JP4711925B2 - Disinfection unit - Google Patents

Description

  The present invention relates to a sterilizing unit suitable for sterilizing indoor air, and as one of them, sterilizing air in an area of a kitchen or the like where a storage is installed by effectively using the upper surface of the storage such as a refrigerator. The present invention relates to a sterilization unit suitable for performing.

  It is well known that electrolyzed water containing hypochlorous acid has a sterilizing action. In order to sterilize the germs in the cold air entering the vegetable compartment in the refrigerator, the water supply is electrolyzed and hypochlorous acid is removed. The technology to produce the electrolyzed water containing this hypochlorous acid by an ultrasonic vibrator and circulate this atomized mist into the vegetable room together with the cold air circulated by a blower to achieve the sterilization effect of the vegetables is there. (Patent Document 1).

  Moreover, there exists what attached the air cleaner which purifies the indoor air in which the refrigerator was installed in the upper surface of the refrigerator main body. This air purifier is equipped with a blower at the center of the case, filters are placed on the left and right sides of the case, and air is sucked through the filter from the air suction ports formed on the left and right sides of the air purifier. Purified air is sent out from a discharge port on the front surface of the air purifier through a blower from the rear. (Patent Document 2).

In addition, there is one that generates a positive ion and a negative ion in the space where the refrigerator is installed by attaching an ion generator in the control panel body arranged in front of the partition wall that separates the refrigerator compartment and the ice making chamber of the refrigerator body. . In this ion generator, air is sucked in through a dustproof filter from an air suction port formed on the lower side, and sent to a horizontal air blower passage through a blower arranged above the air suction passage. The air in the air blowing path is ionized into positive ions and negative ions by the ion generator for outside the room arranged in the above and is sent out from the ionized air discharge port formed on the front surface of the control panel body. (Patent Document 3).
JP 2003-214758 A JP 2006-23075 A JP 2004-44988 A

  The thing of patent document 1 is effective by performing the disinfection action of the required part in a refrigerator with the atomized electrolyzed water, but when eyes are turned to the kitchen (a kitchen, a kitchen, etc.) where a refrigerator is installed. In many cases, the air in this area contains more germs than the air in other areas (rooms), and we are not aware of the disinfection in the air in this kitchen (kitchen, kitchen, etc.) area. .

  The thing of patent document 2 purifies the air in the room | chamber interior in which the refrigerator was installed, and cleans air with the filter comprised with the antibacterial filter, the dust collection filter, and the deodorizing filter, The construction of the filter is complicated, and if this filter is clogged, the effect is reduced, so that the cleaning management of this filter is troublesome.

  Since the thing of patent document 3 sends out ionized air to the space in which the refrigerator was installed, and sterilizes and deodorizes the space in which the refrigerator was installed, this requires a high-pressure generator, The accompanying electric circuit configuration is required, and cost increase is also a problem. In addition, high-pressure measures such as a device for preventing the user of the refrigerator from touching the high-pressure generator are necessary, and the increase in cost is a problem in terms of structure.

  A storage such as a recent refrigerator (including a freezer refrigerator, the same applies hereinafter) has a structure in which a freezer room, a vegetable room, a refrigerator room, etc. are arranged in an up-and-down position, and the height is as high as about 1800 mm. Often exists as a mere space. Therefore, an object of the present invention is to prepare an environment where cooking can be performed in a clean atmosphere by performing sterilization of a kitchen (kitchen, kitchen, etc.). Further, the present invention provides a sterilization unit suitable for effectively using the upper surface of a refrigerator that has not been effectively used so far as an installation location of the sterilization unit.

  In this case, the present invention, as a sterilization unit suitable for sterilizing the air in the installation area of the storage such as a refrigerator, in order to make it small and inexpensive that does not require an ultrasonic vibrator or high-pressure generator, Disinfection suitable for sterilization in the air of kitchens and other areas where storage water such as refrigerators is created by effectively using water containing chlorine to produce electrolyzed water containing hypochlorous acid The device is adopted.

  In particular, when the sterilization unit is installed at a high place from the floor, such as the upper surface of a storage such as a refrigerator, the water necessary for generating electrolyzed water is supplied to the sterilization unit. In order to make it easy to take in and out the water storage tank, a structure capable of reducing the thickness of the water storage tank is provided. In addition, the water storage tank can be easily attached / detached from the front side of the storage, and the water tank open / close valve does not open when it is attached / detached, and water leakage does not occur. There is no technology provided.

  The sterilization unit according to the first aspect of the present invention is configured such that when a water storage tank that has an open / close valve at the bottom and stores tap water is inserted and placed in the tank chamber from the water tank insertion port, the open / close valve opens to allow the water in the water storage tank to flow. In the sterilization unit for performing sterilization of the surroundings by forced air passing through a sterilization element that forms an air passage between suction element portions that suck up electrolyzed water generated in the electrolysis unit and that is supplied to the electrolysis unit, the open / close valve The movable valve spring-biased so as to close the water supply path is housed in the valve housing, and when the water storage tank is inserted into a predetermined position of the tank chamber, the movable valve is pushed upward to move the water supply path. A mounting structure in which a male screw is formed on the outer peripheral portion of the valve housing, and a female screw is formed on the bottom wall of the water storage tank to be screwed with the male screw. A water passage through which the valve housing is attached to the water storage tank by screwing the male screw and the female screw, and an outer peripheral portion of the valve housing. It is characterized in that it is formed on the mounting portion.

  The sterilization unit according to a second aspect of the present invention is the sterilization unit according to the first aspect, wherein the valve housing includes a substrate portion in which a plurality of the water supply passages are formed in a circular arrangement, and the movable valve is urged by the spring on the upper surface of the water supply passage And an operating portion that extends downward from the central portion and penetrates the substrate portion inside the circularly arranged water supply passage, and the water storage by screwing the male screw and the female screw to the outer periphery of the substrate portion. An annular flange that is in close contact with the bottom surface of the bottom wall of the tank is formed.

  The sterilization unit of the third invention is the first invention or the second invention, in the first invention or the second invention, the bottom surface of the water storage tank is provided with a protective wall having a longer projecting length than the working part around the working part, The left and right sides of the protective wall so as to slide on the bottom surface of the tank chamber are provided with ridges that protrude downward from the water storage tank and extend in the front-rear direction, and are longer than the protruding length of the protective wall below the water storage tank. The protrusion length downward of the corresponding ridge is increased.

  In the first invention, since the movable valve spring-biased so as to close the water supply channel is housed in the water storage tank while being housed in the valve housing, the thickness of the water storage tank is reduced, and a storage such as a refrigerator It becomes easy to insert and remove the water storage tank to the sterilization unit installed at a high place from the floor. Further, since the open / close valve is housed in the water storage tank, it is possible to provide a technique that does not cause damage such as breakage of the open / close valve when the water storage tank is taken in and out. Further, since the opening / closing valve is screwed to the water storage tank, the opening / closing valve can be easily cleaned and repaired.

  In the second invention, in addition to the effects of the first invention, in the valve housing, the movable valve is disposed above the substrate part in which the water supply passage is formed, and the movable valve operates through the substrate part below the substrate part. Since the portion is disposed, the outer peripheral annular flange of the base plate portion is brought into close contact with the bottom surface of the bottom wall of the water storage tank by screwing, whereby an open / close valve capable of stably moving the movable valve in the water storage tank can be achieved.

  In the third invention, in addition to the effects of the first invention or the second invention, when the water tank is taken in and out of the tank chamber, the operating portion is protected by the protective wall, and the water tank is placed in the tank chamber by the left and right protrusions. In addition, the operating part and the protective wall collide with the inlet of the tank chamber when it is taken in and out, and it is difficult to take in and out, and the operating part and the protective wall are damaged. In addition, the water storage tank can be easily inserted into and removed from the sterilization unit installed on the upper surface of a storage such as a refrigerator.

  The device for disinfecting the ambient air of the storage of the present invention has an open / close valve at the bottom, and when a water storage tank for storing tap water is inserted and placed in the tank chamber from the water tank insertion port, the open / close valve opens to open the water storage tank. In the sterilization unit in which the water in the tank is supplied to the electrolysis unit, and the surrounding sterilization is performed by forced air passing through the sterilization element that forms an air passage between the suction elements that suck up the electrolyzed water generated in the electrolysis unit In the open / close valve, a movable valve spring-biased to close the water supply passage is housed in a valve housing, and when the water storage tank is inserted into a predetermined position of the tank chamber, the movable valve is pushed upward. The water supply channel is configured to open, a male screw is formed on the outer peripheral portion of the valve housing, and a female screw that is screwed with the male screw is formed on the bottom wall of the water storage tank. And a water passage hole that communicates in a state where the valve housing is attached to the water storage tank by screwing of the male screw and the female screw to the outer periphery of the valve housing. Examples of the present invention will be described below.

  Next, an embodiment in which the storage of the present invention is a refrigerator-freezer will be described. 1 is a front view of the refrigerator-freezer 1 with the sterilization unit 10 placed on the upper surface, FIG. 2 is a top perspective view of the refrigerator-freezer with the sterilization unit placed on the upper surface, and FIG. 3 is a control unit 50 of the sterilization unit 10. 4 is an enlarged bottom view of the control unit 50 of the sterilization unit 10, and FIG. 5 is a top perspective view in which the rotation cover of the sterilization unit 10 placed on the top surface of the refrigerator 1 is opened approximately 45 degrees. 6 is a top perspective view in which the rotating cover of the sterilizing unit 10 placed on the upper surface of the refrigerator-freezer 1 is substantially fully opened, and FIG. 7 is the rotating cover of the sterilizing unit 10 placed on the upper surface of the refrigerator-freezer 1. FIG. 8 is a top perspective view showing a state in which the suction filter and the water storage tank are drawn forward in the opened state, FIG. 8 is a vertical sectional side view of the central portion of the sterilization unit 10 placed on the top surface of the refrigerator 1, and FIG. The rotation cover of the sterilization unit 10 placed on the upper surface of FIG. 10 is a top perspective view showing a state in which the cassette is taken out from the sterilization unit 10, and FIG. 11 is a sterilization unit with the rotating cover opened to remove the water storage tank and the suction filter. FIG. 12 is a top perspective view showing a state in which the left and right sides of the decorative panel 30 on the front surface of the sterilization unit 10 are removed, and FIG. 13 is a decorative panel 30 on the front surface of the sterilization unit 10. 14 is an enlarged top perspective view showing a state in which the left side portion is removed, FIG. 14 is a plan view of the sterilization unit 10 with the top cover and the cassette top cover removed, and FIG. 15 shows the sterilization unit 10 top cover and the cassette top cover outside. 16 is an exploded top perspective view in which the main part of the sterilization unit 10 is disassembled, FIG. 17 is an exploded top perspective view in which the sterilization unit 10 is disassembled in detail, and FIG. Is a top perspective view of the cassette of the sterilization unit 10, FIG. 19 is an exploded top perspective view of the cassette of the sterilization unit 10, and FIG. 20 is a front view of the sterilization unit 10 and the top cover of the cassette are removed and the water storage tank is moved forward. FIG. 21 is a left front perspective view of the sterilization unit 10 with the top cover and cassette top cover removed and the water storage tank is pulled forward. FIG. 22 is a view of the removed opening / closing valve and water storage tank. FIG. 23 is a bottom perspective view of a water storage tank to which an opening / closing valve is attached, FIG. 24 is a top perspective view of a valve housing of the opening / closing valve, FIG. 25 is a side perspective view of the valve housing of the opening / closing valve, and FIG. FIG. 27 is a vertical side view showing the relationship between the internal structure of the storage tank and the opening / closing valve mounting portion of the water storage tank, and FIG. 28 is a longitudinal side view showing a state in which the movable valve of the open / close valve in the state shown in FIG. 27 is pushed up by the protrusion of the water storage portion, and FIG. 29 is a water storage tank showing the relationship between the open / close valve and the water flow portion of the water storage tank. FIG. 30 is a vertical side view showing the structure of a water passage portion in a state where the open / close valve of FIG. 29 is attached to a water storage tank, and FIG. 31 is a movable valve of the open / close valve in the state of FIG. FIG. 32 is a plan view illustrating the state of communication of the water passage holes when the open / close valve is attached to the water storage tank, and FIG. 33 is the tank chamber inlet of the sterilization unit. FIG. 34 is a vertical side view of a state in which the water storage tank is faced, FIG. 34 is a vertical side view of the state in which the water storage tank starts to be inserted into the tank chamber inlet, and FIG. Tank room Longitudinal side view of a state where approaching the narrowing Chi unit, FIG. 36 is a longitudinal side view illustrating a state where the protrusion is the water storage tank to the tank compartment depressed to drop portion of the tank chamber is set in the water storage tank.

  An embodiment in which the sterilizing unit 10 according to the present invention is placed on the refrigerator-freezer 1 which is a typical storage will be described. The refrigerator-freezer 1 has a structure in which a front-opening refrigerator-freezer body (storage body) 2 is partitioned to form a plurality of storage chambers, and the front surfaces of these storage chambers can be opened and closed by doors. The refrigerator-freezer main body 2 has a heat insulating structure in which a foam heat insulating material is filled between an outer box (outer wall plate) and an inner box (inner wall plate). A refrigerator compartment 3, a side-by-side ice making chamber SH, an auxiliary freezer compartment 5 H, a freezer compartment 5, and a vegetable compartment 4 are provided in the refrigerator main body 2. The front opening of the refrigerator compartment 3 can be opened and closed by left and right doors 7A and 7B supported by a hinge device HJ on one side of the refrigerator-freezer body 2, and the doors 7A and 7B have grip handles 7A1, 7B1 is a configuration that can be laterally opened (commonly called double doors).

  The ice making chamber SH has an automatic ice making machine (not shown) installed therein, and the front opening of the ice making chamber SH is opened and closed by a pull-out door SHA that draws out an ice storage container for storing ice produced by the automatic ice making machine. . The front opening of the auxiliary freezer compartment 5H is opened and closed by a pull-out door 5HA that pulls out a food storage container (not shown) in the auxiliary freezer compartment 5H. The front opening of the vegetable compartment 4 is opened and closed by a pull-out door 8 that is supported so as to be movable in the front-rear direction together with a vegetable container (not shown) by a support device using a combination of rails and rollers. Similar to the vegetable compartment 4, the front opening of the freezer compartment 5 is a pull-out door 9 that pulls out a freezer compartment container (not shown) together by a support device with a combination of left and right rails and rollers provided in the freezer compartment 5. Is opened and closed by. Magnets 42 containing magnets that are attracted to the periphery of the front opening of the refrigerator-freezer main body 2 are provided on the periphery of the back surface of each of the front doors 7, 8, 9, SHA, 5HA, and these doors 7, 8, 9, SHA, 5HA are provided. A cold air sealing structure is formed between the refrigerator and the refrigerator main body 2.

  The sterilization unit 10 is suitable for sterilizing the storage 1, that is, the ambient air in which the refrigerator-freezer 1 is installed. The basic configuration of the sterilization unit 10 includes a storage tank 12 that stores tap water, and an electrolysis unit 15 that includes an electrode 14 that generates electrolyzed water containing hypochlorous acid by being immersed in water supplied from the storage tank 12. A horizontal air passage 17A is formed between the water receiving part 18 into which the electrolyzed water generated in the electrolyzing part 15 is introduced and the electrolyzed water suction element part 17B whose lower part is immersed in the electrolyzed water of the water receiving part 18. The housing 11 includes the disinfecting element 17 and the blower 20 that generates forced air passing through the air passage 17A.

  The sterilization unit 10 is configured so that the water storage tank 20 can be attached to and detached from the front surface of the sterilization unit 10 in consideration of the ease of water supply to the sterilization unit 10. Further, in order to keep the sterilization unit 10 in good operation for a long time by removing dust in the air entering the sterilization unit 10 so that the air passage 17A of the sterilization element 17 is not blocked by dust. For this, a suction filter may be provided at the air suction port. In this case, the suction filter may not be configured to be detachable from the front surface in the sterilization unit 10, but in the embodiment, it is easy to supply water to the sterilization unit 10 and the suction filter 21 can be easily cleaned and replaced. In consideration of the above, a configuration in which the water storage tank 20 and the suction filter 21 can be attached to and detached from the front surface of the sterilization unit 10 is adopted. The specific configuration will be described below.

  The sterilization unit 10 includes a housing 11 (also referred to as a unit case 11) serving as an airframe, and the housing 11 closes the upper surface opening of the housing main body 11A surrounded by the peripheral wall 11C and the upper surface opening of the housing main body 11A. Thus, it is comprised with the lid | cover 11B combined with 11 A of housing main bodies. The housing 11 has a flat shape having a predetermined thickness as a whole, that is, a flat shape. The housing main body 11A has a water storage tank 12 on one of the left and right sides (the left side in the figure in the front). A tank chamber 13 to be placed is formed, and an electrolysis chamber 15 (electrolysis unit) in which an electrode unit 14Y for generating electrolyzed water containing hypochlorous acid is disposed in the center is communicated with the electrolysis chamber 15 through an electrolyzed water passage 16A. Thus, a water receiving portion 18 for disposing the sterilizing element 17 and a blower chamber 19 for disposing the blower 20 are formed, and the suction filter 21 is disposed in a horizontal state on the left and right other side (in the drawing, the right side toward the front). A filter chamber 22 is formed. In addition, a tank insertion port 23 is formed on the front wall of the peripheral wall 11C corresponding to the tank chamber 13, an air outlet 24 is formed corresponding to the sterilization element 17, and a filter is inserted corresponding to the suction filter 21. A mouth 25 is formed. An air suction port 26 is formed on the side wall of the peripheral wall 11 </ b> C corresponding to the side surface of the filter chamber 22. If the air suction port 26 is formed in the lid 11B on the upper surface, there is a risk that the air suction port 26 of the lid 11B may be blocked if something is placed on the lid 11B. Since this is the side surface of the filter chamber 22, there is no fear thereof.

  Considering the water leakage prevention structure, repair and inspection of the electrode unit 14Y, cleaning / replacement of the sterilization unit 10, and the ease of maintenance including cleaning of water-related parts (parts in contact with water) A cassette 11K constituting a part of the bacteria unit 10 is detachably provided in a cassette housing part 10A formed in the housing main body 11A as a cassette housing part of the sterilizing unit 10. The cassette 11K includes a synthetic resin cassette body 11K1 having an upper surface opening and a synthetic resin lid 11K2 that is detachably attached to the cassette body 11K1 so as to close the upper surface opening. The cassette body 11K1 includes a water storage portion 13A having an upper surface opening for receiving water from the water storage tank 12, an electrolysis chamber 15 in which the electrode unit 14Y is disposed, a water receiving portion 18 in which the sterilization element 17 is disposed, and an electrolyzed water sterilization element. The electrolytic water passage 16 </ b> A to be supplied to 17, the water passage 16 </ b> B for supplying water from the water storage tank 12 to the electrolytic chamber 15, and the air passage 29 for guiding the air blown by the blower 20 to the sterilization element 17 are integrally formed.

  The cassette body 11K1 and its lid 11K2 may be configured such that the elastic claw of the lid 11K2 engages with the engaging portion of the cassette body 11K1, or the cassette body 11K1 and the lid 11K2 may be coupled by screws. .

  In a state where the cassette body 11K1 and the lid 11K2 are coupled, the upper surface of the sterilization element 17 comes into contact with the lid 11K2, and the front surface of the sterilization element 17 faces the front opening 11K4 formed on the front surface of the cassette body 11K1. . Since the water circumference (part that contacts water) is formed in the cassette 11K, the cassette body 11K1 does not become a water reservoir, and by removing the cassette 11K, all the water circumference part (part that contacts water) can be cleaned, In addition, repair and inspection of the electrode unit 14Y and cleaning / replacement of the sterilization unit 10 are facilitated.

  The cassette 11K has a handle portion 11K3 provided on the lid 11K2 in a state where the electrode unit 14Y and the sterilization element 17 are arranged between the cassette body 11K1 and the lid 11K2 which are open on the upper surface. It is a combination that can be attached to and detached from the cassette housing portion 10A. For this reason, the cassette 11K is detachably inserted into the housing body 11A through the window 11B1 of the lid 11B, and is set in the cassette housing portion 10A in the cassette body 11K1. In this set state so that the water storage part 13A is formed at the bottom of the tank chamber 13, the water storage part 13A is accommodated and disposed in the recess 13B formed at the bottom of the tank chamber 13, and the front opening 11K4 of the cassette body 11K1 is the air outlet. The sterilization element 17 is arranged in correspondence with the blower outlet 24. The water storage tank 12 can be inserted into the tank chamber 13 from the tank insertion port 23.

  The water storage tank 12 includes a tank main body 121 having an upper surface opening and a lid 122 that is welded to the tank main body 121 and completely closes the tank main body 121 in a watertight state. On the water supply port 123 formed at the bottom of the side, an opening / closing valve 27 that is spring-biased in a direction to be always closed is provided. The on-off valve 27 is composed of the spring, the valve, and a plurality of parts to which these are attached, and is assembled to the water supply port 123. The tank main body 121 and the lid 122 may be configured such that the elastic claw of the lid 122 engages with the engaging portion of the tank main body 121, or the tank main body 121 and the lid 122 may be coupled by screws.

  The water storage unit 13A includes a protrusion 28 that protrudes upward from the bottom thereof. When the water storage tank 12 is inserted into a predetermined position of the tank chamber 13, the opening and closing valve 27 is pushed up by the protrusion 28 and opened. The water storage unit 13A is entered and kept at a constant water level. This constant water level is maintained by the balance between the water pressure of the sealed water storage tank 12 and the air pressure applied to the water surface of the water storage portion 13A. The water storage tank 12 has a flat rectangular shape with a low height (thin thickness) that fits within the height of the surrounding wall 11C when inserted in the tank chamber 13, and is inserted into a predetermined position of the tank chamber 13. In this state, the front end portion projects forward from the tank insertion port 23. The protruding front end portion forms a knob handle portion 12A. A decorative plate 12A1 is attached to the front surface of the handle portion 12A.

  When the water storage tank 12 is inserted into a predetermined position of the tank chamber 13, the water storage switch 38 is operated by an operation lever 39 that is pushed by the side wall of the water storage tank 12 and is biased so as to move outward. Provided. When the water storage tank 12 is inserted into a predetermined position of the tank chamber 13 and the water storage switch 38 is activated (for example, turned on), the control unit 50 is activated and the sterilization unit 10 is operable (for example, the blower 20 and When the water storage tank 12 is pulled out of the tank chamber 13 and the water storage switch 38 is operated (for example, turned off), the sterilization unit 10 is in the operation stop state (for example, the blower 20). And the energization stop state to the electrode unit 14Y).

  The electrode unit 14Y is supported on the side wall of the electrolysis chamber 15 with the electrode 14 for electrolysis and the water level detection electrode 141 supported by the electrode housing 14A. Specifically, a pair of plus (+) and minus (−) electrolysis electrodes 14 are interposed between the synthetic resin electrode housing members 14A1 and 14A2 on the left and right sides via an intermediate synthetic resin electrode housing member 14A3. The water level detection electrode 141 of the electrolysis chamber 15 is paired with one electrode of the electrolysis electrode 14 and is held in an electrically separated state. The electrode unit 14Y includes a connector 142 to which a lead wire for supplying power to the electrode 14 for electrolysis and the water level detection electrode 141 is connected. The connector 142 is held in the mounting hole 143 of the synthetic resin member 14A1. It is a configuration. The water level in the electrolysis chamber 15 is detected by detecting the water level in the electrolysis chamber 15 when the water level detection electrode 141 forms a plus (+) and minus (−) pair with one electrode of the electrolysis electrode 14. When the water level in the electrolysis chamber 15 falls below a predetermined water level, a water supply LED 40K described later is lit to notify that the water storage tank 12 has become empty.

  The cassette 11K is inserted and set in the housing main body 11A through the window 11B1 of the lid 11B, so that the lower end of the connector 142 on the electrode unit 14Y side is connected to the connector (142A in FIG. 10) provided on the housing main body 11A. In addition, the connector 142 is detached from the connector 142A provided on the housing main body 11A by removing the cassette 11K from the housing main body 11A.

  The housing 11 constituted by the housing main body 11A and the lid 11B and the cassette 11K constituted by the cassette main body 11K1 and the lid 11K2 are made of synthetic resin. In the housing main body 11 </ b> A, an electric circuit board 37 including the circuit elements of the control unit 50 is accommodated in a horizontal state in a room partitioned by a partition wall behind the blower chamber 19. The electric circuit board 37 is electrically connected to the electrode unit 14Y, the blower 20, and the water storage switch 38.

  The suction filter 21 positively removes oil components in the air as well as the dust in the air, considering that the storage 1, that is, the place where the refrigerator-freezer 1 is installed is mostly a kitchen. It has a function to adhere. The suction filter 21 is inserted into a predetermined position of the filter chamber 22 in a horizontal state from the filter insertion port 25, is supported at an intermediate position of the height of the peripheral wall 11C, and is kept floating from the bottom surface of the filter chamber 22. The shape protrudes forward from the filter insertion opening 25. The suction filter 21 has a configuration in which a sheet-like filter element 21E is held by a lattice-shaped pressing plate 21H2 on a lattice portion 21H1 of a filter holder 21H made of synthetic resin. A shape in which the front end portion of the filter holder 21H, which is the front portion of the filter 21, protrudes forward from the filter insertion port 25 in a state where the suction filter 21 is stored in a predetermined position in the filter chamber 22 in a horizontal state from the filter insertion port 25. It is. The protruding front end portion forms a knob handle portion 21A. A decorative plate 21A1 is attached to the front surface of the handle portion 21A. The air suction port 26 is covered with a suction cover 26A whose outer surface uses an air suction passage between narrow bars.

  In the horizontal state in which the suction filter 21 is inserted, the forced air generated by the operation of the blower 20 is sucked in the air around the refrigerator-freezer 1 from the air suction port 26, and this air is indicated by an arrow W in FIG. The suction filter 21 passes from the upper surface to the lower surface, flows into the blower chamber 19 from the rear portion of the filter chamber 22, and is sucked into the blower 20. The blower 20 has a configuration in which a centrifugal fan that is rotated by an electric motor is housed in a fan case 20K having an air inlet at the center of the lower surface and a forced air outlet 20P at a part of the side surface. A sirocco fan is used as the centrifugal fan. Adopted. The forced air sent from the forced air outlet 20P of the blower 20 flows out from the opening 29A formed in the front wall of the blower chamber 19 and the rear wall of the cassette body 11K1 formed in communication with the forced air outlet 20P. It passes through the air passage 29 that spreads left and right toward the sterilization element 17 located in the front, is sent toward the sterilization element 17, passes through the air passage 17 </ b> A of the sterilization element 17, and forwards from the front air outlet 24. It is a mechanism that is sent to. The height of the blower 20 is a height that fits within the height of the surrounding wall 11C.

  The fan 20 has a configuration in which the entire fan case 20K is supported by a plurality of vibration isolating rubbers 20G in order to suppress noise caused by vibration during operation. Specifically, the lower surface of the fan case 20K of the blower 20 is placed on an anti-vibration rubber 20G supported on the bottom wall of the housing body 11A, and the upper surface of the fan case 20K of the blower 20 is placed on the lid 11B of the housing body 11A. The side surface of the blower 20 that is pressed by the supported vibration-proof rubber 20G is in a support state in which the protrusions 201 protruding outward from the fan case 20K of the blower 20 are sandwiched by the vibration-proof rubber 20G disposed on both sides thereof. . As a result, the blower 20 is not fixed with screws in the sterilization unit 10, but the surroundings are supported by the anti-vibration rubber 20G. Therefore, vibration during operation is attenuated by the anti-vibration rubber 20G and It becomes difficult to be transmitted to.

  The sterilization element 17 has a horizontally long rectangular shape configured to form a plurality of parallel horizontal air passages 17A between the suction element portions 17B, and the lower part of the sterilization element 17 is immersed in the electrolyzed water of the water receiving portion 18. The air passage 17A in the horizontal direction faces in the front-rear direction in the state of being disposed in the cassette body 11K1. For this reason, in the sterilizing element 17, the sucking element part 17B sucks up the electrolyzed water in the water receiving part 18 by capillary action, and the forced air generated by the blower 20 flows into the opening 29A formed in the rear wall of the cassette body 11K1. When passing through the air passage 17A of the sterilizing element 17 through the air passage 29, the sterilized air is sterilized by touching the electrolyzed water sucked up by the sterilizing element 17, and the sterilized air is forwarded from the air outlet 24. It is a mechanism that is sent to. The height of the sterilization element 17 is a height that fits within the height of the surrounding wall 11C.

  In order for the forced air from the blower 20 to pass through the sterilization element 17 effectively, the height of the front and rear walls of the water receiving portion 18 is low, and the front and rear surfaces and side surfaces of the sterilization element 17 are front and rear of the water receiving portion 18. It abuts against the walls and side walls. Since the side wall of the water receiving part 18 is higher than the height of the sterilization element 17, even if the sterilization element 17 is in contact, the electrolyzed water sucked up by the suction element part 17B does not spill from the side wall. When the front and rear surfaces of the sucking element portion 17B are in contact with the front and rear walls of the water receiving portion 18, the electrolytic water sucked by the sucking element portion 17B overflows the front and rear walls of the water receiving portion 18 and There is a possibility that the air flows into the air passage 29 and spills from the front air outlet 24. In order to prevent this, since the upper surface of the front wall of the water receiving portion 18 corresponds to the bottom wall of the front opening 11K4 of the cassette body 11K1, the upper surface of this front wall is higher on the air outlet 24 side and is directed toward the water receiving portion 18. The inclined surface 17P is lowered. In addition, the air passage 29 corresponding to the upper surface of the rear wall of the water receiving portion 18 is an inclined surface that is higher in the rear and lower toward the water receiving portion 18.

  The tap water collected in the water storage section 13A of the tank chamber 13 is supplied to the electrolysis chamber 15 from the water passage 16B on the side wall of the water storage section 13A. In the electrolysis chamber 15, a pair of plus (+) and minus (−) electrolysis electrodes 14 and a water level detection electrode 141 paired with one of the electrolysis electrodes 14 are disposed. When the electrode 14 is energized, the water in the electrolysis chamber 15 is electrolyzed to generate electrolyzed water containing hypochlorous acid. The electrolyzed water is supplied from the narrow electrolyzed water passage 16 </ b> A to the water receiver 18 and is sucked up by the sterilization element 17 by capillary action. The electrodes 14 and 141 are supported by the electrode housing 14A and supported by the electrolytic chamber 15 on the side walls as described above. Water in the water storage tank 12 enters the water storage section 13A from the open / close valve 27, enters the electrolysis chamber 15 through the water passage 16B, and is supplied from the electrolysis chamber 15 to the water receiving section 18 through the water passage 16A. In addition, the amount of water that evaporates when exposed to air is small, so that the water in the water storage tank 12 can be used effectively. For this reason, the surface area where the water in the water storage part 13A, the electrolysis chamber 15 and the water receiving part 18 is in contact with the air is made as small as possible.

  As described above, the water storage tank 12, the electrode 14, the sterilization element 17, the blower 20, and the suction filter 21 are assembled in the housing main body 11 </ b> A so as to be within the height of the peripheral wall 11 </ b> C, and are flat. The lid 11B is combined with the housing main body 11A, and both are coupled by screws or the like, and these are housed in the housing main body 11A. The cassette 11K grips the handle portion 11K3 provided on the lid 11K2, and is inserted into the housing main body 11A through the loading / unloading window 11B1 of the cassette 11K, and is set in the cassette storage portion 10A in the cassette main body 11K1. In this set state, the water storage portion 13A is housed and disposed in a recess 13B formed at the bottom of the tank chamber 13, the sterilization element 17 is disposed corresponding to the air outlet 24, and the water storage tank 12 is placed in the tank chamber 13 from the tank insertion port 23. Insertion becomes possible. Further, in this set state, the upper portion of the cassette 11K, that is, the lid 11K2 fits almost completely into the window 11B1, so there is almost no possibility that the air blown from the blower 20 leaks from the window 11B1.

  As described above, the sterilization unit 10 includes the tank chamber 13 which is a water storage tank mounting portion, the electrolysis chamber 15, the sterilization element 17 of the water receiving portion 18, the blower 20 of the blower chamber 19, and the filter chamber 22. The suction filter 21 is provided in the housing 11 in a planar arrangement, the water storage tank 12 is detachably inserted from the tank insertion port 23 on the front surface of the housing 11, and the suction filter 21 is inserted from the filter insertion port 23 on the front surface of the housing 11. A blast outlet 24 that is detachably inserted and through which the forced air passing through the air passage 17A of the sterilization element 17 blows forward is provided on the front surface, and the sterilization element 17 and the electrode unit are housed on the upper surface of the sterilization unit 10. A loading / unloading window 11B1 for the cassette 11K is formed.

  The sterilization unit 10 can be used by being installed alone in a suitable place such as a kitchen. However, in the kitchen, the upper surface of the refrigerator-freezer main body 2 that is tall to about 1800 mm is generally not used. Since there are many cases, it is preferable to use the upper surface of the refrigerator-freezer main body 2 effectively. In the present invention, the water storage tank 12 for supplying water necessary for generating electrolyzed water is easily attached / detached from the front side of the storage 1, and the inside of the sterilization unit 10 is attached when the water storage tank 12 is attached / detached. Providing technology that can avoid the danger of hand touching live parts. The configuration in that case will be described below.

  In the embodiment, not only the water storage tank 12 but also the suction filter 21 can be freely inserted and removed from the front side. The top surface of the refrigerator-freezer body 2 is substantially flat, and the refrigerator-refrigerator body with the handle portion 12A at the protruding front end of the water storage tank 12, the handle portion 21A at the protruding front end of the suction filter 21, and the air outlet 24 facing the front surface. The sterilization unit 10 is attached to the upper surface of 2. A decorative panel 30 is provided at the front of the upper surface of the refrigerator-freezer main body 2 as a front decorative panel of the sterilization unit so as to extend over the width of the refrigerator-freezer main body 2.

  The sterilization unit 10 and the decorative panel 30 may be configured to be integrated and attached to the upper surface of the refrigerator-freezer main body 2. However, in the embodiment, the sterilization unit 10 and the decorative panel 30 are provided. Is a separate structure, and each of the sterilization unit 10 and the decorative panel 30 is attached to the upper surface of the refrigerator-freezer main body 2. For this reason, the sterilization unit 10 is disposed on the rear side of the decorative panel 30. The decorative panel 30 is formed with an air outlet 31 that opens forward, an insertion portion 33 </ b> A of the water storage tank 21, and an insertion portion 32 </ b> A of the suction filter 21. The blower outlet 31 has a shape in which the rear end portion is substantially communicated with the blower outlet 24 and the left and right side walls are curved or straight from the rear to the front toward the front end, and the blower outlet 24 of the sterilization unit 10 is a makeup. It attaches to the rear-end part of the ventilation outlet 31 of the panel 30 in a communication state. The insertion part 33A of the water storage tank 21 and the insertion part 32A of the suction filter 21 may be in a state of being partitioned by the air outlet 31 and a partition wall. The right side in front view forms the insertion portion 33A of the water storage tank 21, and the other left and right sides of the air outlet 31 (left side in the front view in the drawing) form the insertion portion 32A of the suction filter 21. Yes. As will be described later, the handle of the water storage tank 21 and the handle of the suction filter 21 constitute the left and right side walls of the air outlet 31.

  The sterilization unit 10 is installed on the upper surface of the refrigerator-freezer main body 2 behind the decorative panel 30 so that the forced air passing through the air passage 17A of the sterilization element 17 is forwarded from the blast outlet 31, and the blast outlet door is opened. The upper wall 30B of the decorative panel 30 is a rotating structure that is opened and closed when the water storage tank 12 is taken out and inserted, and the upper wall of the decorative panel 30 is opened upward so that the front side of the sterilization element 17 is opened. It is the structure which provided the protective action part 30B3 to block. In the embodiment, the upper wall 30B of the decorative panel 30 opens and closes when the water tank 12 and the suction filter 21 are taken out and inserted in order to allow the water tank 12 and the suction filter 21 to be inserted and taken out from the front side. The protective panel 30B3 is provided on the upper wall (air outlet door) 30B of the decorative panel 30 so as to close the front side of the sterilizing element 17 in an open state.

  The upper wall of the blower outlet 31 corresponding to the upper wall of the decorative panel 30 constitutes a blower outlet door 30B that can be rotated upward when the water storage tank 21 and the suction filter 21 are inserted and removed. As a specific configuration, the decorative panel 30 forms an air outlet 31 between the board 30A attached to the upper surface of the refrigerator-freezer main body 2 with screws and the upper surface of the board 30A located above the board 30A. And an air outlet door 30B that is rotatably coupled to the substrate 30A.

  The substrate 30A constitutes the lower wall of the decorative panel 30. The blower outlet 31 is formed in a long shape on the left and right between the blower outlet door 30B as the upper wall and the substrate 30A as the lower wall. In addition, the decorative panel 30 is designed to be unified with the refrigerator-freezer 1 in a front view by setting the length over the width of the refrigerator-freezer body 2. For this reason, the left and right portions of the decorative panel 30 cover the attachment substrate portion HJP of the hinge device HJ that is screwed to the upper surface of the refrigerator-freezer body 2. The front door of the refrigerator-freezer 1 shown in the figure is the left and right doors 7A, 7B, and the position adjustment of the doors 7A, 7B with respect to the refrigerator-freezer main body 2 is performed by loosening screws and adjusting the attachment position of the upper hinge device HJ. The left and right portions of the decorative panel 30 are configured with removable covers 30C and 30C. The covers 30C and 30C are disposed on the left and right sides of the blower outlet door 30B and attached to the upper side of the substrate 30A.

  As shown in FIGS. 2 and 5 to 12, the decorative panel 30 is fixed to the upper surface of the refrigerator-freezer main body 2 and covers the upper surface of the front door of the refrigerator-freezer 1 so as to cover the upper surface of the refrigerator-freezer 1. It projects in a bowl shape to the front until it is almost flush with the front shape of the. The front doors of the refrigerator-freezer 1 shown in the figure are the left and right doors 7A and 7B. The front surfaces of the front and rear doors have a convex curved surface shape extending over the left and right doors 7A and 7B. And extends forward from the refrigerator-freezer main body 2 so as to cover the upper surfaces of the left and right doors 7A and 7B. For this reason, the board | substrate 30A has projected in the hook shape ahead to the front-surface shape of the front door of the refrigerator-freezer 1 in a substantially flush state.

  The board 30A is attached between the lower plate 30A1 having a hinge corresponding part 30A2 that covers the hinge device HJ disposed on the left and right sides of the upper surface of the refrigerator refrigerator body 2, and the left and right hinge corresponding parts 30A2 on both the left and right sides. The upper plate 30A3 that forms the lower side surface is used. Further, the blower outlet door 30B includes a lower plate 30B1 that forms the upper surface of the blower outlet 31, and an upper plate 30B2 that covers the lower plate 30B1, and is formed to project from the left and right rear ends of the upper plate 30B2. 30B21 is axially supported by the rotation support portion 30A11 formed on the lower plate 30A1 of the substrate 30A, so that the air outlet door 30B is attached to the substrate 30A as shown in FIGS. 2, 8, 10, and 12. On the other hand, as shown in FIGS. 5 to 7, 9, and 11, the air outlet door 30 </ b> B can be rotated to a state in which the air outlet door 30 </ b> B is opened upward with respect to the substrate 30 </ b> A.

  In order for the purified air delivered from the blower outlet 24 of the sterilization unit 10 to be sent widely to the left and right, the blower outlet 31 of the decorative panel 30 communicates with the blower outlet 24 at its rear end, The side wall has a shape spreading from the rear to the front. The left and right side walls of the air outlet 31 are formed by a knob handle portion 21A at the projecting front end of the suction filter 21 and a knob handle portion 12A at the front portion of the water storage tank 20, so that the water storage tank 20 and the suction filter 21 are regular. In the state where the handle portion 21A and the handle portion 12A are housed in the decorative panel 30, the surfaces of the handle portion 21A and the handle portion 12A on the air outlet 31 side are as shown in the figure. Furthermore, it has a shape that inclines in a streamlined manner from the rear to the front.

  Stopper portions 30B11 that are recessed upward are formed on the left and right sides of the lower plate 30B1 of the air outlet door 30B. In a state where the blower outlet door 30B is closed substantially horizontally with respect to the substrate 30A, a passage of the blower outlet 31 is formed between the substrate 30A and the blower outlet door 30B, and the handle portion of the water storage tank 12 is provided in the stopper portion 30B11. Since the top end of 12A and the top end of the handle 21A of the suction filter 21 are in contact with each other, the air outlet door 30B prevents the water storage tank 12 and the suction filter 21 from moving forward and dropping off due to vibration or the like. At the same time, the left and right side walls of the air outlet 31 are formed by the handle portion 12A and the handle portion 21A, respectively. Therefore, the stopper portion 30B11 is formed in a shape corresponding to the shape of the handle portion 12A and the handle portion 21A, respectively.

  In the state where the blower outlet door 30B is opened, a protective action portion 30B3 which closes the front side of the sterilization element 17 is formed in a state extending rearward at the central portion of the blower outlet door 30B. The protective action portion 30B3 is configured by protective action portions 30B31 and 30B32 extending rearward at the center portions of the lower plate 30B1 and the upper plate 30B2. As shown in FIG. 5 to FIG. 7 and FIG. 11, by opening the air outlet door 30B so that the water storage tank 12 and the suction filter 21 can be pulled out forward, that is, in the figure, the air outlet door 30B is opened. When the protective action part 30B3 rotates so as to close the back side of the air outlet 31 in front of the air outlet 24 in a state of being opened approximately 45 degrees or more, when the hand is inserted into the air outlet 31 from the front, It is prevented that the hand touches the sterilization element 17 wet with water.

  As a result, the sterilization element 17 can be prevented from being damaged by touching the hand with the sterilization element 17, and the electrolysis electrode 14 and the water level detection electrode 141 of the electrode unit 14Y are energized. In the unlikely event of an electric shock caused by touching the fungus element 17, it is possible to prevent such an accident.

  In addition, the air outlet door 30B is opened until the handle portion 12A and the handle portion 21A are detached from the stopper portion 30B11, the handle portion 12A and the handle portion 21A are held, and the storage tank 12 and the suction filter 21 are put in and out. It becomes possible from. In this case, since the substrate 30A projects in a bowl shape to the front and substantially flush with the front shape of the front door of the refrigerator / freezer 1 so as to cover the upper surface of the front door of the refrigerator / freezer 1, Using the upper surface of the substrate 30A forming the wall as a guide surface, the water storage tank 12 and the suction filter 21 can be taken in and out, and this can be easily taken in and out.

  A hinge corresponding portion 30A2 that covers the hinge device HJ is formed on both the left and right sides of the lower plate 30A1 of the substrate 30A. The exposed hole 30A21 is formed to cover the mounting substrate portion HJP of the hinge device HJ. The covers 30C and 30C are elastically engaged with screws 30C1 screwed into the lower plate 30A1 and locking portions of the lower plate 30A1 so as to cover the hinge corresponding portions 30A2 formed on the left and right sides of the lower plate 30A1 of the substrate 30A. It is detachably attached by the engaging claw. For this reason, the covers 30C and 30C are removed by loosening the screws 30C1 and removing the engaging claws from the locking portions. In this state, the hinge mounting screws HJ1 are loosened to adjust the fixing position of the hinge device HJ. The attachment position of the doors 7A and 7B can be adjusted.

  By providing the decorative panel 30 as described above, a decorative effect on the front side of the sterilization unit 10 including the cover of the hinge device HJ can be obtained. Moreover, if the small sterilization unit 10 of the magnitude | size applicable to various storages 1 is prepared and the decorative panel 30 matched with the left-right width of the storage 1 for every kind of the storage 1 will be facilitated, the kind of the storage 1 It is not necessary to manufacture the sterilization unit 10 every time, and it can be applied to various storages 1 only by replacing the decorative panel 30, and the cost of the sterilization unit 10 can be suppressed.

  The control unit 50 of the sterilization unit 10 includes, in addition to the electric circuit board 37, an operation control switch of the sterilization unit 10, a control circuit 46 operated by the operation control switch, and a display unit 40 for displaying this operation state. . The operation control switch includes an operation control changeover switch 35 that controls the operation state of the sterilization unit 10, a power switch 43 of the sterilization unit 10, and a reset switch 44. The control circuit 46 includes covers 30C and 30C. It is stored in one side. The display unit 40 includes a water supply LED 40K, a display LED 40E that prompts replacement of the sterilization element 17, a display LED 40F that prompts replacement of the suction filter 21, a display LED 40G for automatic operation, and a display of weak operation status. LED 40H is provided. The power switch 43 is disposed on the cover 30C so as to be operable from the front surface of the right cover 30C in front view, and the display unit 40 is disposed so as to be visible from the front surface of the right cover 30C in front view.

  As shown in FIG. 3, the display unit 40 writes “water supply” in correspondence with the water supply LED 40K, and writes “element” in correspondence with the display LED 40E that prompts replacement of the sterilization element 17. Corresponding to the LED 40F for indicating the weak operation state, the letters “filter” are written in correspondence with the LED 40F for prompting the replacement of the suction filter 21, and the letters “automatic” are written in correspondence with the LED 40G for automatic operation. "Force (1H)" is written. In addition, the characters “mode / power” are written corresponding to the power switch 43. Further, as shown in FIG. 4, the characters “switch SW” are written corresponding to the operation control changeover switch 35, and the characters “reset SW” are written corresponding to the reset switch 44.

  Moreover, in the state fixed to the upper surface of the refrigerator-freezer main body 2 as mentioned above, the decorative panel 30 projects in a bowl shape so as to be close to the upper surface of the front door of the refrigerator-freezer 1 and cover the upper surface of the front door. Yes. In consideration of the appearance design, the overhanging length of the bowl-shaped portion of the decorative panel 30 is shaped like a bowl that is substantially flush with the front shape of the front door of the refrigerator-freezer 1, and the operation control is performed. The changeover switch 35 and the reset switch 44 correspond to the upper surface of the closed door 7B on the right side when viewed from the front so that the changeover switch 35 and the reset switch 44 are disposed corresponding to the protruding portion in the bowl shape. It is arranged in the cover 30C so as to be operable from the lower side through the hole or notch of 30A1. For this reason, the operation control changeover switch 35 and the reset switch 44, which are specific switches, cannot be operated when the door 7B is closed, and can be operated from below to above when the door 7B is open. This stabilizes the operation of the operation control changeover switch 35 and the reset switch 44 which are specific switches. Such a saddle-like projecting configuration of the decorative panel 30 and the arrangement of the specific switch can be similarly adopted in the refrigerator-freezer 1 of the first embodiment. The power switch 43 is turned on by illuminating the push button of the power switch 43 with an LED housed therein.

  A circuit board 46A provided with a control circuit 46 supported by the front and rear holders 45A and 45B on the back side is supported in the right cover 30C, and the water supply LED 40K and the disinfection element 17 are exchanged on the circuit board 46A. LED 40E for prompting replacement, LED 40F for prompting replacement of the suction filter 21, LED 40G for automatic operation, LED 40H for strong operation, power switch 43, operation control changeover switch 35, and reset switch 44 is attached.

  The connection between the circuit board 46A and the electric circuit board 37 or the electric circuit on the refrigerator 1 side is made by connecting the connector 47A on the circuit board 46A side to the connector 47A connected to the electric circuit board 37 on the sterilization unit 10 side, This is done by connecting the connector 47C on the refrigerator 1 side. Therefore, when the sterilization unit 10 is attached to or detached from the refrigerator-freezer main body 2 or when the right cover 30C is removed for adjustment of the hinge device HJ, the work can be performed by attaching / detaching these connectors. It becomes easy to do. The combined connectors 47A, 47B, and 47C are housed in the right cover 30C, so that they are not exposed to the outside and dust hardly adheres to them.

  Since the free chlorine concentration contained in tap water or the like varies depending on the region where the sterilization unit 10 is used, if the operation time of the sterilization unit 10 is constant, if the free chlorine concentration is high, from the sterilization unit 10 You may be worried about the odor of chlorine sent out and you may feel uncomfortable. For this reason, when the free chlorine concentration is high and low, the operation time of the sterilization unit 10 can be varied. When the free chlorine concentration is high, the operation time of the sterilization unit 10 is shortened, and the free chlorine concentration is reduced. When it is low, the operation time of the sterilization unit 10, that is, the operation time of the blower 20 or the energization time of the electrode 14 and the blower 20 is controlled by the switch 35 so that the operation time of the sterilization unit 10 is lengthened. .

  When the free chlorine concentration is high and low, the operation time of the sterilization unit 10 can be varied. When the free chlorine concentration is high, the operation time of the sterilization unit 10 is shortened, and when the free chlorine concentration is low. The operation time of the sterilization unit 10, that is, the operation time of the blower 20, or the operation time of the electrode 14 and the blower 20 is varied by the operation control switch 35 so that the operation time of the sterilization unit 10 is lengthened. .

  The operation control changeover switch 35 has a changeover switch configuration that switches between strong, medium, and weak operation states. When the concentration of free chlorine is low with the power switch 43 turned on (this is the standard state), the operation control changeover switch 35 is switched to the strong (automatic) position to perform strong operation (automatic operation). The display LED 40G is turned on.

  At the time of shipment of the refrigerator-freezer 1, the operation control changeover switch 35 is set to a strong operation position in which the automatic operation mode that is the standard operation state is set. In this setting, with the power switch 43 turned on, the timer of the control unit 50 energizes the electrode 14 and the blower 20 for a predetermined time (for example, 30 minutes) and to the electrode 14 and the blower 20 for a predetermined time (for example, 4 hours). The electrode 14 and the fan 20 are energized again for a predetermined time (for example, 30 minutes), and the operation of repeating the relationship of de-energizing the electrode 14 and the fan 20 for a predetermined time (for example, 4 hours) is performed. The operation of the sterilization unit 10 can be limited to a predetermined time. For example, when the integration time of energization to the electrode 14 and the blower 20 is 3 hours, the repeated operation may be controlled to stop. Thus, the sterilized air circulates in the storage 1, that is, the area (room) where the refrigerator 1 is installed, and purifies the air in this area (room). In order to stop the operation of the sterilization unit 10, the power switch 43 may be turned off.

  When the free chlorine concentration is high, the operation control changeover switch 35 is switched to a weak operation while the power switch 43 is turned on, so that the display LED 40H is turned on. When a predetermined time (for example, 1 hour) elapses due to the timer of the control unit 50, the weak operation is automatically switched to the strong operation of the standard operation. By this switching, the LED 40H is turned off and the LED 40G is turned on. Further, in a state where the operation control changeover switch 35 is set to a weak operation, the electrode 14 and the blower 20 are energized for a predetermined time (for example, 10 minutes) by the timer of the control unit 50, and the electrode 14 is set for a predetermined time (for example, 4 hours). The operation of repeating the relationship of turning off the power to the blower 20, turning on the electrode 14 and the blower 20 again for a predetermined time (for example, 10 minutes), and turning off the power to the electrode 14 and the blower 20 for a predetermined time (for example, 4 hours). And when the accumulated power supply time to the electrode 14 and the blower 20 reaches a predetermined time (for example, 1 hour), it may be automatically switched to the strong operation of the standard operation. In order to stop the operation of the sterilization unit 10, the power switch 43 may be turned off.

  If the free chlorine concentration is medium, the operation control changeover switch 35 is switched to the medium operation while the power switch 43 is turned on, and the display LED 40H is turned on. When a predetermined time (for example, 1 hour) elapses due to the timer of the control unit 50 during this middle operation, the operation is automatically switched to the strong operation of the standard operation. By this switching, the LED 40H is turned off and the LED 40G is turned on. Further, in a state where the operation control changeover switch 35 is set to the middle operation, the electrode 14 and the blower 20 are energized for a predetermined time (for example, 20 minutes) by the timer of the control unit 50, and the electrode 14 for a predetermined time (for example, 4 hours). The operation of repeating the relationship of cutting off the power supply to the blower 20, turning on the electrode 14 and the blower 20 again for a predetermined time (for example, 20 minutes), and turning off the power supply to the electrode 14 and the blower 20 for a predetermined time (for example, 4 hours). And when the accumulated power supply time to the electrode 14 and the blower 20 reaches a predetermined time (for example, 1 hour), it may be automatically switched to the strong operation of the standard operation. In order to stop the operation of the sterilization unit 10, the power switch 43 may be turned off.

  The operation can be switched between the weak operation and the strong operation (automatic operation mode) as described above also by operating the power switch 43. That is, the power switch 43 has a push-type switch configuration. When the first push is turned on, the power is turned on to enter the strong operation mode (automatic operation mode), and the LED 40G and the LED of the power switch 43 are lit. Then, the second operation turns on the strong operation mode (automatic operation mode) to the weak operation mode, the LED 40G is turned off, and the LED 40H is turned on. Then, when the third operation is turned on, the weak operation mode is terminated and the power is turned off, and the LEDs 40H and the power switch 43 are turned off.

  In the sealed 6 tatami room, if the capacity of the blower 20 is such that the operation time of the blower 20 is approximately 3 hours and the air in the sealed 6 tatami room can be circulated in its entirety, this 6 The disinfection effect of the tatami room can be configured to achieve approximately 99%, and can be applied as a miniaturized disinfection unit 10 that can be normally used.

  In addition, a switch that detects that a person has approached the sterilization unit 10 is provided, and the sterilization unit 10 is activated by such a switch (the electrode 14 and the blower 20 are energized), and the strong operation as described above is performed. The standard operation mode can be set.

  In addition, a 24-hour timer is provided in the control unit 50 of the sterilization unit 10, and the sterilization unit 10 is operated by the 24-hour timer for a predetermined time in the standard operation mode of the strong operation as described above, for example, at night. (Control in which energization is intermittently performed to the electrode 14 and the blower 20) may be performed so that the sterilization of air in an area (room) such as a kitchen is finished in the morning.

  In the above, when the water storage tank 12 is inserted into a predetermined position of the tank chamber 13 and the water storage switch 38 is turned on, the LED 40K is turned on, and the control unit 50 is activated to enable the sterilization unit 10 to operate. By turning on the switch 43, the blower 20 and the electrode unit 14Y are energized. When the water storage tank 12 is pulled out of the tank chamber 13 for water supply or the like, the water storage switch 38 is turned off and the LED 40K is turned on, and the controller 50 is activated to stop energization of the blower 20 and the electrode unit 14Y. Then, when the water storage tank 12 is inserted again into the predetermined position and the water storage switch 38 is turned on, the sterilization unit 10 becomes operable as described above. When the water storage tank 12 is pulled out and the water storage switch 38 is turned off, the power supply is turned off by the operation of the control unit 50. When the water storage tank 12 is inserted again at a predetermined position and the water storage switch 38 is turned on, the power supply is turned off. You may comprise so that the air blower 20 and the electrode unit 14Y may be in an energized state by turning ON the switch 43.

  In the above description, when the power switch 43 is turned on, the LEDs 40E and 40F are lit, so that they can be turned off by turning on the reset switch 44.

  The sterilization unit 10 displays the replacement time of the sterilization element 17. That is, when the power switch 43 is turned on to operate the sterilization unit 10 for the first time, the power supply is turned on for a certain period (for example, 1 year and 6 months) or to operate the sterilization unit 10 for the first time. In order to notify that the time to replace the sterilization element 17 has arrived when the accumulated time of the operation time of the sterilization unit 10 has reached a certain period (for example, 1 year and 6 months) after the switch 43 is turned on. The LED 40E is turned on by the operation of the control unit 50. The LED 40E can be turned off by turning on the reset switch 44 with the sterilization element 17 replaced.

  Further, the sterilization unit 10 displays the replacement time of the suction filter 21. That is, when the power switch 43 is turned on to operate the sterilization unit 10 for the first time, a certain period (for example, one month) has elapsed, or the power switch 43 is used to operate the sterilization unit 10 for the first time. In order to notify that the replacement time of the suction filter 21 has arrived when the accumulated time of the operation time of the sterilization unit 10 has reached a certain period (for example, a time of one month) since turning ON The LED 40F is turned on by the operation of 50. The LED 40F can be turned off by turning on the reset switch 44 with the suction filter 21 replaced.

As described above, the sterilization unit 10 has the handle portion 12A and the handle portion 21A, respectively, with the blower outlet door 30B open, and allows the water storage tank 12 and the suction filter 21 to be taken in and out from the front. The storage tank 12 and the suction filter 21 are put in and out of the tank chamber 13 and the filter chamber 22 by sliding.

  The present invention is particularly characterized in the configuration in which the water storage tank 12 is slid in and out of the tank chamber 13 and the relationship with the open / close valve 27. Hereinafter, this configuration will be described. Rib-shaped protrusions 12T that protrude downward from the left and right side portions of the water storage tank 12 and extend in the front-rear direction are provided at the left and right side portions of the opening / closing valve 27 so as to slide on the substantially flat bottom surface 131 of the tank chamber 13. . In consideration of the stable sliding of the water storage tank 12 along the bottom surface 131 of the tank chamber 13 and the ease of inserting the water storage tank 12 into the sterilization unit 10 on the top surface of the refrigerator-freezer 1, In the ridge 12T, the right and left rear ridges 12T1 and the left and right front ridges 12T2 are integrally formed in the water storage tank 12.

  As described above, when the water storage tank 12 is inserted into a predetermined position of the tank chamber 13, the opening / closing valve 27 is pushed up and opened by the projection 28, and the water in the water storage tank 12 enters the water storage section 13A and is kept at a constant water level. It is a configuration. For this reason, left and right side portions of the bottom surface 131 of the tank chamber 13 are provided with drop portions 132 into which the left and right rear protrusions 12T1 and the left and right front protrusions 12T2 fall respectively. In the sagging portion 132, a sagging portion 132G in which the left and right rear ridge 12T1 falls is formed in a left and right depression, and a depression portion 132H in which the left and right front ridge 12T2 falls is formed in a left and right depression.

  The left and right rear ridges 12T1 form an inclined surface 12T11 whose end on the water tank insertion port 23 side (front side) is inclined in the insertion direction (rear) of the water tank 12 from the upper part to the lower part. The left and right front ridges 12T2 form an inclined surface 12T21 whose end on the water storage tank insertion port 23 side (front side) is inclined in the insertion direction (rear) of the water storage tank 12 from the top to the bottom. .

  In order to reduce the vertical thickness of the water storage tank 12 including the open / close valve 27, the open / close valve 27 is configured to be accommodated in the water storage tank 12. This configuration will be described. At the water supply port 123 formed at the bottom near the tip of the water storage tank 12 (closer to the insertion destination side), an annular mounting portion 124 is provided with an internal thread 124 </ b> A for mounting the opening / closing valve 27 on the inner surface.

  In the opening / closing valve 27, a movable valve 272 biased by a spring 273 held by a spring holder 274 so as to close the water supply passage 27A is housed in a valve housing 271. The valve housing 271 is formed in an annular shape integrally projecting from a base plate portion 271A in which a plurality of water supply passages 27A are arranged circularly at substantially equal angular intervals, and a movable valve 272 that opens and closes the circular water supply passage 27A is provided on the base plate portion 271A. It is supported. That is, an operating portion 272A integrated with the movable valve 272 extends downward from the center portion, and inside the circular water supply passage 27A, the operating portion 272A penetrates the substrate portion 271A so as to move up and down, and the movable valve 272 The substrate portion 271A is supported so as to be movable up and down. A male screw 271 </ b> B that engages with the female screw 124 </ b> A of the attachment portion 124 is formed on the outer peripheral portion of the valve housing 271.

  An annular flange 271A1 that is in close contact with the lower surface of the bottom wall 12B of the water storage tank 12 is formed on the outer periphery of the substrate portion 271A by screwing the male screw 271B and the female screw 124A. The close contact between the bottom wall 12B of the water storage tank 12 and the annular flange 271A1 is achieved by an annular seal packing 275 interposed therebetween.

  The spring holder 274 has an inverted cup shape that covers the movable valve 272 from above. The spring holder 274 has a lower end of the spring holder 274 on the lower side of a holding piece 276 that protrudes inwardly above a water passage hole 279 described later formed in the valve housing 271. When the locking portion 274A is locked, the valve housing 271 is attached. The movable valve 272 is fitted so that a locking portion 272B formed on the outer peripheral edge thereof moves up and down in the guide groove 274B formed in the spring holder 274. Since the left and right width of the locking portion 274A is sufficiently shorter than the left and right width of the water passage hole 279, the locking portion 274A does not block the water passage hole 279. The locking portion 274A may be formed on the inner surface of the valve housing 271 at a position away from the water passage hole 279.

  The opening / closing valve 27 has a combined configuration shown in FIG. As shown in FIG. 27, the opening / closing valve 27 having the combined configuration shown in FIG. 26 has a mounting recess formed in the bottom wall 12B of the water storage tank 12 via the seal packing 275 by screwing of the male screw 271B and the female screw 124A. The annular flange 271A1 of the base plate portion 271A is in close contact with the bottom wall 12B, and the open / close valve 27 is attached to the water supply port 123 formed in the bottom wall 12B of the water storage tank 12. In this state, as shown in FIG. 27, the movable valve 272 and the spring 273 are stored in the water storage tank 12, and the water supply path 27 </ b> A is closed by the movable valve 272.

  As described above, when the water storage tank 12 is inserted into the tank chamber 13, the left and right rear ridges 12T1 fall into the drop portion 132G, and the left and right front ridges 12T2 fall into the drop portion 132H. The tank 12 is held at a predetermined position in the tank chamber 13. In this state, the open / close valve 27 is opened as shown in FIG. In other words, the movable valve 272 is pushed up against the spring 273 by the protrusion 28 via the operating portion 272A, and the movable valve 272 opens the water supply path 27A.

  As shown in FIG. 28, when the open / close valve 27 is opened, the water in the water storage tank 12 must be supplied to the lower water storage portion 13B through the water supply passage 27A. For this reason, a water passage hole communicating with the valve housing 271 attached to the water storage tank 12 is formed in the outer peripheral portion of the valve housing 271 and the attachment portion 124 by screwing the male screw 271B and the female screw 124A. . Specifically, a plurality of water passage holes 278 and 279 are formed through the lower portion of the female screw 124A of the attachment portion 124 and the lower portion of the male screw 271B of the valve housing 271. Particularly, by providing the water passage holes 278 and 279 so as to pass through the portions of the female screw 124A and the male screw 271B, the water passage holes 278 and 279 are located within the coupling range of the water storage tank 12 and the open / close valve 27. Thus, the height of the coupling range between the water storage tank 12 and the open / close valve 27 can be reduced as compared with the case where it is provided in a portion other than the portions of the female screw 124A and the male screw 271B.

  The pitch of the water passage holes 278 (substantially equal angular intervals) and the pitch of the water passage holes 279 (substantially uniform angular intervals) are arranged at a pitch at which the water passage holes 278 and 279 communicate with each other in at least one place. . In the embodiment, the pitch of the water holes 278 (substantially equal angular intervals) and the pitch of the water holes 279 (substantially equal angular intervals) are different pitches, and five water holes 278 are arranged at a pitch of 72 degrees. The four water holes 279 are arranged at a pitch of 120 degrees, and as a result, as shown in FIG. 32, the water holes 278 and 279 communicate with each other at least at one place. As described above, when the opening / closing valve 27 is attached to the water storage tank 12, one of the water holes 278 and 279 is connected so that the water holes 278 and 279 communicate with each other at least at one place. What is necessary is just to set it as the structure which has arrange | positioned the water hole by odd number as an even number, and has arrange | positioned the other water passage hole as an even number.

  In order to prevent the opening / closing valve 27 from being opened while the water storage tank 12 is being taken in and out of the tank chamber 13, the operating portion 272A of the movable valve 272 is prevented from being pushed up. For this reason, on the bottom surface of the water storage tank 12, an annular protective wall 280 having a longer protruding length than the operating portion 272A is integrally formed around the operating portion 272A. Accordingly, the protruding length of the operating portion 272A downward from the bottom surface of the water storage tank 12 is slightly shorter than the protruding length of the protective wall 280 downward from the bottom surface of the water storage tank 12, so as shown in FIG. When the storage tank 12 is taken in and out of the tank chamber 13, the lower end of the protective wall 280 comes into contact with the bottom surface of the tank chamber 13 before the lower end of the operating portion 272 A contacts the bottom surface 131 of the tank chamber 13. Since it contacts 131, the movable valve 272 does not open the water supply path 27A.

  Further, as described above, since the opening / closing valve 27 is disposed at a position closer to the insertion destination side (front end side) in the water storage tank 12, the protective wall 280 is also disposed corresponding thereto. In this state, the left and right rear ridges 12T1 extend to the insertion destination side (front end side) of the water storage tank 12 across both the left and right sides of the protective wall 280, and the protruding length of the protective wall 280 downward from the bottom surface of the water storage tank 12 In addition, the protruding length from the bottom surface of the water storage tank 12 of the right and left rear ridges 12T1 corresponding thereto is slightly longer. For this reason, as shown in FIG. 27, a slight difference S2 occurs between the two, and when the water storage tank 12 is taken in and out of the tank chamber 13, before the lower end of the protective wall 280 contacts the bottom surface 131 of the tank chamber 13, Since the lower ends of the left and right rear protrusions 12T1 are in contact with the bottom surface 131 of the tank chamber 13, the protective wall 280 does not obstruct the removal of the water storage tank 12 into or from the tank chamber 13.

  In such a configuration, a case where the water storage tank 12 is slid in and out of the tank chamber 13 with the sterilization unit 10 attached to the upper surface of the refrigerator 1 will be described. As described above, with the air outlet door 30B opened to the state where the handle portion 12A is detached from the stopper portion 30B11, the protrusions on the left and right rear portions of the water storage tank 12 are held with the handle portion 12A as shown in FIG. 12T1 is placed on the upper surface of the substrate 30A, and the water storage tank 12 faces the tank insertion port 23.

  From this state, as shown in FIG. 34, with the handle portion 12A and the water storage tank 12 lifted in a substantially horizontal state, the left and right rear protrusions 12T1 are used as the upper surface of the substrate 30A with the upper surface of the substrate 30A serving as a guide surface. The water storage tank 12 is inserted into the tank chamber 13 while sliding. By this insertion, the left and right rear ridges 12T1 slide on the bottom surface 131 of the tank chamber 13, and then the left and right front ridges 12T2 slide on the bottom surface 131 of the tank chamber 13, so that the water storage tank 12 is in a substantially horizontal state. It reaches the back side of the tank chamber 13. In this case, the operating portion 272A comes into contact with the bottom surface 131 of the tank chamber 13 in accordance with the above-described relationship between the protrusions 12T1 on the left and right rear portions, the protective wall 280, and the protruding length of the operating portion 272A from the bottom surface of the water storage tank 12. The water storage tank 12 can be inserted into the tank chamber 13 smoothly with the protrusions 12 </ b> T <b> 1 at the left and right rear portions.

  35, when the water storage tank 12 reaches the back side of the tank chamber 13, as shown in FIG. Proximity to. In this state, the inclined surface 12T11 of the right and left rear ridge 12T1 contacts the front end of the falling portion 132G, and the inclined surface 12T21 of the left and right front ridge 12T2 contacts the front end of the falling portion 132H and puts water. Due to the weight of the water storage tank 12, the left and right rear ridges 12T1 fall into the drop portion 132G and the left and right front ridges 12T2 fall into the drop portion 132H. Then, in a state where the water storage tank 12 is housed in a predetermined position of the tank chamber 13, that is, in a final lowered state, as shown in FIG. 36, the protective wall 280 and the operating portion 272A fall into the water storing portion 13A, and the operating portion 272A Since it abuts against the protrusion 28 and is pushed up against the spring 273, the movable valve 272 is pushed up accordingly, and the water supply passage 27A is opened. Thus, the water in the water storage tank 12 enters the spring holder 274 through the water passage hole 278 and the water passage hole 279, is supplied from the water supply path 27A to the water storage portion 13A, and is kept at a constant water level.

  Further, in this final depressed state, the upper part on the insertion destination side (front end side) of the water storage tank 12 sinks into the recess 282 formed on the lower side of the inclined surface 281, so that vibration due to the operation of the refrigerator / freezer 1 and opening / closing of the door As a result, the water storage tank 12 is prevented from jumping up due to vibration and the like, and the state of the on-off valve 27 can be stably maintained.

  When the water storage tank 12 is pulled out from the tank chamber 13, the inclined surface 12T11 of the left and right rear ridge 12T1 comes into contact with the front end of the falling portion 132G, and the left and right front ridge 12T2 While the inclined surface 12T21 is in contact with the front end of the sagging portion 132H, the upper portion of the insertion destination side (front end side) of the water storage tank 12 is released from the recess 282, and the water storage tank 12 rises and reaches the state of FIG. The water storage tank 12 can be pulled out from the tank chamber 13. Also in the case of this drawer, the protruding lengths of the right and left rear ridges 12T1, the protective wall 280, and the operating portion 272A from the bottom surface of the water storage tank 12 are such that the operating portion 272A has the bottom surface 131 of the tank chamber 13. The water storage tank 12 can be smoothly inserted into the tank chamber 13 without touching the left and right rear ridges 12T1.

  Further, instead of forming the inclined surface 12T11 on the left and right rear ridges 12T1, the front end of the falling portion 132G is an inclined surface, and instead of forming the inclined surface 12T21 on the left and right front ridges 12T2, the falling portion 132H. The same operation as described above can be obtained even with a configuration in which the front end of each is an inclined surface. Further, if an inclined surface 12T12 opposite to the inclined surface 12T11 is formed on the insertion destination side of the left and right rear protrusions 12T1, the left and right rear protrusions 12T1 of the water storage tank 12 are formed on the upper surface of the substrate 30A as shown in FIG. Even when the left and right rear protrusions 12T1 collide with the front end portion of the substrate 30A, the collision resistance is reduced by the inclined surface 12T12, and the water storage tank is caused by the mutual slide between the front end portion of the substrate 30A and the inclined surface 12T12. 12 can be easily inserted into the state shown in FIG.

  Further, if an inclined surface 12T22 opposite to the inclined surface 12T21 is formed on the insertion destination side of the right and left front protrusions 12T2, the right and left front protrusions are formed when the state shown in FIG. 34 is reached. Even if 12T2 collides with the front end portion of the substrate 30A, the collision resistance is reduced by the inclined surface 12T22, and the water storage tank 12 is inserted into the inner side of the tank chamber 13 by mutual sliding between the front end portion of the substrate 30A and the inclined surface 12T22. It becomes easy to do.

  The sterilization unit of the present invention and the configuration related thereto are not limited to the above-described embodiment, and can be applied to various forms without departing from the technical scope of the present invention.

Front view of a refrigerator-freezer in which a sterilization unit according to the present invention is placed on the upper surface (Example 1) The top perspective view of the freezer refrigerator which mounted the sanitization unit concerning the present invention on the upper surface (example 1) An enlarged front view of an operation control part of a sterilization unit concerning the present invention (Example 1) An enlarged bottom view of an operation control part of a sterilization unit concerning the present invention (Example 1) (Example 1) The upper surface perspective view which opened about 45 degree | times the rotation cover of the disinfection unit mounted in the upper surface of the refrigerator-freezer which concerns on this invention (Example 1) The upper surface perspective view which opened the rotation cover of the disinfection unit mounted on the upper surface of the refrigerator-freezer which concerns on this invention substantially fully (Example 1). (Example 1) The top perspective view which shows the state which pulled out the suction filter and the water storage tank in the state which opened the rotation cover of the disinfection unit mounted in the upper surface of the refrigerator-freezer concerning this invention (Example 1) The vertical section side view of the central part of the sterilization unit placed on the upper surface of the refrigerator-freezer according to the present invention (Example 1) The center part vertical side view of the state which opened the rotation cover of the disinfection unit mounted on the upper surface of the refrigerator-freezer concerning this invention about 45 degree | times (Example 1) The top perspective view which shows the state which took out the cassette from the microbe removal unit which concerns on this invention (Example 1) It is a top perspective view which shows the state which opened the rotation cover which concerns on this invention, removed the water storage tank and the suction filter, and took out the cassette from the disinfection unit. Example 1 It is a top perspective view which shows the state which removed the right and left both sides of the decorative panel of the front surface of the bacteria elimination unit which concerns on this invention. Example 1 It is an expansion top perspective view which shows the state which removed the left side part of the decorative panel of the front surface of the sterilization unit which concerns on this invention. Example 1 It is a top view in the state where the upper cover of the sterilization unit concerning the present invention and the upper cover of a cassette were removed. Example 1 It is the upper surface perspective view of the state which removed the upper cover of the sanitization unit concerning the present invention, and the upper cover of a cassette. Example 1 It is the disassembled upper surface perspective view which decomposed | disassembled the principal part of the bacteria elimination unit which concerns on this invention. Example 1 It is the decomposition | disassembly upper surface perspective view which decomposed | disassembled to detail the disinfection unit which concerns on this invention. Example 1 It is a top perspective view of the cassette of the sterilization unit according to the present invention. Example 1 It is the decomposition | disassembly upper surface perspective view which decomposed | disassembled the cassette of the microbe elimination unit which concerns on this invention. Example 1 It is the left front perspective view of the state where the upper cover of the sterilization unit concerning the present invention and the upper cover of a cassette were removed, and the water storage tank was pulled forward. Example 1 It is the right front perspective view of the state where the upper cover of the sterilization unit concerning the present invention and the upper cover of a cassette were removed, and the water storage tank was pulled out forward. Example 1 It is the downward perspective view of the opening-and-closing valve and water storage tank which were removed concerning the present invention. Example 1 It is a downward perspective view of the water storage tank which attached the opening-and-closing valve concerning the present invention. Example 1 It is a top perspective view of the valve housing of the on-off valve according to the present invention. Example 1 It is a side perspective view of the valve housing of the on-off valve concerning the present invention. Example 1 It is a vertical side view which shows the relationship between the internal structure of the on-off valve which concerns on this invention, and the on-off valve attachment part of a water storage tank. Example 1 It is a vertical side view of the state which attached the on-off valve of FIG. 26 to the water storage tank. Example 1 It is a vertical side view which shows the state which the movable valve of the on-off valve of the state of FIG. 27 pushed up by protrusion of the water storage part. Example 1 It is a vertical side view of a water storage tank and an opening / closing valve showing the relationship between the opening / closing valve and the water passage portion of the water storage tank according to the present invention. Example 1 It is a vertical side view which shows the structure of the water flow part of the state which attached the on-off valve of FIG. 29 to the water storage tank. Example 1 It is a vertical side view which shows the state by which the movable valve of the on-off valve of the state of FIG. 30 was pushed up by protrusion of the water storage part. Example 1 It is a top view explaining the communication state of the water flow hole in the state by which the on-off valve is attached to the water storage tank which concerns on this invention. Example 1 It is a vertical side view of the state which made the water storage tank face the tank chamber inlet_port | entrance of the bacteria elimination unit which concerns on this invention. Example 1 It is a vertical side view of the state which started inserting the water storage tank into the tank chamber inlet concerning this invention. Example 1 It is a vertical side view of a state in which a water storage tank is inserted into the tank chamber according to the present invention and a protrusion of the water storage tank reaches a drop portion of the tank chamber. Example 1 It is a vertical side view of the state in which the ridge of the water storage tank concerning the present invention falls into the falling part of the tank room, and the water storage tank is set in the tank room. Example 1

Explanation of symbols

1 Refrigerated refrigerator (storage)
2 ... Refrigerated refrigerator body (storage body)
3 ... Refrigerator room 4 ... Vegetable room 5 ... Freezer room 7, 7A, 7B ... Refrigerator room door 8 ... Vegetable room door 9 ... · Freezer compartment door 10 ··· Disinfection unit 11 ··· Housing 11A · · · Housing body 11B · · · Housing housing lid 11B1 · · · Cassette loading and unloading window 11C · · · surrounding wall 11K · · · cassette 11K1 ··· cassette body 11K2 ················································································································ Inclined surface 12T2 ··· Projection strip 12T21 ··· Inclined surface of projection 12T2 123 ··· Water supply port 124 ··· Mounting portion 124A ··· Female screw 13 ··· Tank chamber 13A ···・Water unit 13B · · · recess 132G · · drop portion 132H · · drop 14 ... electrode 14Y · · · electrode unit 15 ... electrolysis chamber (electrolysis unit)
16A, 16B ... Water passage 17 ... Disinfecting element 17A ... Air passage 17B ... Suction element 18 ... Water receiving part 19 ... Blower chamber 20 ... Blower 20G ... Anti-vibration rubber 21 ... Suction filter 21A ... Handle part 21E ... Filter element 21H1 ... Filter holder 21H2 ... Grid-like presser plate 22 ... Filter room 23 ... Tank insertion port 24 ··· Blowing outlet 25 ··· Filter insertion port 26 · · · Air suction port 27 · · · Open / close valve 27A · Water supply channel 271 · · · Valve housing 271A · · · substrate 271B ··· Male screw 272 ··· Movable valve 272A ··· Actuator 273 · · · Spring 278 ··· Water passage 279 · · · Water passage 28 ··· Projection 280 · · · Prevention Wall 30 ... decorative panel 30A ··· substrate 30B ··· blower exit door (the upper wall of the decorative panel)
30B3 ... Protective action part 30C ... Cover 31 ... Blower outlet 32A ... Suction filter insertion part 33A ... Water storage tank insertion part 35 ... Disinfection unit operation control switch 35A・ ・ ・ Strong operation switch 35B ・ ・ ・ Medium operation switch 35C ・ ・ ・ Weak operation switch 36 ・ ・ ・ ・ ・ ・ Sterilization element loading / unloading window 37 ・ ・ ・ ・ ・ ・ Electric circuit board 40 ・ ・ ・ ・ ・ ・ Display unit 40E ・ ・ ・Disinfection element replacement display LED
40F ... Suction filter replacement display LED
40G ... LED for automatic operation display
40H ... LED for weak driving status display
40K ... Water supply LED
43 ... Power switch 44 ... Reset switch 46 ... Control circuit 47A ... Connector 47B ... Connector 47C ... Connector 50 ... Control unit HJ ... Hinge Device HJ1 ・ ・ ・ Hinge mounting screw

Claims (3)

  When a water storage tank that has an open / close valve at the bottom and collects tap water is inserted and placed in the tank chamber from the water tank insertion port, the open / close valve opens and water in the water storage tank is supplied to the electrolysis unit. In the sterilization unit that performs sterilization of the surroundings by forced air that passes through the sterilization element that forms an air passage between the suction element portions that suck up the electrolyzed water generated in step 1, the open / close valve is a spring that closes the water supply path. The urged movable valve is housed in a valve housing, and when the water storage tank is inserted into a predetermined position of the tank chamber, the movable valve is pushed upward to open the water supply path. A male screw is formed on the outer peripheral portion, and a mounting portion in which a female screw is formed on the bottom wall of the water storage tank to be engaged with the male screw. A water passage hole is formed in the outer peripheral portion of the valve housing and the attachment portion, and is communicated in a state where the valve housing is attached to the water storage tank by screwing of the male screw and the female screw. The sterilization unit.   The valve housing includes a substrate portion in which a plurality of the water supply passages are formed in a circular arrangement, and the movable valve abuts on the upper surface of the water supply passage by the spring bias and extends downward from a central portion to have the circular arrangement. An operating portion penetrating the substrate portion is provided inside the water supply passage, and an annular flange is formed on the outer periphery of the substrate portion so as to be in close contact with the bottom surface of the bottom wall of the water storage tank by screwing of the male screw and the female screw. The sterilizing unit according to claim 1, wherein   Provided on the bottom surface of the water storage tank is a protective wall having a longer protrusion downward than the operating portion at the periphery of the operating portion, and on both left and right sides of the protective wall so as to slide on the bottom surface of the tank chamber. A protrusion that protrudes downward from the water storage tank and extends in the front-rear direction is provided, and the protrusion length of the protrusion corresponding to the protrusion is longer than the protrusion length of the protective wall downward of the water storage tank. The sterilization unit according to claim 1 or 2, wherein

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