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JPH06249560A - Refrigerator - Google Patents

Refrigerator

Info

Publication number
JPH06249560A
JPH06249560A JP6120993A JP6120993A JPH06249560A JP H06249560 A JPH06249560 A JP H06249560A JP 6120993 A JP6120993 A JP 6120993A JP 6120993 A JP6120993 A JP 6120993A JP H06249560 A JPH06249560 A JP H06249560A
Authority
JP
Japan
Prior art keywords
ice
water
chamber
water supply
refrigerator
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP6120993A
Other languages
Japanese (ja)
Inventor
Minoru Takano
穣 高野
Junichi Kubota
順一 久保田
Tatsuhiko Yamaguchi
竜彦 山口
Fujiko Masuda
不二子 益田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sanyo Electric Co Ltd
Original Assignee
Sanyo Electric Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sanyo Electric Co Ltd filed Critical Sanyo Electric Co Ltd
Priority to JP6120993A priority Critical patent/JPH06249560A/en
Publication of JPH06249560A publication Critical patent/JPH06249560A/en
Pending legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C2400/00Auxiliary features or devices for producing, working or handling ice
    • F25C2400/14Water supply
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2323/00General constructional features not provided for in other groups of this subclass
    • F25D2323/122General constructional features not provided for in other groups of this subclass the refrigerator is characterised by a water tank for the water/ice dispenser

Landscapes

  • Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)

Abstract

PURPOSE:To obtain a refrigerator with an automatic ice-making device which produces hygienic, good quality ice while a water receiving container in which a constant volume of water from a water supply tank is stored is maintained in a hygienic condition without growth of mold. CONSTITUTION:An ice making tray 30 and an ice storage container 31 are housed in an ice-making chamber 19 in a freezing compartment 12 of a refrigerator, and a water receiving container 29 with a water supply tank 28 is situated in a water supply chamber 21 in a refrigerating compartment 13. Water is supplied to the ice-making tray 30 from the water receiving container 29 by a pump 32, and after ice is made, the ice-making tray 39 is upside down for dewatering ice. An ultraviolet lamp is provided to generate light rays having a wave length which generates ultraviolet rays and ozone that have sterilizing effects, and the water receiving container 29 is sterilized and prevented from getting moldy by the combination use of ultraviolet rays and ozone.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は自動製氷装置を装備した
冷蔵庫に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator equipped with an automatic ice making device.

【0002】[0002]

【従来の技術】今日、冷蔵庫に自動製氷装置を具備させ
たものがある。その冷蔵庫は例えば特開平2−1951
67号公報等に開示されるように、冷蔵室内に給水タン
クと水受容器を装着する一方、冷凍室内に製氷皿と貯氷
容器を装着し、前記水受容器に貯溜した一定量の水をポ
ンプ及び給水管によって前記製氷皿に供給し、製氷皿を
冷却すると共に、製氷後に製氷皿を反転および捩り操作
することにより製氷皿内の氷を貯氷容器に貯えるよう構
成されている。
2. Description of the Related Art Today, some refrigerators are equipped with an automatic ice making device. The refrigerator is disclosed in, for example, JP-A-2-1951.
As disclosed in Japanese Unexamined Patent Publication No. 67, etc., a water tank and a water receiver are installed in a refrigerating chamber, an ice tray and an ice storage container are installed in a freezing chamber, and a fixed amount of water stored in the water receiver is pumped. And, the ice tray is supplied to the ice tray through a water supply pipe to cool the ice tray, and the ice tray is stored in the ice storage container by inverting and twisting the ice tray after ice making.

【0003】ここで一般の自動製氷装置においては貯氷
容器内の氷が消費されて一定量より少くなったら、自動
的に製氷が始まりその補給が遅滞なく行なわれることが
必要である。そのためには、製氷皿に常に一定量の水を
すぐ供給できるように、前記水受容器には常に充分な水
を貯溜しておく必要がある。
Here, in a general automatic ice making device, when the ice in the ice storage container is consumed and becomes less than a certain amount, it is necessary to automatically start ice making and supply the ice without delay. For that purpose, it is necessary to always store sufficient water in the water receiver so that a constant amount of water can be immediately supplied to the ice tray.

【0004】[0004]

【発明が解決しようとする課題】しかしながら水受容器
に製氷用の水を溜めて置くと、水受容器の水と空気の境
目付近あるいは容器の周囲フランジ部の水濡れした部分
等で黴等の発生が見受けられることがある。
However, when water for ice-making is stored in the water receiver, the water etc. near the boundary between the water and the air in the water receiver or the wetted portion of the peripheral flange of the container may cause mold and the like. Occurrence may occur.

【0005】また製氷用水としては、塩素が溶解し殺菌
を行なわれている水道水が通常使用されるが、長時間溜
め置きした場合等は、塩素は空気中に放出してしまい殺
菌効果がなくなってしまい、黴の発生し易い悪い状況に
陥いってしまう。
As the ice-making water, tap water in which chlorine is dissolved and sterilized is usually used, but when stored for a long time, chlorine is released into the air and the sterilizing effect is lost. It causes the mold to get into a bad situation where mold is likely to occur.

【0006】又最近のグルメブーム等を反映し、水及び
氷の味についても注目が集まり、そのため例えば水受容
器にセットされる給水タンクには、その栓体あるいはタ
ンクからの水受容器の貯水部に至る通路に活性炭による
浄水装置を内蔵させ水中の塩素を除去することにより、
無味、無臭の氷を作るようにもなっている。しかしなが
ら、このような活性炭フィルター等の浄水装置で塩素分
を除去してしまうことが黴が発生しやすい原因の1つと
もなっている。さらに、冬季等貯氷容器内の氷の量が一
定量を越える状態(例えば氷を使用しない状態)が長時
間継続した場合には、製氷動作が行われず水受容器内の
水の循環がなく、黴が発生しやすくなる。
Reflecting the recent gourmet boom and the like, attention has also been paid to the taste of water and ice. Therefore, for example, in a water supply tank set in a water receiver, the plug or the water receiver of the water receiver from the tank is stored. By installing a water purification device with activated carbon in the passage leading to the section and removing chlorine in the water,
It is also made to make tasteless and odorless ice. However, the removal of chlorine content with such a water purifier such as an activated carbon filter is one of the causes of easily causing mold. Furthermore, when the amount of ice in the ice storage container exceeds a certain amount (for example, in a state where ice is not used) for a long time, such as in winter, the ice making operation is not performed and there is no water circulation in the water receiver. Molds are more likely to occur.

【0007】本発明はかかる点に鑑み成されたもので、
オゾンを発生させる或る波長の光(紫外線)を発する紫
外線ランプを使用し、オゾンの強力な酸化力に基づく殺
菌作用の併用により、水受容器等をより効果的に殺菌
し、黴等の発生を防止するようにしたものである。
The present invention has been made in view of the above points,
By using an ultraviolet lamp that emits light of a certain wavelength (ultraviolet rays) that generates ozone, and by combining the sterilization action based on the strong oxidizing power of ozone, the water receptor etc. is sterilized more effectively, and the generation of mold etc. Is to prevent.

【0008】[0008]

【課題を解決するための手段】本発明は冷凍室内に形成
された製氷室と、冷蔵室内に形成された給水室とを備
え、前記製氷室に配置された製氷皿及び貯氷容器と、前
記給水室に配置された給水タンク及びこのタンクの水を
一定量貯溜する水受容器とを有し、この水受容器内の水
を前記製氷皿に供給して自動的に製氷を行う冷蔵庫にお
いて、この水受容器の上方に収納スペースを画成し、こ
の収納スペース内に、オゾン発生作用のある波長の紫外
線を発する紫外線ランプを設けたことを特徴としたもの
である。
The present invention comprises an ice making chamber formed in a freezing chamber and a water supply chamber formed in a refrigerating chamber, and an ice tray and an ice storage container arranged in the ice making chamber, and the water supply. In a refrigerator having a water supply tank arranged in a chamber and a water receiver for storing a fixed amount of water in the tank, and supplying water in the water receiver to the ice tray to automatically make ice, A storage space is defined above the water receiver, and an ultraviolet lamp that emits ultraviolet rays having a wavelength having an ozone generating action is provided in the storage space.

【0009】[0009]

【作用】水受容器には紫外線が照射される。その場合紫
外線が直接当る部分では殺菌が十分に成される。しかし
紫外線が水受容器の全ての部分に当らないが、そのよう
な当らない部分にはオゾンによる殺菌が期待できるの
で、より万全に水受容器、その他の構成部品の殺菌、そ
の防黴が可能となり、それらを清潔に管理して、良質の
氷が提供できるようになる。
[Function] The water receptor is irradiated with ultraviolet rays. In that case, sterilization is sufficiently performed in the portion directly exposed to ultraviolet rays. However, although UV rays do not hit all parts of the water receiver, sterilization by ozone can be expected in such parts that do not hit, so it is possible to completely sterilize the water receiver and other components, and prevent mold. Then, they can be managed cleanly and good quality ice can be provided.

【0010】[0010]

【実施例】以下本発明の実施例を図に基づいて説明す
る。
Embodiments of the present invention will be described below with reference to the drawings.

【0011】1は冷蔵庫である。この冷蔵庫は外箱2と
内箱3とこれらの間に充填された発泡断熱材4とで形成
された断熱箱体5と、この断熱箱体5の開口を開閉自在
に閉塞する扉体6,7,8,9,10,11と、庫内を
冷凍室12と冷蔵室13とに区画する仕切部材14と、
冷蔵室13内を更に氷温室15と野菜室16とに区画す
る仕切板17,18と、前記冷凍室12内に画成された
製氷室19及び急冷室20と、前記冷蔵室13内に画成
された給水室21と、前記冷凍室12の後方に形成され
た冷却室に設置された冷却器22及びファン23と、冷
蔵室13への冷気流量を調整するダンパー装置24とか
ら構成される。また、製氷室19、冷凍室12、及び冷
蔵室13の各々の背面には冷気の吹出口25,26,2
7が形成されている。
Reference numeral 1 is a refrigerator. This refrigerator has an outer box 2, an inner box 3, and a heat insulating box body 5 formed of a foamed heat insulating material 4 filled between them, and a door body 6 for opening and closing the opening of the heat insulating box body 5. 7, 8, 9, 10, 11 and a partition member 14 for partitioning the interior of the refrigerator into a freezer compartment 12 and a refrigerating compartment 13.
Partition plates 17 and 18 for further partitioning the interior of the refrigerating compartment 13 into an ice greenhouse 15 and a vegetable compartment 16, an ice making compartment 19 and a quenching compartment 20 defined in the freezing compartment 12, and an interior of the refrigerating compartment 13. It is composed of a water supply chamber 21 formed, a cooler 22 and a fan 23 installed in a cooling chamber formed behind the freezing chamber 12, and a damper device 24 for adjusting the flow rate of cold air to the refrigerating chamber 13. . In addition, cold air outlets 25, 26, 2 are provided on the back surfaces of the ice making chamber 19, the freezing chamber 12, and the refrigerating chamber 13, respectively.
7 are formed.

【0012】また、扉体6と7,及び8と9は各々外側
端が枢支された観音開式のドアであり、扉体10及び1
1は引出式のドアである。
The door bodies 6 and 7, and 8 and 9 are double-door type doors whose outer ends are pivotally supported.
1 is a drawer type door.

【0013】さらにこの冷蔵庫は、冷蔵室13内の下隅
部の一画に給水室21を設け、冷凍室12内の一画に製
氷室19が設けてあり、この両室に配置された自動製氷
装置で自動的に製氷するようにしてある。即ち、この自
動製氷装置は、給水室21内の上部に配置した給水タン
ク28と、この給水タンク28の下方に配置され所定量
の水の計量を行う水受容器29と、この水受容器29に
貯溜した一定量の水を後述の製氷皿30に供給するポン
プ32及び断熱材4に埋設された給水管33と、製氷室
19内の上部に設置された製氷皿30と、この製氷皿3
0の下方に設置された貯氷容器31と、製氷後に製氷皿
30を反転させつつ捩ることにより製氷皿30内の氷を
落下させる駆動装置34とからなる。
Further, in this refrigerator, a water supply chamber 21 is provided in an image in the lower corner of the refrigerating chamber 13 and an ice making chamber 19 is provided in an image in the freezing chamber 12, and automatic ice making units arranged in both chambers are provided. The device automatically makes ice. That is, this automatic ice making device has a water supply tank 28 arranged in an upper part of the water supply chamber 21, a water receiver 29 arranged below the water supply tank 28 for measuring a predetermined amount of water, and the water receiver 29. Pump 32 for supplying a fixed amount of water stored in the ice tray 30 described later and a water supply pipe 33 buried in the heat insulating material 4, the ice tray 30 installed in the upper portion of the ice making chamber 19, and the ice tray 3
It is composed of an ice storage container 31 installed below 0 and a drive device 34 for dropping the ice in the ice tray 30 by twisting the ice tray 30 while inverting the ice tray 30 after making the ice.

【0014】詳述するとまず給水室21は、箱状の容器
本体35と、これを被うカバー36と、前記容器本体3
5の前面開口を開閉する扉37と、容器本体35を上下
に仕切る仕切板38と、前記仕切板38の下側に装着さ
れる水受容器29と、仕切板38の上側に装着される給
水タンク28とで形成される。カバー36の一側面には
棚40を載置するリブ41が形成されている。
More specifically, first, the water supply chamber 21 includes a box-shaped container body 35, a cover 36 covering the container body 35, and the container body 3.
5, a door 37 for opening and closing the front opening of the container 5, a partition plate 38 for vertically partitioning the container body 35, a water receiver 29 mounted on the lower side of the partition plate 38, and a water supply mounted on the upper side of the partition plate 38. It is formed by the tank 28. A rib 41 on which the shelf 40 is placed is formed on one side surface of the cover 36.

【0015】給水タンク28の下面にはパッキン42と
弁体43とキャップ44とバネ45及びリング46から
なる栓体47が装着されており、前記弁体43が後述す
る水受容器29の突部48に押し上げられることにより
栓体47は開口しタンク28内の水が水受容器29内に
流出する。
A packing body 42, a valve body 43, a cap 44, a plug body 47 including a spring 45 and a ring 46 is mounted on the lower surface of the water supply tank 28, and the valve body 43 is a protrusion of a water receiver 29 described later. By being pushed up by 48, the plug 47 is opened and the water in the tank 28 flows out into the water receiver 29.

【0016】前記仕切板38上における開口39にはそ
の吸引口49を後述する水受容器29の水溜部50に臨
ませる一方、送出口51を給水管33に連結したポンプ
32が取付けられている。
An opening 39 on the partition plate 38 has its suction port 49 exposed to a water reservoir 50 of a water receiver 29, which will be described later, while a pump 32 having a feed port 51 connected to a water supply pipe 33 is attached. .

【0017】また図示しないが、前記仕切板38の適所
には、給水タンク28が所定の位置まで押されると、O
N動作してタンク28がセットされた旨の信号を発生す
る給水タンク装着検出スイッチ(例えばリードスイッ
チ)を配している。
Although not shown, when the water supply tank 28 is pushed to a predetermined position in the partition plate 38, O
A water supply tank mounting detection switch (for example, a reed switch) that generates a signal indicating that the tank 28 has been set by N operation is arranged.

【0018】また容器本体35の後壁には、前記給水管
33を本体35の外へと抜け出させるための切欠80が
形成されている。
A notch 80 is formed in the rear wall of the container body 35 to let the water supply pipe 33 out of the body 35.

【0019】容器本体35には給水タンク28の出し入
れ操作にあたりタンク28を案内するガイド57と、前
記仕切板38を載置するリブ58と、上端に後述する水
受容器29のボス59,60を係止するための係止部6
1,62を一体的に有する各一対のボスガイド63,6
4とが一体形成されている。
A guide 57 for guiding the water tank 28 in and out of the water supply tank 28, a rib 58 for mounting the partition plate 38, and bosses 59, 60 of a water receiver 29, which will be described later, are provided on the upper end of the container body 35. Locking part 6 for locking
Each pair of boss guides 63, 6 integrally including 1, 62
4 and 4 are integrally formed.

【0020】水受容器29はその中央に縦長のスリット
65を有する仕切板66と、この仕切板によって区画さ
れ前記給水タンク28の栓体47側に位置してタンク2
8から注水される水を貯める水受部67と、同じく仕切
板66によって区画され前記ポンプ32の吸引口49側
に位置してポンプ32で揚水される水を貯める水溜部5
0と、給水タンク28の栓体47の弁体43に当接して
該弁体を開口させる突部48と、図7に図示する活性炭
69及びこれを収納するケース70を挿着させるリブ7
1,72と、図7に示すように、該容器29の前縁に形
成され前記仕切板38前縁の突片73に係合する係合部
74と、該容器29の後縁に形成され、容器本体35の
後部に設けた突片75に係合する係合部76とを形成し
ている。
The water receiver 29 has a partition plate 66 having a vertically long slit 65 in the center thereof and a partition plate 66 which is partitioned by the partition plate and is located on the plug 47 side of the water supply tank 28.
A water receiving portion 67 for storing water poured from 8 and a water reservoir portion 5 which is also partitioned by a partition plate 66 and is located on the suction port 49 side of the pump 32 to store water pumped by the pump 32.
0, a protrusion 48 that abuts the valve body 43 of the plug body 47 of the water supply tank 28 to open the valve body, the rib 7 that inserts the activated carbon 69 shown in FIG.
1, 72, an engaging portion 74 which is formed on the front edge of the container 29 and engages with the projecting piece 73 on the front edge of the partition plate 38, and is formed on the rear edge of the container 29. , And an engaging portion 76 that engages with the projecting piece 75 provided on the rear portion of the container body 35.

【0021】この給水室21における給水タンク28の
挿着方法は、該タンクを容器本体35の前面開口から挿
入し、該本体のガイド57上をすべらせて栓体47が仕
切板38の穴77に合致した所でセットされることによ
り行なわれる。このとき、仕切板38の下方に水受容器
29がセットされている場合は該容器の突部48が弁体
43を押し上げるため、弁体43が開口する。
The method of inserting the water supply tank 28 in the water supply chamber 21 is as follows. The tank is inserted from the front opening of the container main body 35, and the guide 57 of the main body is slid so that the plug body 47 has the hole 77 of the partition plate 38. It is carried out by setting at a place that matches with. At this time, when the water receiver 29 is set below the partition plate 38, the protrusion 48 of the container pushes up the valve body 43, so that the valve body 43 opens.

【0022】また、水受容器29の挿着方法は、該容器
を容器本体35の前面開口から挿入し、該本体のガイド
63,64上をすべらせて容器29のボス59,60を
ガイド63,64の係止部61,62に係合させる一
方、係合部74を仕切板38の突片73に、係合部76
を容器本体35の突片75に係合させることにより装着
される。
The method of inserting the water receiver 29 is to insert the container from the front opening of the container body 35 and slide the guides 63 and 64 of the body to guide the bosses 59 and 60 of the container 29 to the guide 63. , 64, while engaging the engaging portion 74 with the projecting piece 73 of the partition plate 38, the engaging portion 76.
Is attached by engaging with the projecting piece 75 of the container body 35.

【0023】ここで、水受容器29のボス59,60は
挿入時に容器本体35に近接する寸法であり、容器29
の脱着時に水がこぼれないようになっている。
Here, the bosses 59 and 60 of the water receiver 29 are dimensioned so as to be close to the container body 35 at the time of insertion.
Water is not spilled when attaching or detaching.

【0024】また、仮に容器29から水がこぼれた場合
でも、給水室21は容器本体35にて冷蔵室13から隔
絶されているため、水が冷蔵室13へ流出することはな
い。
Even if water is spilled from the container 29, the water supply chamber 21 is isolated from the refrigerating chamber 13 by the container body 35, so that water does not flow out to the refrigerating chamber 13.

【0025】ところでこの水受容器29であるが前述し
たように、水が長時間溜め置かれ、水に濡れ易い環境下
にあるので水受容器29に細菌、黴の発生の心配があ
る。そこで、従来より知られている紫外線が殺菌作用を
果たすという事実と、オゾンにはその強力な酸化力によ
り殺菌効果があるという事実に注目して、紫外線とオゾ
ンを発生する波長の光を発する紫外線ランプを使用し、
紫外線とオゾンとの併用によるより大きな殺菌効果を得
るようにした。
As mentioned above, the water receiver 29 is in an environment where water is stored for a long time and is easily wetted by water, so that there is a concern that bacteria and mold may be generated in the water receiver 29. Therefore, paying attention to the fact that conventionally known ultraviolet rays have a bactericidal action and the fact that ozone has a bactericidal effect due to its strong oxidizing power, ultraviolet rays that emit light of a wavelength that generates ultraviolet rays and ozone Use a lamp,
A greater bactericidal effect was obtained by the combined use of ultraviolet rays and ozone.

【0026】そのために、仕切板38の後部に突出部5
2を形成し、この突出部52と容器本体35の背壁35
hとで囲まれて画成される上記紫外線ランプの収納スペ
ース53を形成する。
Therefore, the protrusion 5 is provided at the rear of the partition plate 38.
2 to form the protrusion 52 and the back wall 35 of the container body 35.
An accommodating space 53 for the ultraviolet lamp, which is defined by being surrounded by h, is formed.

【0027】54はこの収納スペース53内に設置され
る紫外線ランプにして、波長253.7nmの紫外線と
波長185nmの光(紫外線)を発し、この波長185
nmの光にて収納スペース53内の酸素を励起してオゾ
ン化している。
An ultraviolet lamp 54 is installed in the storage space 53 and emits an ultraviolet ray having a wavelength of 253.7 nm and a light (ultraviolet ray) having a wavelength of 185 nm.
The light in the nm excites oxygen in the storage space 53 to turn it into ozone.

【0028】紫外線ランプ54は図7に示すように水受
容器29の上方に水平とされて臨み、背壁35hにネジ
止め等される。54bはそのランプソケットであり、ま
た54cは給電用のリード線を示す。
As shown in FIG. 7, the ultraviolet lamp 54 horizontally faces the water receiver 29, and is screwed to the back wall 35h. 54b is the lamp socket, and 54c is a lead wire for power supply.

【0029】また、55は前記収納スペース53の天面
内側に少し間隔を存して装着したアルミニウム製の反射
板にして、紫外線ランプ54からの波長253.7nm
の紫外線が水受容器29に効率良く照射する目的で設け
られ、また反射板55と反対側の樹脂製の仕切板38が
紫外線により変色、変質の悪影響を受けないようにする
遮蔽部材としても使われている。
Further, 55 is an aluminum reflector installed inside the top surface of the storage space 53 with a little space, and the wavelength of the ultraviolet lamp 54 is 253.7 nm.
Is provided for the purpose of efficiently irradiating the water receiver 29 with the ultraviolet rays and is also used as a shielding member for preventing the resin partition plate 38 on the opposite side of the reflection plate 55 from being adversely affected by the ultraviolet rays. It is being appreciated.

【0030】ここで、上記紫外線ランプ54は、石英ガ
ラスから成るそのランプ球の内面にある特定の塗膜を形
成されており、この塗膜にて波長253.7nmの紫外
線と波長185nmのオゾンを発生させる光とが透過し
て発する。
Here, the ultraviolet lamp 54 has a specific coating film formed on the inner surface of the lamp bulb made of quartz glass, and this coating film protects ultraviolet rays having a wavelength of 253.7 nm and ozone having a wavelength of 185 nm from each other. The light to be generated is transmitted and emitted.

【0031】よって紫外線ランプ54に給電されると、
波長253.7nmの紫外線と波長185nmの光が発
する。反射板55により水受容器29を照射する波長2
53.7nmの紫外線は殺菌効果があるので水に濡れ易
い水受容器29に雑菌、黴が発生しようとするのを効果
的に阻止する。
Therefore, when power is supplied to the ultraviolet lamp 54,
Ultraviolet light having a wavelength of 253.7 nm and light having a wavelength of 185 nm are emitted. Wavelength 2 for irradiating the water receiver 29 with the reflector 55
Since the 53.7 nm ultraviolet ray has a bactericidal effect, it effectively prevents the bacteria and mold from forming on the water receptor 29 which is easily wet with water.

【0032】一方波長185nmの光は空気中(収納ス
ペース53内)の酸素を励起しオゾン化する。
On the other hand, the light having a wavelength of 185 nm excites oxygen in the air (in the storage space 53) to ozone.

【0033】ここで、オゾンの殺菌効果は、その強力な
酸化力によるものと考えられている。そしてこの強力な
酸化力の理由は、オゾン自身の不安定さにあり、下記の
反応式でも示すように酸素原子によるものです。
The sterilizing effect of ozone is considered to be due to its strong oxidizing power. The reason for this strong oxidizing power is the instability of ozone itself, which is due to oxygen atoms, as shown in the reaction formula below.

【0034】O3→O2+OO 3 → O 2 + O

【0035】この酸素原子が殺菌効果に大きく寄与する
と言われている。
It is said that this oxygen atom greatly contributes to the bactericidal effect.

【0036】そこでこのオゾンの雰囲下に水受容器29
が置かれることで、水受容器29において、紫外線が直
接照射されなかった影の部分への殺菌防黴効果が相当に
期待できる。
Then, in this ozone atmosphere, the water receiver 29
In the water receiver 29, a bactericidal and mildew-proofing effect can be expected to a portion of the shadow that is not directly irradiated with the ultraviolet rays by placing the.

【0037】なお、余剰オゾンが庫内樹脂部品や人体に
悪影響を及ぼす事はないと思われるが、必要ならばオゾ
ン分解触媒の併用も適策である。
Although it is considered that the excess ozone does not adversely affect the internal resin parts and the human body, it is also appropriate to use an ozone decomposition catalyst together if necessary.

【0038】また水受容器29に付いては、ゼオライト
に、該ゼオライトの持つイオン交換機能を利用して銀を
イオン結合させた銀ゼオライトが従来より優れた抗菌力
を発揮することが判明されていることに注目して、この
殺菌、防黴効果のある銀ゼオライトを混入した樹脂材料
にて、この水受容器29を形成している。
With respect to the water receiver 29, it has been found that silver zeolite in which silver is ion-bonded to the zeolite by utilizing the ion exchange function of the zeolite exerts an antibacterial activity superior to the conventional one. It is noted that the water receiver 29 is made of a resin material mixed with the silver zeolite having the sterilizing and antifungal effect.

【0039】すなわち、この銀ゼオライトをプラスチッ
ク等の樹脂材料に練り込み、この樹脂で一体形成した水
受容器29とすると、空気中の菌が水受容器29内の水
に入り込んでも銀ゼオライトの抗菌作用で菌の発育繁殖
を有効的に阻止し、また水受容器29自身も全体的にほ
ぼ無菌状態に維持することができて、黴が発生するなど
の不衛生な状況を出現させず、食品衛生的に万全で、品
質の良好な氷を提供することができる。
That is, when this silver zeolite is kneaded into a resin material such as plastic to form a water receiver 29 integrally formed of this resin, even if bacteria in the air enter the water in the water receiver 29, the antibacterial effect of the silver zeolite is obtained. By the action, the growth and reproduction of bacteria can be effectively prevented, and the water receptor 29 itself can be maintained in a substantially sterile state as a whole, and an unsanitary condition such as mold will not appear, and the food It is possible to provide ice with good hygiene and good quality.

【0040】従って、水受容器29内の水並びに水受容
器29自体が紫外線ランプ54からの紫外線が照射され
てそれによる殺菌作用も加わって、より水受容器29に
対する抗菌効果を高めるようにもなっている。
Therefore, the water in the water receiver 29 and the water receiver 29 itself are irradiated with the ultraviolet rays from the ultraviolet lamp 54 and the sterilizing action is also added to the water, so that the antibacterial effect on the water receiver 29 is further enhanced. Has become.

【0041】そして容器本体35内に、水受容器29の
上に給水タンク28がセットされて装着されると、水受
容器29内の水受部67内に溜まったタンク28からの
水は活性炭69を浸透して浄水され、スリット65を介
して水溜部50へ供給されて、常に水溜部50には定量
の水を貯溜させることができる。そして水溜部50の水
はポンプ32によって汲み上げられ給水管33を介して
製氷皿30内へと給水される。
When the water supply tank 28 is set and mounted on the water receiver 29 in the container body 35, the water from the tank 28 accumulated in the water receiver 67 in the water receiver 29 is activated carbon. The water is permeated through 69 to be purified and supplied to the water reservoir 50 through the slit 65 so that a constant amount of water can be stored in the water reservoir 50. Then, the water in the water reservoir 50 is pumped up by the pump 32 and supplied into the ice tray 30 through the water supply pipe 33.

【0042】ところで、製氷室19には、図示しない駆
動軸を介して駆動装置34に連結された製氷皿30と、
下方に設けられ製氷皿30にて製成された氷を貯える貯
氷容器31と製氷皿30の上方に設置されたダクトカバ
ー80とが収納されている。
By the way, in the ice making chamber 19, an ice tray 30 connected to a drive device 34 via a drive shaft (not shown),
An ice storage container 31 that is provided below and stores the ice produced by the ice tray 30 and a duct cover 80 installed above the ice tray 30 are stored.

【0043】ここで、製氷後は駆動装置34により製氷
皿30が駆動軸を支点に回転するが、駆動装置34と反
対側の支軸(図示せず)には回転方向のストッパーが設
けられており、このストッパーによって或る回転角度か
らは製氷皿30は捩れるようになり脱氷を良好としてい
る。
Here, after the ice making, the ice tray 30 is rotated around the drive shaft by the drive unit 34 by the drive unit, but a stopper in the direction of rotation is provided on the support shaft (not shown) opposite to the drive unit 34. The ice tray 30 is twisted from a certain rotation angle by this stopper, and the deicing is made favorable.

【0044】また、製氷皿30が回転する前に、駆動装
置34によって貯氷容器31内に傾動して進入し、該容
器31内の貯氷量を検出する貯氷検知部材59を駆動装
置34に取りつけてある。貯氷容器31内の氷が所定量
以下であることが、この貯氷検知部材59にて検出され
た場合には、駆動装置34は製氷皿30を完全に反転さ
せて氷を補給する。
Before the ice tray 30 rotates, the drive device 34 tilts into the ice storage container 31 and enters the ice storage container 31, and an ice storage detection member 59 for detecting the amount of ice storage in the container 31 is attached to the drive device 34. is there. When the ice storage detecting member 59 detects that the amount of ice in the ice storage container 31 is less than or equal to a predetermined amount, the drive device 34 completely reverses the ice making tray 30 to supply ice.

【0045】なお、製氷動作は次のようにして行なわれ
る。製氷皿30への注水完了後、冷気により製氷が始ま
る。製氷の完了は製氷皿30の下面に取付けた温度セン
サにより製氷皿の温度降下状態を検知して、駆動装置3
4に信号を送り貯氷検知部材59による検氷動作後、脱
氷動作(製氷皿30の反転動作)を行い、駆動装置34
は製氷皿30を逆転させて次の製氷動作に待機する。
The ice making operation is performed as follows. After the completion of the water injection into the ice tray 30, ice making is started by cold air. When the ice making is completed, the temperature sensor attached to the lower surface of the ice tray 30 detects the temperature drop state of the ice tray, and the driving device 3
4 to the driving device 34 after the ice detecting operation by the ice storage detecting member 59, the ice removing operation (reversing operation of the ice tray 30) is performed.
Turns the ice tray 30 in reverse and waits for the next ice making operation.

【0046】[0046]

【発明の効果】以上のように本発明によれば、水受容器
の近傍に、オゾンの発生作用のある波長の紫外線を発す
る紫外線ランプを装備させることで、紫外線とオゾンの
持つ両方の殺菌作用を相乗させ、より大きな殺菌、防黴
効果が期待でき、水受容器等を頗る簡単な手段にて清潔
に保全できる。よって自動製氷装置付きの冷蔵庫に応用
して、安心して良質の氷を提供できるようになる。
As described above, according to the present invention, by providing an ultraviolet lamp which emits ultraviolet rays having a wavelength having an ozone generating action in the vicinity of the water receptor, both the ultraviolet rays and the ozone have a sterilizing action. It is possible to expect a greater sterilization and antifungal effect by synergizing with each other, and it is possible to maintain cleanliness by a simple means such as a water receiver. Therefore, by applying it to a refrigerator with an automatic ice making device, it becomes possible to provide high-quality ice in peace.

【図面の簡単な説明】[Brief description of drawings]

【図1】冷蔵庫の縦断面図である。FIG. 1 is a vertical sectional view of a refrigerator.

【図2】冷蔵庫の正面図である。FIG. 2 is a front view of the refrigerator.

【図3】扉を開けた状態の冷蔵庫の正面図である。FIG. 3 is a front view of the refrigerator with the door opened.

【図4】給水室の斜視図である。FIG. 4 is a perspective view of a water supply chamber.

【図5】給水室の分解斜視図である。FIG. 5 is an exploded perspective view of a water supply chamber.

【図6】水受容器の分解斜視図である。FIG. 6 is an exploded perspective view of a water receiver.

【図7】給水室の縦断面図である。FIG. 7 is a vertical sectional view of a water supply chamber.

【図8】給水室及び製氷室内の内蔵部品の分解斜視図で
ある。
FIG. 8 is an exploded perspective view of built-in parts in a water supply chamber and an ice making chamber.

【符号の説明】[Explanation of symbols]

12 冷凍室 13 冷蔵室 19 製氷室 21 給水室 28 給水タンク 29 水受容器 30 製氷皿 31 貯氷容器 32 ポンプ 33 給水管 69 活性炭 70 ケース 65 スリット 66 仕切板 67 水受部 50 水溜部 12 Freezer 13 Refrigerator 19 Ice Making Room 21 Water Supply Room 28 Water Supply Tank 29 Water Receptor 30 Ice Making Dish 31 Ice Storage Container 32 Pump 33 Water Supply Pipe 69 Activated Carbon 70 Case 65 Slit 66 Partition Plate 67 Water Receptor 50 Water Reservoir

フロントページの続き (72)発明者 益田 不二子 大阪府守口市京阪本通2丁目18番地 三洋 電機株式会社内Front page continuation (72) Inventor Fujiko Masuda 2-18 Keihan Hondori, Moriguchi City, Osaka Sanyo Electric Co., Ltd.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 冷凍室内に形成された製氷室と、冷蔵室
内に形成された給水室とを備え、前記製氷室に配置され
た製氷皿及び貯氷容器と、前記給水室に配置された給水
タンク及びこのタンクの水を一定量貯溜する水受容器と
を有し、この水受容器内の水を前記製氷皿に供給して自
動的に製氷を行う冷蔵庫において、この水受容器の上方
に収納スペースを画成し、この収納スペース内に、オゾ
ン発生作用のある波長の紫外線を発する紫外線ランプを
設けたことを特徴とする冷蔵庫。
1. An ice making chamber formed in a freezing chamber and a water supply chamber formed in a refrigerating chamber, an ice tray and an ice storage container arranged in the ice making chamber, and a water supply tank arranged in the water supplying chamber. And a water receiver that stores a fixed amount of water in this tank, and stores the water in the water receiver above the water receiver in a refrigerator that automatically supplies ice to the ice making tray. A refrigerator characterized in that a space is defined, and an ultraviolet lamp that emits ultraviolet rays having a wavelength having an ozone generating action is provided in the storage space.
JP6120993A 1993-02-26 1993-02-26 Refrigerator Pending JPH06249560A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6120993A JPH06249560A (en) 1993-02-26 1993-02-26 Refrigerator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6120993A JPH06249560A (en) 1993-02-26 1993-02-26 Refrigerator

Publications (1)

Publication Number Publication Date
JPH06249560A true JPH06249560A (en) 1994-09-06

Family

ID=13164581

Family Applications (1)

Application Number Title Priority Date Filing Date
JP6120993A Pending JPH06249560A (en) 1993-02-26 1993-02-26 Refrigerator

Country Status (1)

Country Link
JP (1) JPH06249560A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SG94842A1 (en) * 2000-06-16 2003-03-18 Toshiba Kk Refrigerator and deodorizer producing ozone by high-voltage discharge
EP2198220A1 (en) * 2007-09-12 2010-06-23 LG Electronics Inc. Refrigerator
WO2012035002A3 (en) * 2010-09-14 2012-08-16 Arcelik Anonim Sirketi A refrigerator the water storage container of which is sterilized

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SG94842A1 (en) * 2000-06-16 2003-03-18 Toshiba Kk Refrigerator and deodorizer producing ozone by high-voltage discharge
EP2198220A1 (en) * 2007-09-12 2010-06-23 LG Electronics Inc. Refrigerator
EP2198220A4 (en) * 2007-09-12 2015-01-07 Lg Electronics Inc Refrigerator
EP3561415A1 (en) * 2007-09-12 2019-10-30 Lg Electronics Inc. Refrigerator
WO2012035002A3 (en) * 2010-09-14 2012-08-16 Arcelik Anonim Sirketi A refrigerator the water storage container of which is sterilized

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