WO2018061243A1 - 扉付き収容システムおよび飲料供給システム - Google Patents

扉付き収容システムおよび飲料供給システム Download PDF

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Publication number
WO2018061243A1
WO2018061243A1 PCT/JP2017/007059 JP2017007059W WO2018061243A1 WO 2018061243 A1 WO2018061243 A1 WO 2018061243A1 JP 2017007059 W JP2017007059 W JP 2017007059W WO 2018061243 A1 WO2018061243 A1 WO 2018061243A1
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WIPO (PCT)
Prior art keywords
door
supply system
sterilization unit
water
water supply
Prior art date
Application number
PCT/JP2017/007059
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English (en)
French (fr)
Japanese (ja)
Inventor
井上 善一
藤田 司
Original Assignee
シャープ株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by シャープ株式会社 filed Critical シャープ株式会社
Priority to CN201780014438.7A priority Critical patent/CN109790007B/zh
Priority to MYPI2018001326A priority patent/MY190824A/en
Priority to JP2018541876A priority patent/JP6796654B2/ja
Publication of WO2018061243A1 publication Critical patent/WO2018061243A1/ja

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67DDISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
    • B67D1/00Apparatus or devices for dispensing beverages on draught
    • B67D1/07Cleaning beverage-dispensing apparatus
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D11/00Self-contained movable devices, e.g. domestic refrigerators
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D25/00Charging, supporting, and discharging the articles to be cooled

Definitions

  • the present invention relates to a storage system with a door, and more specifically to a beverage supply system for supplying a beverage such as water.
  • Patent Document 1 discloses a refrigerator having a dispenser portion that supplies cold water at a door.
  • Non-Patent Document 2 discloses a cold / hot water dispenser that cools and heats water supplied from a bag-in-box liquid packaging body and supplies the water to the outside.
  • an antibacterial device is provided in the pipe immediately after the connecting pipe connecting the liquid packaging body, and further, a plasma ion generator is provided inside the upper body of the water supply cock. This configuration is devised for the purpose of suppressing the invasion or proliferation of germs inside the dispenser.
  • a depression is provided in the freezer compartment door 21, and a dispenser unit 10 (more specifically, a lever 15) is disposed therein (see FIG. 1 of Patent Document 1).
  • the dispenser unit 10 (more specifically, the lever 15) is exposed to the outside. For this reason, dust in the room may adhere to the lever 15 and the like, which is not hygienic.
  • Non-Patent Document 1 the water supply cock is disposed in an open space, and the plasma ion generator generates plasma ions in the open space. Therefore, the emitted plasma ions may diffuse into the open space, and it may be difficult to maintain the plasma ion concentration at a concentration effective for the sterilization effect in the space around the feed cock.
  • a storage system with a door that can more efficiently suppress the growth of bacteria and microorganisms in the storage chamber.
  • the storage system with a door includes a storage chamber, an openable / closable door attached to the storage chamber, and a sterilization unit that suppresses the growth of bacteria in the storage chamber. Then, the sterilization unit is operated when the door is closed.
  • the storage system with a door may be a beverage supply system.
  • the beverage supply system further includes a tank for storing the beverage, and a discharge unit that discharges the beverage in the tank, and the sterilization unit releases the sterilizing substance toward the discharge unit. May be.
  • the discharge unit has a lever that opens and closes the discharge port when pushed in the front-rear direction, and the lever has an opening through which the sterilizing substance passes.
  • a part may be provided.
  • the door is a rotary door, and when the door is in an open state, the door is between the discharge unit and the sterilization unit. It may be interposed.
  • the sterilization unit may be disposed on the back side of the door.
  • the sterilization unit has a discharge port for allowing a sterilizing substance to flow into the storage chamber, and a gas in the storage chamber flows into the sterilization unit side. And a suction port to be provided may be provided. And it is good also as a structure which gas circulates between the said storage chamber and the said disinfection unit.
  • the sterilization unit may release a sterilizing substance toward the lower side of the storage chamber.
  • the storage system with a door includes a sterilization unit that operates when the door is closed. According to this configuration, it is possible to more efficiently suppress the growth of bacteria and microorganisms in the accommodation chamber.
  • FIG. (A)-(c) is a schematic diagram which shows an example of the usage method of the drink supply system with which the refrigerator shown in FIG. 1 was equipped.
  • FIG. (B)-(c) is a schematic diagram which shows an example of the usage method of the drink supply system with which the refrigerator shown in FIG. 1 was equipped.
  • FIG. 3 is a cross-sectional view taken along line AA of the beverage supply system shown in FIG. 2.
  • FIG. 3 is a cross-sectional view taken along line AA of the beverage supply system shown in FIG. 2. This figure shows a case where the revolving door is in an open state.
  • FIG. 3 is a cross-sectional view of the beverage supply system shown in FIG. 2 taken along line BB. This figure shows a case where the revolving door is in an open state.
  • FIG. 3 is a cross-sectional view of the beverage supply system shown in FIG. 2 taken along line BB. This figure shows a case where the revolving door is in a closed state.
  • (A)-(e) is sectional drawing of the BB line of the drink supply system shown in FIG.
  • FIG. 1 It is a longitudinal cross-sectional view which shows the modification of the drink supply system with which the refrigerator which concerns on 4th Embodiment was equipped.
  • (A) is a front view which shows the state at the time of use of the drink supply system which concerns on the 5th Embodiment of this invention.
  • (B) is an upper perspective view schematically showing the internal configuration of the beverage supply system shown in (a).
  • (A)-(c) is a schematic diagram which shows an example of the usage method of the small storage provided with the refrigerator which concerns on the 6th Embodiment of this invention.
  • FIG. 1 is a front view showing a refrigerator 1 equipped with a beverage supply system 10 according to the present embodiment.
  • Refrigerator 1 is equipped with a refrigerator compartment at the top and a freezer compartment at the bottom. As shown in FIG. 1, the refrigerator 1 has four doors. Specifically, a double door (right door) 2 and a door (left door) 3 are provided in the upper refrigerator compartment. Similarly, a double door is also provided in the lower freezer compartment. Moreover, the handle 4 is each provided in each door of the refrigerator. And the drink supply system 10 is mounted in the door 2 of the right side seeing from the front for refrigerator compartments of the refrigerator 1.
  • the refrigerator 1 on which the beverage supply system 10 is mounted may have fewer than four doors, may have more than four doors, and the refrigerator compartment may be a lower stage or a middle stage. It may be arranged in.
  • FIG. 1 shows a state when the beverage supply system 10 is not used.
  • the rotating door 21 of the beverage supply system 10 is located on the front side of the refrigerator 1 when not in use. That is, the water injection mechanism of the beverage supply system 10 is disposed on the back side of the rotary door 21 (door) and is not visible.
  • An object detection sensor 22 is provided in the vicinity of the rotary door 21.
  • a display panel 23 is provided on the front surface of the refrigerator 1. Although the position of the display panel 23 is not particularly limited, in the present embodiment, the display panel 23 is disposed on the surface of the door 3 on the left side of the refrigerator compartment.
  • the display panel 23 is a touch panel display device and can also function as an operation panel (operation unit). Therefore, the user can change the operation mode of the refrigerator 1 or the operation mode of the beverage supply system 10 from the operation panel.
  • the object detection sensor 22 detects that the user's hand or the like using the beverage supply system 10 has approached or the user's hand has touched the sensor.
  • the object detection sensor 22 is comprised with an electrostatic capacitance type non-contact sensor, for example.
  • the object detection sensor 22 may be a proximity sensor whose output voltage changes according to the distance from the object to be detected. Thereby, it can suppress that a hand and a glass contact the surface of the door 2 of the refrigerator 1, and dirt adheres.
  • the present invention is not limited to this, and the detection unit that detects whether or not an object exists in the vicinity of the rotary door may be configured by a contact sensor, a push button, or the like.
  • a human sensor 24 is provided in the display panel 23, a human sensor 24 is provided.
  • the human sensor 24 detects whether a person is present around the refrigerator 1.
  • the human sensor 24 is configured by a non-contact sensor such as a photoelectric sensor, for example.
  • the detection results of the object detection sensor 22 and the human sensor 24 are transmitted to the control unit 40 (see FIG. 5) provided in the beverage supply system 10. And the control part 40 controls opening and closing of the rotation door 21 based on the detection result of each sensor. For example, when the object detection sensor 22 detects that the user's hand is approaching or touching, the control unit 40 shifts the rotary door 21 from the closed state to the open state. Further, for example, while the human sensor 24 detects the presence of a person, the control unit 40 maintains the revolving door 21 in an open state regardless of whether or not the beverage supply system 10 is in use. Can do.
  • FIG. 2 is a front view of the right door 2 part for the refrigerator compartment.
  • FIG. 3 is a perspective view of the right door 2 portion for the refrigerator compartment.
  • the state at the time of use of the drink supply system 10 is shown.
  • the water tank 70 of the drink supply system 10 is arrange
  • the beverage supply system 10 is configured such that when the object detection sensor 22 detects a user's hand or the like, the rotary door 21 rotates in the horizontal direction and the water injection mechanism appears in the front (see FIG. 4).
  • the revolving door 21 rotates, as shown in FIGS. 2 and 3, the bottom portion 15 (water receiver), the back plate 17, the side plate 19, the water injection lever (lever) 32, etc. constituting the beverage supply system 10 appear in the front. .
  • the water in the water tank 70 cooled in the refrigerator compartment is discharged from the water injection port 31 (discharge port of the discharge unit).
  • the water injection port 31 discharge port of the discharge unit.
  • a container such as a glass (water supply member)
  • water is supplied into the glass.
  • an opening 32 a is formed at a substantially central portion of the water injection lever 32.
  • the beverage supply system 10 of this embodiment includes a sterilization unit 50.
  • the sterilization unit 50 exists on the back side of the back plate 17 and the revolving door 21 (see FIG. 7). That is, when the rotary door 21 is in the open state, the rotary door 21 and the back plate 17 are interposed between the water inlet 31 and the sterilization unit 50. Therefore, when the revolving door 21 is in the open state, the sterilization unit 50 is not visible from the front, but in FIG. 2, the sterilization unit 50 is indicated by a broken line for convenience. A more detailed configuration of the beverage supply system 10 including the sterilization unit 50 will be described later.
  • the object detection sensor 22 is disposed on the left side of the beverage supply system 10. And if the object detection sensor 22 detects a user, as shown to Fig.4 (a)-(c), the rotation door 21 of the drink supply system 10 will rotate counterclockwise, and a water injection mechanism will appear from the left side. Thereby, the user who has the glass G etc. in his / her hand can easily bring his hand close to the water injection mechanism by moving his / her hand from the vicinity of the front side of the object detection sensor 22.
  • the convenience of the beverage supply system is further improved.
  • the rotation door of a drink supply system rotates clockwise, it is preferable to provide an object detection sensor on the right side of a drink supply system.
  • the object detection sensor is arrange
  • the arrangement position of the beverage supply system in the refrigerator described above is an example of the present invention, and the present invention is not limited to this. Further, the position of the object detection sensor for opening and closing the revolving door of the beverage supply system is not limited to the position of the present embodiment.
  • FIG. 5 the internal structure of the drink supply system 10 is shown.
  • 6 and 7 are cross-sectional views taken along line AA of the beverage supply system 10 shown in FIG. 8 and 9 are cross-sectional views taken along line BB of the beverage supply system 10 shown in FIG. 6 and 9 show a case where the rotary door 21 is in a closed state.
  • 7 and 8 show a case where the rotary door 21 is in an open state.
  • operation of the drink supply system 10 when the user U approaches is shown in order from (a) to (e).
  • Each part is attached so that the drink supply system 10 may be positioned with respect to the opening formed in the surface of the door 2. That is, the beverage supply system 10 is arranged so as to crawl inside the door 2.
  • the outer shape of the beverage supply system 10 is formed by a front cover 12 and a back cover 13. As shown in FIG. 8 and the like, a heat insulating material 14 is arranged on the back side of the back cover 13 (side facing the refrigerator compartment). For the heat insulating material 14, conventionally used heat insulating materials such as expanded polystyrene (foamed polystyrene), foamed urethane (urethane spraying), vacuum heat insulating material, and the like can be used.
  • a space having a substantially semicircular cross section is formed between the front cover 12 and the back cover 13. In this space, a water supply chamber (accommodating chamber) 10a is provided.
  • a water injection mechanism 30 discharge unit is accommodated inside the water supply chamber 10a in order to discharge the water in the water tank 70 to the glass G of the user U.
  • a sterilization unit 50 is provided on the back side of the back cover 13.
  • the sterilization unit 50 is installed in a space obtained by hollowing out a part of the heat insulating material 14.
  • the sterilization unit 50 is disposed so as to be positioned at a substantially central portion of the water supply chamber 10a when viewed from the front (see FIG. 2).
  • the arrangement position of the sterilization unit 50 is not limited to this.
  • the water supply chamber 10 a includes a bottom portion 15, an upper mounting member 16, a back plate 17, a side plate 19 (right side plate 19 ⁇ / b> R, left side plate 19 ⁇ / b> L), and a rotating shaft 18 as main components.
  • a space in the water supply chamber 10 a is defined by the bottom portion 15, the upper mounting member 16, the back plate 17, and the side plate 19.
  • the bottom portion 15 forms the bottom surface of the water supply chamber 10a.
  • the bottom portion 15 functions as a water receiver that receives a beverage such as water spilled from the water inlet 31 or the glass G.
  • a rotating shaft 18 is disposed on the bottom surface of the bottom portion 15.
  • the rotary shaft 18 is rotatably attached to the front cover 12. Thereby, the water supply chamber 10a can rotate centering on the rotation center C (refer FIG. 10).
  • the upper mounting member 16 is located above the water supply chamber 10a. As shown in FIG. 7 and the like, an upper rotating shaft 61 is provided on the upper portion of the upper mounting member 16. The upper rotating shaft 61 is disposed coaxially with the rotating shaft 18. The upper rotating shaft 61 is connected to a drive motor 62 (see FIG. 5) that drives the rotation of the water supply chamber 10a.
  • the back plate 17 constitutes the back surface of the water supply chamber 10a.
  • the revolving door 21 is overlapped with the back plate 17.
  • the surface of the revolving door 21 is located in front of the refrigerator 1 when the beverage supply system 10 is not in use (see FIG. 1). Therefore, it is preferable that the surface of the revolving door 21 is formed of the same material as that constituting the surface of the door 2.
  • the water injection mechanism 30 is disposed above the water supply chamber 10a (that is, the space formed by the upper mounting member 16).
  • the water injection mechanism 30 includes a water injection port 31, a water injection lever 32, a pipe 33, and a support member 34.
  • the water injection lever 32 has an opening 32a.
  • the opening 32 a passes a sterilizing substance (for example, sterilizing ions) released from the sterilization unit 50 described later, and guides it to the water inlet 31.
  • the water injection port 31 when the load is not applied to the water injection lever 32 from the front (the lever is positioned in front), the water injection port 31 is closed. .
  • the valve of the water injection port 31 opens, for example, from the water tank 70 disposed above the water injection mechanism 30 through the pipe 33. Water is poured.
  • the support member 34 is a member that supports the water injection mechanism 30 from the side.
  • the drinking water can be supplied from the water injection port 31 by using the natural fall due to the weight of the water by disposing the water tank 70 upward.
  • drinking water may be supplied using a pump.
  • the water supply chamber 10a can rotate around an axis composed of the rotary shaft 18 and the upper rotary shaft 61.
  • the drive motor 62 can be driven to rotate the water supply chamber 10a.
  • the beverage supply system 10 of the present embodiment is provided with a sterilization unit 50 for suppressing the generation and growth of bacteria, microorganisms and the like in the water supply chamber 10a.
  • the sterilization unit 50 is disposed on the back side of the back cover 13.
  • the sterilization unit 50 includes an ion generator 51, a fan 52, a gas flow path 53, and the like.
  • the ion generator 51 generates sterilization ions which are a kind of sterilization substance.
  • the sterilizing substance includes chemical substances having an effect of suppressing the generation and growth of bacteria and microorganisms (that is, sterilizing action or antibacterial action), ions having sterilizing action or antibacterial action (plus atoms or molecules). Or those having a negative charge), light having antibacterial action or antibacterial action such as ultraviolet rays, and the like.
  • the chemical substance having a sterilizing action include hypochlorous acid, ethanol, ozone, and the like.
  • ions having a sterilizing action include OH radicals, H + , O 2 ⁇ and the like.
  • the ion generator 51 may be an electrostatic atomizer for promoting a sterilization action or an antibacterial action.
  • the electrostatic atomization device electrostatically atomizes a liquid containing a bactericide at a charging unit, and sprays charged fine particles as water droplets.
  • a liquid spray device disclosed in a patent document (Japanese Patent Laid-Open No. 2005-270669) can be used.
  • a spraying apparatus that sprays a liquid containing a chemical substance such as hypochlorous acid or ethanol without ionization can be used.
  • the fan 52 is disposed inside the gas flow path 53.
  • the gas circulates between the gas flow path 53 and the water supply chamber 10a.
  • the fan 52 circulates gas in the direction indicated by the arrow in FIG. That is, gas is blown from the discharge port 53a upward to the water supply chamber 10a. And the gas in the water supply chamber 10a is collect
  • the gas flow path 53 is located on the back side of the back cover 13.
  • the gas channel 53 has a discharge port 53a through which the sterilizing substance released from the ion generator 51 flows into the water supply chamber 10a, and an intake port 53b through which the gas in the water supply chamber 10a flows out to the sterilization unit side. And are provided.
  • the discharge port 53 a and the suction port 53 b are formed by providing an opening in the back cover 13. Thereby, when the revolving door 21 is a closed state, the gas flow path 53 and the water supply chamber 10a will be in the communication state.
  • the beverage supply system 10 includes a display panel 23, a human sensor 24, an object detection sensor 22, a drive motor 62, a rotary door 21, a door open / close detection switch 25, an ion generator 51, a fan 52, and a control.
  • the unit 40 and the timer 44 are provided.
  • the revolving door 21 is attached to the water supply chamber 10a.
  • the display panel 23 is a touch panel display device and can also function as an operation panel (operation unit). Therefore, the user can change the operation mode of the refrigerator 1 or the operation mode of the beverage supply system 10 from the display panel 23. Information based on the input made by the user to the display panel 23 is transmitted to the control unit 40. Further, the user can open and close the revolving door 21 of the beverage supply system 10 by operating the display panel 23.
  • the object detection sensor 22 detects that the user's hand or the like using the beverage supply system 10 has approached or the user's hand has touched the sensor. Information detected by the object detection sensor 22 is transmitted to the control unit 40.
  • the human sensor 24 detects whether or not there is a person around the refrigerator 1. Information detected by the human sensor 24 is transmitted to the control unit 40.
  • the drive motor 62 is connected to the upper rotary shaft 61 of the water supply chamber 10a to which the rotary door 21 is attached.
  • the drive motor 62 drives the rotation of the water supply chamber 10a.
  • the door opening / closing detection switch 25 detects whether the revolving door 21 is in an open state or a closed state.
  • the door open / close detection switch 25 is provided, for example, on the rotary door 21 (or the water supply chamber 10a) and the door 2 of the refrigerator compartment. Whether the revolving door 21 is in an open state or a closed state can be detected based on whether or not a switch arranged at each position is in an ON state.
  • the ion generator 51 and the fan 52 constitute the sterilization unit 50 as described above.
  • the operation of the ion generator 51 and the fan 52 is controlled by the sterilization unit control unit 42 in the control unit 40.
  • the control unit 40 is connected to each component in the beverage supply system 10 and controls them.
  • a rotation control unit 41 In the control unit 40, a rotation control unit 41, a sterilization unit control unit 42, a memory 43, and the like are provided.
  • the control part 40 may be provided independently of the control part of the refrigerator 1 main body, and may be provided in the control part (not shown) of the refrigerator 1 as a part of the structure.
  • the rotation control unit 41 controls the opening / closing operation of the rotary door 21 of the beverage supply system 10. For example, the rotation control unit 41 starts or stops the operation of the rotary door 21 based on a signal transmitted from the object detection sensor 22. Thereby, the revolving door 21 will be in an open state or a closed state.
  • that the revolving door 21 is in an open state refers to a state in which the water supply chamber 10 a located on the back side of the revolving door 21 is exposed on the front surface of the refrigerator 1.
  • that the revolving door 21 is in a closed state means a state in which the revolving door 21 is located on the front side of the refrigerator 1.
  • the surface of the revolving door 21 and the surface of the door 2 of the refrigerator 1 are substantially flush with each other.
  • the sterilization unit control unit 42 controls the start and stop of the operation of components (for example, the ion generator 51 and the fan 52) in the sterilization unit 50. Further, the sterilization unit control unit 42 controls the rotation speed of the fan 52.
  • the memory 43 includes a ROM (read only memory) and a RAM (Random access memory).
  • the memory 43 stores an operation program and setting data of the beverage supply system 10 and temporarily stores a calculation result by the control unit 40.
  • the timer 44 measures the operating time of each unit in the beverage supply system 10 and the time from when one unit stops operating until another unit starts operating. For example, the timer 44 measures the time required for the opening / closing operation of the rotary door 21.
  • the opening / closing of the rotary door 21 is controlled based on the detection results of the object detection sensor 22 and the human sensor 24. Furthermore, the start and stop of the operation (operation) of the sterilization unit 50 are controlled depending on whether the rotary door 21 (that is, the water supply chamber 10a) is in an open state or a closed state. Specifically, when the revolving door 21 is in a closed state, the sterilization unit 50 (that is, the ion generator 51 and the fan 52) is in an operating state. In addition, when the rotary door 21 is in the open state, the sterilization unit 50 (that is, the ion generator 51 and the fan 52) is in a stopped state.
  • the water supply chamber 10a of the beverage supply system 10 rotates according to the position of the user's hand (indicated by U in FIG. 10) and the water supply chamber 10a appears on the front (a) to (e). As shown in order.
  • FIGS. 6 and 9 a state when the beverage supply system 10 is not used (a state where water supply is not performed) will be described with reference to FIGS. 6 and 9.
  • the rotary door 21 is located on the front side of the refrigerator 1.
  • the water supply chamber 10 a has a positional relationship facing the sterilization unit 50. That is, when the beverage supply system 10 is not in use, the space in the water supply chamber 10 a is almost closed by the front cover 12, the back cover 13, and the rotary door 21.
  • the door open / close detection switch 25 transmits information that the rotary door 21 is closed to the sterilization unit control unit 42.
  • the sterilization unit control unit 42 keeps the sterilization unit 50 in an operating state while receiving information that the rotary door 21 is closed. That is, a sterilizing substance (for example, + ions and ⁇ ions) is generated from the ion generator 51 and the fan 52 is rotated. Thereby, the sterilizing substance is discharged from the discharge port 53a of the gas flow channel 53 toward the water supply chamber 10a (see FIG. 6).
  • a sterilizing substance for example, + ions and ⁇ ions
  • the upstream side of the gas flow path 53 (that is, the side on which the fan 52, the ion generator 51, and the discharge port 53a are provided) is inclined upward along the gas flow. . Therefore, the sterilizing substance released from the discharge port 53a to the water supply chamber 10a can be sent toward the upper side of the water supply chamber 10a (that is, the arrangement position of the water injection port 31) as shown by the arrow in FIG. . Thereby, generation
  • the opening part 32a is formed in the water injection lever 32 located between the sterilization unit 50 and the water injection port 31 along the air blowing direction.
  • the user U who wants to drink water holds his hand in front of the object detection sensor 22 while holding the glass G, for example.
  • information detected by the object detection sensor 22 is transmitted to the rotation control unit 41 and the sterilization unit control unit 42 in the control unit 40.
  • the sterilization unit control unit 42 stops the operation of the sterilization unit 50 (that is, the ion generator 51 and the fan 52).
  • the rotation control unit 41 starts the rotation of the drive motor 62. Then, as shown in FIG. 10B, the beverage supply system 10 starts to rotate counterclockwise around the rotation center C thereof. Thereby, the water supply chamber 10a hidden on the back surface of the rotary door 21 gradually appears on the front side from the left side of the opening of the door 2 of the refrigerator 1 as shown in FIGS. 10 (c) to 10 (d). (Refer FIG.4 (b)).
  • the user U can slide his / her hand to the water supply chamber 10a. And as shown in FIG.4 (c) and FIG.10 (e), when the water injection lever 32 which comprises the water supply chamber 10a is located in the front, rotation operation stops.
  • the sterilization unit control unit 50 may stop the operation of the sterilization unit 50 after the rotation control unit 41 starts the rotation of the drive motor 62.
  • the operation of the sterilization unit 50 is stopped until the water injection lever 32 constituting the water supply chamber 10a is located in the front. preferable.
  • movement which the rotation door 21 of the water supply chamber 10a opens starts can be shortened.
  • the object detection sensor 22 is arranged on the left side of the beverage supply system 10 (see FIG. 1), and the beverage supply system 10 rotates counterclockwise. It has become. That is, the beverage supply system 10 is configured such that the water supply chamber 10a appears from the side where the object detection sensor 22 is disposed. Therefore, the user U holding the glass in his / her hand can place the glass G on the bottom 15 of the water supply chamber 10a by sliding his / her hand rightward from the front of the object detection sensor 22.
  • the water supply chamber 10 a faces the front of the refrigerator 1 and is open. That is, when the rotary door 21 is in the open state, the rotary door 21 is interposed between the water injection mechanism 30 and the sterilization unit 50 (specifically, the discharge port 53a and the suction port 53b of the sterilization unit 50). . Therefore, when the user is performing the water injection operation, the possibility that water may enter the discharge port 53a and the suction port 53b of the sterilization unit 50 is reduced even if water is scattered in the water supply chamber 10a. Can be made.
  • the human sensor 24 provided in the display panel 23 detects the presence or absence of a person around the refrigerator 1.
  • this information is transmitted to the rotation control unit 41 in the control unit 40.
  • the rotation control unit 41 receives this information and rotates the rotary door 21 (water supply chamber 10a) in the direction opposite to the above-described rotation operation (that is, clockwise). Thereby, the water supply chamber 10a shifts in order from the state shown in FIG. 10E to the state shown in FIG. 10A, and finally becomes the state shown in FIG.
  • the sterilization unit control unit 42 starts operation of the sterilization unit 50.
  • the sterilization unit 50 can continue to operate while the rotary door 21 is in the closed state, measure the time by the timer 44, stop the operation after a certain period of time, and then resume the operation. You can also do it.
  • the beverage supply system 10 is mounted on the refrigerator 1 of the present embodiment.
  • the beverage supply system 10 includes a water supply chamber 10a that rotates in the horizontal direction.
  • the drink supply system 10 has the water supply chamber 10a concealed on the back surface of the revolving door 21 in the non-use state, and in the use state, the revolving door 21 rotates and the water supply chamber 10a is exposed to the front. It has a configuration.
  • the water supply chamber 10a is not exposed to the outside in a non-use state, so that dust, dirt, and the like are prevented from adhering to the water inlet 31. be able to. Therefore, a more hygienic beverage supply system can be provided.
  • the water injection mechanism of the water supply chamber 10a is not exposed to the outside, so that the design of the appearance of the apparatus can be improved.
  • the door 2 of the refrigerator 1 and the revolving door 21 of the beverage supply system 10 are located on substantially the same plane, so the aesthetics of the refrigerator 1 when not in use are further improved. be able to.
  • the beverage supply system 10 of this embodiment includes a sterilization unit 50. Therefore, propagation of bacteria and microorganisms in the water supply chamber 10a can be suppressed, and a more hygienic beverage supply system can be provided.
  • the sterilization unit 50 releases the sterilization substance into the water supply chamber 10a when the rotary door 21 is closed.
  • the possibility that the disinfecting substance released into the water supply chamber 10a may be released into the open space can be reduced. Therefore, it becomes easy to maintain the concentration of the sterilizing substance in an appropriate range in the water supply chamber 10a. That is, the concentration of the sterilizing substance in the water supply chamber 10a can be set to a concentration at which a desired sterilizing effect can be obtained. Further, the concentration of the sterilizing substance in the water supply chamber 10a can be maintained at a concentration that does not cause a safety problem.
  • Some sterilization substances such as ozone, have a specific odor. When such a disinfecting substance is released into the open space, the possibility of odor spreading increases.
  • the beverage supply system 10 of the present embodiment when the water supply chamber 10a is exposed to the front, the operation of the sterilization unit 50 is stopped, so that the sterilization substance diffuses into the open space. Is suppressed. Therefore, the possibility of odor diffusion can be reduced.
  • the average ozone concentration in the water supply chamber 10a is preferably 0.05 ppm or less, and the maximum ozone concentration in the water supply chamber 10a is 0.1 ppm or less. Is preferred.
  • the beverage supply system 10 of this embodiment it is comprised so that the rotation door 21 of the water supply chamber 10a may open from the side by which the object detection sensor 22 is arrange
  • the usability of the beverage supply system 10 can be improved by matching the position of the object detection sensor 22 with the rotation direction of the beverage supply system 10.
  • the position of the object detection sensor and the rotation direction of the beverage supply system described in the present embodiment are examples of the present invention, and the present invention is not limited to this. For example, it is good also as a structure which arrange
  • 11 and 12 show the configuration of the beverage supply system 110 according to the second embodiment.
  • 11 and 12 show a cross-sectional configuration of the door 2 shown in FIG. 2 taken along line AA.
  • FIG. 11 shows a case where the revolving door 21 is in a closed state.
  • FIG. 12 shows a case where the revolving door 21 is in an open state.
  • the outer shape of the beverage supply system 110 is formed by the front cover 12 and the back cover 13.
  • a water supply chamber (accommodating chamber) 10a is provided in this space.
  • a water injection mechanism 30 (discharge unit) is accommodated inside the water supply chamber 10a in order to discharge the water in the water tank 70 to the glass G of the user U.
  • the water supply chamber 10a includes a bottom portion 15, an upper mounting member 16, a back plate 17, a side plate 19 (right side plate 19R, left side plate 19L), and a rotating shaft 18 as main components. About these, the structure similar to 1st Embodiment is applicable.
  • a sterilization unit 150 is provided on the back side of the back cover 13.
  • the sterilization unit 150 is installed in a space obtained by hollowing out a part of the heat insulating material 14. Similar to the first embodiment, the sterilization unit 150 is disposed so as to be positioned at a substantially central portion of the water supply chamber 10a when viewed from the front (see FIG. 2).
  • the sterilization unit 150 includes an ion generator 151, a fan 152, an upper flow path 153, a lower flow path 154, a circulation flow path 155, and the like.
  • the ion generator 151 and the fan 152 can have the same configuration as the ion generator 51 and the fan 52 of the first embodiment.
  • the upper flow path 153 and the lower flow path 154 are located on the back side of the back cover 13.
  • the upper flow path 153 has a flow path inclined upward from the ion generator 151.
  • a discharge port 153a through which the sterilizing substance released from the ion generator 151 flows into the water supply chamber 10a is formed.
  • the lower flow path 154 has a flow path inclined downward from the ion generator 151.
  • a discharge port 154a through which the sterilizing substance released from the ion generator 151 flows into the water supply chamber 10a is formed.
  • the circulation channel 155 is arranged on the upstream side of the ion generator 51.
  • the circulation channel 155 is formed with an inlet 155b through which the gas in the water supply chamber 10a flows out to the sterilization unit side.
  • the discharge port 153a, the discharge port 154a, and the suction port 155b are formed by providing an opening in the back cover 13.
  • the upper flow path 153, the lower flow path 154, the circulation flow path 155, and the water supply chamber 10a are in communication with each other. Further, the upper flow path 153 discharges the sterilizing substance from the ion generator 151 obliquely upward (see the arrow in FIG. 11). Moreover, the downward flow path 154 discharge
  • the suction port 53b is disposed immediately below the discharge port 53a so as to be adjacent to the discharge port 53a.
  • the inlet 155b is arrange
  • the sterilization unit 150 operates when the rotary door 21 is closed to release the sterilizing substance into the water supply chamber 10a (FIG. 11), the operation is stopped when the revolving door 21 is open (see FIG. 12).
  • the possibility that the disinfecting substance released into the water supply chamber 10a may be released into the open space outside the water supply chamber 10a can be reduced. Therefore, it becomes easy to maintain the concentration of the sterilizing substance in an appropriate range in the water supply chamber 10a.
  • the sterilization unit 50 is provided with the two discharge ports 153a and 154a.
  • the sterilizing substance can be released toward a wider area of the water supply chamber 10a. More specifically, the sterilizing substance released from the discharge port 153 a can be discharged toward the water injection port 31. In addition, the sterilizing substance released from the discharge port 154a can be released toward the lower side of the water supply chamber 10a.
  • a plurality of ion generators may be installed in different places, and the sterilizing substance may be discharged to different places in the water supply chamber 10a.
  • the air blowing direction of the fan can be changed, and the sterilizing substance may be discharged in multiple directions of the water supply chamber 10a. At this time, it is preferable to release the disinfecting substances toward the water inlet 31 of the water injection mechanism 30 and the bottom 15 where water can easily accumulate.
  • FIG. 13 and 14 show a configuration of a beverage supply system 210 according to the third embodiment.
  • 13 and 14 show a cross-sectional configuration of the door 2 shown in FIG. 2 taken along line AA.
  • FIG. 13 shows a case where the revolving door 21 is in a closed state.
  • FIG. 14 shows a case where the revolving door 21 is in an open state.
  • the outer shape of the beverage supply system 210 is formed by the front cover 12 and the back cover 13.
  • a water supply chamber (accommodating chamber) 10a is provided in this space.
  • a water injection mechanism 30 discharge unit is accommodated inside the water supply chamber 10a in order to discharge the water in the water tank 70 to the glass G of the user U.
  • the water supply chamber 10a includes a bottom portion 15, an upper mounting member 16, a back plate 17, a side plate 19 (right side plate 19R, left side plate 19L), and a rotating shaft 18 as main components. About these, the structure similar to 1st Embodiment is applicable.
  • a sterilization unit 250 is provided on the back side of the back cover 13.
  • the sterilization unit 250 is installed in a space obtained by hollowing out a part of the heat insulating material 14.
  • the sterilization unit 250 includes an ion generator 251, a fan 252, a gas flow path 253, and the like.
  • the ion generator 251 and the fan 252 can have the same configuration as the ion generator 51 and the fan 52 of the first embodiment.
  • the gas flow path 253 is located on the back side of the back cover 13.
  • the gas channel 253 has a discharge port 253a through which the sterilizing substance released from the ion generator 251 flows into the water supply chamber 10a, and a suction port 253b through which the gas in the water supply chamber 10a flows out to the sterilization unit side. And are provided.
  • the discharge port 253 a and the suction port 253 b are formed by providing an opening in the back cover 13. Thereby, when the revolving door 21 is a closed state, it will be in the state which the gas flow path 253 and the water supply chamber 10a connected.
  • the suction port 53b is disposed immediately below the discharge port 53a so as to be adjacent to the discharge port 53a.
  • the inlet 253b is arrange
  • the sterilization unit 250 operates when the rotary door 21 is closed to release the sterilizing substance into the water supply chamber 10a (FIG. 13), the operation is stopped when the revolving door 21 is open (see FIG. 14).
  • the possibility that the disinfecting substance released into the water supply chamber 10a may be released into the open space outside the water supply chamber 10a can be reduced. Therefore, it becomes easy to maintain the concentration of the sterilizing substance in an appropriate range in the water supply chamber 10a.
  • 15 and 16 show the configuration of the beverage supply system 310 according to the fourth embodiment.
  • 15 and 16 show a cross-sectional configuration of the door 2 shown in FIG. 2 taken along line AA.
  • FIG. 15 shows a case where the revolving door 21 is in a closed state.
  • FIG. 16 shows a case where the revolving door 21 is in an open state.
  • the outer shape of the beverage supply system 310 is formed by the front cover 12 and the back cover 13.
  • a water supply chamber (accommodating chamber) 10a is provided in this space.
  • a water injection mechanism 30 discharge unit is accommodated inside the water supply chamber 10a in order to discharge the water in the water tank 70 to the glass G of the user U.
  • the water supply chamber 10a includes a bottom portion 15, an upper mounting member 16, a back plate 17, a side plate 19 (right side plate 19R, left side plate 19L), and a rotating shaft 18 as main components.
  • the structure substantially the same as 1st Embodiment is applicable.
  • the point that the opening part is not formed in the water injection lever 332 of the water injection mechanism 30 is different from the first embodiment.
  • the disposition position of the sterilization unit 350 is different from that of the first embodiment.
  • the sterilization unit 350 is installed above the back side of the revolving door 21 (that is, the back plate 17 side).
  • the sterilization unit 350 is not an ion generator but a UV irradiator. Therefore, ultraviolet rays are radiated from the sterilization unit 350 as a sterilization substance. Since the ultraviolet rays have a bactericidal effect, the ultraviolet rays irradiated from the sterilization unit 350 hit the water injection port 31 and the like, so that the growth of germs and molds existing around the water injection port 31 can be suppressed.
  • the wavelength of the irradiated ultraviolet light is, for example, 400 nm or less. Preferably, ultraviolet rays having a wavelength region of 250 nm to 300 nm are used.
  • the sterilization unit 350 operates when the revolving door 21 is closed to irradiate ultraviolet rays (see FIG. 15), and operates when the revolving door 21 is open (ultraviolet light). (Irradiation) is stopped (see FIG. 16). Thereby, when the water supply chamber 10a is exposed to the front, the irradiation of ultraviolet rays that can be harmful to the human body can be stopped.
  • the rotary door 21 of the beverage supply system 310 can be configured as a shutter-type opening / closing door that slides in the vertical direction or the horizontal direction.
  • FIG. 17 the structure of drink supply system 310 'concerning a modification is shown.
  • the sterilization method is different from that in the third embodiment. Specifically, the beverage supply system 310 ′ performs sterilization using a photocatalyst and light.
  • a photocatalytic layer 355 ′ is formed around the water inlet 31 at the tip portion of the water injection mechanism 30.
  • the photocatalyst layer 355 ' contains, for example, titanium oxide as a photocatalyst.
  • the beverage supply system 310 ′ includes a light irradiator as the sterilization unit 350 ′. Ultraviolet light or visible light is emitted from the light irradiator. When the light emitted from the light irradiator strikes the photocatalyst layer 355 ', OH radicals are generated from the photocatalyst layer 355'. Since the OH radical has a strong oxidizing power, it can kill bacteria and microorganisms present on the surface.
  • the sterilization unit 350 ′ operates to irradiate light when the revolving door 21 is closed (see FIG. 17), and the revolving door. The operation (light irradiation) is stopped when 21 is open.
  • a fifth embodiment of the present invention will be described.
  • the beverage supply system of one embodiment of the present invention does not necessarily have to be built in the refrigerator, and may be installed alone, for example, in a facility such as a gymnasium, a sports facility, or a hospital. Therefore, in this embodiment, an example in which a beverage supply system is installed alone will be described.
  • FIG. 18A shows an external configuration of the beverage supply system 400 according to the present embodiment.
  • FIG. 18A shows a state when the beverage supply system 400 is in use.
  • FIG.18 (b) the internal structure of the drink supply system 400 is shown.
  • the beverage supply system 400 includes a surface panel 401, a water supply chamber 10a, a water tank 70, an object detection sensor 422, a display panel 423, and the like.
  • the structure similar to 1st Embodiment is applicable to the water supply chamber 10a.
  • the beverage supply system 400 includes a sterilization unit 50.
  • the sterilization unit 50 exists on the back plate 17 and the back side of the revolving door 21. That is, when the rotary door 21 is in the open state, the rotary door 21 and the back plate 17 are interposed between the water inlet 31 and the sterilization unit 50. Therefore, when the revolving door 21 is in the open state, the sterilization unit 50 is in a state invisible from the front. In FIG. 18, for the sake of convenience, the sterilization unit 50 is indicated by a broken line.
  • the revolving door 421 is provided as a part of the structure of the water supply chamber 10a. Specifically, the rotary door 421 is disposed so as to overlap the back plate 17.
  • the beverage supply system 400 is configured such that the rotating door 421 rotates in the horizontal direction when the object detection sensor 422 detects a user's hand or the like.
  • the revolving door 421 rotates, the water supply chamber 10a appears in the front.
  • the structure similar to the drink supply system 10 of 1st Embodiment is applicable.
  • the sterilization unit 50 operates when the rotary door 421 is in the closed state to release the sterilizing substance into the water supply chamber 10a and rotates. The operation is stopped when the door 21 is open. Thereby, the possibility that the disinfecting substance released into the water supply chamber 10a may be released into the open space can be reduced. Therefore, it becomes easy to maintain the concentration of the sterilizing substance in an appropriate range in the water supply chamber 10a.
  • the rotating structure of the water supply chamber in the beverage supply system described above is not limited to the beverage supply system, but a small revolving door is provided on a part of the main door of the refrigerator, and a small storage (retaining system with a door) is provided on the back of the revolving door. It is also applicable to the structure of a refrigerator provided with. In such a small storage, for example, one or several drinks (milk pack, drink pack, PET bottle tea or soft drink, etc.) can be stored.
  • the desired beverage can be taken out from the rotary door without opening the main door of the refrigerator.
  • the temperature rise in a refrigerator can be suppressed compared with the case where a main door is opened and a drink is taken out.
  • the revolving door of the small storage box at a relatively low position, even a small child can easily take out the beverage from the revolving door.
  • FIG. 19A to FIG. 19C show a refrigerator 500 according to the sixth embodiment.
  • the refrigerator 500 includes a small storage box 510, a display panel 523, and the like on the door 502 of the refrigerator compartment.
  • the small storage 510 includes a rotary door 521, an object detection sensor 522, and the like.
  • the object detection sensor 522 is disposed on the right side of the small storage 510.
  • a storage chamber (storage chamber) 510a is provided on the back side of the rotary door 521.
  • the storage room 510a for example, one or several beverages (milk pack, beverage pack, can beverage, PET bottle tea or soft drink, etc.) can be stored.
  • the small storage 510 is configured such that the revolving door 521 rotates in the horizontal direction when the object detection sensor 522 detects a user's hand or the like.
  • the storage chamber 510a appears on the front as shown in FIG.
  • the object detection sensor 522 is disposed on the right side of the rotary door 521. Therefore, when the object detection sensor 522 detects a user's hand or the like, the rotary door 521 rotates in the opposite direction (that is, clockwise) from the rotary door 21 of the first embodiment.
  • the revolving door 521 is preferably rotated counterclockwise to be in an open state.
  • a beverage with higher usage frequency is stored in such a small storage 510, the desired beverage can be taken out from the rotary door 521 without opening the door 502 of the refrigerator 500.
  • the desired beverage can be taken out from the rotary door 521 without opening the door 502 of the refrigerator 500.
  • it is possible to suppress an increase in the temperature in the refrigerator as compared with the case of opening the door 502 and taking out the beverage.
  • the revolving door 521 of the small storage 510 at a relatively low position, even a small child can easily take out the beverage from the revolving door 521.
  • the small storage 510 is provided with a sterilization unit 50 as in the first embodiment.
  • the sterilization unit 50 exists on the back plate and the back side of the revolving door 521. Therefore, when the revolving door 521 is in the open state, the sterilization unit 50 is in a state invisible from the front.
  • the sterilization unit 50 is indicated by a broken line for convenience.
  • the sterilization unit 50 operates when the rotary door 521 is in a closed state to release the sterilizing substance into the storage chamber 510a, and rotates. The operation is stopped when the door 521 is open. Thereby, the possibility that the disinfecting substance released into the storage chamber 510a may be released into the open space can be reduced. Therefore, it becomes easy to maintain the concentration of the sterilizing substance in an appropriate range in the storage chamber 510a.
  • Refrigerator 2 Door (of refrigerator) 10: Beverage supply system 10a: Water supply room (accommodating room) 21: Revolving door (door) 19: Side plate 22 (of water supply chamber) 22: Object detection sensor 30: Water injection mechanism (discharge unit) 31: Water injection port (discharge port of discharge unit) 32: Water injection lever (lever) 32a: opening 50: sterilization unit 51: ion generator 52: fan 53: gas flow path 53a: discharge port 53b: suction port 70: water tank (tank) 110: Beverage supply system 150: Disinfection unit 153a: Release port 154a: Release port 210: Beverage supply system 250: Disinfection unit 253a: Release port 253b: Inlet port 310: Beverage supply system 350: Disinfection unit 400: Beverage supply System 510: Small storage (storage system with door)

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
  • Devices For Dispensing Beverages (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
PCT/JP2017/007059 2016-09-30 2017-02-24 扉付き収容システムおよび飲料供給システム WO2018061243A1 (ja)

Priority Applications (3)

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CN201780014438.7A CN109790007B (zh) 2016-09-30 2017-02-24 带门的收容系统以及饮料供给系统
MYPI2018001326A MY190824A (en) 2016-09-30 2017-02-24 Beverage supply system
JP2018541876A JP6796654B2 (ja) 2016-09-30 2017-02-24 飲料供給システム

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CN113137796A (zh) * 2020-01-17 2021-07-20 海信容声(广东)冰箱有限公司 一种具有除农残功能的冰箱及其控制方法
JP2021172344A (ja) * 2020-04-20 2021-11-01 株式会社スイソサム 水素水供給装置

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CN114893948B (zh) * 2022-05-30 2024-03-08 澳柯玛股份有限公司 一种冰箱风道净化系统控制方法
CN115823799A (zh) * 2022-09-27 2023-03-21 珠海格力电器股份有限公司 一种控制方法、离子发生器及冰箱

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JP7251797B2 (ja) 2020-04-20 2023-04-04 株式会社スイソサム 水素水供給装置

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CN109790007B (zh) 2022-02-01
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JPWO2018061243A1 (ja) 2019-07-11
JP6796654B2 (ja) 2020-12-09

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