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JP5104339B2 - refrigerator - Google Patents

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Publication number
JP5104339B2
JP5104339B2 JP2008014619A JP2008014619A JP5104339B2 JP 5104339 B2 JP5104339 B2 JP 5104339B2 JP 2008014619 A JP2008014619 A JP 2008014619A JP 2008014619 A JP2008014619 A JP 2008014619A JP 5104339 B2 JP5104339 B2 JP 5104339B2
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JP
Japan
Prior art keywords
partition wall
chamber
refrigerator
storage container
vegetable
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Expired - Fee Related
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JP2008014619A
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Japanese (ja)
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JP2009174791A (en
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清隆 田平
逸雄 田中
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Panasonic Corp
Panasonic Holdings Corp
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Panasonic Corp
Matsushita Electric Industrial Co Ltd
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Priority to JP2008014619A priority Critical patent/JP5104339B2/en
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  • Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
  • Refrigerator Housings (AREA)

Description

本発明は各室に区画形成する仕切り壁を備えた冷蔵庫に関するものである。   The present invention relates to a refrigerator provided with a partition wall that forms a compartment in each chamber.

冷蔵庫本体の発泡終了後に、上部室と下部室とを区画する仕切り部を挿入して区画形成するものがある(例えば、特許文献1参照)。   After foaming of the refrigerator main body, there is one that inserts a partition portion that partitions an upper chamber and a lower chamber to form a partition (see, for example, Patent Document 1).

図12は特許文献1に記載された従来の冷蔵庫を示すものである。   FIG. 12 shows a conventional refrigerator described in Patent Document 1. In FIG.

図12に示すように、冷却器室33は冷蔵庫本体1の下側後方に配置され、冷却器3で冷却された冷気を循環させるファン2が収納されている。冷蔵庫本体1は、上部に冷蔵室4、冷蔵室前面に開閉扉5を有し、冷蔵室下部に貯氷室6と切替室7を横並びに配置し、前面にそれぞれ引出し扉8,9を備えている。また、貯氷室6と切替室7の下部には野菜室10、野菜室10の前面には引出し扉11、最下部に冷凍室12と前面に引出し扉13が構成されている。   As shown in FIG. 12, the cooler chamber 33 is disposed on the lower rear side of the refrigerator body 1 and houses the fan 2 that circulates the cool air cooled by the cooler 3. The refrigerator body 1 has a refrigerator compartment 4 at the top, an open / close door 5 at the front of the refrigerator compartment, an ice storage compartment 6 and a switching compartment 7 arranged side by side at the bottom of the refrigerator compartment, and drawer doors 8 and 9 on the front. Yes. The ice storage room 6 and the switching room 7 are provided with a vegetable room 10 at the bottom, a drawer door 11 at the front of the vegetable room 10, a freezer room 12 at the bottom and a drawer door 13 at the front.

また野菜室10と冷凍室12を上下に仕切る後縁仕切り部14は冷凍室12と野菜室10の扉のガスケット受面を構成する前縁仕切り部15と冷却器室33を区画する仕切り板16の間に蓋をするように取り付けられている。   A rear edge partition 14 that partitions the vegetable compartment 10 and the freezer compartment 12 up and down is a partition plate 16 that divides the cooler compartment 33 from the front edge partition 15 that forms the gasket receiving surface of the door of the freezer compartment 12 and the vegetable compartment 10. It is attached so as to cover between.

以上のように構成された冷蔵庫において、以下その動作について説明する。   The operation of the refrigerator configured as described above will be described below.

冷蔵庫本体1の発泡終了後に冷却器3を取り付け配管等を溶接した後、仕切り板16をビス等で冷蔵庫本体に固定する。そして後縁仕切り部14を前縁仕切り部15と仕切り板16の間に取付け、後縁仕切り部14をビス等で前縁仕切り部15に押さえつけて固定する。   After the foaming of the refrigerator main body 1 is finished, the cooler 3 is attached and the piping is welded, and then the partition plate 16 is fixed to the refrigerator main body with screws or the like. Then, the rear edge partition portion 14 is attached between the front edge partition portion 15 and the partition plate 16, and the rear edge partition portion 14 is pressed against the front edge partition portion 15 with a screw or the like and fixed.

その結果、野菜室10と冷凍室12とのシール性を確保することができ各室を適温に冷却することができる。
特開2002−13864号公報
As a result, the sealing property between the vegetable compartment 10 and the freezer compartment 12 can be ensured, and each compartment can be cooled to an appropriate temperature.
JP 2002-13864 A

しかしながら、上記従来の構成では、冷凍室内に収納される食品が収納容器から上方に飛び出した状態で引出し扉を開け閉めされた場合に、仕切り部に食品が接触しながら収納されるため仕切り部に霜が付着したり、また野菜室からこぼれた食品の一部が仕切り部に落下して汚れた場合に、仕切り部がビス等で固定されているために、利用者は仕切り部を外すことができず、引出し扉を開放した状態で、仕切り部を冷蔵庫に固定したまま清掃しなければならないという課題を有していた。   However, in the above-described conventional configuration, when the drawer door is opened and closed with the food stored in the freezer compartment protruding upward from the storage container, the food is stored in contact with the partition, so the food is stored in the partition. When frost is attached or a part of food spilled from the vegetable compartment falls to the partition and gets dirty, the partition is fixed with screws, so the user can remove the partition. It was not possible and had the subject that it had to clean with the partition part fixed to the refrigerator in the state which opened the drawer door.

また利用者が仕切り部を取り外すことができても、工具等を使ってビスを取り外す必要がり容易に着脱できないという課題を有していた。   Further, even if the user can remove the partition portion, there is a problem that it is necessary to remove the screw using a tool or the like and it cannot be easily attached or detached.

本発明は、仕切り部を工具等を使わないで容易に着脱でき、取外して清掃できることを目的とする。   An object of this invention is to be able to attach or detach easily and to remove and clean a partition part, without using a tool etc.

上記従来の課題を解決するために、本発明の冷蔵庫は、本体内に上下に区画形成され室内温度帯が異なる上部室と下部室と、前記上部室と前記下部室とを上下に区画する断熱仕切り壁と、前記上部室の奥面に備え前記上部室と前記下部室に亘って冷却室を区画形成する奥面仕切り壁と、前記冷却室の冷却器によって前記上部室および前記下部室を冷却する冷蔵庫であって、前記断熱仕切り壁は前記冷蔵庫本体の充填発泡とともに一体発泡された前部仕切り壁に、断熱部材を内装する後部仕切り壁を固定して形成され、前記後部仕切り壁は、工具なしで前記前部仕切り壁に着脱可能に構成されるものとし、前記後部仕切り壁は上部仕切り枠と下部仕切り枠とで外郭を構成する枠体内部にヒータ部材を備え、前記ヒータ部材は前記断熱部材と前記上部仕切り枠との間に上下に重ねて設置されるものとし、前記上部仕切り枠と前記ヒータ部材とを庫内に残して前記下部仕切り枠と前記断熱部材とを着脱可能に構成されたものである。 In order to solve the above-mentioned conventional problems, the refrigerator of the present invention is a heat insulation that vertically partitions the upper chamber and the lower chamber, and the upper chamber and the lower chamber, which are partitioned vertically in the main body and have different indoor temperature zones. The upper chamber and the lower chamber are cooled by a partition wall, a rear partition wall that forms a cooling chamber across the upper chamber and the lower chamber, and a cooler for the cooling chamber. The heat insulating partition wall is formed by fixing a rear partition wall that includes a heat insulating member to a front partition wall that is integrally foamed with filling and foaming of the refrigerator body, and the rear partition wall is a tool and shall be detachably attached to the front partition wall without, said rear partition wall is provided with a heater member to the frame internal constituting an outer shell with the upper partition frame and a lower partition frame, said heater member is the adiabatic Members and said It shall be placed one on top between the parts partition frame, in which said upper partition frame and said heater member leaving the refrigerator the lower partition frame and the heat insulating member is configured to be detachable is there.

これによって、工具なしで仕切り壁の着脱を容易に行うことができ、取外した時に仕切り壁を丸洗いすることができる。   Accordingly, the partition wall can be easily attached and detached without a tool, and the partition wall can be washed in a round shape when it is removed.

本発明の冷蔵庫は、工具なしで仕切り壁の着脱を容易に行うことができ、取外した時に仕切り壁を丸洗いすることができる。   The refrigerator of the present invention can easily attach and detach the partition wall without a tool, and can wash the partition wall when removed.

請求項1に記載の発明は、本体内に上下に区画形成され室内温度帯が異なる上部室と下部室と、前記上部室と前記下部室とを上下に区画する断熱仕切り壁と、前記上部室の奥面に備え前記上部室と前記下部室に亘って冷却室を区画形成する奥面仕切り壁と、前記冷却室の冷却器によって前記上部室および前記下部室を冷却する冷蔵庫であって、前記断熱仕切り壁は前記冷蔵庫本体の充填発泡とともに一体発泡された前部仕切り壁に、断熱部材を内装する後部仕切り壁を固定して形成され、前記後部仕切り壁は、工具なしで前記前部仕切り壁に着脱可能に構成されるものとし、前記後部仕切り壁は上部仕切り枠と下部仕切り枠とで外郭を構成する枠体内部にヒータ部材を備え、前記ヒータ部材は前記断熱部材と前記上部仕切り枠との間に上下に重ねて設置されるものとし、前記上部仕切り枠と前記ヒータ部材とを庫内に残して前記下部仕切り枠と前記断熱部材とを着脱可能に構成されたものである。 The invention according to claim 1 is an upper chamber and a lower chamber that are vertically formed in a main body and have different indoor temperature zones, a heat insulating partition wall that vertically partitions the upper chamber and the lower chamber, and the upper chamber. A rear partition wall that forms a cooling chamber across the upper chamber and the lower chamber, and a refrigerator that cools the upper chamber and the lower chamber by a cooler of the cooling chamber, The heat insulating partition wall is formed by fixing a rear partition wall that incorporates a heat insulating member to a front partition wall that is integrally foamed with filling and foaming of the refrigerator main body, and the rear partition wall is formed without the use of a tool. detachably constructed and shall in the rear partition wall is provided with a heater member to the frame internal constituting an outer shell with the upper partition frame and a lower partition frame, said heater member and the heat insulating member and the upper partition frame Up and down between Sleep and shall be installed, in which said upper partition frame and said heater member leaving the refrigerator the lower partition frame and the heat insulating member is configured to be detachable.

これによって、後部仕切り壁の着脱を工具なしで行うことができるので、容易に後部仕切り壁を取外して清掃することができる。また、後部仕切り壁の収納室内側に面した部分を庫外へ取外すことができるので、清掃性を高めることができる。 As a result, the rear partition wall can be attached and detached without a tool, so that the rear partition wall can be easily removed and cleaned. Moreover, since the part facing the storage chamber side of the rear partition wall can be removed to the outside of the cabinet, the cleaning property can be improved.

請求項2に記載の発明は、請求項1に記載の発明にさらに、前記前部仕切り壁と前記後部仕切り壁とは固定手段により着脱自在に固定されるようにしたものである。 According to a second aspect of the present invention, in addition to the first aspect of the invention, the front partition wall and the rear partition wall are detachably fixed by a fixing means .

請求項3に記載の発明は、請求項1または2に記載の発明にさらに、上部室を冷蔵ゾーンの温度帯室、下部室を冷凍ゾーンの温度帯室にし、少なくとも下部室は引出しドアで構成されたものである。   The invention according to claim 3 further comprises the temperature zone chamber of the refrigeration zone and the temperature zone chamber of the refrigeration zone as the upper chamber in the invention of claim 1 or 2, and at least the lower chamber is constituted by a drawer door. It has been done.

これによって、後部仕切り壁は冷凍ゾーン室の天面を構成するので、冷凍ゾーン内に収納された食品と後部仕切り壁との接触によって、後部仕切り壁が着霜した場合に、後部仕切り壁を取外して霜を取り除くことができる。   As a result, the rear partition wall forms the top surface of the freezing zone chamber, so if the rear partition wall is frosted due to contact between the food stored in the freezing zone and the rear partition wall, the rear partition wall is removed. Can remove frost.

請求項4に記載の発明は、請求項1から3のいずれか一項に記載の発明にさらに、上部室は引出し式の野菜室であり、前記上部室内部にミストを噴霧させる霧化装置を備えたものである。   The invention according to claim 4 is the invention according to any one of claims 1 to 3, wherein the upper chamber is a drawer-type vegetable room, and an atomizer for spraying mist on the inside of the upper chamber is provided. It is provided.

これによって、野菜室容器の外部に洩れたミストによる後部仕切り壁の汚れを、後部仕切り壁を取外して拭取ることができ、清掃性を高めることができる。   Thereby, the dirt of the rear partition wall due to mist leaking to the outside of the vegetable compartment container can be wiped off by removing the rear partition wall, and the cleanability can be improved.

請求項5に記載の発明は、請求項1または2に記載の発明にさらに、上部室を冷凍ゾーンの温度帯室、下部室を冷蔵ゾーンの温度帯室にし、前記下部室は内部にミストを噴霧させる霧化装置を備え、前面に引出しドアを構成したものであり、噴霧されたミストが野菜室の天面となる後部仕切り壁に付着した場合に、仕切り壁を工具なしで取外して汚れの清掃性を高めることができる。   According to the fifth aspect of the present invention, in addition to the first or second aspect of the present invention, the upper chamber is a temperature zone chamber of a refrigeration zone, the lower chamber is a temperature zone chamber of a refrigeration zone, and the lower chamber has a mist inside. It is equipped with an atomizing device for spraying, and a drawer door is constructed on the front side.If the sprayed mist adheres to the rear partition wall that becomes the top of the vegetable compartment, remove the partition wall without tools to remove dirt. Cleanability can be improved.

以下、本発明の実施の形態について、図面を参照しながら説明するが、従来例または先に説明した実施の形態と同一構成については同一符号を付して、その詳細な説明は省略する。なお、この実施の形態によってこの発明が限定されるものではない。   DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. The same reference numerals are given to the same configurations as those of the conventional example or the embodiments described above, and detailed descriptions thereof will be omitted. The present invention is not limited to the embodiments.

(実施の形態1)
図1は、本発明の実施の形態1における冷蔵庫の縦断面図である。図2aは、本発明の実施の形態1における冷蔵庫の野菜室近傍の正面図である。図2bは、本発明の実施の形態1における冷蔵庫の野菜室近傍の別形態の正面図である。図3aは、本発明の実施の形態1における冷蔵庫の野菜室近傍の断面図であり、図3bは、本発明の実施の形態1における野菜室の側面図であり、図3cは、図3bのA部拡大図である。
(Embodiment 1)
FIG. 1 is a longitudinal sectional view of the refrigerator according to Embodiment 1 of the present invention. FIG. 2a is a front view of the vicinity of the vegetable compartment of the refrigerator in the first embodiment of the present invention. FIG. 2b is a front view of another embodiment in the vicinity of the vegetable compartment of the refrigerator in the first embodiment of the present invention. FIG. 3a is a cross-sectional view of the vicinity of the vegetable compartment of the refrigerator in Embodiment 1 of the present invention, FIG. 3b is a side view of the vegetable compartment in Embodiment 1 of the present invention, and FIG. It is an A section enlarged view.

また、図4は、図2aのA−A部の静電霧化装置近傍の詳細断面図である。図5aは、本発明の実施の形態1における冷蔵庫の第2仕切り壁の斜視図であり、図5bは、図5の第2仕切り壁の斜視図である。図6aは、本発明の実施の形態1における冷蔵庫のリベット部材の斜視図であり、図6bは、本発明の実施の形態1における冷蔵庫のリベット部材の平面図である。図7aは、本発明の実施の形態1における冷蔵庫の第2仕切り壁のリベット部材による固定前の斜視図であり、図7bは、本発明の実施の形態1における冷蔵庫の第2仕切り壁のリベット部材による固定時の斜視図であり、図7cは、図5bのB−B断面図である。図8は、本発明の実施の形態1における冷蔵庫の要部断面図である。図9は、本発明の実施の形態1における冷蔵庫の奥面仕切り壁の斜視図である。図10は、本発明の実施の形態1における冷蔵庫の要部断面図である。図11は、本発明の実施の形態1における冷蔵庫の仕切り壁の分解斜視図である。   FIG. 4 is a detailed cross-sectional view of the vicinity of the electrostatic atomizer in the AA part of FIG. 2A. 5a is a perspective view of the second partition wall of the refrigerator according to Embodiment 1 of the present invention, and FIG. 5b is a perspective view of the second partition wall of FIG. 6a is a perspective view of the rivet member of the refrigerator in the first embodiment of the present invention, and FIG. 6b is a plan view of the rivet member of the refrigerator in the first embodiment of the present invention. FIG. 7a is a perspective view of the second partition wall of the refrigerator according to Embodiment 1 of the present invention before fixing with the rivet member, and FIG. 7b is a rivet of the second partition wall of the refrigerator according to Embodiment 1 of the present invention. It is a perspective view at the time of fixation by a member, and FIG. 7c is BB sectional drawing of FIG. 5b. FIG. 8 is a cross-sectional view of a main part of the refrigerator in the first embodiment of the present invention. FIG. 9 is a perspective view of the rear partition wall of the refrigerator according to Embodiment 1 of the present invention. FIG. 10 is a cross-sectional view of a main part of the refrigerator in the first embodiment of the present invention. FIG. 11 is an exploded perspective view of the partition wall of the refrigerator according to Embodiment 1 of the present invention.

図において、冷蔵庫100の断熱箱体101は主に鋼板を用いた外箱102とABSなどの樹脂で成型された内箱103で構成され、その内部には例えば硬質発泡ウレタンなどの発泡断熱材が充填されている。これにより、貯蔵室を断熱するのと同時に、複数の貯蔵室に区分されている。冷蔵庫100の最上部には第一の貯蔵室としての冷蔵室104、その冷蔵室104の下部に第四の貯蔵室としての切換室105と第五の貯蔵室としての製氷室106が横並びに設けられ、その切換室105と製氷室106の下部に第二の貯蔵室としての野菜室107、そして最下部に第三の貯蔵室としての冷凍室108が構成されている。   In the figure, a heat insulating box 101 of a refrigerator 100 is mainly composed of an outer box 102 using a steel plate and an inner box 103 molded of a resin such as ABS, and a foam heat insulating material such as hard foamed urethane is contained therein. Filled. As a result, the storage chamber is insulated and simultaneously divided into a plurality of storage chambers. A refrigerator room 104 as a first storage room is provided at the top of the refrigerator 100, and a switching room 105 as a fourth storage room and an ice making room 106 as a fifth storage room are provided side by side under the refrigerator room 104. A vegetable room 107 as a second storage room is formed below the switching room 105 and the ice making room 106, and a freezing room 108 as a third storage room is formed at the bottom.

冷蔵室104は冷蔵保存のために凍らない温度を下限に通常1℃〜5℃とし、野菜室107は冷蔵室104と同等もしくは若干高い温度設定の2℃〜7℃としている。冷凍室108は冷凍温度帯に設定されており、冷凍保存のために通常−22℃〜−15℃で設定されているが、冷凍保存状態の向上のために、例えば−30℃や−25℃の低温で設定されることもある。切換室105は、1℃〜5℃で設定される冷蔵、2℃〜7℃で設定される野菜、通常−22℃〜−15℃で設定される冷凍の温度帯以外に、冷蔵温度帯から冷凍温度帯の間で予め設定された温度帯に切り換えることができる。切換室105は製氷室106に並設された独立扉を備えた貯蔵室であり、引出し式の扉を備えることが多い。なお、本実施の形態では切換室105を冷蔵,冷凍の温度帯までを含めた貯蔵室としているが、冷蔵は冷蔵室104,野菜室107、冷凍は冷凍室108に委ねて、冷蔵と冷凍の中間の上記温度帯のみの切り換えに特化した貯蔵室としても構わない。また、特定の温度帯に固定された貯蔵室でもかまわない。製氷室106は、冷蔵室104内の貯水タンク(図示せず)から送られた水で室内上部に設けられた自動製氷機(図示せず)で氷を作り、室内下部に配置した貯氷容器(図示せず)に貯蔵する。   The refrigerated room 104 is normally set to 1 ° C. to 5 ° C. at the lower limit of the temperature at which it is not frozen for refrigerated storage, and the vegetable room 107 is set to 2 ° C. to 7 ° C., which is set at a temperature that is the same or slightly higher than that of the refrigerated room 104. The freezer compartment 108 is set in a freezing temperature zone, and is usually set at −22 ° C. to −15 ° C. for frozen storage, but for example, −30 ° C. or −25 ° C. to improve the frozen storage state. It may be set at a low temperature. The switching chamber 105 is not only refrigerated set at 1 ° C to 5 ° C, vegetable set at 2 ° C to 7 ° C, and frozen at a temperature set at -22 ° C to -15 ° C. It is possible to switch to a preset temperature range between the freezing temperature ranges. The switching room 105 is a storage room provided with an independent door arranged in parallel with the ice making room 106, and is often provided with a drawer type door. In this embodiment, the switching chamber 105 is a storage room including the refrigeration and freezing temperature zones, but the refrigeration is performed in the refrigeration room 104, the vegetable room 107, and the freezing is performed in the freezing room 108. A storage room specialized for switching only the intermediate temperature range may be used. A storage room fixed at a specific temperature range may also be used. The ice making chamber 106 creates ice with an automatic ice maker (not shown) provided in the upper part of the room with water sent from a water storage tank (not shown) in the refrigerated room 104, and an ice storage container ( (Not shown).

断熱箱体101の天面部は冷蔵庫の背面方向に向かって階段状に凹みを設けた形状であり、この階段状の凹部に機械室を形成して圧縮機109、水分除去を行うドライヤ(図示せず)等の冷凍サイクルの高圧側構成部品が収容されている。すなわち、圧縮機109を配設する機械室は、冷蔵室104内の最上部の後方領域に食い込んで形成されることになる。手が届きにくくデッドスペースとなっていた断熱箱体101の最上部の貯蔵室後方領域に機械室を設けて圧縮機109を配置することにより、従来の冷蔵庫で、使用者が使いやすい断熱箱体101の最下部にあった機械室のスペースを貯蔵室容量として有効に転化することができ、収納性や使い勝手を大きく改善することができる。なお、本実施の形態における、以下に述べる発明の要部に関する事項は、従来一般的であった断熱箱体101の最下部の貯蔵室後方領域に機械室を設けて圧縮機109を配置するタイプの冷蔵庫に適用しても構わない。   The top surface portion of the heat insulating box 101 has a stepped recess in the rear direction of the refrigerator. A machine chamber is formed in the stepped recess to form a compressor 109 and a dryer for removing moisture (not shown). The high-pressure side components of the refrigeration cycle are accommodated. That is, the machine room in which the compressor 109 is disposed is formed by biting into the uppermost rear region in the refrigerator compartment 104. By providing a machine room in the rear region of the uppermost storage room of the heat insulation box 101 that is difficult to reach and is a dead space, the compressor 109 is arranged, so that a heat insulation box that is easy for the user to use in a conventional refrigerator The space in the machine room at the bottom of 101 can be effectively converted as the storage room capacity, and the storage performance and usability can be greatly improved. In the present embodiment, the matter relating to the main part of the invention described below is a type in which a compressor room is provided by providing a machine room in the rear region of the lowermost storage room of the heat insulating box 101, which has been generally used conventionally. It may be applied to other refrigerators.

野菜室107と冷凍室108の背面には冷気を生成する冷却室110が設けられ、その間には、断熱性を有する各室への冷気の搬送風路と、各室と断熱区画するための断熱材で構成された奥面仕切り壁200が備えられている。冷却室110内には、冷却器112が配設されており、冷却器112の上部空間には強制対流方式により冷却器112で生成した冷気を冷蔵室104、切換室105、製氷室106、野菜室107、冷凍室108に送風する冷却ファン113が配置され、冷却器112の下部空間には冷却時に冷却器112やその周辺に付着する霜や氷を除霜するためのガラス管製のラジアントヒータ114が設けられ、さらにその下部には除霜時に生じる除霜水を受けるためのドレンパン115、その最深部から庫外に貫通したドレンチューブ116が構成され、その下流側の庫外に蒸発皿117が構成されている。   A cooling chamber 110 for generating cold air is provided on the back of the vegetable chamber 107 and the freezing chamber 108, and a cooling air conveyance path to each chamber having heat insulation properties and heat insulation for partitioning from each chamber are provided therebetween. A rear partition wall 200 made of a material is provided. In the cooling chamber 110, a cooler 112 is disposed, and in the upper space of the cooler 112, the cold air generated by the cooler 112 by a forced convection method is stored in the refrigerator 104, the switching chamber 105, the ice making chamber 106, the vegetables. A cooling fan 113 for blowing air to the chamber 107 and the freezing chamber 108 is disposed, and a radiant heater made of glass tube for defrosting the frost and ice adhering to the cooler 112 and its surroundings at the time of cooling in the lower space of the cooler 112 114, and a drain pan 115 for receiving defrost water generated at the time of defrosting, and a drain tube 116 penetrating from the deepest part to the outside of the chamber are configured at the lower portion thereof, and the evaporating dish 117 is disposed outside the downstream side of the chamber. Is configured.

野菜室107には、野菜室107の引出し扉118に取り付けられたフレームに載置された下段収納容器119と、下段収納容器119に載置された上段収納容器120が配置されている。   In the vegetable compartment 107, a lower storage container 119 placed on a frame attached to the drawer door 118 of the vegetable compartment 107 and an upper storage container 120 placed on the lower storage container 119 are arranged.

下段収納容器119は、仕切り体167より扉118側の飲料収納部166にペットボトルや缶、ビンなどを収納する飲料収納部166と飲料と食品収納の空間を仕切るための飲料仕切り板167が構成されている。   The lower storage container 119 includes a beverage storage unit 166 that stores a PET bottle, a can, a bottle, and the like in a beverage storage unit 166 closer to the door 118 than the partition 167, and a beverage partition plate 167 that partitions the beverage and food storage space. Has been.

引出し扉118が閉ざされた状態で主に上段収納容器120を略密閉するための蓋体122が野菜室上部の第一の仕切り壁123及び内箱103に保持されている。引出し扉118が閉ざされた状態で蓋体122と上段収納容器120の上面の左右辺、奥辺が密接し、上面の前辺は略密接している。さらに、上段収納容器120の背面の左右下辺と下段収納容器119の境界部は、上段収納容器120が稼働する上で接触しない範囲で食品収納部の湿気が逃げないよう隙を詰めている。   A lid 122 mainly for substantially sealing the upper storage container 120 in a state where the drawer door 118 is closed is held by the first partition wall 123 and the inner box 103 at the upper part of the vegetable compartment. In the state where the drawer door 118 is closed, the left and right sides and the back side of the upper surface of the lid body 122 and the upper storage container 120 are in close contact with each other, and the front side of the upper surface is substantially in close contact. Furthermore, the left and right lower sides of the back surface of the upper storage container 120 and the boundary between the lower storage container 119 are provided with a gap so that moisture in the food storage section does not escape within a range where the upper storage container 120 is not in contact with the upper storage container 120 in operation.

具体的には図3b,図3cに示すように、蓋体122の野菜室用吐出口124と対向する部分は野菜室用吐出口124から流入した冷気が前方へ向かいやすいように傾斜部122aを有しており、野菜室用吐出口124から流入する冷気の流れに対して鈍角で接することで、より前方かつ上方部分へと冷気の流れを誘導する形状とすることが好ましい。   Specifically, as shown in FIGS. 3 b and 3 c, the portion of the lid 122 that faces the vegetable chamber outlet 124 is provided with an inclined portion 122 a so that the cold air flowing in from the vegetable chamber outlet 124 can easily move forward. It is preferable to have a shape that induces the flow of the cold air further forward and to the upper portion by contacting the flow of the cold air flowing in from the vegetable room discharge port 124 at an obtuse angle.

また、扉が閉じる場合に、蓋体122の背面側の背面蓋係合部122bと、背面蓋係合部122bと係合する上段収納容器120と上段収納容器係合部120aとは互いに傾斜しており、扉が完全に閉まる際に初めて背面蓋係合部122bと上段収納容器係合部120aとが係合する形状としている。   Further, when the door is closed, the back cover engaging portion 122b on the back side of the cover body 122, and the upper storage container 120 and the upper storage container engaging portion 120a that engage with the back cover engaging portion 122b are inclined with respect to each other. The rear cover engaging portion 122b and the upper storage container engaging portion 120a are engaged with each other only when the door is completely closed.

さらに、蓋体122の野菜室用吐出口124側の端部には下方へ延出したフランジ部122cが設けられている。   Further, a flange 122c extending downward is provided at the end of the lid 122 on the vegetable chamber outlet 124 side.

また、上段収納容器120は、その底面側の一部が下段収納容器119内に配置されており、この下段収納容器119内に配置されている上段収納容器120に複数の空気流通穴71が設けられている。   The upper storage container 120 has a part on the bottom side thereof disposed in the lower storage container 119, and a plurality of air flow holes 71 are provided in the upper storage container 120 disposed in the lower storage container 119. It has been.

また、上段収納容器120の底面は、凹凸形状で形成された波型形状としている。   In addition, the bottom surface of the upper storage container 120 has a corrugated shape formed in an uneven shape.

蓋体122と第一の仕切り壁123の間には、奥面仕切り壁200に構成された野菜室用吐出口124から吐出された冷気の風路が設けられている。また、下段収納容器119と第二の仕切り壁125との間にも空間が設けられ冷気風路を構成している。野菜室107の背面側に位置する奥面仕切り壁200の下部には、野菜室107内を冷却し熱交換された冷気が冷却器112に戻るための野菜室用吸込口126が設けられている。   Between the lid body 122 and the first partition wall 123, an air path for the cold air discharged from the vegetable room discharge port 124 formed in the rear partition wall 200 is provided. Further, a space is also provided between the lower storage container 119 and the second partition wall 125 to constitute a cold air passage. At the lower part of the rear partition wall 200 located on the back side of the vegetable compartment 107, there is provided a vegetable compartment inlet 126 for cooling the inside of the vegetable compartment 107 and returning the heat-exchanged cold air to the cooler 112. .

なお、従来一般的であった扉に取り付けられたフレームと内箱に設けられたレールにより開閉するタイプの冷蔵庫に適用しても構わない。また、蓋体122、野菜室吐出口、吸い込み口、風路構成については、収納容器の形態によりそれらは最適化される。   In addition, you may apply to the refrigerator of the type opened and closed by the flame | frame attached to the door and the rail provided in the inner box which were common in the past. Moreover, about the cover body 122, a vegetable compartment discharge port, a suction inlet, and an air path structure, they are optimized by the form of a storage container.

奥面仕切り壁200は、主にABSなどの樹脂を用いた第1奥面仕切り壁表面151と発泡スチロールなどを用い、各室へ冷気を循環するための風路と、冷却室110と野菜室107の間を隔離、断熱性を確保する断熱材152で構成されている。ここで、奥面仕切り壁200の貯蔵室内側の壁面の一部に他の箇所より低温になるように凹部200aを設け、その箇所に霧化装置である静電霧化装置131が設置されている。   The back partition wall 200 uses a first back partition wall surface 151 mainly made of a resin such as ABS, a polystyrene foam, an air passage for circulating cold air to each chamber, a cooling chamber 110, and a vegetable chamber 107. It is comprised with the heat insulating material 152 which isolate | separates between and ensures heat insulation. Here, a recess 200a is provided in a part of the wall surface of the rear partition wall 200 on the storage chamber side so as to be cooler than other parts, and an electrostatic atomizer 131 as an atomizer is installed in that part. Yes.

霧化装置である静電霧化装置131は主に霧化部139、電圧印加部133、外郭ケース137で構成され、外郭ケース137の一部には、噴霧口132と湿度供給口138が構成されている。霧化部139は、霧化先端部である霧化電極135が設置され、霧化電極135はアルミニウムやステンレスなどの良熱伝導部材からなる電極冷却部材である円柱状の金属ピン134の一端でほぼ中心に固定されて接続している。   The electrostatic atomizer 131 that is an atomizer is mainly composed of an atomizer 139, a voltage applying unit 133, and an outer case 137, and a spray port 132 and a humidity supply port 138 are configured in part of the outer case 137. Has been. The atomization part 139 is provided with an atomization electrode 135 that is an atomization tip, and the atomization electrode 135 is one end of a cylindrical metal pin 134 that is an electrode cooling member made of a good heat conducting member such as aluminum or stainless steel. It is fixed and connected to the center.

さらに、金属ピン134の中心軸上に霧化電極135を取り付けることより金属ピン134を取り付け時、回転させても対向電極136と霧化電極135の距離が一定に保つことができ、安定した放電距離を確保できる。   Further, by attaching the atomizing electrode 135 on the central axis of the metal pin 134, the distance between the counter electrode 136 and the atomizing electrode 135 can be kept constant even when the metal pin 134 is rotated, and stable discharge is achieved. A distance can be secured.

また、金属ピン134は外郭ケース137に固定され、金属ピン134自体は外郭ケース137から突起して構成されている。また、霧化電極135に対向している位置で貯蔵室側にドーナツ円盤状の対向電極136が、霧化電極135の先端と一定距離を保つように取付けられ、その延長上に噴霧口132が構成されている。   Further, the metal pin 134 is fixed to the outer case 137, and the metal pin 134 itself is configured to protrude from the outer case 137. Also, a donut disk-shaped counter electrode 136 is attached to the storage chamber side at a position facing the atomizing electrode 135 so as to maintain a certain distance from the tip of the atomizing electrode 135, and a spray port 132 is formed on the extension. It is configured.

次に、野菜室107と冷凍室108とを上下に仕切る第二の仕切り壁125について説明する。第二の仕切り壁125は、前部仕切り壁125aと後部仕切り壁125bとの2部品で構成されており、前部仕切り壁125a内部は、内箱103内部に充填された硬質発泡ウレタンなどの発泡断熱材が充填されており、取り外すことはできず固定されている。   Next, the 2nd partition wall 125 which partitions the vegetable compartment 107 and the freezer compartment 108 up and down is demonstrated. The second partition wall 125 is composed of two parts, a front partition wall 125a and a rear partition wall 125b, and the inside of the front partition wall 125a is foamed such as hard foam urethane filled in the inner box 103. It is filled with insulation and cannot be removed and is fixed.

後部仕切り壁125bは、発泡スチロールなど合成樹脂の断熱部材170を内部に備え、樹脂製の上部仕切り枠171と下部仕切り枠172とで外郭を形成している。   The rear partition wall 125b includes a heat insulating member 170 made of synthetic resin such as polystyrene foam, and an upper partition frame 171 and a lower partition frame 172 made of resin form an outer shell.

また、前部仕切り壁125aの後縁部に第1段差部173を形成し、後部仕切り壁125bの前縁部に第2段差部174を形成している。そして第二の仕切り壁125は第1段差部173の上に第2段差部174を嵌め合わせ、後部仕切り壁125bが着脱自在に固定されている。   A first step 173 is formed at the rear edge of the front partition wall 125a, and a second step 174 is formed at the front edge of the rear partition wall 125b. The second partition wall 125 fits the second step portion 174 on the first step portion 173, and the rear partition wall 125b is detachably fixed.

着脱自在に固定する構造は、後部仕切り壁125bの上部仕切り枠171に第2段差部174および前部仕切り壁125aの第1段差部173に連通して、前部仕切り壁125aと後部仕切り壁125bとを固定するリベット部材175(固定手段ともいう)を備えている。   The detachable fixing structure is such that the upper partition frame 171 of the rear partition wall 125b communicates with the second step portion 174 and the first step portion 173 of the front partition wall 125a, and the front partition wall 125a and the rear partition wall 125b. Rivet members 175 (also referred to as fixing means) are provided.

リベット部材175自体は、一方側は円筒状の基部175bの上部に利用者が手で操作できる凸部175a(操作部)と、基部175bの下面には爪部175c(回転防止手段)が一体成形され、さらに基部175bから爪部175cに向かって緩やかに傾斜した傾斜部175fを形成している。またリベット部材175の一方側と他方側は軸部175dで連結され、他方側には矩形状の係止部175e(抜け防止手段)を有した樹脂製部品で構成されている。係止部175eの一部には傾斜部175gを備えている。   The rivet member 175 itself is integrally formed with a convex portion 175a (operation portion) that can be operated by a user by hand on the upper portion of a cylindrical base portion 175b and a claw portion 175c (rotation preventing means) on the lower surface of the base portion 175b. In addition, an inclined portion 175f that is gently inclined from the base portion 175b toward the claw portion 175c is formed. Further, one side and the other side of the rivet member 175 are connected by a shaft portion 175d, and the other side is constituted by a resin part having a rectangular locking portion 175e (detachment preventing means). A part of the locking portion 175e is provided with an inclined portion 175g.

またリベット部材175が装着される前部仕切り壁125aと後部仕切り壁125bの構造について説明する。後部仕切り壁125bの上部仕切り枠171には凹部171aを複数個形成し、凹部171a内に係止部175eよりも大きい矩形状の開口部171bを備え、開口部171bの周囲に、爪部175cと上下係止関係となってリベット部材175の回転防止をする突起部171cを凹部171aに一体成形している。   The structure of the front partition wall 125a and the rear partition wall 125b on which the rivet member 175 is mounted will be described. A plurality of recesses 171a are formed in the upper partition frame 171 of the rear partition wall 125b, a rectangular opening 171b larger than the locking portion 175e is provided in the recess 171a, and a claw 175c and a periphery of the opening 171b are provided. A protrusion 171c that prevents the rivet member 175 from rotating in a vertically locked relationship is integrally formed in the recess 171a.

前部仕切り壁125aの第1段差部173にも矩形状の孔部176を備え、孔部176内部の空間には係止部175eとの係合によって前部仕切り壁125aに後部仕切り壁125bを固定する抜け防止手段となる傾斜壁177が前部仕切り壁125aに一体成形されている。   The first step portion 173 of the front partition wall 125a is also provided with a rectangular hole portion 176, and the space inside the hole portion 176 is engaged with the locking portion 175e so that the rear partition wall 125b is attached to the front partition wall 125a. An inclined wall 177 serving as a securing means for fixing is integrally formed with the front partition wall 125a.

前部仕切り壁125aと後部仕切り壁125bとは、上記のような複数のリベット部材175によって複数箇所で固定されている。   The front partition wall 125a and the rear partition wall 125b are fixed at a plurality of locations by the plurality of rivet members 175 as described above.

また後部仕切り壁125bの後方の固定は、第1奥面仕切り壁111(上部奥面仕切り壁ともいう)の所定箇所に形成した位置決め部に突き合わせているのみである。   Further, the rear part of the rear partition wall 125b is fixed only to a positioning part formed at a predetermined position of the first rear surface partition wall 111 (also referred to as an upper rear partition wall).

奥面仕切り壁200の構成について説明する。奥面仕切り壁200は野菜室107と冷凍室108の奥面に亘って配置され、奥面仕切り壁200の上端部は第一の仕切り壁123よりも下方に取付けられる構成となっている。また奥面仕切り壁200は上下2つの奥面仕切り壁によって構成され、上側は野菜室107の奥面に備えた第1奥面仕切り壁111と、下側は冷凍室108の奥面に備えた第2奥面仕切り壁180(下部奥面仕切り壁ともいう)となるように上下分割できる2つの奥面仕切り壁で構成されている。   The configuration of the back partition wall 200 will be described. The rear partition wall 200 is disposed across the rear surfaces of the vegetable compartment 107 and the freezer compartment 108, and the upper end portion of the rear partition wall 200 is attached below the first partition wall 123. The back partition wall 200 is composed of two upper and lower back partition walls, the upper side is provided with the first back partition wall 111 provided on the back side of the vegetable compartment 107, and the lower side is provided on the back side of the freezer compartment 108. It is composed of two back surface partition walls that can be divided vertically so as to form a second back surface partition wall 180 (also referred to as a lower back surface partition wall).

また第2奥面仕切り壁180は、後部仕切り壁125bの奥面仕切り壁200に対する受面よりも下方で、第1奥面仕切り壁111に接続されている。   The second back partition wall 180 is connected to the first back partition wall 111 below the receiving surface of the rear partition wall 125b with respect to the back partition wall 200.

第1奥面仕切り壁111の構成について説明する。第1奥面仕切り壁111は、主にABSなどの樹脂を用いた第1奥面仕切り壁表面部材151と発泡スチロールなどを用い、各室へ冷気を循環するための風路と、冷却室110と野菜室107の間を隔離、断熱性を確保する第1断熱材152で構成されている。   The structure of the 1st back surface partition wall 111 is demonstrated. The first back surface partition wall 111 is composed of a first back surface partition wall surface member 151 mainly made of a resin such as ABS, a polystyrene foam, an air passage for circulating cold air to each chamber, a cooling chamber 110, It is comprised with the 1st heat insulating material 152 which isolates between the vegetable compartments 107 and ensures heat insulation.

また第2奥面仕切り壁180は、主にABSなどの樹脂を用いた第2奥面仕切り壁表面部材181と発泡スチロールなどを用い、冷凍室108へ冷気を循環するための風路と、各室へ冷気を循環するための風路と、冷却室110と冷凍室108の間を隔離、断熱性を確保する第2断熱材182で構成されている。   The second back partition wall 180 includes a second back partition wall surface member 181 mainly using a resin such as ABS, a polystyrene foam, and the like, an air path for circulating cold air to the freezer compartment 108, and each chamber. An air passage for circulating cold air to the outside and a second heat insulating material 182 that separates the cooling chamber 110 and the freezing chamber 108 and ensures heat insulation.

また第1断熱材152と第2断熱材182との後方には冷気を各室に案内するエアガイドとなる樹脂製の奥面仕切り壁裏面部材183を備え、第1奥面仕切り壁表面部材151と第2奥面仕切り壁表面部材181とは内部に第1断熱材152および第2断熱材182を固定しながら奥面仕切り壁裏面部材183と爪部材等による係止関係で固定される。また第1奥面仕切り壁表面部材151は奥面仕切り壁裏面部材183とともに内箱103にビス固定されている。   Further, behind the first heat insulating material 152 and the second heat insulating material 182, a resin-made rear partition wall rear surface member 183 serving as an air guide for guiding cool air to each chamber is provided, and the first rear partition wall surface member 151 is provided. And the second rear partition wall surface member 181 are fixed in a locking relationship by the rear partition wall rear surface member 183 and a claw member or the like while fixing the first heat insulating material 152 and the second heat insulating material 182 inside. The first back surface partition wall surface member 151 is screwed to the inner box 103 together with the back surface partition wall back surface member 183.

次に、第2奥面仕切り壁表面部材181の固定構造について説明する。第2奥面仕切り壁表面部材181の両側部および上下縁部には爪部181aを備え、両側部と下部に形成した爪部181aと奥面仕切り壁裏面部材183の爪引っ掛け部183aとが係止構造となって固定され、上部に形成した爪部181aが第1奥面仕切り壁表面部材151の下部内部に挿入されて係止構造となっており、ビスを使用しないで固定されている。   Next, the fixing structure of the second back surface partition wall surface member 181 will be described. The claw portions 181a are provided on both sides and the upper and lower edges of the second back surface partition wall surface member 181, and the claw portions 181a formed on both sides and the bottom and the claw hook portions 183a of the back surface partition wall back surface member 183 are engaged. A claw portion 181a formed at the upper portion and fixed as a stop structure is inserted into the lower portion of the first back partition wall surface member 151 to form a locking structure, and is fixed without using screws.

以上のように構成された冷蔵庫について、以下その動作、作用を説明する。   About the refrigerator comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

まず、冷凍サイクルの動作について説明する。庫内の設定された温度に応じて制御手段からの信号により冷凍サイクルが動作して冷却運転が行われる。圧縮機109の動作により吐出された高温高圧の冷媒は、凝縮器(図示せず)である程度凝縮液化し、さらに冷蔵庫本体の側面や背面、また冷蔵庫本体の前面間口に配設された冷媒配管(図示せず)などを経由し冷蔵庫本体の結露を防止しながら凝縮液化し、キャピラリ(図示せず)に至る。その後、キャピラリでは圧縮機109への吸入管(図示せず)と熱交換しながら減圧されて低温低圧の液冷媒となって冷却器112に至る。ここで、低温低圧の液冷媒は、冷却ファン113の動作により各貯蔵室内の空気と熱交換され、冷却器112内の冷媒は蒸発気化する。この時、冷却室110で各貯蔵室を冷却するための冷気を生成する。低温冷気は冷却ファン113から冷蔵室104、切替室105、製氷室106、野菜室107、冷凍室108に冷気を風路やダンパを用いて分流させ、それぞれの目的温度帯に冷却する。特に、野菜室107は、冷蔵室104を冷却した後、その空気を冷却器112に循環させるための冷蔵室戻り風路の途中に構成された野菜室用吐出口124から野菜室107に吐出し、上段収納容器120や下段収納容器119の外周に流し間接的に冷却し、その後、野菜室用吸込口126から再び冷却器112に戻る循環風路になっている。また、野菜室107の温度制御については、冷気の配分や仕切り壁に備えられた仕切り壁ヒータ154などのON/OFF運転で行っており、これらの制御により2℃から7℃になるように調整されている。なお、一般的には庫内温度検知手段をもたないものが多い。   First, the operation of the refrigeration cycle will be described. The refrigeration cycle is operated by a signal from the control means in accordance with the set temperature in the refrigerator, and the cooling operation is performed. The high-temperature and high-pressure refrigerant discharged by the operation of the compressor 109 is condensed to some extent by a condenser (not shown), and further, refrigerant piping ( (Not shown) and the like, condensate into liquid while preventing condensation on the refrigerator main body, and reaches a capillary (not shown). Thereafter, the capillary is depressurized while exchanging heat with a suction pipe (not shown) to the compressor 109 to become a low-temperature and low-pressure liquid refrigerant and reaches the cooler 112. Here, the low-temperature and low-pressure liquid refrigerant exchanges heat with the air in each storage chamber by the operation of the cooling fan 113, and the refrigerant in the cooler 112 evaporates. At this time, cool air for cooling each storage chamber is generated in the cooling chamber 110. The low-temperature cold air is diverted from the cooling fan 113 to the refrigerating room 104, the switching room 105, the ice making room 106, the vegetable room 107, and the freezing room 108 using an air passage or a damper, and cooled to respective target temperature zones. In particular, the vegetable compartment 107 cools the refrigerator compartment 104 and then discharges it to the vegetable compartment 107 from a vegetable compartment outlet 124 formed in the middle of the refrigerator compartment return air passage for circulating the air to the cooler 112. Then, the air flows through the outer peripheries of the upper storage container 120 and the lower storage container 119 to indirectly cool, and then returns to the cooler 112 again from the vegetable room suction port 126. In addition, the temperature control of the vegetable compartment 107 is performed by ON / OFF operation of the distribution of cold air and the partition wall heater 154 provided on the partition wall, and adjusted to 2 ° C to 7 ° C by these controls. Has been. In general, there are many that do not have an internal temperature detection means.

野菜室107の奥面に設置されている奥面仕切り壁200には、凹部が構成され、この箇所に静電霧化装置131が取り付けられている。ここで、霧化部139である金属ピン134の後方は最深凹部200bがあり、断熱材の厚みは例えば2mm〜10mm程度で構成され、他の箇所より低温状態になる。本実施の形態の冷蔵庫においては、この程度の厚みが金属ピンと調整手段との間に位置する熱緩和部材としての適切なものとなる。これにより、奥面仕切り壁200は凹部200aが構成され、この箇所の最背面の最深凹部200bに金属ピン134の凸部134aが突出した形状の静電霧化装置131が嵌めこまれて、取り付けられている。   A recess is formed in the rear partition wall 200 installed in the rear surface of the vegetable compartment 107, and an electrostatic atomizer 131 is attached to this portion. Here, the rear of the metal pin 134 which is the atomization part 139 has the deepest recessed part 200b, and the thickness of a heat insulating material is comprised by about 2 mm-10 mm, for example, and it becomes a low temperature state from another location. In the refrigerator according to the present embodiment, such a thickness is appropriate as a heat relaxation member positioned between the metal pin and the adjusting means. As a result, the rear partition wall 200 has a concave portion 200a, and the electrostatic atomizer 131 having a shape in which the convex portion 134a of the metal pin 134 protrudes is fitted into the deepest concave portion 200b on the rearmost surface of this portion. It has been.

金属ピン134背面の冷凍室吐出風路141には、冷凍サイクルの運転により冷却器112で冷気が生成され、冷却ファン113により−15〜−25℃程度の冷気が吐出、風路表面から熱伝導で金属ピン134が0〜−10℃程度に冷却される。このとき、金属ピン134は、良熱伝導部材であるため、冷熱を非常に伝えやすく、金属ピン134に固定された霧化電極135も金属ピン134を介して0〜−10℃程度に冷却される。   In the freezing chamber discharge air passage 141 on the back surface of the metal pin 134, cool air is generated by the cooler 112 by the operation of the refrigerating cycle, and cool air of about −15 to −25 ° C. is discharged by the cooling fan 113, and heat conduction from the air passage surface. The metal pin 134 is cooled to about 0 to -10 ° C. At this time, since the metal pin 134 is a good heat conduction member, it is very easy to transmit cold heat, and the atomizing electrode 135 fixed to the metal pin 134 is also cooled to about 0 to −10 ° C. via the metal pin 134. The

ここで、野菜室は2℃から7℃で、かつ野菜などからの蒸散により比較的高湿状態を保持するので、霧化先端部である霧化電極135は露点以下となり、先端を含め、霧化電極135には水が生成し、水滴が付着する。   Here, the vegetable room is 2 ° C to 7 ° C and maintains a relatively high humidity state due to transpiration from vegetables, etc., so the atomization electrode 135 which is the atomization tip is below the dew point and includes the tip. Water is generated on the crystallization electrode 135 and water droplets adhere thereto.

このとき、下段収納容器119に収納されている比較的水分の多い食品、例えば白菜やほうれん草、レタスなどからの蒸散により発生した水蒸気は、上部収納容器120の下部と下部収納容器の上部の隙間より奥面仕切り壁部200に流出する。ここで、その上下方向に左右方向に連続して上部リブ161、および下部リブ162が構成されているため流出した水蒸気が逃げにくくなっており、これにより静電霧化装置131近傍は、比較的高湿に保たれる。   At this time, water vapor generated by transpiration from foods with relatively high water content stored in the lower storage container 119, such as Chinese cabbage, spinach, lettuce, etc., passes through the gap between the lower part of the upper storage container 120 and the upper part of the lower storage container. It flows out to the back surface partition wall part 200. Here, since the upper rib 161 and the lower rib 162 are configured continuously in the left-right direction in the up-down direction, it is difficult for the water vapor that has flowed out to escape, so that the vicinity of the electrostatic atomizer 131 is relatively Maintains high humidity.

また、野菜室用吐出口124から冷気が野菜室107内へ流入している場合には、主に蓋体122と第一の仕切り壁123との間の空間を通り、上段収納容器120の扉側である手前部分から下段収納容器119の手前部分の収納飲料収納部166に入る。   In addition, when cold air flows into the vegetable compartment 107 from the vegetable compartment discharge port 124, it mainly passes through the space between the lid 122 and the first partition wall 123, and the door of the upper storage container 120. The stored beverage storage portion 166 in the front portion of the lower storage container 119 enters the front storage portion 119 from the front side.

また、野菜室用吐出口124から冷気が野菜室107内へ流入する冷気の一部は、上段収納容器120の底面と下段収納容器119の背面上端との間隙から下段収納容器119内に入り、内部の収納食品を冷却することになるが、この流れは一部であって、内部の収納食品の冷却は、主に蓋体122の上部側の空間である蓋体122と第一の仕切り壁123を通り、上段収納容器120の扉側である手前部分から下段収納容器119の手前部分に入る部分から行われる。   Further, a part of the cold air from which the cold air flows into the vegetable chamber 107 from the vegetable chamber discharge port 124 enters the lower storage container 119 through the gap between the bottom surface of the upper storage container 120 and the upper rear surface of the lower storage container 119, The internal stored food is cooled, but this flow is a part, and the internal stored food is mainly cooled by the lid 122 and the first partition wall which are the space on the upper side of the lid 122. 123 is performed from a portion entering the front portion of the lower storage container 119 from the front portion on the door side of the upper storage container 120.

また、蓋体122の野菜室用吐出口124と対向する部分は野菜室用吐出口124から流入した冷気が前方へ向かいやすいように傾斜部122aを有しており、野菜室用吐出口124から流入する冷気の流れに対して鈍角で接することで、より前方かつ上方部分へと冷気の流れを誘導する形状としているので、野菜室用吐出口124から流入した冷気は、より蓋体122と第一の仕切り壁123との間を通りやすくなり、上段収納容器120の扉側である手前部分から下段収納容器119の手前部分の収納飲料収納部166に多量に入る。   In addition, the portion of the lid 122 that faces the vegetable chamber discharge port 124 has an inclined portion 122a so that the cold air flowing in from the vegetable chamber discharge port 124 tends to move forward. Since it is shaped to guide the flow of cold air further forward and upward by making contact with the inflow of cold air at an obtuse angle, the cold air that has flowed in from the vegetable room discharge port 124 is more closely connected to the lid body 122. It becomes easy to pass between the one partition wall 123 and enters a large amount into the stored beverage storage portion 166 in the front portion of the lower storage container 119 from the front portion on the door side of the upper storage container 120.

このように、野菜室用吐出口124から収納容器への冷気の導入経路は、主に下段収納容器119の手前部分の収納飲料収納部166から冷たく乾燥した冷気が入るので、それらの冷たく乾燥した冷気で下段収納容器119の手前部分に収納された例えばペットボトル等の飲料を冷却し、その後下段収納容器119を経て、比較的湿度が高くなった冷気が上段収納容器120および静電霧化装置131付近へと流れ込むこととなる。よって、野菜室の手前側すなわち扉側よりも背面側の湿度を相対的高くすることができるので、背面側に配置された静電霧化装置131周辺は高湿度の雰囲気となり、静電霧化装置131で空気中の水分が結露しやすい環境にすることができる。   In this way, the cold air introduction path from the vegetable compartment discharge port 124 to the storage container mainly receives cold and dry cold air from the stored beverage storage part 166 in the front part of the lower storage container 119, so that those cold and dry For example, a beverage such as a plastic bottle stored in the front portion of the lower storage container 119 is cooled with cold air, and then the lower storage container 119 passes through the lower storage container 119 so that the cool air having a relatively high humidity becomes the upper storage container 120 and the electrostatic atomizer. It will flow into the vicinity of 131. Therefore, the humidity on the front side of the vegetable room, that is, the back side can be made relatively higher than the door side, so that the periphery of the electrostatic atomizer 131 arranged on the back side becomes an atmosphere of high humidity and electrostatic atomization. The apparatus 131 can create an environment where moisture in the air is likely to condense.

また、扉が閉じている場合に、蓋体122の背面側の背面蓋係合部122bと、背面蓋係合部122bと係合する上段収納容器120と上段収納容器係合部120aとは互いに傾斜しているので、扉を閉じる際に発生する衝突音が扉を完全に閉めた時にのみ発生する。この背面蓋係合部122bと上段収納容器係合部120aとが傾斜していない場合には、扉が完全に閉まる前から衝突し始める為、係合部の磨耗等の劣化や、衝突音によって使用者に不安感を抱かせる懸念がある。それに対して、本実施の形態では、係合部に傾斜を持たせることで、扉が完全に閉まる際に初めて背面蓋係合部122bと上段収納容器係合部120aとが係合するので、扉を閉めている段階での衝突音が発生せず使用者に不安感を抱かせる事がなく、スムーズに扉を閉めることができる。   Further, when the door is closed, the back cover engaging portion 122b on the back side of the cover body 122, the upper storage container 120 and the upper storage container engaging section 120a engaging with the back cover engaging portion 122b are mutually connected. Since it is tilted, the collision sound generated when closing the door is generated only when the door is completely closed. When the back cover engaging portion 122b and the upper storage container engaging portion 120a are not inclined, the door starts to collide before it is completely closed. There is a concern that makes users feel anxious. On the other hand, in the present embodiment, since the engagement portion is inclined, the back lid engagement portion 122b and the upper storage container engagement portion 120a are engaged only when the door is completely closed. No collision sound is generated when the door is closed, and the user is not anxious and the door can be closed smoothly.

また、蓋体122の野菜室用吐出口124側の端部には下方へ延出したフランジ部122cが設けられていることで、野菜室用吐出口124から流入する低温で乾燥した冷気が直接上段収納容器120に流入することを防ぎ、上段収納容器120の高湿環境を保持している。   Further, the flange 122c extending downward is provided at the end of the lid 122 on the side of the vegetable chamber discharge port 124, so that the cold air that is dried at low temperature flowing in from the vegetable chamber discharge port 124 is directly applied. Inflow to the upper storage container 120 is prevented, and the high humidity environment of the upper storage container 120 is maintained.

また、野菜室内を流れる冷気の最も下流に位置する野菜室用吸込口126から野菜室外へと流出する。   Moreover, it flows out out of the vegetable room from the suction port 126 for vegetable rooms located in the most downstream of the cold air | flow which flows through the vegetable room.

また、野菜室用吐出口124から冷気が野菜室107内へ流入していない場合には、下段収納容器119内部に収納された食品からは、投入時からの時間経過に伴い水分が蒸散する。この時、蒸散した水分を含んだ空気は、下段収納容器119内に流入した冷気の流れに沿って下段収納容器119の静電霧化装置131が配置されている側の側壁(本実施の形態では下段収納容器119の背面側の側壁)と上段収納容器120の底面とで区画される隙間の中で最も大きい隙間である冷気流出部から収納容器外に流出し、静電霧化装置131の左右方向に連続して設けられた湿度導入手段である上部リブ161によって風向を変えられ静電霧化装置131近傍へと到達する。   In addition, when cold air does not flow into the vegetable compartment 107 from the vegetable compartment discharge port 124, moisture evaporates from the food stored in the lower storage container 119 with the passage of time from the time of charging. At this time, the air containing the evaporated water flows along the side of the lower storage container 119 where the electrostatic atomizer 131 is arranged along the flow of the cold air flowing into the lower storage container 119 (this embodiment). Then, it flows out of the storage container from the cool air outflow portion which is the largest gap among the gaps defined by the bottom storage container 119 and the bottom surface of the upper storage container 120, The wind direction is changed by the upper rib 161 which is a humidity introducing means provided continuously in the left-right direction and reaches the vicinity of the electrostatic atomizer 131.

このとき、本実施の形態では静電霧化装置131を野菜室107の野菜室用吸込口が配置されている右側に、また、上部リブ161は静電霧化装置131の左側に配置したので、野菜室用吸込口から冷気が引っ張られることで、左側に比べて野菜室用吸込口側の右側が相対的に湿度が高くなるので、静電霧化装置131を野菜室107の野菜室用吸込口に配置することで、より静電霧化装置131周辺を高湿度とすることができ、空気中の水分を結露させやすくすることが可能となる。また、静電霧化装置131の両側に上部リブ161が備えられることが望ましく、これによって、高湿度の冷気が上方へ漏れ出すことを防ぎ、さらに静電霧化装置131周辺を高湿度とすることができる。   At this time, in the present embodiment, the electrostatic atomizer 131 is arranged on the right side where the vegetable room suction port of the vegetable room 107 is arranged, and the upper rib 161 is arranged on the left side of the electrostatic atomizer 131. By pulling the cold air from the vegetable room suction port, the humidity on the right side of the vegetable room suction port side is relatively higher than that on the left side, so the electrostatic atomizer 131 is used for the vegetable room 107 in the vegetable room. By arrange | positioning at a suction inlet, the surroundings of the electrostatic atomizer 131 can be made higher humidity, and it becomes possible to make it easy to dew the water | moisture content in air. Further, it is desirable that upper ribs 161 are provided on both sides of the electrostatic atomizer 131, thereby preventing the high-humidity cold air from leaking upward, and making the periphery of the electrostatic atomizer 131 high humidity. be able to.

このように高湿度の雰囲気中に配置された静電霧化装置131は隣接した別区画の野菜室よりも低温の冷気からの熱伝導によりその内部が周囲温度よりも低く冷却されており、静電霧化装置131内部で空気中の水分が結露することになる。この結露した水を収納容器内部にミスト状に噴霧する。結果、収納食品からの蒸散水は静電霧化装置131により、再び収納食品自体に返されることになる。よって、静電霧化装置131を冷却する冷却手段は静電霧化装置131が備えられている貯蔵室よりも低温度帯の冷気が流れている空間でなければならず、このような冷却手段は風路を用いない場合でも、例えば隣接する低温度帯(例えば冷凍温度帯)の貯蔵室の冷気を用いても良い。   In this way, the electrostatic atomizer 131 arranged in a high humidity atmosphere has its interior cooled below the ambient temperature by heat conduction from cold air at a temperature lower than that of the adjacent vegetable compartment. Moisture in the air will condense inside the electroatomizer 131. The condensed water is sprayed in a mist form inside the storage container. As a result, the transpiration water from the stored food is returned to the stored food itself again by the electrostatic atomizer 131. Therefore, the cooling means for cooling the electrostatic atomizer 131 must be a space in which cool air in a lower temperature zone flows than the storage chamber in which the electrostatic atomizer 131 is provided. Even when the air passage is not used, for example, the cold air of the storage room in the adjacent low temperature zone (for example, the freezing temperature zone) may be used.

この時、静電霧化装置131によってミストが直接噴霧される下段収納容器119内の空間が高湿度の雰囲気となることは言うまでもないが、下段収納容器119の上部に位置する上段収納容器120内の空間へも静電霧化装置131によって噴霧されたミストが到達し、高湿度の空間となる。   At this time, it goes without saying that the space in the lower storage container 119 where the mist is directly sprayed by the electrostatic atomizer 131 becomes an atmosphere of high humidity, but in the upper storage container 120 located above the lower storage container 119. The mist sprayed by the electrostatic atomizer 131 also reaches this space, resulting in a high humidity space.

これは、上段収納容器120は、その底面側の一部が下段収納容器119内に配置されており、この下段収納容器119内に配置されている上段収納容器120に複数の空気流通穴71が設けられているので、下段収納容器119に充満したミストのうち、特に粒子径が小さく拡散性に飛んだミストが空気流通穴71より上段収納容器120内の空間へ流入し、さらに上部が蓋体122によって閉塞されている上段収納容器120内の空間内からは湿度が流出しにくい為に高湿度を維持することが可能となる。   This is because the upper storage container 120 is partly disposed on the bottom side in the lower storage container 119, and a plurality of air flow holes 71 are formed in the upper storage container 120 disposed in the lower storage container 119. Since the mist filled in the lower storage container 119, the mist having a small particle diameter and flying diffusively flows into the space in the upper storage container 120 from the air circulation hole 71, and the upper part is the lid. Since humidity does not easily flow out from the space in the upper storage container 120 closed by 122, high humidity can be maintained.

また、図3dに示すように上段収納容器120には取っ手部120bが形成されており、この部分が開口部となるが、図3aに示すような野菜室内の冷気の風路の中で、蓋122の上方側から下方へ流れてくる冷気の流れに引っ張られ、この開口部である取っ手部120bからは上段収納容器120内への冷気の流入よりも流出の方が多くなり、実質的には上段収納容器120からの冷気の流出口となる。   Further, as shown in FIG. 3d, the upper storage container 120 has a handle portion 120b, and this portion becomes an opening, but in the cold air path in the vegetable room as shown in FIG. 122 is pulled by the flow of the cold air flowing downward from the upper side of 122, the outflow is larger than the inflow of the cold air into the upper storage container 120 from the handle portion 120b which is this opening, substantially. It becomes an outlet for cool air from the upper storage container 120.

よって、上段収納容器65の側面もしくは底面に備えられた複数の空気流通穴71がから高湿度の冷気が流入し、この取っ手部120bから流出する流れとなり、開口部による取っ手部120bを備えた場合でも乾燥した冷気が上段収納容器120へ流入しにくい構造となっていることで高湿度を維持することが可能となる。   Therefore, when the plurality of air circulation holes 71 provided on the side surface or the bottom surface of the upper storage container 65 are used, the high humidity cold air flows in and flows out from the handle portion 120b, and the handle portion 120b by the opening portion is provided. However, it is possible to maintain high humidity by having a structure in which the dry cool air hardly flows into the upper storage container 120.

さらに、上段収納容器120には蓋体122がされており、比較的低温の冷気の流入を防いでいるとともに、上記のように下段収納容器119から上方へと上がってきた比較的温度の高い高湿度冷気で上段収納容器120内の空間が冷却される為、保鮮性の向上に加え、低温障害の防止を図ることができ、特に低温障害の生じやすい野菜や果物を上段収納容器120内へ保存するとより新鮮な状態で野菜や果物を長持ちさせることが可能となる。   Further, the upper storage container 120 is provided with a lid 122, which prevents inflow of a relatively low temperature of cold air, and also has a relatively high temperature rising upward from the lower storage container 119 as described above. Since the space in the upper storage container 120 is cooled by humidity and cold air, in addition to improving the freshness, it is possible to prevent low-temperature damage, and in particular, vegetables and fruits that are susceptible to low-temperature damage are stored in the upper storage container 120. Then, it becomes possible to make vegetables and fruits last longer in a fresher state.

加えて、上段収納容器120の底面部は凹凸形状で形成された波型形状としているので、上段収納容器120内の野菜や果物に対してミスト粒子が上面や側面のみではなく底面からも廻り込んで保湿を行うことができ、より多角的な方向からミスト粒子を野菜や果物の周りに充満させることができ、さらに保鮮性を向上させることができる。   In addition, since the bottom portion of the upper storage container 120 has a corrugated shape formed in a concavo-convex shape, the mist particles enter the vegetables and fruits in the upper storage container 120 not only from the top and side surfaces but also from the bottom surface. Moisturizing can be performed, and mist particles can be filled around vegetables and fruits from more diverse directions, and the freshness can be further improved.

さらに、本実施の形態ではこの波形状を側面に備えられた空気流通穴71から流入する冷気の流れと略平行となるよう上段収納容器120の左右方向に渡って凹部もしくは凸部が連続するように備えている。これによって、空気流通穴71から流入したミストを含んだ冷気がより底面部へと回り込みやすくなるので、さらに保鮮性を向上させることが可能となる。   Furthermore, in this embodiment, the concave portion or the convex portion continues in the left-right direction of the upper storage container 120 so that this wave shape is substantially parallel to the flow of cold air flowing from the air circulation hole 71 provided on the side surface. In preparation. This makes it easier for cold air containing mist flowing in from the air circulation hole 71 to wrap around the bottom surface portion, so that the freshness can be further improved.

このように本実施の形態においては、野菜室内の冷気の流れをコントロールし、上手に使いわけている。まず、低温で乾燥した冷気をPETボトル等の飲料が置かれることが多い手前部分の収納飲料収納部166に多量に入れて、低温冷気を直接触れることになり、冷却スピードを確保しており、次に野菜室の手前側から流入した冷気が背面側へと流れるにつれて湿度が高くなっていくので、扉側よりも背面側の湿度を相対的高くすることで、背面側に配置された静電霧化装置131周辺は高湿度の雰囲気として静電霧化装置131で空気中の水分が結露しやすい環境にすることができる。さらに、貯蔵室内の水分を結露させた水滴を用いて静電霧化装置131によって噴霧されたミストは、粒子径が細かく拡散性の高い微細ミストとなって下段収納容器119を満たし、さらにその中でもさらに粒子径が小さく拡散性の高いミストがより下方に比べて温度が高い上方に位置する上段収納容器120へと流入して保湿を行うようにしている。   As described above, in the present embodiment, the flow of cold air in the vegetable compartment is controlled and used properly. First, cold air dried at low temperature is put in a large amount in the stored beverage storage part 166 in the front part where beverages such as PET bottles are often placed, and low temperature cold air is directly touched, ensuring a cooling speed, Next, as the cold air that flows in from the front side of the vegetable room flows to the back side, the humidity increases, so the humidity on the back side is relatively higher than the door side. The surroundings of the atomizer 131 can be made into an environment in which moisture in the air is likely to condense in the electrostatic atomizer 131 as a high humidity atmosphere. Furthermore, the mist sprayed by the electrostatic atomizer 131 using the water droplets in which moisture in the storage room is condensed becomes a fine mist having a fine particle diameter and high diffusibility, and fills the lower storage container 119. Further, the mist having a small particle size and high diffusibility flows into the upper storage container 120 located at an upper position where the temperature is higher than that at the lower position so as to perform moisture retention.

このように冷気の流れをコントロールすることによって、スピーディーに冷却したい収納物を手前部分の収納飲料収納部166に収納し、比較的低温障害等が起こりにくい一般的な野菜や果物を下段収納容器119へ、より低温障害が起こりやすい野菜や果物を上段収納容器120へと収納することで、それぞれの収納物に合った冷却を行うことができ、より品質が高く保鮮性を向上させた野菜室を提供することが可能となる。   By controlling the flow of the cold air in this way, the stored items to be cooled quickly are stored in the stored beverage storage unit 166 in the front portion, and general vegetables and fruits that are relatively less susceptible to low-temperature failures are stored in the lower storage container 119. By storing vegetables and fruits that are more susceptible to low-temperature damage in the upper storage container 120, it is possible to perform cooling suitable for each stored item, and to create a vegetable room with higher quality and improved freshness It becomes possible to provide.

また、上記のように野菜室用吐出口124から冷気が流入していない場合において、風路上、野菜室用吐出口124より上流に位置するダンパが閉じられていても、一般的には野菜室用吸込口126より下流にはダンパが備えられていない為、少しずつではあるが、収納容器である下段収納容器119内から野菜室用吸込口126の方向へと冷気の流れが発生する。しかし、野菜室用吸込口126より上方に下部リブ162が設けられていることで、蒸散した水分を含んだ空気は直接野菜室用吸込口126へ向かわず、上部リブ161と下部リブ162で区画された空間内に保持される。よって、上部リブ161と下部リブ162で区画された空間内は高湿度の冷気が滞留し、静電霧化装置131近傍へ集まるので、静電霧化装置131により湿気を回収しやすくなる。   Further, in the case where cold air does not flow from the vegetable room discharge port 124 as described above, even if the damper located upstream from the vegetable room discharge port 124 is closed on the air passage, generally the vegetable room Since a damper is not provided downstream from the suction port 126, a cool air flow is generated from the inside of the lower storage container 119, which is a storage container, toward the vegetable room suction port 126, although little by little. However, since the lower rib 162 is provided above the suction port 126 for the vegetable room, the air containing the evaporated water does not go directly to the suction port 126 for the vegetable room, and is partitioned by the upper rib 161 and the lower rib 162. Held in the space. Therefore, in the space defined by the upper rib 161 and the lower rib 162, high-humidity cold air stays and collects in the vicinity of the electrostatic atomizer 131, so that the electrostatic atomizer 131 can easily collect moisture.

これにより、高湿度雰囲気内に備えられた静電霧化装置131の霧化電極135が結露しやすくなるのでミストの発生効率が高くなる。   Thereby, since the atomization electrode 135 of the electrostatic atomizer 131 provided in the high-humidity atmosphere becomes easy to condense, the generation efficiency of mist becomes high.

次に野菜室107と冷凍室108を仕切る第2仕切り壁125の構造について動作、作用を説明する。   Next, operation | movement and an effect | action are demonstrated about the structure of the 2nd partition wall 125 which partitions off the vegetable compartment 107 and the freezer compartment 108. FIG.

第2仕切り壁125の上面空間は野菜室107で、内部は噴霧されるミストによって野菜室107内は高湿に維持された状態となっている。このため、野菜室107内の塵や不純物はミストおよび循環する冷気によって第2仕切り壁125表面に付着しやすく、汚れやすいという課題がある。   The upper surface space of the second partition wall 125 is the vegetable compartment 107, and the inside of the vegetable compartment 107 is maintained at a high humidity by the sprayed mist. For this reason, there is a problem that dust and impurities in the vegetable compartment 107 are likely to adhere to the surface of the second partition wall 125 due to mist and circulated cold air, and are easily contaminated.

このため、下段収納容器119の下面の大半を占める後部仕切り壁125bが工具なしで簡単に取り付け、取り外しできる構成が望まれている。   For this reason, the structure which the rear part partition wall 125b which occupies most of the lower surfaces of the lower storage container 119 can be easily attached and removed without a tool is desired.

そして取外し時は、第2仕切り壁125は前部仕切り壁125aと後部仕切り壁125bとがリベット部材175で連結されているため、利用者は凸部175aを摘んで回転させることで、基部175bの爪部175cが突起部171cを乗越えることでリベット部材175の係止状態を解除して回転可能となり、同時にリベット部材175の回転動作によって係止部175eは傾斜壁177との係合状態を解除されて、前部仕切り壁125aと後部仕切り壁125bとの連結状態を解除することができる。   When removing the second partition wall 125, the front partition wall 125a and the rear partition wall 125b are connected by a rivet member 175, so that the user grasps and rotates the convex portion 175a, so that the base 175b When the claw portion 175c gets over the protruding portion 171c, the locked state of the rivet member 175 is released and the rivet member 175 can be rotated. At the same time, the locking portion 175e is released from the engaged state with the inclined wall 177 by the rotating operation of the rivet member 175. Thus, the connected state of the front partition wall 125a and the rear partition wall 125b can be released.

すべてのリベット部材175を利用者が手で操作して上記のように後部仕切り壁125bの固定解除することができるので、工具などを使わずに利用者が取り外すことができ使い勝手がよく、また野菜室107を引出し式の野菜室扉118とともに開放した状態で、野菜室107内部に手を入れて後部仕切り壁125bを前部仕切り壁125aから取り外すことができるので、ミストの噴霧により汚れた表面を清掃することができる。   Since all the rivet members 175 can be manually operated by the user to release the fixing of the rear partition wall 125b as described above, the user can remove it without using a tool or the like, and it is easy to use. With the chamber 107 opened together with the drawer-type vegetable chamber door 118, the rear partition wall 125b can be removed from the front partition wall 125a by putting the hand inside the vegetable chamber 107, so that the surface contaminated by mist spraying can be removed. Can be cleaned.

また、冷凍室108も引出し式の冷凍室扉108aを前面に備え、内部に下部収納容器108b、下部収納容器108bの上部に上部収納容器108cを備えており、冷凍室扉108aを前後方向に開閉動作することで、特に上部収納容器108cに収納された食品が第2仕切り壁125の下面に摺れながら開閉動作される場合があり、このため第2仕切り壁125の下面を形成する下部仕切り枠172が着霜し、着霜したまま下部仕切り枠172に残る場合がある。このような場合でも後部仕切り壁125bを取り外して丸洗いすることで着霜状態をきれいに洗い流すことができる。   The freezer compartment 108 also has a drawer-type freezer compartment door 108a on the front, a lower storage container 108b inside, and an upper storage container 108c above the lower storage container 108b. The freezer compartment door 108a is opened and closed in the front-rear direction. In operation, the food stored in the upper storage container 108c may be opened and closed while sliding on the lower surface of the second partition wall 125. For this reason, the lower partition frame forming the lower surface of the second partition wall 125 172 may be frosted and may remain on the lower partition frame 172 while frosting. Even in such a case, the frosting state can be washed away by removing the rear partition wall 125b and washing it.

後部仕切り壁125bを前部仕切り壁125aに固定する時は、第1奥面仕切り壁111の所定位置に押圧しながら前部仕切り壁125aの第1段差部173上に後部仕切り壁125bの第2段差部174をラップさせ、リベット部材175を上部仕切り枠171の開口部171bに通して、他端側の係止部175eを第2段差部174の孔部176に貫通し、利用者が凸部175aを摘んで回転させることで矩形状の係止部175eの傾斜部175gを傾斜壁177が移動しながらスムーズに係合するので、係止部175eに応力がかかり過ぎず係止部175e面と傾斜壁177とで係合関係を形成することができる。よって前部仕切り壁125aから後部仕切り壁125bが抜けるのを防止し、さらに突起部171cが傾斜部175fを移動して爪部175cを乗り越えて爪部175cと突起部171aとがリベット部材175の回転阻止構造となって係合固定状態となる。   When the rear partition wall 125b is fixed to the front partition wall 125a, the second partition wall 125b of the rear partition wall 125b is placed on the first step 173 of the front partition wall 125a while being pressed to a predetermined position of the first rear partition wall 111. The step 174 is wrapped, the rivet member 175 is passed through the opening 171 b of the upper partition frame 171, the other end side locking portion 175 e is penetrated into the hole 176 of the second step 174, and the user protrudes By picking and rotating 175a, the inclined wall 177 smoothly engages with the inclined portion 175g of the rectangular engaging portion 175e, so that the engaging portion 175e is not excessively stressed and the surface of the engaging portion 175e An engagement relationship can be formed with the inclined wall 177. Therefore, the rear partition wall 125b is prevented from coming off from the front partition wall 125a, and the projection 171c moves on the inclined portion 175f to get over the claw 175c, and the claw 175c and the projection 171a rotate the rivet member 175. It becomes a blocking structure and becomes an engagement fixed state.

よって後部仕切り壁125bの突起部171cとリベット部材175の爪部175cとによってリベット部材175の回転防止を行い、前部仕切り壁125aの傾斜壁177とリベット部材175の係止部175eとによって、後部仕切り壁125bの抜けを防止し、前部仕切り壁125aに後部仕切り壁125bを押えつけて密着固定することができ、強度を高めることができる。   Accordingly, the protrusion 171c of the rear partition wall 125b and the claw portion 175c of the rivet member 175 prevent the rivet member 175 from rotating, and the inclined wall 177 of the front partition wall 125a and the locking portion 175e of the rivet member 175 provide a rear portion. The partition wall 125b can be prevented from coming off, and the rear partition wall 125b can be pressed against and fixed to the front partition wall 125a, thereby increasing the strength.

上記のように、利用者は工具等を使わずに手を使ってリベット部材175を回転させることで後部仕切り壁125bの着脱を容易に行うことができ、さらに取り外した後部仕切り壁125bを丸洗いすることができる。   As described above, the user can easily attach and detach the rear partition wall 125b by rotating the rivet member 175 using a hand without using a tool or the like, and further wash the removed rear partition wall 125b. be able to.

また、実施形態の冷蔵庫の場合、野菜室107の下方に第2仕切り壁125を介して冷凍室108が構成されているため、冷凍室108内の冷熱が第2仕切り壁125を介して野菜室107に熱伝導して、野菜室107内が過冷され内部の食品が凍る可能性がある。   In the case of the refrigerator of the embodiment, since the freezer compartment 108 is configured below the vegetable compartment 107 via the second partition wall 125, the cold heat in the freezer compartment 108 is transferred to the vegetable compartment via the second partition wall 125. There is a possibility that the inside of the vegetable compartment 107 is supercooled due to heat conduction to 107 and the food inside is frozen.

このため後部仕切り壁125bの断熱部材170と樹脂製の上部仕切り枠171との間にはアルミ箔ヒータあるいは面ヒータなどのヒータ部材184が配設される場合がある。   For this reason, a heater member 184 such as an aluminum foil heater or a surface heater may be disposed between the heat insulating member 170 of the rear partition wall 125b and the resin upper partition frame 171.

この場合、ヒータ部材184と断熱部材170との間にはヒータ部材184を絶縁する樹脂製の保護板部材185が配置されている。   In this case, a resin protective plate member 185 that insulates the heater member 184 is disposed between the heater member 184 and the heat insulating member 170.

この場合、リベット部材175を外した時、後部仕切り壁125bのうち上部仕切り枠171、ヒータ部材184そして保護板部材185は取り外さないで取付けたまま、断熱部材170と下部仕切り枠172とを取り外すことで、特に、冷凍室108の冷凍室ドア108aを前後に引き出し操作を繰り返した時に、上部収納容器108c内の食品が後部仕切り壁125bの下面部に接触することによる下部仕切り枠172の着霜状態や汚れを拭き取ったり洗い流すことができる。   In this case, when the rivet member 175 is removed, the heat insulating member 170 and the lower partition frame 172 are removed while the upper partition frame 171, the heater member 184, and the protection plate member 185 are attached without being removed from the rear partition wall 125 b. In particular, when the freezer compartment door 108a of the freezer compartment 108 is pulled back and forth repeatedly, the food in the upper storage container 108c comes into contact with the lower surface of the rear partition wall 125b and the frosted state of the lower partition frame 172 Can be wiped off or washed away.

また、冷凍室の引出し扉108aを前方に引出すことで、下部収納容器108bを室外へ引出して、第2奥面仕切り壁180を取り外すことができる。具体的には、冷凍室108の奥面を形成する第2奥面仕切り壁180の第2奥面仕切り壁表面部材181の両側部および下部に設けた爪部181aと奥面仕切り壁裏面部材183の爪引っ掛け部183aとが係止しているため、サービスマンは冷却室110のサービス時に工具等を使用することなく、手で両側部および下部の係止構造を解除し、冷却室110内部をチェックすることができる。   Further, by pulling the drawer door 108a of the freezer compartment forward, the lower storage container 108b can be pulled out of the room, and the second back partition wall 180 can be removed. Specifically, the claw portions 181a and the back partition wall back surface member 183 provided on both sides and the bottom of the second back partition wall surface member 181 of the second back partition wall 180 that forms the back surface of the freezer compartment 108. Since the claw hooking portion 183a is locked, the service person manually releases the locking structure on both sides and the lower portion without using a tool or the like when servicing the cooling chamber 110, and the inside of the cooling chamber 110 is Can be checked.

そして、両側部および下部の係止構造を解除された第2奥面仕切り壁表面部材181を下方に移動させることで、第1奥面仕切り壁表面部材151の下部内部から第2奥面仕切り壁表面部材181の上部の爪部181aを引出すことができ、第2奥面仕切り壁表面部材181を取り外すことができる。   Then, by moving the second rear partition wall surface member 181 whose both-side and lower locking structures are released downward, the second rear partition wall from the lower part of the first rear partition wall surface member 151 is moved downward. The upper claw portion 181a of the surface member 181 can be pulled out, and the second back partition wall surface member 181 can be removed.

その後、第2断熱材182を取り外すことができ、奥面仕切り壁裏面部材183の一部が露出される。   Then, the 2nd heat insulating material 182 can be removed and a part of back surface partition wall back surface member 183 is exposed.

露出した奥面仕切り壁裏面部材183の側部には冷蔵室104や切替室105や製氷室106、野菜室107の戻り風路183bが形成されており、さらに戻り風路183bと冷却室110とを連通する冷気戻り口183cが形成されている。   A return air passage 183b for the refrigerator compartment 104, the switching chamber 105, the ice making chamber 106, and the vegetable compartment 107 is formed on the side of the exposed rear partition wall rear surface member 183. Further, the return air passage 183b, the cooling chamber 110, The cool air return port 183c is formed.

そして、利用者は上記のように第2奥面仕切り壁180を取り外して、露出した奥面仕切り壁裏面部材183の冷気戻り口183cから冷却室110内を見ることができ、冷却室110内に配置した冷却器112の着霜状態を直接チェックすることができ、異常着霜の場合は、庫内への食品詰め込みを抑制するように啓蒙を行うことができる。   Then, the user can remove the second rear partition wall 180 as described above, and can see the inside of the cooling chamber 110 from the cold air return port 183c of the exposed rear partition wall rear surface member 183. The frosting state of the arranged cooler 112 can be directly checked, and in the case of abnormal frosting, enlightenment can be performed so as to suppress food stuffing into the cabinet.

また、奥面仕切り壁200を第1奥面仕切り壁表面部材151と第2奥面仕切り壁表面部材181との2部品で上下に連結固定しているので、第1、第2奥面仕切り壁表面部材151,181の強度UPを図ることができる。   Moreover, since the back surface partition wall 200 is connected and fixed up and down by two parts of the 1st back surface partition wall surface member 151 and the 2nd back surface partition wall surface member 181, the 1st, 2nd back surface partition wall The strength of the surface members 151 and 181 can be increased.

なお、奥面仕切り壁裏面部材183は、前方に配置する第1奥面仕切り壁表面部材151と第2奥面仕切り壁表面部材181に対して一体成形した構成としたが、奥面仕切り壁裏面部材183を第1奥面仕切り壁表面部材151と第2奥面仕切り壁表面部材181に対応させて上下別部品とし、上部奥面仕切り壁裏面部材183dと下部奥面仕切り壁裏面部材183eとしてもよく、これによって第2奥面仕切り壁表面部材181後方の下部奥面仕切り壁裏面部材183eを第2断熱材182の後に取り外せば、サービスマンは冷却器112の下流側を全幅で直接視認することができ、さらに着霜状態のチェックを容易に行うことができるのでサービス時間の短縮を図ることができ、外へ出した食品の品質維持を図ることができる。   In addition, although the back surface partition wall back surface member 183 was set as the structure integrally formed with respect to the 1st back surface partition wall surface member 151 and the 2nd back surface partition wall surface member 181 which are arrange | positioned ahead, back surface partition wall back surface The member 183 is a separate upper and lower part corresponding to the first back partition wall surface member 151 and the second back partition wall surface member 181, and the upper back partition wall back surface member 183 d and the lower back partition wall back surface member 183 e are also used. Well, by this, if the lower back partition wall back surface member 183e behind the second back partition wall surface member 181 is removed after the second heat insulating material 182, the serviceman can directly visually recognize the downstream side of the cooler 112 in full width. Furthermore, since the frost state can be easily checked, the service time can be shortened, and the quality of the food that has been taken out can be maintained.

なお、本実施の形態において、野菜室107と冷凍室108との配置相関関係は、野菜室107を上部室、冷凍室108を下部室としたが、野菜室107を下部室、冷凍室108を上部室とした場合でも、野菜室107と冷凍室108とを上下に仕切る仕切り壁を工具なしで取外すことができ、さらに冷却室110を仕切る奥面仕切り壁の一部を外して冷却室110内を目視することができ、サービス性を高めることができる。   In the present embodiment, the arrangement correlation between the vegetable compartment 107 and the freezer compartment 108 is that the vegetable compartment 107 is the upper compartment and the freezer compartment 108 is the lower compartment, but the vegetable compartment 107 is the lower compartment and the freezer compartment 108 is Even in the case of the upper chamber, the partition wall that divides the vegetable chamber 107 and the freezing chamber 108 up and down can be removed without a tool, and a part of the rear partition wall that partitions the cooling chamber 110 can be removed to remove the inside of the cooling chamber 110. Can be visually checked, and serviceability can be improved.

なお、本実施の形態において、第2仕切り壁125を工具なしで着脱可能としたが、第一の仕切り壁123または冷蔵室104と切替室106を上下に仕切る第三の仕切り壁190の奥面に亘って奥面仕切り壁200が形成されていれば、冷蔵庫100の組立て時、奥面仕切り壁200を組立てた後、第一の仕切り壁123または第三の仕切り壁190を組立てる順序になるので、さらに第一の仕切り壁123または第三の仕切り壁190を工具ないしで着脱可能に構成した冷蔵庫が可能となる。   In the present embodiment, the second partition wall 125 can be attached and detached without a tool, but the back surface of the first partition wall 123 or the third partition wall 190 that partitions the refrigerator compartment 104 and the switching chamber 106 up and down. If the rear surface partition wall 200 is formed over the distance, when the refrigerator 100 is assembled, after the rear surface partition wall 200 is assembled, the first partition wall 123 or the third partition wall 190 is assembled. Furthermore, the refrigerator which comprised the 1st partition wall 123 or the 3rd partition wall 190 so that attachment or detachment was possible without a tool is attained.

以上のように、本発明にかかる冷蔵庫は、家庭用又は業務用冷蔵庫に対して実施することはもちろん、多段に構成した冷却庫などの用途にも適用できる。   As described above, the refrigerator according to the present invention can be applied not only to household or commercial refrigerators, but also to uses such as a multi-stage refrigerator.

本発明の実施の形態1における冷蔵庫の縦断面図The longitudinal cross-sectional view of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の野菜室近傍の正面図The front view of the vegetable compartment vicinity of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の野菜室近傍の別形態の正面図Front view of another embodiment near the vegetable compartment of the refrigerator in Embodiment 1 of the present invention 本発明の実施の形態1における冷蔵庫の野菜室近傍の断面図Sectional drawing of the vegetable compartment vicinity of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の野菜室の側面図Side view of the vegetable compartment of the refrigerator in Embodiment 1 of the present invention 図3bのA部拡大図Part A enlarged view of FIG. 3b 図2aのA−A部の静電霧化装置近傍の詳細断面図2A is a detailed sectional view of the vicinity of the electrostatic atomizer in section AA in FIG. 本発明の実施の形態1における冷蔵庫の第2仕切り壁の斜視図The perspective view of the 2nd partition wall of the refrigerator in Embodiment 1 of this invention 図5の第2仕切り壁の斜視図The perspective view of the 2nd partition wall of FIG. 本発明の実施の形態1における冷蔵庫のリベット部材の斜視図The perspective view of the rivet member of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫のリベット部材の平面図The top view of the rivet member of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の第2仕切り壁のリベット部材による固定前の斜視図The perspective view before fixation with the rivet member of the 2nd partition wall of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の第2仕切り壁のリベット部材による固定時の斜視図The perspective view at the time of fixation by the rivet member of the 2nd partition wall of the refrigerator in Embodiment 1 of this invention 図5bのB−B断面図BB sectional view of FIG. 5b 本発明の実施の形態1における冷蔵庫の要部断面図Sectional drawing of the principal part of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の奥面仕切り壁の斜視図The perspective view of the back partition wall of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の要部断面図Sectional drawing of the principal part of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における冷蔵庫の仕切り壁の分解斜視図The disassembled perspective view of the partition wall of the refrigerator in Embodiment 1 of this invention 従来の冷蔵庫の断面図Cross-sectional view of a conventional refrigerator

符号の説明Explanation of symbols

100 冷蔵庫
101 断熱箱体
104 冷蔵室
107 野菜室
108 冷凍室
110 冷却室
112 冷却器
125 第二の仕切り壁(断熱仕切り壁)
125a 前部仕切り壁
125b 後部仕切り壁
131 静電霧化装置
170 断熱部材
175 リベット部材
184 ヒータ部材
200 奥面仕切り壁
DESCRIPTION OF SYMBOLS 100 Refrigerator 101 Heat insulation box 104 Cold room 107 Vegetable room 108 Freezer room 110 Cooling room 112 Cooler 125 Second partition wall (heat insulation partition wall)
125a front partition wall 125b rear partition wall 131 electrostatic atomizer 170 heat insulation member 175 rivet member 184 heater member 200 back surface partition wall

Claims (5)

本体内に上下に区画形成され室内温度帯が異なる上部室と下部室と、前記上部室と前記下部室とを上下に区画する断熱仕切り壁と、前記上部室の奥面に備え前記上部室と前記下部室に亘って冷却室を区画形成する奥面仕切り壁と、前記冷却室の冷却器によって前記上部室および前記下部室を冷却する冷蔵庫であって、前記断熱仕切り壁は前記冷蔵庫本体の充填発泡とともに一体発泡された前部仕切り壁に、断熱部材を内装する後部仕切り壁を固定して形成され、前記後部仕切り壁は、工具なしで前記前部仕切り壁に着脱可能に構成されるものとし、前記後部仕切り壁は上部仕切り枠と下部仕切り枠とで外郭を構成する枠体内部にヒータ部材を備え、前記ヒータ部材は前記断熱部材と前記上部仕切り枠との間に上下に重ねて設置されるものとし、前記上部仕切り枠と前記ヒータ部材とを庫内に残して前記下部仕切り枠と前記断熱部材とを着脱可能に構成したことを特徴とする冷蔵庫。 An upper chamber and a lower chamber that are formed vertically in the main body and have different indoor temperature zones, a heat-insulating partition wall that vertically partitions the upper chamber and the lower chamber, and an upper chamber that is provided on the back surface of the upper chamber, A rear partition wall that defines a cooling chamber across the lower chamber, and a refrigerator that cools the upper chamber and the lower chamber by a cooler of the cooling chamber, the heat insulating partition wall filling the refrigerator body the front partition wall which is integrally foamed with foam, is formed by fixing a rear partition wall interior heat insulating member, said rear partition wall is configured to be detachably attached to the front partition wall without tools and shall The rear partition wall includes a heater member inside a frame body that forms an outer shell with an upper partition frame and a lower partition frame, and the heater member is installed in a vertically stacked manner between the heat insulating member and the upper partition frame. Shall Refrigerator, characterized in that leaving said heater member and the upper partition frame in the refrigerator and detachably attached to the heat insulating member and the lower partition frame. 前記前部仕切り壁と前記後部仕切り壁とは固定手段により着脱自在に固定されることを特徴とする請求項1に記載の冷蔵庫。 The refrigerator according to claim 1, wherein the front partition wall and the rear partition wall are detachably fixed by a fixing means . 上部室を冷蔵ゾーンの温度帯室、下部室を冷凍ゾーンの温度帯室にし、少なくとも下部室は引出しドアで構成されたことを特徴とする請求項1または2に記載の冷蔵庫。   The refrigerator according to claim 1 or 2, wherein the upper chamber is a temperature zone chamber of a refrigeration zone, the lower chamber is a temperature zone chamber of a refrigeration zone, and at least the lower chamber is constituted by a drawer door. 上部室は引出し式の野菜室であり、前記上部室内部にミストを噴霧させる霧化装置を備えたことを特徴とする請求項1から3のいずれか一項に記載の冷蔵庫。   4. The refrigerator according to claim 1, wherein the upper chamber is a drawer-type vegetable chamber, and includes an atomization device that sprays mist on the inner portion of the upper chamber. 5. 上部室を冷凍ゾーンの温度帯室、下部室を冷蔵ゾーンの温度帯室にし、前記下部室は内部にミストを噴霧させる霧化装置を備え、前面に引出しドアを構成したことを特徴とする請求項1または2に記載の冷蔵庫。   The upper chamber is a temperature zone chamber of a freezing zone, the lower chamber is a temperature zone chamber of a refrigeration zone, the lower chamber is provided with an atomizing device for spraying mist inside, and a drawer door is configured on the front side. Item 3. The refrigerator according to Item 1 or 2.
JP2008014619A 2008-01-25 2008-01-25 refrigerator Expired - Fee Related JP5104339B2 (en)

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CN104308492A (en) * 2014-10-13 2015-01-28 太仓越华精密机械配件有限公司 Steel ball feeding device

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CN102472561B (en) * 2009-09-24 2015-07-08 松下电器产业株式会社 Refrigerator
JP6330140B2 (en) * 2013-12-20 2018-05-30 パナソニックIpマネジメント株式会社 refrigerator
JP6489767B2 (en) * 2014-06-30 2019-03-27 シャープ株式会社 refrigerator

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JPS61124886U (en) * 1985-01-21 1986-08-06
JPS62288468A (en) * 1986-06-06 1987-12-15 三菱電機株式会社 Five temperature type refrigerator
JPH09243219A (en) * 1996-03-07 1997-09-19 Toshiba Corp Refrigerator
JPH10318665A (en) * 1997-05-20 1998-12-04 Fujitsu General Ltd Refrigerator
JPH11101561A (en) * 1997-09-30 1999-04-13 Toshiba Corp Refrigerator
JP4725444B2 (en) * 2005-07-13 2011-07-13 パナソニック株式会社 refrigerator

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104308492A (en) * 2014-10-13 2015-01-28 太仓越华精密机械配件有限公司 Steel ball feeding device

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