The intermediate flow path 141c is made of a flexible tubular member such as a resin pipe (polyethylene, silicon, etc.) or a bellows-like stainless steel pipe. The first flow path 141 is disposed in the refrigerator 50.

第２流路１４２はステンレス等の金属製パイプからなり、一端がノズル側流路１４１ｂの第１注入部１００側に連通するとともに、他端が温水タンク２０に上方から連通している。第２流路１４２の一端側は冷却庫内に配置されている。   The second flow path 142 is made of a metal pipe such as stainless steel, and one end thereof communicates with the first injection portion 100 side of the nozzle side flow path 141b and the other end communicates with the hot water tank 20 from above. One end side of the second flow path 142 is disposed in the refrigerator.

第３流路１４３はステンレス等の金属製パイプからなり、一端が冷水ノズル３０に連通するとともに、他端が温水タンク２０に下方から連通している。第３流路１４３の一端側は冷却庫５０内に配置されている。   The third flow path 143 is made of a metal pipe such as stainless steel, and has one end communicating with the cold water nozzle 30 and the other end communicating with the hot water tank 20 from below. One end side of the third flow path 143 is disposed in the refrigerator 50.

第４流路１４４はステンレス等の金属製パイプからなり、一端が第３流路１４３に連通するとともに、他端が第１連結部材１３１に連通している。第４流路１４４には周知の開閉弁１４４ａが設けられている。第４流路１４４は冷却庫５０内に配置されている。   The fourth flow path 144 is made of a metal pipe such as stainless steel, and has one end communicating with the third flow path 143 and the other end communicating with the first connection member 131. The fourth flow path 144 is provided with a known on-off valve 144a. The fourth flow path 144 is disposed in the refrigerator 50.

第５流路１４５はステンレス等の金属製パイプからなり、一端が第３流路１４３に連通するとともに、他端が第２連結部材１３２に連通している。第５流路１４５には周知の開閉弁１４５ａが設けられている。第５流路１４５は冷却庫５０内に配置されている。   The fifth flow path 145 is made of a metal pipe such as stainless steel, and one end thereof communicates with the third flow path 143 and the other end communicates with the second connection member 132. The fifth flow path 145 is provided with a known on-off valve 145a. The fifth channel 145 is disposed in the refrigerator 50.

第６流路１４６はステンレス等の金属製パイプからなり、一端が第２注入部１１０に連通するとともに、他端が注入部側流路１４１ａに連通している。即ち、第１注入部１００と第２注入部１１０とは注入部側流路１４１ａ及び第５流路１４５を介して連結されている。また、第１注入部１００が載置台５１に載置されたボトル１に連結している際に第２注入部１１０が第２連結部材１３２に連結し、第１注入部１００が第１連結部材１３１に連結している際に第２注入部１１０がボトル１に連結する。   The sixth flow path 146 is made of a metal pipe such as stainless steel, and one end communicates with the second injection part 110 and the other end communicates with the injection part side flow path 141a. That is, the first injection part 100 and the second injection part 110 are connected via the injection part side flow path 141 a and the fifth flow path 145. Further, when the first injection unit 100 is connected to the bottle 1 placed on the mounting table 51, the second injection unit 110 is connected to the second connection member 132, and the first injection unit 100 is the first connection member. The second injection part 110 is connected to the bottle 1 when connected to 131.

このように構成された飲料ディスペンサは、図６に示すように、第１注入部１００に連結されたボトル１内の飲料は第１流路１４１及び第２流路１４２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路１４１を介して冷水ノズル３０から任意に注出される。このとき、ポンプ８０は停止しており、各開閉弁８１，１４４ａ，１４５ａは閉鎖されている。   In the beverage dispenser configured as described above, as shown in FIG. 6, the beverage in the bottle 1 connected to the first injection unit 100 is contained in the hot water tank 20 via the first channel 141 and the second channel 142. Flow into. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Moreover, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 30 via the first flow path 141. At this time, the pump 80 is stopped, and the on-off valves 81, 144a, 145a are closed.

ここで、各流路１４１，１４２，１４３，１４４の加熱殺菌を行う場合は、第１注入部１００をボトル１から取外して第１連結部材１３１に連結し、第２注入部１１０を第２連結部材１３２から取外してボトル１に連結する。また、開閉弁８１及び開閉弁１４４ａを開放するとともに、ポンプ８０を駆動する。これにより、温水タンク２０、第３流路１４３、冷水ノズル３０、冷水ノズル３０と第２流路１４２との間の第１流路１４１及び第２流路１４２が連通するとともに、温水タンク２０、第３流路１４３、第４流路１４４、第１連結部材１３１、第１注入部１００及び第１注入部１００と第２流路１４２との間の第１流路１４１が連通する。従って、温水タンク２０内の加熱された飲料が各流路１４１，１４２，１４３，１４４、冷水ノズル３０、第１連結部材１３１及び第１注入部１００に流通する。即ち、加熱された飲料により各流路１４１，１４２，１４３，１４４の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができる。   Here, when performing heat sterilization of each flow path 141,142,143,144, the 1st injection | pouring part 100 is removed from the bottle 1, it connects with the 1st connection member 131, and the 2nd injection | pouring part 110 is 2nd connection. Remove from member 132 and connect to bottle 1. Further, the on-off valve 81 and the on-off valve 144a are opened, and the pump 80 is driven. Accordingly, the hot water tank 20, the third flow path 143, the cold water nozzle 30, the first flow path 141 and the second flow path 142 between the cold water nozzle 30 and the second flow path 142 are communicated, and the hot water tank 20, The third flow path 143, the fourth flow path 144, the first connecting member 131, the first injection part 100, and the first flow path 141 between the first injection part 100 and the second flow path 142 communicate with each other. Therefore, the heated beverage in the hot water tank 20 flows through the flow paths 141, 142, 143, 144, the cold water nozzle 30, the first connecting member 131, and the first injection part 100. That is, when heat sterilizing each of the flow paths 141, 142, 143, and 144 with a heated beverage, the flow paths near the first injection unit 100 and the first injection unit 100 can also be heat sterilized.

このように、本実施形態によれば、各流路１４１，１４２，１４３，１４４の加熱殺菌を行う場合に、第１注入部１００をボトル１から取外して第１連結部材１３１に連結し、温水タンク２０内の加熱された飲料が各流路１４１，１４２，１４３，１４４、冷水ノズル３０、第１連結部材１３１及び第１注入部１００に流通するようにしたので、加熱された飲料により各流路１４１，１４２，１４３，１４４の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   Thus, according to the present embodiment, when the heat sterilization of each of the flow paths 141, 142, 143, and 144 is performed, the first injection unit 100 is detached from the bottle 1 and connected to the first connection member 131, Since the heated beverage in the tank 20 circulates in each of the flow paths 141, 142, 143, 144, the cold water nozzle 30, the first connecting member 131, and the first injection part 100, each flow is heated by the heated beverage. When the path 141, 142, 143, 144 is heat sterilized, the flow path in the vicinity of the first injection part 100 and the first injection part 100 can also be heat sterilized, which is extremely useful for improving the sanitary condition of the beverage. It is advantageous.

尚、本実施形態では、第１注入部１００の加熱殺菌をするようにしたものを示したが、第２注入部１１０を第２連結部材１３２に連結し、開閉弁１４５ａを開放するとともに、ポンプ８０を駆動することにより、第２注入部１１０を加熱殺菌することができる。   In the present embodiment, the first injection unit 100 is sterilized by heating, but the second injection unit 110 is connected to the second connection member 132, the on-off valve 145a is opened, and the pump By driving 80, the second injection part 110 can be sterilized by heating.

図８乃至図９は本発明の第４の実施形態を示すもので、図８は飲料ディスペンサの一部断面正面図、図９は加熱殺菌する際の飲料ディスペンサの一部断面正面図である。尚、第１の実施形態と同等の構成部分には同一の符号を付して示す。   FIGS. 8 to 9 show a fourth embodiment of the present invention. FIG. 8 is a partially sectional front view of a beverage dispenser, and FIG. 9 is a partially sectional front view of the beverage dispenser when sterilized by heating. In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 1st Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１と着脱自在に連結可能な注入部１０と、注入部１０に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル３０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、注入部１０に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない注入部１０と着脱自在に連結可能な連結部材６０と、注入部１０から冷水ノズル３０に飲料を流通させる第１流路７１と、第１流路７１から温水タンク２０に飲料を流通させる第２流路７２と、温水タンク２０から第１流路７１の冷水ノズル３０側に飲料を流通させる第３流路７３と、第３流路７３に設けられた飲料流通用の周知のポンプ８０と、第３流路７３に設けられた周知の開閉弁８１と、注入部１０と第２流路７２との間の第１流路７１に設けられた圧力開放弁７１ｃと、連結部材６０を加熱可能な加熱器１５０とを備えている。   The beverage dispenser of the present embodiment is an injecting portion 10 that can be detachably connected to a bottle 1 as a beverage container, and a reservoir that can store the beverage supplied from the bottle 1 connected to the injecting portion 10 by heating. A hot water tank 20, a cold water nozzle 30 as a first pouring valve capable of pouring a beverage in the bottle 1, and a hot water nozzle 40 as a second pouring valve capable of pouring a beverage in the hot water tank 20, A well-known refrigerator 50 capable of accommodating the bottle 1 connected to the injection unit 10, and a connecting member 60 provided in the refrigerator 50 and detachably connectable to the injection unit 10 to which the bottle 1 is not connected The first flow path 71 for flowing the beverage from the injection part 10 to the cold water nozzle 30, the second flow path 72 for flowing the drink from the first flow path 71 to the hot water tank 20, and the first flow path 71 from the hot water tank 20. Drink on the cold water nozzle 30 side The third flow path 73 to be circulated, the well-known pump 80 for beverage distribution provided in the third flow path 73, the well-known on-off valve 81 provided in the third flow path 73, the injection unit 10 and the second The pressure release valve 71c provided in the 1st flow path 71 between the flow paths 72 and the heater 150 which can heat the connection member 60 are provided.

注入部１０、温水タンク２０、冷水ノズル３０、温水ノズル４０、冷却庫５０、連結部材６０、各流路７１，７２，７３、ポンプ８０及び開閉弁８１は第１の実施形態と同等である。   The injection unit 10, the hot water tank 20, the cold water nozzle 30, the hot water nozzle 40, the cooling chamber 50, the connecting member 60, the flow paths 71, 72, 73, the pump 80, and the on-off valve 81 are the same as those in the first embodiment.

圧力開放弁７１ｃは、第１流路７１内の圧力が所定の大きさ以上になると、第１流路７１内の気化した飲料を外部に逃がすようになっている。   The pressure release valve 71c allows the vaporized beverage in the first flow path 71 to escape to the outside when the pressure in the first flow path 71 exceeds a predetermined level.

加熱器１５０は連結部材６０の外周面に接する周知の電熱ヒータからなる。   The heater 150 is a known electric heater that is in contact with the outer peripheral surface of the connecting member 60.

このように構成された飲料ディスペンサは、図８に示すように、注入部１０に連結されたボトル１内の飲料は第１流路７１及び第２流路７２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路７１を介して冷水ノズル３０から任意に注出される。このとき、ポンプ８０は停止しており、開閉弁８１は閉鎖されている。   In the beverage dispenser configured as described above, as shown in FIG. 8, the beverage in the bottle 1 connected to the injection unit 10 flows into the hot water tank 20 through the first channel 71 and the second channel 72. To do. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Further, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 30 via the first flow path 71. At this time, the pump 80 is stopped and the on-off valve 81 is closed.

ここで、各流路７１，７２，７３の加熱殺菌を行う場合は、注入部１０をボトル１から取外して連結部材６０に連結するとともに、開閉弁８１を開放し、ポンプ８０を駆動するとともに、加熱器１５０によって連結部材６０を加熱する。これにより、温水タンク２０、第３流路７３、冷水ノズル３０、冷水ノズル３０と第２流路７２との間の第１流路７１及び第２流路７２が連通し、温水タンク２０内の加熱された飲料が各流路７１，７２，７３及び冷水ノズル３０に流入する。また、加熱器１５０によって連結部材６０が加熱されると、連結部材６０に連結している注入部１０及び注入部１０と第２流路７２との間の第１流路７１が加熱される。即ち、加熱された飲料により各流路７１，７２，７３の加熱殺菌を行う際に、注入部１０及び注入部１０近傍の流路も加熱殺菌することができる。   Here, when performing heat sterilization of each flow path 71, 72, 73, while removing the injection | pouring part 10 from the bottle 1 and connecting with the connection member 60, while opening the on-off valve 81 and driving the pump 80, The connecting member 60 is heated by the heater 150. As a result, the hot water tank 20, the third flow path 73, the cold water nozzle 30, the first flow path 71 and the second flow path 72 between the cold water nozzle 30 and the second flow path 72 communicate with each other in the hot water tank 20. The heated beverage flows into each flow path 71, 72, 73 and the cold water nozzle 30. In addition, when the connecting member 60 is heated by the heater 150, the injection unit 10 connected to the connection member 60 and the first channel 71 between the injection unit 10 and the second channel 72 are heated. That is, when performing heat sterilization of each flow path 71, 72, 73 with a heated beverage, the flow path in the vicinity of the injection section 10 and the injection section 10 can also be heat sterilized.

このように、本実施形態によれば、各流路７１，７２，７３の加熱殺菌を行う場合に、注入部１０をボトル１から取外して連結部材６０に連結し、温水タンク２０内の加熱された飲料が各流路７１，７２，７３を流通する際に、加熱器１５０によって連結部材６０を加熱するようにしたので、加熱された飲料により各流路７１，７２，７３の加熱殺菌を行う際に、注入部１０及び注入部１０近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   Thus, according to the present embodiment, when the heat sterilization of each flow path 71, 72, 73 is performed, the injection part 10 is removed from the bottle 1 and connected to the connecting member 60, and the hot water tank 20 is heated. Since the connecting member 60 is heated by the heater 150 when the beverage circulates through the channels 71, 72, 73, the channels 71, 72, 73 are sterilized by heating with the heated beverage. At this time, the injection part 10 and the flow path in the vicinity of the injection part 10 can also be sterilized by heating, which is extremely advantageous for improving the sanitary condition of the beverage.

また、第１流路７１には圧力開放弁７１ｃが設けられ、第１流路７１内の圧力が所定の大きさ以上になると、圧力開放弁７１ｃにより第１流路７１内の気化した飲料を外部に逃がすことができるので、加熱器１５０によって連結部材６０を加熱する際に、第１流路７１内の圧力が所定の大きさ以上の圧力になることを防止できる。   Moreover, the pressure release valve 71c is provided in the 1st flow path 71, and when the pressure in the 1st flow path 71 becomes more than predetermined magnitude | size, the vaporized drink in the 1st flow path 71 will be made into the pressure release valve 71c. Since it can escape to the exterior, when heating the connection member 60 with the heater 150, it can prevent that the pressure in the 1st flow path 71 becomes a pressure more than predetermined magnitude | size.

尚、本実施形態では、圧力開放弁７１ｃを第１流路７１に設けたものを示したが、圧力開放弁７１ｃを温水タンク２０に設けることも可能である。   In the present embodiment, the pressure release valve 71c is provided in the first flow path 71. However, the pressure release valve 71c may be provided in the hot water tank 20.

図１０乃至図１１は本発明の第５の実施形態を示すもので、図１０は飲料ディスペンサの一部断面正面図、図１１は加熱殺菌をする際の飲料ディスペンサの一部断面正面図である。尚、第２の実施形態と同等の構成部分には同一の符号を付して示す。   FIGS. 10 to 11 show a fifth embodiment of the present invention. FIG. 10 is a partial sectional front view of a beverage dispenser, and FIG. 11 is a partial sectional front view of the beverage dispenser during heat sterilization. . In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 2nd Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１と着脱自在に連結可能な第１注入部１００と、第１注入部１００に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル３０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、第１注入部１００に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない第１注入部１００と着脱自在に連結可能な連結部材６０と、ボトル１及び連結部材６０と着脱自在に連結可能な第２注入部１１０と、第１注入部１００から冷水ノズル３０に飲料を流通させる第１流路１２１と、第１流路１２１から温水タンク２０に飲料を流通させる第２流路１２２と、温水タンク２０から第１流路１２１の冷水ノズル３０側に飲料を流通させる第３流路１２３と、第２注入部１１０から第１流路１２１に飲料を流通させる第５流路１２５と、第３流路１２３に設けられた飲料流通用の周知のポンプ８０と、第３流路１２３に設けられた周知の開閉弁８１と、連結部材６０を加熱可能な加熱器１５０とを備えている。尚、第５流路１２５は請求項５に記載した第４流路に相当する。   The beverage dispenser of this embodiment can heat and store a beverage supplied from a bottle 1 connected to the first injection unit 100 and a first injection unit 100 that can be detachably connected to a bottle 1 as a beverage container. As a hot water tank 20 serving as a reservoir, a cold water nozzle 30 serving as a first dispensing valve capable of dispensing the beverage in the bottle 1, and a second dispensing valve capable of dispensing the beverage in the warm water tank 20. A hot water nozzle 40, a known cooler 50 capable of accommodating the bottle 1 connected to the first injection part 100, and a first injection part 100 provided in the cooler 50 and not connected to the bottle 1 are detachable. A connecting member 60 that can be connected to the bottle 1, a second injection part 110 that is detachably connectable to the bottle 1 and the connecting member 60, a first flow path 121 that distributes the beverage from the first injection part 100 to the cold water nozzle 30, Temperature from the first flow path 121 The second flow path 122 for flowing the beverage to the tank 20, the third flow path 123 for flowing the beverage from the hot water tank 20 to the cold water nozzle 30 side of the first flow path 121, and the first flow path from the second injection part 110. 121, a fifth flow path 125 through which the beverage flows through 121, a known pump 80 for beverage distribution provided in the third flow path 123, a known on-off valve 81 provided in the third flow path 123, and a connecting member And a heater 150 capable of heating 60. The fifth flow path 125 corresponds to the fourth flow path described in claim 5.

温水タンク２０、冷水ノズル３０、温水ノズル４０、冷却庫５０、連結部材６０、各流路１２１，１２２，１２３，１２５、ポンプ８０、開閉弁８１、各注入部１００，１１０及び加熱器１５０は第２の実施形態と同等である。   The hot water tank 20, the cold water nozzle 30, the hot water nozzle 40, the cooling chamber 50, the connecting member 60, the flow paths 121, 122, 123, 125, the pump 80, the on-off valve 81, the injection parts 100, 110, and the heater 150 are This is equivalent to the second embodiment.

このように構成された飲料ディスペンサは、図１０に示すように、注入部１０に連結されたボトル１内の飲料は第１流路１２１及び第２流路１２２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路１２１を介して冷水ノズル３０から任意に注出される。このとき、ポンプ８０は停止しており、開閉弁８１は閉鎖されている。   In the beverage dispenser configured as described above, as shown in FIG. 10, the beverage in the bottle 1 connected to the injection unit 10 flows into the hot water tank 20 through the first channel 121 and the second channel 122. To do. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Moreover, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 30 through the first flow path 121. At this time, the pump 80 is stopped and the on-off valve 81 is closed.

ここで、各流路１２１，１２２，１２３の加熱殺菌を行う場合は、第１注入部１００をボトル１から取外して連結部材６０に連結し、第２注入部１１０を連結部材６０から取外してボトル１に連結する。また、開閉弁８１を開放するとともに、ポンプ８０を駆動する。これにより、温水タンク２０、第３流路１２３、冷水ノズル３０、冷水ノズル３０と第２流路１２２との間の第１流路１２１及び第２流路１２２が連通し、温水タンク２０内の加熱された飲料が各流路１２１，１２２，１２３及び冷水ノズルに流入する。また、加熱器１５０によって連結部材６０が加熱されると、連結部材６０に連結されている第１注入部１００と第１注入部１００と第２流路１２２との間の第１流路１２１が加熱される。即ち、加熱された飲料により各流路１２１，１２２，１２３の加熱殺菌を行う際に、第１注入部１００及び第１注入部近傍の流路も加熱殺菌することができる。   Here, when performing heat sterilization of each flow path 121,122,123, the 1st injection | pouring part 100 is removed from the bottle 1, and it connects with the connection member 60, and the 2nd injection | pouring part 110 is removed from the connection member 60, and is a bottle. Connect to 1. Further, the on-off valve 81 is opened and the pump 80 is driven. As a result, the hot water tank 20, the third flow path 123, the cold water nozzle 30, the first flow path 121 and the second flow path 122 between the cold water nozzle 30 and the second flow path 122 communicate with each other, The heated beverage flows into each flow path 121, 122, 123 and the cold water nozzle. Further, when the connecting member 60 is heated by the heater 150, the first injection part 100 connected to the connecting member 60 and the first flow path 121 between the first injection part 100 and the second flow path 122 are formed. Heated. That is, when performing heat sterilization of each flow path 121, 122, 123 with a heated beverage, the flow path in the vicinity of the first injection part 100 and the first injection part can also be heat sterilized.

このように、本実施形態によれば、各流路１２１，１２２，１２３の加熱殺菌を行う場合に、第１注入部１００をボトル１から取外して連結部材６０に連結し、温水タンク２０内の加熱された飲料が各流路１２１，１２２，１２３を流通する際に、加熱器１５０によって連結部材６０を加熱するようにしたので、加熱された飲料により各流路１２１，１２２，１２３の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   Thus, according to the present embodiment, when the heat sterilization of each flow path 121, 122, 123 is performed, the first injection unit 100 is removed from the bottle 1 and connected to the connecting member 60, and the inside of the hot water tank 20 is Since the connecting member 60 is heated by the heater 150 when the heated beverage circulates through the flow paths 121, 122, 123, the heat sterilization of the flow paths 121, 122, 123 with the heated beverage. , The first injection part 100 and the flow path in the vicinity of the first injection part 100 can be heat sterilized, which is extremely advantageous for improving the sanitary condition of the beverage.

尚、本実施形態では、第１注入部１００を加熱殺菌するようにしたものを示したが、第２注入部１１０を連結部材６０に連結するとともに、加熱器１５０によって連結部材６０を加熱することにより、第２注入部１１０を加熱殺菌することができる。   In the present embodiment, the first injection unit 100 is sterilized by heating. However, the second injection unit 110 is connected to the connection member 60 and the connection member 60 is heated by the heater 150. Thus, the second injection part 110 can be sterilized by heating.

図１２及び図１３は本発明の第６の実施形態を示すもので、図１２は飲料ディスペンサの一部断面正面図、図１３は加熱殺菌をする際の飲料ディスペンサの一部断面正面図である。尚、第１の実施形態と同等の構成部分には同一の符号を付して示す。   12 and 13 show a sixth embodiment of the present invention. FIG. 12 is a partial sectional front view of a beverage dispenser, and FIG. 13 is a partial sectional front view of the beverage dispenser during heat sterilization. . In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 1st Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１に着脱自在に連結可能な注入部１０と、注入部１０に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル１６０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、注入部１０に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない注入部１０と着脱自在に連結可能な連結部材６０と、注入部１０から冷水ノズル１６０に飲料を流通させる第１流路７１と、第１流路７１の途中から温水タンク２０に飲料を流通させる第２流路７２と、連結部材６０を加熱可能な第１加熱器１７１と、冷水ノズル１６０及び冷水ノズル１６０と第２流路７２との間の第１流路７１を加熱可能な第２加熱器１７２とを備えている。   The beverage dispenser according to the present embodiment includes an injecting portion 10 that can be detachably connected to a bottle 1 serving as a beverage container, and a storage portion that can store the beverage supplied from the bottle 1 connected to the injecting portion 10 by heating. A hot water tank 20, a cold water nozzle 160 as a first pouring valve capable of pouring a beverage in the bottle 1, and a hot water nozzle 40 as a second pouring valve capable of pouring a beverage in the hot water tank 20 A well-known refrigerator 50 capable of accommodating the bottle 1 connected to the injection unit 10, and a connecting member 60 provided in the refrigerator 50 and detachably connectable to the injection unit 10 to which the bottle 1 is not connected The first flow channel 71 for flowing the beverage from the injection part 10 to the cold water nozzle 160, the second flow channel 72 for flowing the beverage to the hot water tank 20 from the middle of the first flow channel 71, and the connecting member 60 can be heated. A first heater 171; Water nozzle 160 and the cold water nozzle 160 and a second heater 172 capable of heating the first flow path 71 between the second flow path 72.

注入部１０、温水タンク２０、温水ノズル４０、冷却庫５０、連結部材６０及び各流路７１，７２は第１の実施形態と同等である。   The injection unit 10, the hot water tank 20, the hot water nozzle 40, the cooling chamber 50, the connecting member 60, and the flow paths 71 and 72 are the same as those in the first embodiment.

冷水ノズル１６０は下方に延びる注出用パイプ１６１を有するとともに、内部に図示しない開閉弁が設けられ、注出用パイプ１６１の下方に配置されたコップＣＡに飲料を注出可能である。冷水ノズル１６０はその一部が冷却庫５０内に配置されている。   The cold water nozzle 160 has a dispensing pipe 161 extending downward, and an open / close valve (not shown) is provided therein, so that a beverage can be poured into the cup CA disposed below the dispensing pipe 161. A part of the cold water nozzle 160 is disposed in the refrigerator 50.

第１加熱器１７１は連結部材６０の外周面に接する周知の電熱ヒータからなる。   The first heater 171 includes a known electric heater that contacts the outer peripheral surface of the connecting member 60.

第２加熱器１７２は冷水ノズル１６０及び冷水ノズル１６０と第２流路７２との間の第１流路７１に接する周知の電熱ヒータからなる。   The second heater 172 includes a cold water nozzle 160 and a known electric heater in contact with the first flow path 71 between the cold water nozzle 160 and the second flow path 72.

このように構成された飲料ディスペンサは、図１２に示すように、注入部１０に連結されたボトル１内の飲料は第１流路７１及び第２流路７２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路７１を介して冷水ノズル１６０から任意に注出される。   In the beverage dispenser configured as described above, as shown in FIG. 12, the beverage in the bottle 1 connected to the injection unit 10 flows into the hot water tank 20 through the first channel 71 and the second channel 72. To do. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. In addition, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 160 via the first flow path 71.

ここで、各流路７１，７２の加熱殺菌を行う場合は、注入部１０をボトル１から取外して連結部材６０に連結し、第１加熱器１７１によって連結部材６０を加熱するとともに、第２加熱器１７２によって冷水ノズル１６０及び第１流路７１を加熱する。第１加熱器１７１によって連結部材６０が加熱されると、連結部材６０に連結している注入部１０及び注入部１０と第２流路７２との間の第１流路７１が加熱される。また、第２加熱器１７２によって冷水ノズル１６０と第２流路７２との間の第１流路７１が加熱されると、第１流路７１に連通してる第２流路７２も加熱されることから、冷水ノズル１６０、第１流路７１及び第２流路７２が加熱される。   Here, when performing heat sterilization of each flow path 71 and 72, the injection | pouring part 10 is removed from the bottle 1, and it connects with the connection member 60, while heating the connection member 60 with the 1st heater 171 and 2nd heating The cold water nozzle 160 and the first flow path 71 are heated by the vessel 172. When the connecting member 60 is heated by the first heater 171, the injection unit 10 connected to the connection member 60 and the first channel 71 between the injection unit 10 and the second channel 72 are heated. In addition, when the first flow path 71 between the cold water nozzle 160 and the second flow path 72 is heated by the second heater 172, the second flow path 72 communicating with the first flow path 71 is also heated. For this reason, the cold water nozzle 160, the first flow path 71, and the second flow path 72 are heated.

このように、本実施形態によれば、第２加熱器１７２によって冷水ノズル１６０、第１流路７１及び第２流路７２を加熱する際に、注入部１０を連結部材６０に連結し、第１加熱器１７１によって連結部材６０を加熱するようにしたので、各流路７１，７２の加熱殺菌を行う際に、注入部１０及び注入部１０近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   As described above, according to the present embodiment, when the cold water nozzle 160, the first flow path 71, and the second flow path 72 are heated by the second heater 172, the injection unit 10 is connected to the connection member 60, Since the connecting member 60 is heated by the one heater 171, when the heat sterilization of each flow path 71, 72 can be performed, the flow path in the vicinity of the injection section 10 and the injection section 10 can also be heat sterilized. It is extremely advantageous for improving the hygienic condition.

図１４乃至図１５は本発明の第７の実施形態を示すもので、図１４は飲料ディスペンサの一部断面正面図、図１５は加熱殺菌をする際の飲料ディスペンサの一部断面正面図である。尚、第５の実施形態と同等の構成部分には同一の符号を付して示す。   FIGS. 14 to 15 show a seventh embodiment of the present invention. FIG. 14 is a partial sectional front view of a beverage dispenser, and FIG. 15 is a partial sectional front view of the beverage dispenser during heat sterilization. . In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 5th Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１と着脱自在に連結可能な第１注入部１００と、第１注入部１００に連結されたボトル１から供給される飲料を加熱して貯溜可能な貯溜部としての温水タンク２０と、ボトル１内の飲料を注出可能な第１注出弁としての冷水ノズル１８０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、第１注入部１００に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない第１注入部１００と着脱自在に連結可能な連結部材６０と、ボトル１及び連結部材６０と着脱自在に連結可能な第２注入部１１０と、第１注入部１００から冷水ノズル１８０に飲料を流通させる第１流路１２１と、第１流路１２１から温水タンク２０に飲料を流通させる第２流路１２２と、第２注入部１１０から第１流路１２１に飲料を流通させる第５流路１２５と、冷水ノズル１８０と第２流路１２２との間の第１流路１２１に設けられた圧力開放弁１２１ｄと、連結部材６０を加熱可能な第１加熱器１９１と、冷水ノズル１８０及び冷水ノズル１８０と第２流路１２２との間の第１流路１２１を加熱可能な第２加熱器１９２とを備えている。   The beverage dispenser of this embodiment can heat and store a beverage supplied from a bottle 1 connected to the first injection unit 100 and a first injection unit 100 that can be detachably connected to a bottle 1 as a beverage container. As a hot water tank 20 serving as a reservoir, a cold water nozzle 180 serving as a first dispensing valve capable of dispensing the beverage in the bottle 1, and a second dispensing valve capable of dispensing the beverage in the warm water tank 20. A hot water nozzle 40, a known cooler 50 capable of accommodating the bottle 1 connected to the first injection part 100, and a first injection part 100 provided in the cooler 50 and not connected to the bottle 1 are detachable. A connecting member 60 that can be connected to the bottle 1, a second injection part 110 that is detachably connectable to the bottle 1 and the connecting member 60, a first flow path 121 that distributes the beverage from the first injection part 100 to the cold water nozzle 180, First channel 121 Between the 2nd flow path 122 which distribute | circulates a drink to the warm water tank 20, the 5th flow path 125 which distribute | circulates a drink from the 2nd injection | pouring part 110 to the 1st flow path 121, and the cold water nozzle 180 and the 2nd flow path 122 The pressure release valve 121d provided in the first flow path 121, the first heater 191 capable of heating the connecting member 60, the cold water nozzle 180, and the first flow between the cold water nozzle 180 and the second flow path 122. And a second heater 192 capable of heating the path 121.

温水タンク２０、温水ノズル４０、冷却庫５０、連結部材６０、各流路１２１，１２２，１２５及び各注入部１００，１１０は第５の実施形態と同等である。   The hot water tank 20, the hot water nozzle 40, the cooler 50, the connecting member 60, the flow paths 121, 122, 125 and the injection parts 100, 110 are the same as those in the fifth embodiment.

圧力開放弁１２１ｄは、第１流路１２１内の圧力が所定の大きさ以上になると、第１流路１２１内の気化した飲料を外部に逃がすようになっている。   The pressure release valve 121d is configured to allow the vaporized beverage in the first flow path 121 to escape to the outside when the pressure in the first flow path 121 becomes a predetermined level or more.

冷水ノズル１８０は下方に延びる注出用パイプ１８１を有するとともに、内部に図示しない開閉弁が設けられ、注出用パイプ１８１の下方に配置されたコップＣＡに飲料を注出可能である。冷水ノズル１８０はその一部が冷却庫５０内に配置されている。   The cold water nozzle 180 has a pouring pipe 181 extending downward, and an open / close valve (not shown) is provided therein, so that a beverage can be poured into the cup CA disposed below the pouring pipe 181. A part of the cold water nozzle 180 is disposed in the refrigerator 50.

第１加熱器１９１は連結部材６０の外周面に接する周知の電熱ヒータからなる。   The first heater 191 includes a known electric heater that contacts the outer peripheral surface of the connecting member 60.

第２加熱器１９２は冷水ノズル１８０及び冷水ノズル１８０と第２流路１２２との間の第１流路１２１に接する周知の電熱ヒータからなる。   The second heater 192 includes a cold water nozzle 180 and a known electric heater in contact with the first flow path 121 between the cold water nozzle 180 and the second flow path 122.

このように構成された飲料ディスペンサは、図１４に示すように、第１注入部１００に連結されたボトル１内の飲料は第１流路１２１及び第２流路１２２を介して温水タンク２０内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、ボトル１内の飲料は第１流路１２１を介して冷水ノズル１８０から任意に注出される。   As shown in FIG. 14, in the beverage dispenser configured in this way, the beverage in the bottle 1 connected to the first injection unit 100 is in the hot water tank 20 via the first flow path 121 and the second flow path 122. Flow into. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Further, the beverage in the bottle 1 is arbitrarily poured out from the cold water nozzle 180 through the first flow path 121.

ここで、各流路１２１，１２２の加熱殺菌を行う場合は、第１注入部１００をボトル１から取外して連結部材６０に連結するとともに、第２注入部１１０を連結部材６０から取外してボトル１に連結する。また、第１加熱器１９１によって連結部材６０を加熱するとともに、第２加熱器１９２によって冷水ノズル１８０及び第１流路１２１を加熱する。第１加熱器１９１によって連結部材６０が加熱されると、連結部材６０に連結している第１注入部１００及び第１注入部１００と第２流路１２２との間の第１流路１２１が加熱される。また、第２加熱器１９２によって冷水ノズル１８０と第２流路１２２との間の第１流路１２１が加熱されると、第１流路１２１に連通している第２流路１２２も加熱されることから、冷水ノズル１８０、第１流路１２１及び第２流路１２２が加熱される。   Here, when performing heat sterilization of each flow path 121,122, while removing the 1st injection | pouring part 100 from the bottle 1 and connecting with the connection member 60, the 2nd injection | pouring part 110 is removed from the connection member 60, and the bottle 1 is removed. Connect to Further, the connecting member 60 is heated by the first heater 191, and the cold water nozzle 180 and the first flow path 121 are heated by the second heater 192. When the connecting member 60 is heated by the first heater 191, the first injection part 100 connected to the connecting member 60 and the first flow path 121 between the first injection part 100 and the second flow path 122 are formed. Heated. Further, when the first channel 121 between the cold water nozzle 180 and the second channel 122 is heated by the second heater 192, the second channel 122 communicating with the first channel 121 is also heated. Therefore, the cold water nozzle 180, the first flow path 121, and the second flow path 122 are heated.

このように、本実施形態によれば、第２加熱器１９２によって冷水ノズル１８０、第１流路１２１及び第２流路１２２を加熱する際に、第１注入部１００を連結部材６０に連結し、第１加熱器１９１によって連結部材６０を加熱するようにしたので、各流路１２１，１２２の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   Thus, according to this embodiment, when the cold water nozzle 180, the first flow path 121, and the second flow path 122 are heated by the second heater 192, the first injection unit 100 is connected to the connection member 60. Since the connecting member 60 is heated by the first heater 191, when the heat sterilization of the flow paths 121 and 122 is performed, the flow paths near the first injection section 100 and the first injection section 100 are also heat sterilized. This is extremely advantageous in improving the sanitary condition of beverages.

また、第１流路１２１には圧力開放弁１２１ｄが設けられ、第１流路１２１内の圧力が所定の大きさ以上になると、圧力開閉弁１２１ｄにより第１流路１２１内の気化した飲料を外部に逃がすことができるので、第２加熱器１９２によって第１流路１２１を加熱する際に、第１流路１２１内の圧力が所定の大きさ以上の圧力になることを防止できる。   Further, the first flow path 121 is provided with a pressure release valve 121d, and when the pressure in the first flow path 121 exceeds a predetermined level, the vaporized beverage in the first flow path 121 is removed by the pressure opening / closing valve 121d. Since it can escape outside, when heating the 1st flow path 121 by the 2nd heater 192, it can prevent that the pressure in the 1st flow path 121 becomes a pressure more than predetermined magnitude.

尚、本実施形態では、第１注入部１００を加熱殺菌するようにしたものを示したが、第２注入部１１０を連結部材６０に連結するとともに、第１加熱器１９１によって連結部材６０を加熱することにより、第２注入部１１０を加熱殺菌することができる。   In the present embodiment, the first injection unit 100 is sterilized by heating. However, the second injection unit 110 is connected to the connection member 60 and the connection member 60 is heated by the first heater 191. By doing so, the 2nd injection | pouring part 110 can be heat-sterilized.

図１６乃至図１７は本発明の第８の実施形態を示すもので、図１６は飲料ディスペンサの一部断面正面図、図１７は加熱殺菌をする際の飲料ディスペンサの一部断面正面図である。尚、第２の実施形態と同等の構成部分には同一の符号を付して示す。   FIGS. 16 to 17 show an eighth embodiment of the present invention. FIG. 16 is a partial sectional front view of a beverage dispenser, and FIG. 17 is a partial sectional front view of the beverage dispenser during heat sterilization. . In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 2nd Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１に着脱自在に連結可能な第１注入部１００と、第１注入部１００に連結されたボトル１から供給される飲料を加熱して貯溜可能な加熱用貯溜部としての温水タンク２０と、第１注入部１００に連結されたボトル１から供給される飲料を冷却して貯溜可能な冷却用貯溜部としての冷却タンク２００と、冷却タンク２００内の飲料を注出可能な第１注出弁としての冷水ノズル３０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、第１注入部１００に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない注入部１００と着脱自在に連結可能な連結部６０と、ボトル１及び連結部材６０と着脱自在に連結可能な第２注入部１１０と、第１注入部１００から冷却タンク２００に飲料を流通させる第１流路２１１と、第１流路２１１から温水タンク２０に飲料を流通させる第２流路２１２と、冷却タンク２００から冷水ノズル３０に飲料を流通させる第３流路２１３と、温水タンク２０から第３流路２１３の冷水ノズル３０側に飲料を流通させる第４流路２１４と、第４流路２１４の途中から連結部材６０に飲料を流通させる第５流路１２５と、第２注入部１１０から第１流路２１１に飲料を流通させる第６流路２１６と、第４流路２１４に設けられた飲料流通用の周知のポンプ８０と、第４流路２１４に設けられた周知の開閉弁８１とを備えている。   The beverage dispenser of the present embodiment can heat and store a beverage supplied from a bottle 1 connected to the first injection unit 100 and a first injection unit 100 that can be detachably connected to a bottle 1 as a beverage container. A hot water tank 20 as a heating storage unit, a cooling tank 200 as a cooling storage unit capable of cooling and storing the beverage supplied from the bottle 1 connected to the first injection unit 100, and the inside of the cooling tank 200 A cold water nozzle 30 serving as a first dispensing valve capable of dispensing a beverage, a hot water nozzle 40 serving as a second dispensing valve capable of dispensing a beverage in the hot water tank 20, and a first injection unit 100. A well-known cooler 50 that can accommodate the bottle 1, a connecting part 60 that is provided in the cooler 50 and can be detachably connected to the injection part 100 to which the bottle 1 is not connected, and the bottle 1 and the connecting member 60. And detachable A second injectable part 110 that can be connected, a first channel 211 that distributes the beverage from the first injecting unit 100 to the cooling tank 200, and a second channel 212 that distributes the beverage from the first channel 211 to the hot water tank 20. A third flow path 213 for flowing the beverage from the cooling tank 200 to the cold water nozzle 30, a fourth flow path 214 for flowing the beverage from the hot water tank 20 to the cold water nozzle 30 side, and a fourth flow Provided in the fourth flow path 214, the fifth flow path 125 for flowing the beverage from the middle of the path 214 to the connecting member 60, the sixth flow path 216 for flowing the beverage from the second injection part 110 to the first flow path 211, and the fourth flow path 214. And a known pump 80 for distributing beverages and a known on-off valve 81 provided in the fourth flow path 214.

温水タンク２０、冷水ノズル３０、温水ノズル４０、冷却庫５０、連結部材６０、ポンプ８０、開閉弁８１、各注入部１００，１１０は第２の実施形態と同等である。   The hot water tank 20, the cold water nozzle 30, the hot water nozzle 40, the cooler 50, the connecting member 60, the pump 80, the on-off valve 81, and the injection parts 100 and 110 are the same as those in the second embodiment.

冷却タンク２００は両端部を閉鎖された円筒状であり、飲料を冷却するための周知の蒸発器２０１と、飲料の温度を検出可能な温度センサ２０２と、飲料を加熱するための周知の電熱ヒータ２０３とを備えている。蒸発器２０１は温度センサ２０２の検出結果に基づき制御され、冷却タンク２００内の飲料を所定の温度に冷却している。   The cooling tank 200 has a cylindrical shape with both ends closed, a known evaporator 201 for cooling the beverage, a temperature sensor 202 capable of detecting the temperature of the beverage, and a known electric heater for heating the beverage. 203. The evaporator 201 is controlled based on the detection result of the temperature sensor 202, and cools the beverage in the cooling tank 200 to a predetermined temperature.

第１流路２１１は、第１注入部１００に連結された注入部側流路２１１ａと、冷却タンク２００側に連結されたノズル側流路２１１ｂと、注入部側流路２１１ａとノズル側流路２１１ｂとを連結する中間流路２１１ｃとを有する。注入部側流路２１１ａ及びノズル側流路２１１ｂはステンレス等の金属製パイプからなる。中間流路２１１ｃは樹脂配管（ポリエチレン、シリコン等）、蛇腹状ステンレス配管等の可撓性を有する管状部材からなる。第１流路２１１は冷却庫５０内に配置されている。   The first flow path 211 includes an injection section side flow path 211a connected to the first injection section 100, a nozzle side flow path 211b connected to the cooling tank 200 side, an injection section side flow path 211a, and a nozzle side flow path. And an intermediate flow path 211c that connects 211b. The injection part side channel 211a and the nozzle side channel 211b are made of metal pipes such as stainless steel. The intermediate flow path 211c is made of a flexible tubular member such as a resin pipe (polyethylene, silicon, etc.) or a bellows-like stainless steel pipe. The first flow path 211 is disposed in the refrigerator 50.

第２流路２１２はステンレス等の金属製パイプからなり、一端がノズル側流路２１１ｂの第１注入部１００側に連通するとともに、他端が温水タンク２０に上方から連通している。第２流路２１２の一端側は冷却庫５０内に配置されている。   The second flow path 212 is made of a metal pipe such as stainless steel, and one end thereof communicates with the first injection part 100 side of the nozzle side flow path 211b and the other end communicates with the hot water tank 20 from above. One end side of the second flow path 212 is disposed in the refrigerator 50.

第３流路２１３はステンレス等の金属製パイプからなり、一端が冷水ノズル３０に連通するとともに、他端が冷却タンク２００に上方から連通している。第３流路２１３の一端側は冷却庫５０内に配置されている。   The third flow path 213 is made of a metal pipe such as stainless steel, and has one end communicating with the cold water nozzle 30 and the other end communicating with the cooling tank 200 from above. One end side of the third flow path 213 is disposed in the refrigerator 50.

第４流路２１４はステンレス等の金属製パイプからなり、一端が冷水ノズル３０に連通するとともに、他端が温水タンク２０に下方から連通している。第４流路の一端側は冷却庫５０内に配置されている。   The fourth flow path 214 is made of a metal pipe such as stainless steel, and has one end communicating with the cold water nozzle 30 and the other end communicating with the hot water tank 20 from below. One end side of the fourth flow path is disposed in the refrigerator 50.

第５流路２１５はステンレス等の金属製パイプからなり、一端が第４流路２１４に連通するとともに、他端が連結部材６０に連通している。第５流路２１５は冷却庫５０内に配置されている。   The fifth channel 215 is made of a metal pipe such as stainless steel, and one end communicates with the fourth channel 214 and the other end communicates with the connecting member 60. The fifth channel 215 is disposed in the refrigerator 50.

第６流路２１６はステンレス等の金属製パイプからなり、一端が第２注入部１１０に連通するとともに、他端が注入部側流路２１１ａに連通している。即ち、第１注入部１００と第２注入部１１０とは注入部側流路２１１ａ及び第６流路２１６を介して連結されている。また、第１注入部１００が載置台５１に載置されたボトル１に連結している際に第２注入部１１０が連結部材６０に連結し、第１注入部１００が連結部材６０に連結している際に第２注入部１１０がボトル１に連結する。   The sixth flow path 216 is made of a metal pipe such as stainless steel, and one end communicates with the second injection section 110 and the other end communicates with the injection section side flow path 211a. That is, the first injection unit 100 and the second injection unit 110 are connected via the injection unit side flow channel 211a and the sixth flow channel 216. Further, when the first injection unit 100 is connected to the bottle 1 placed on the mounting table 51, the second injection unit 110 is connected to the connection member 60, and the first injection unit 100 is connected to the connection member 60. The second injection part 110 is connected to the bottle 1 during the operation.

このように構成された飲料ディスペンサは、図１６に示すように、第１注入部１００に連結されたボトル１内の飲料は第１流路２１１及び第２流路２１２を介して温水タンク２０内に流入する。また、第１注入部１００に連結されたボトル１内の飲料は第１流路２１１を介して冷却タンク２００内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、冷却タンク２００内の飲料は第３流路２１３を介して冷水ノズル３０から任意に注出される。このとき、ポンプ８０は停止しており、開閉弁８１は閉鎖されている。   As shown in FIG. 16, in the beverage dispenser configured in this way, the beverage in the bottle 1 connected to the first injection unit 100 is in the hot water tank 20 via the first channel 211 and the second channel 212. Flow into. In addition, the beverage in the bottle 1 connected to the first injection part 100 flows into the cooling tank 200 through the first flow path 211. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. In addition, the beverage in the cooling tank 200 is arbitrarily poured out from the cold water nozzle 30 via the third flow path 213. At this time, the pump 80 is stopped and the on-off valve 81 is closed.

ここで、各流路２１１，２１２，２１３，２１４，２１５及び冷却タンク２００の加熱殺菌を行う場合は、第１注入部１００をボトル１から取外して連結部材６０に連結し、第２注入部１１０を連結部材６０から取外してボトル１に連結する。また、開閉弁８１を開放するとともに、ポンプ８０を駆動し、冷却タンク２００の電熱ヒータ２０３を作動させる。これにより、温水タンク２０、第４流路２１４、冷水ノズル３０、第３流路２１３、冷却タンク２００、冷却タンク２００と第２流路２１２との間の第１流路２１１及び第２流路が連通するとともに、温水タンク２０、第４流路２１４、第５流路２１５、連結部材６０、第１注入部及び第１注入部１００と第２流路２１２との間の第１流路２１１が連通する。従って、温水タンク２０内の加熱された飲料が各流路２１１，２１２，２１３，２１４，２１５、冷水ノズル３０、連結部材６０及び第１注入部１００に流通する。   Here, when performing heat sterilization of each of the flow paths 211, 212, 213, 214, 215 and the cooling tank 200, the first injection unit 100 is removed from the bottle 1 and connected to the connecting member 60, and the second injection unit 110 is connected. Is removed from the connecting member 60 and connected to the bottle 1. Moreover, while opening the on-off valve 81, the pump 80 is driven and the electric heater 203 of the cooling tank 200 is operated. Accordingly, the hot water tank 20, the fourth flow path 214, the cold water nozzle 30, the third flow path 213, the cooling tank 200, the first flow path 211 and the second flow path between the cooling tank 200 and the second flow path 212. , The hot water tank 20, the fourth flow path 214, the fifth flow path 215, the connecting member 60, the first injection section and the first flow path 211 between the first injection section 100 and the second flow path 212. Communicate. Accordingly, the heated beverage in the hot water tank 20 flows through the flow paths 211, 212, 213, 214, 215, the cold water nozzle 30, the connecting member 60, and the first injection unit 100.

このように、本実施形態によれば、各流路２１１，２１２，２１３，２１４，２１５の加熱殺菌を行う場合に、第１注入部１００をボトル１から取外して連結部材６０に連結し、温水タンク２０内の加熱された飲料が各流路２１１，２１２，２１３，２１４，２１５、冷水ノズル３０、連結部材６０及び第１注入部１００に流通するようにしたので、加熱された飲料により各流路２１１，２１２，２１３，２１４，２１５の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   Thus, according to this embodiment, when heat sterilizing each flow path 211, 212, 213, 214, 215, the first injection part 100 is removed from the bottle 1 and connected to the connecting member 60, Since the heated beverage in the tank 20 circulates in each of the channels 211, 212, 213, 214, 215, the cold water nozzle 30, the connecting member 60, and the first injecting portion 100, each flow is heated by the heated beverage. When the path 211, 212, 213, 214, 215 is sterilized by heating, the flow path in the vicinity of the first injection part 100 and the first injection part 100 can also be sterilized by heat, thereby improving the sanitary condition of the beverage. Is very advantageous.

尚、本実施形態では、第１注入部１００を加熱殺菌するようにしたものを示したが、第２注入部１１０を連結部材６０に連結するとともに、ポンプ８０を駆動することにより、第２注入部１１０を加熱殺菌することができる。   In the present embodiment, the first injection part 100 is sterilized by heating. However, the second injection part 110 is connected to the connecting member 60 and the pump 80 is driven to drive the second injection part. The part 110 can be sterilized by heating.

図１８乃至図１９は本発明の第９の実施形態を示すもので、図１８は飲料ディスペンサの一部断面正面図、図１９は加熱殺菌をする際の飲料ディスペンサの一部断面正面図である。尚、第８の実施形態と同等の構成部分には同一の符号を付して示す。   18 to 19 show a ninth embodiment of the present invention. FIG. 18 is a partially sectional front view of a beverage dispenser, and FIG. 19 is a partially sectional front view of the beverage dispenser during heat sterilization. . In addition, the same code | symbol is attached | subjected and shown to the component equivalent to 8th Embodiment.

本実施形態の飲料ディスペンサは、飲料容器としてのボトル１に着脱自在に連結可能な第１注入部１００と、第１注入部１００に連結されたボトル１から供給される飲料を加熱して貯溜可能な加熱用貯溜部としての温水タンク２０と、第１注入部１００に連結されたボトル１から供給される飲料を冷却して貯溜可能な冷却用貯溜部としての冷却タンク２００と、冷却タンク２００内の飲料を注出可能な第１注出弁としての冷水ノズル２２０と、温水タンク２０内の飲料を注出可能な第２注出弁としての温水ノズル４０と、第１注入部１００に連結されたボトル１を収容可能な周知の冷却庫５０と、冷却庫５０内に設けられ、ボトル１が連結されていない注入部１００と着脱自在に連結可能な連結部６０と、ボトル１及び連結部材６０と着脱自在に連結可能な第２注入部１１０と、第１注入部１００から冷却タンク２００に飲料を流通させる第１流路２１１と、第１流路２１１から温水タンク２０に飲料を流通させる第２流路２１２と、冷却タンク２００から冷水ノズル３０に飲料を流通させる第３流路２１３と、第２注入部１１０から第１流路２１１に飲料を流通させる第６流路２１６と、連結部材６０を加熱可能な第１加熱器２３１と、第２流路２１２と冷却タンク２００との間の第１流路２１１を加熱可能な第２加熱器２３２と、冷水ノズル２２０及び第３流路２１３を加熱可能な第３加熱器２３３とを備えている。尚、第６流路２１６は請求項９に記載した第４流路に相当する。   The beverage dispenser of the present embodiment can heat and store a beverage supplied from a bottle 1 connected to the first injection unit 100 and a first injection unit 100 that can be detachably connected to a bottle 1 as a beverage container. A hot water tank 20 as a heating storage unit, a cooling tank 200 as a cooling storage unit capable of cooling and storing the beverage supplied from the bottle 1 connected to the first injection unit 100, and the inside of the cooling tank 200 A cold water nozzle 220 serving as a first dispensing valve capable of dispensing a beverage, a warm water nozzle 40 serving as a second dispensing valve capable of dispensing a beverage in the hot water tank 20, and the first injection unit 100. A well-known cooler 50 that can accommodate the bottle 1, a connecting part 60 that is provided in the cooler 50 and can be detachably connected to the injection part 100 to which the bottle 1 is not connected, and the bottle 1 and the connecting member 60. And detachable A second injection section 110 that can be connected to the first flow path 211, a first flow path 211 that distributes the beverage from the first injection section 100 to the cooling tank 200, and a second flow path that distributes the beverage from the first flow path 211 to the hot water tank 20. 212, the third flow path 213 for flowing the beverage from the cooling tank 200 to the cold water nozzle 30, the sixth flow path 216 for flowing the beverage from the second injection part 110 to the first flow path 211, and the connecting member 60 are heated. Possible first heater 231, second heater 232 capable of heating first flow path 211 between second flow path 212 and cooling tank 200, chilled water nozzle 220 and third flow path 213 can be heated A third heater 233. The sixth channel 216 corresponds to the fourth channel described in claim 9.

温水タンク２０、温水ノズル４０、冷却庫５０、連結部材６０、各注入部１００，１１０及び各流路２１１，２１２，２１３，２１６は第８の実施形態と同等である。   The hot water tank 20, the hot water nozzle 40, the cooler 50, the connecting member 60, the injection portions 100 and 110, and the flow paths 211, 212, 213, and 216 are the same as those in the eighth embodiment.

冷水ノズル２２０は下方に延びる注出用パイプ２２１を有するとともに、内部に図示しない開閉弁が設けられ、注出用パイプ２２１の下方に配置されたコップＣＡに飲料を注出下方である。冷水ノズル２２０はその一部が冷却庫５０内に配置されている。   The cold water nozzle 220 has a pouring pipe 221 extending downward, and an open / close valve (not shown) is provided therein, and is below the pouring of the beverage into a cup CA disposed below the pouring pipe 221. A part of the cold water nozzle 220 is arranged in the refrigerator 50.

第１加熱器２３１は連結部材６０の外周面に接する周知の電熱ヒータからなる。   The first heater 231 includes a known electric heater that is in contact with the outer peripheral surface of the connecting member 60.

第２加熱器２３２は第２流路２１２と冷却タンク２００との間の第１流路２１１に接する周知の電熱ヒータからなる。   The second heater 232 includes a known electric heater that is in contact with the first flow path 211 between the second flow path 212 and the cooling tank 200.

第３加熱器２３３は冷水ノズル２２０及び第３流路２１３に接する周知の電熱ヒータからなる。   The third heater 233 includes a known electric heater in contact with the cold water nozzle 220 and the third flow path 213.

このように構成された飲料ディスペンサは、図１８に示すように、第１注入部１００に連結されたボトル１内の飲料は第１流路２１１及び第２流路２１２を介して温水タンク２０内に流入する。また、第１注入部１００に連結されたボトル１内の飲料は第１流路２１１を介して冷却タンク２００内に流入する。温水タンク２０内の飲料は温水用連通管２３を介して温水ノズル４０から任意に注出される。また、冷却タンク２００内の飲料は第３流路２１３を介して冷水ノズル２２０から任意に注出される。   As shown in FIG. 18, in the beverage dispenser configured in this way, the beverage in the bottle 1 connected to the first injection unit 100 is in the hot water tank 20 via the first channel 211 and the second channel 212. Flow into. In addition, the beverage in the bottle 1 connected to the first injection part 100 flows into the cooling tank 200 through the first flow path 211. The beverage in the warm water tank 20 is arbitrarily poured out from the warm water nozzle 40 via the warm water communication pipe 23. Also, the beverage in the cooling tank 200 is arbitrarily poured out from the cold water nozzle 220 via the third flow path 213.

ここで、各流路２１１，２１２，２１３の加熱殺菌を行う場合は、第１注入部１００をボトル１から取外して連結部材６０に連結し、第２注入部１１０を連結部材６０から取外してボトル１に連結する。また、第１加熱器２３１によって連結部材６０を加熱するとともに、第２加熱器２３２によって第１流路２１１を加熱し、第３加熱器２３３によって冷水ノズル２２０及び第３流路２１３を加熱するとともに、冷却タンク２００の電熱ヒータ２０３を作動させる。第１加熱器２３１によって連結部材６０が加熱されると、連結部材６０に連結している第１注入部１００及び第１注入部１００と第２流路２１２との間の第１流路２１１が加熱される。また、第２加熱器２３２によって第１流路２１１が加熱されると、第１流路２１１に連通している第２流路２１２も加熱され、冷却タンク２００側の第１流路２１１及び第２流路２１２が加熱される。   Here, when performing heat sterilization of each flow path 211,212,213, the 1st injection | pouring part 100 is removed from the bottle 1, and it connects with the connection member 60, and the 2nd injection | pouring part 110 is removed from the connection member 60, and is a bottle. Connect to 1. The first heater 231 heats the connecting member 60, the second heater 232 heats the first flow path 211, and the third heater 233 heats the cold water nozzle 220 and the third flow path 213. Then, the electric heater 203 of the cooling tank 200 is operated. When the connecting member 60 is heated by the first heater 231, the first injection part 100 connected to the connecting member 60 and the first flow path 211 between the first injection part 100 and the second flow path 212 are formed. Heated. Further, when the first channel 211 is heated by the second heater 232, the second channel 212 communicating with the first channel 211 is also heated, and the first channel 211 and the first channel on the cooling tank 200 side are heated. The two flow paths 212 are heated.

このように、本実施形態によれば、第１注入部１００を取外して連結部材６０に連結し、第１加熱器２３１によって連結部材６０を加熱するようにしたので、各流路２１１，２１２，２１３の加熱殺菌を行う際に、第１注入部１００及び第１注入部１００近傍の流路も加熱殺菌することができ、飲料の衛生状態の向上を図る上で極めて有利である。   As described above, according to the present embodiment, the first injection unit 100 is detached and connected to the connecting member 60, and the connecting member 60 is heated by the first heater 231, so that each of the flow paths 211, 212, When performing the heat sterilization of 213, the first injection part 100 and the flow path in the vicinity of the first injection part 100 can also be heat sterilized, which is extremely advantageous for improving the sanitary condition of the beverage.

尚、本実施形態では、第１注入部１００の加熱殺菌をするようにしたものを示したが、第２注入部１１０を連結部材６０に連結するとともに、第１加熱器２３１によって連結部材６０を加熱することにより、第２注入部１１０を加熱殺菌することができる。   In the present embodiment, the first injection unit 100 is sterilized by heating. However, the second injection unit 110 is connected to the connection member 60, and the connection member 60 is connected by the first heater 231. By heating, the second injection part 110 can be sterilized by heating.

本発明の第１の実施形態を示す飲料ディスペンサの一部断面正面図The partial cross section front view of the drink dispenser which shows the 1st Embodiment of this invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 冷水ノズルの正面図Front view of cold water nozzle 本発明の第２の実施形態を示す飲料ディスペンサの一部断面正面図The partial cross section front view of the drink dispenser which shows the 2nd Embodiment of this invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第３の実施形態を示す飲料ディスペンサの一部断面正面図The partial cross section front view of the drink dispenser which shows the 3rd Embodiment of this invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第４の実施形態を示す飲料ディスペンサの一部断面正面図The partial cross section front view of the drink dispenser which shows the 4th Embodiment of this invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第５の実施形態を示す飲料ディスペンサの一部断面正面図The partial cross section front view of the drink dispenser which shows the 5th Embodiment of this invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第６の実施形態を示す飲料ディスペンサの一部断面正面図Partial sectional front view of a beverage dispenser showing a sixth embodiment of the present invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第７の実施形態を示す飲料ディスペンサの一部断面正面図Partial sectional front view of a beverage dispenser showing a seventh embodiment of the present invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第８の実施形態を示す飲料ディスペンサの一部断面正面図Partial sectional front view of the beverage dispenser showing the eighth embodiment of the present invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization 本発明の第９の実施形態を示す飲料ディスペンサの一部断面正面図Partial sectional front view of a beverage dispenser showing a ninth embodiment of the present invention 加熱殺菌する際の飲料ディスペンサの一部断面正面図Partial cross-sectional front view of beverage dispenser during heat sterilization

符号の説明Explanation of symbols

１…ボトル、２…蓋、１０…注入部、１１…差込管、２０…温水タンク、３０…冷水ノズル、３１…第１接続口、３２…第２接続口、４０…温水ノズル、５０…冷却庫、６０…連結部材、７１…第１流路、７２…第２流路、７３…第３流路、７４…第４流路、８０…ポンプ、８１…開閉バルブ、１００…第１注入部、１０１…差込管、１１０…第２注入部、１１１…差込管、１２１…第１流路、１２２…第２流路、１２３…第３流路、１２４…第４流路、１２５…第５流路、１３１…第１連結部材、１３２…第２連結部材、１４１…第１流路、１４２…第２流路、１４３…第３流路、１４４…第４流路、１４５…第５流路、１４６…第６流路、１５０…加熱器、１６０…冷水ノズル、１７１…第１加熱器、１７２…第２加熱器、１８０…冷水ノズル、１９１…第１加熱器、１９２…第２加熱器、２００…冷却タンク、２０３…電熱ヒータ、２１１…第１流路、２１２…第２流路、２１３…第３流路、２１４…第４流路、２１５…第５流路、２１６…第６流路、２２０…冷水ノズル、２３１…第１加熱器、２３２…第２加熱器、２３３…第３加熱器、ＣＡ…コップ。   DESCRIPTION OF SYMBOLS 1 ... Bottle, 2 ... Cover, 10 ... Injection | pouring part, 11 ... Insertion pipe, 20 ... Hot water tank, 30 ... Cold water nozzle, 31 ... 1st connection port, 32 ... 2nd connection port, 40 ... Hot water nozzle, 50 ... Refrigerator, 60 ... connecting member, 71 ... first flow path, 72 ... second flow path, 73 ... third flow path, 74 ... fourth flow path, 80 ... pump, 81 ... open / close valve, 100 ... first injection , 101 ... plug-in tube, 110 ... second injection part, 111 ... plug-in tube, 121 ... first flow channel, 122 ... second flow channel, 123 ... third flow channel, 124 ... fourth flow channel, 125 ... 5th flow path, 131 ... 1st connection member, 132 ... 2nd connection member, 141 ... 1st flow path, 142 ... 2nd flow path, 143 ... 3rd flow path, 144 ... 4th flow path, 145 ... 5th flow path, 146 ... 6th flow path, 150 ... heater, 160 ... cold water nozzle, 171 ... 1st heater, 172 ... 2nd heater, 180 ... cold water Slurry, 191 ... first heater, 192 ... second heater, 200 ... cooling tank, 203 ... electric heater, 211 ... first flow path, 212 ... second flow path, 213 ... third flow path, 214 ... first 4th flow path, 215 ... 5th flow path, 216 ... 6th flow path, 220 ... cold water nozzle, 231 ... 1st heater, 232 ... 2nd heater, 233 ... 3rd heater, CA ... cup.

Claims (15)

飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な注入部と、
飲料容器の注出口と連結していない注入部と着脱自在に連結可能な連結部材と、
注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、
第３流路から連結部材に飲料を流通させる第４流路と、
第１乃至第４流路のいずれかに設けられた飲料流通用のポンプとを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
An injection part removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to an injection part that is not connected to the spout of the beverage container;
A first flow path through which the beverage flows from the injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A third flow path for allowing the beverage to flow from the reservoir to the first dispensing valve side of the first flow path;
A fourth flow path for allowing the beverage to flow from the third flow path to the connecting member;
A beverage dispenser comprising: a beverage distribution pump provided in any one of the first to fourth channels. 飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、
飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、
第１注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、
第３流路から連結部材に飲料を流通させる第４流路と、
第２注入部から第１流路に飲料を流通させる第５流路と、
第１乃至第４流路のいずれかに設けられた飲料流通用のポンプとを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
First and second injectable portions removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to the injection portion that is not connected to the spout of the beverage container;
A first flow path through which a beverage flows from the first injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A third flow path for allowing the beverage to flow from the reservoir to the first dispensing valve side of the first flow path;
A fourth flow path for allowing the beverage to flow from the third flow path to the connecting member;
A fifth flow path for distributing the beverage from the second injection part to the first flow path;
A beverage dispenser comprising: a beverage distribution pump provided in any one of the first to fourth channels. 飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、
飲料容器の注出口と連結していない第１注入部と着脱自在に連結可能な第１連結部材と、
飲料容器の注出口と連結していない第２注入部と着脱自在に連結可能な第２連結部材と、
第１注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、
第３流路から第１連結部材に飲料を流通させる第４流路と、
第３流路から第２連結部材に飲料を流通させる第５流路と、
第２注入部から第１流路に飲料を流通させる第６流路と、
第１乃至第３流路のいずれかに設けられた飲料流通用のポンプとを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
First and second injectable portions removably connectable with the spout of the beverage container;
A first connecting member that is detachably connectable to the first injection part that is not connected to the spout of the beverage container;
A second connecting member detachably connectable to the second injection part not connected to the spout of the beverage container;
A first flow path through which a beverage flows from the first injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A third flow path for allowing the beverage to flow from the reservoir to the first dispensing valve side of the first flow path;
A fourth flow path for allowing the beverage to flow from the third flow path to the first connecting member;
A fifth flow path for allowing the beverage to flow from the third flow path to the second connecting member;
A sixth flow path for allowing the beverage to flow from the second injection part to the first flow path;
A beverage dispenser comprising: a beverage circulation pump provided in any one of the first to third flow paths. 飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な注入部と、
飲料容器の注出口と連結していない注入部と着脱自在に連結可能な連結部材と、
連結部材を加熱可能な加熱器と、
注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、
第１乃至第３流路のいずれかに設けられた飲料流通用のポンプとを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
An injection part removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to an injection part that is not connected to the spout of the beverage container;
A heater capable of heating the connecting member;
A first flow path through which the beverage flows from the injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A third flow path for allowing the beverage to flow from the reservoir to the first dispensing valve side of the first flow path;
A beverage dispenser comprising: a beverage circulation pump provided in any one of the first to third flow paths. 飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、
飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、
連結部材を加熱可能な加熱器と、
第１注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
貯溜部から第１流路の第１注出弁側に飲料を流通させる第３流路と、
第２注入部から第１流路に飲料を流通させる第４流路と、
第１乃至第３流路のいずれかに設けられた飲料流通用のポンプとを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
First and second injectable portions removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to the injection portion that is not connected to the spout of the beverage container;
A heater capable of heating the connecting member;
A first flow path through which a beverage flows from the first injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A third flow path for allowing the beverage to flow from the reservoir to the first dispensing valve side of the first flow path;
A fourth flow path for allowing the beverage to flow from the second injection part to the first flow path;
A beverage dispenser comprising: a beverage circulation pump provided in any one of the first to third flow paths. 飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な注入部と、
飲料容器の注出口と連結していない注入部と着脱自在に連結可能な連結部材と、
注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
連結部材を加熱可能な第１加熱器と、
第２流路と注出弁との間の第１流路を加熱可能な第２加熱器とを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
An injection part removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to an injection part that is not connected to the spout of the beverage container;
A first flow path through which the beverage flows from the injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A first heater capable of heating the connecting member;
A beverage dispenser comprising: a second heater capable of heating the first channel between the second channel and the dispensing valve. 飲料容器から供給される飲料を加熱して貯溜可能な貯溜部と、飲料容器内の飲料を注出可能な第１注出弁と、貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、
飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、
第１注入部から第１注出弁に飲料を流通させる第１流路と、
第１流路から貯溜部に飲料を流通させる第２流路と、
第２注入部から第１流路に飲料を流通させる第３流路と、
連結部材を加熱可能な第１加熱器と、
第２流路と第１注出弁との間の第１流路を加熱可能な第２加熱器とを備えた
ことを特徴とする飲料ディスペンサ。 A storage unit capable of heating and storing a beverage supplied from the beverage container, a first extraction valve capable of extracting the beverage in the beverage container, and a second extraction valve capable of extracting the beverage in the storage unit; In a beverage dispenser comprising
First and second injectable portions removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to the injection portion that is not connected to the spout of the beverage container;
A first flow path through which a beverage flows from the first injection part to the first dispensing valve;
A second flow path for distributing the beverage from the first flow path to the reservoir;
A third flow path for flowing a beverage from the second injection part to the first flow path;
A first heater capable of heating the connecting member;
A beverage dispenser comprising a second heater capable of heating the first flow path between the second flow path and the first dispensing valve. 飲料容器から供給される飲料を冷却して貯溜可能な冷却用貯溜部と、注入部と連結された飲料容器から供給される飲料を加熱して貯溜可能な加熱用貯溜部と、冷却用貯溜部内の飲料を注出可能な第１注出弁と、加熱用貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、
飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、
第１注入部から冷却用貯溜部に飲料を流通させる第１流路と、
第１流路から加熱用貯溜部に飲料を流通させる第２流路と、
冷却用貯溜部から第１注出弁に飲料を流通させる第３流路と、
加熱用貯溜部から第３流路の第１注出弁側に飲料を流通させる第４流路と、
第４流路から連結部材に飲料を流通させる第５流路と、
第２注入部から第１流路に飲料を流通させる第６流路と、
第１乃至第５流路のいずれかに設けられた飲料流通用のポンプとを備えた
ことを特徴とする飲料ディスペンサ。 A cooling reservoir capable of cooling and storing a beverage supplied from a beverage container, a heating reservoir capable of heating and storing a beverage supplied from a beverage container connected to an injection portion, and a cooling reservoir A beverage dispenser comprising a first dispensing valve capable of dispensing the beverage and a second dispensing valve capable of dispensing the beverage in the heating reservoir,
First and second injectable portions removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to the injection portion that is not connected to the spout of the beverage container;
A first flow path through which a beverage flows from the first injection part to the cooling reservoir,
A second flow path for allowing the beverage to flow from the first flow path to the heating reservoir,
A third flow path for flowing the beverage from the cooling reservoir to the first dispensing valve;
A fourth flow path for allowing the beverage to flow from the heating reservoir to the first extraction valve side of the third flow path;
A fifth flow path for distributing the beverage from the fourth flow path to the connecting member;
A sixth flow path for allowing the beverage to flow from the second injection part to the first flow path;
A beverage dispenser comprising: a beverage distribution pump provided in any one of the first to fifth flow paths. 飲料容器から供給される飲料を冷却して貯溜可能な冷却用貯溜部と、注入部と連結された飲料容器から供給される飲料を加熱して貯溜可能な加熱用貯溜部と、冷却用貯溜部内の飲料を注出可能な第１注出弁と、加熱用貯溜部内の飲料を注出可能な第２注出弁とを備えた飲料ディスペンサにおいて、
前記飲料容器の注出口と着脱自在に連結可能な第１及び第２注入部と、
飲料容器の注出口と連結していない方の注入部と着脱自在に連結可能な連結部材と、
第１注入部から冷却用貯溜部に飲料を流通させる第１流路と、
第１流路から加熱用貯溜部に飲料を流通させる第２流路と、
冷却用貯溜部から第１注出弁に飲料を流通させる第３流路と、
第２注入部から第１流路に飲料を流通させる第４流路と、
連結部材を加熱可能な第１加熱器と、
第２流路と冷却用貯溜部との間の第１流路を加熱可能な第２加熱器と、
第３流路を加熱可能な第３加熱器とを備えた
ことを特徴とする飲料ディスペンサ。 A cooling reservoir capable of cooling and storing a beverage supplied from a beverage container, a heating reservoir capable of heating and storing a beverage supplied from a beverage container connected to an injection portion, and a cooling reservoir A beverage dispenser comprising a first dispensing valve capable of dispensing the beverage and a second dispensing valve capable of dispensing the beverage in the heating reservoir,
First and second injectable portions removably connectable with the spout of the beverage container;
A connecting member that is detachably connectable to the injection portion that is not connected to the spout of the beverage container;
A first flow path through which a beverage flows from the first injection part to the cooling reservoir,
A second flow path for allowing the beverage to flow from the first flow path to the heating reservoir,
A third flow path for flowing the beverage from the cooling reservoir to the first dispensing valve;
A fourth flow path for allowing the beverage to flow from the second injection part to the first flow path;
A first heater capable of heating the connecting member;
A second heater capable of heating the first flow path between the second flow path and the cooling reservoir;
A beverage dispenser comprising: a third heater capable of heating the third flow path. 前記第１注出弁に、第１流路と接続可能な第１接続口と、第１接続口に連通するとともに、第３流路と接続可能な第２接続口とを設けた
ことを特徴とする請求項１、２、３、４または５記載の飲料ディスペンサ。 The first pouring valve is provided with a first connection port connectable to the first flow path, and a second connection port communicating with the first connection port and connectable to the third flow path. The beverage dispenser according to claim 1, 2, 3, 4 or 5. 前記第１注出弁に、第１流路を接続可能な第１接続口と、第１接続口に連通するとともに、第４流路を接続可能な第１接続口とを設けた
ことを特徴とする請求項８記載の飲料ディスペンサ。 The first pouring valve is provided with a first connection port capable of connecting a first flow path, and a first connection port communicating with the first connection port and capable of connecting a fourth flow path. The beverage dispenser according to claim 8. 前記各注入部を、一端が飲料容器に差込まれて飲料容器内に連通する差込管から形成した
ことを特徴とする請求項１、２、３、４、５、６、７、８、９、１０または１１記載の飲料ディスペンサ。 Each said injection | pouring part was formed from the insertion tube which one end was inserted in the drink container and connected in the drink container, The 1, 2, 3, 4, 5, 6, 7, 8, The beverage dispenser according to 9, 10 or 11. 前記各流路または貯溜部に内部の圧力を低減するための圧力調整弁を設けた
ことを特徴とする請求項１、２、３、４、５、６、７、８、９、１０、１１または１２記載の飲料ディスペンサ。 The pressure regulation valve for reducing an internal pressure is provided in each flow path or the reservoir, The claim 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 Or the drink dispenser of 12. 前記各注入部に連結された飲料容器を冷却する冷却庫を設けた
ことを特徴とする請求項１、２、３、４、５、６、７、８、９、１０、１１、１２または１３記載の飲料ディスペンサ。 The refrigerator which cools the drink container connected with each said injection | pouring part was provided. The 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, or 13 characterized by the above-mentioned. The beverage dispenser described. 前記各流路を少なくとも一部が冷却庫内に配置されるように設けた
ことを特徴とする請求項１、２、３、４、５、６、７、８、９、１０、１１、１２、１３または１４記載の飲料ディスペンサ。

The each flow path is provided so that at least a part thereof is disposed in the refrigerator. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 , 13 or 14 beverage dispenser.

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