JP2007064592A - Refrigerator - Google Patents

Refrigerator Download PDF

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JP2007064592A
JP2007064592A JP2005254796A JP2005254796A JP2007064592A JP 2007064592 A JP2007064592 A JP 2007064592A JP 2005254796 A JP2005254796 A JP 2005254796A JP 2005254796 A JP2005254796 A JP 2005254796A JP 2007064592 A JP2007064592 A JP 2007064592A
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Prior art keywords
refrigerator
evaporator
recess
compressor
chamber
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JP3904023B2 (en
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Tatsuya Kawasaki
竜也 川崎
Yoshinori Ohashi
祥記 大橋
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Panasonic Holdings Corp
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Matsushita Electric Industrial Co Ltd
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Priority to JP2005254796A priority Critical patent/JP3904023B2/en
Priority to TW095127528A priority patent/TW200720609A/en
Priority to PCT/JP2006/315105 priority patent/WO2007015443A1/en
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    • 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
    • F25D21/00Defrosting; Preventing frosting; Removing condensed or defrost water
    • F25D21/14Collecting or removing condensed and defrost water; Drip trays
    • 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
    • F25D23/00General constructional features
    • F25D23/003General constructional features for cooling refrigerating machinery
    • 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
    • F25D2321/00Details or arrangements for defrosting; Preventing frosting; Removing condensed or defrost water, not provided for in other groups of this subclass
    • F25D2321/14Collecting condense or defrost water; Removing condense or defrost water
    • F25D2321/141Removal by evaporation
    • F25D2321/1412Removal by evaporation using condenser heat or heat of desuperheaters

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Removal Of Water From Condensation And Defrosting (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
  • Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide a refrigerator with increased storing space at a user friendly height position by modifying an arrangement layout of a compressor, an evaporator, a condenser, and a defrosting evaporator, which are refrigerating cycle components. <P>SOLUTION: A first recessed part 62 is provided in a ceiling part rear of an uppermost refrigeration chamber 51 to arrange the compressor 63, a second recessed part 82 is provided in a lower part rear of a lowermost freezing chamber 54 to arrange and compose the defrosting evaporator comprised of an evaporating dish 84 and a condenser pipe arrangement 87, a cooling chamber 70 housing the evaporator 76 is arranged in a freezing chamber interior rear, and the first recessed part 62, the cooling chamber 70, and the second recessed part 82 are laid out on a substantially straight line in a vertical direction in a rear of a heat insulating box 50. By this, related apparatuses of a refrigerating cycle are grouped in areas that are not user friendly, the internal space that can be actually utilized is increased, and the refrigerator with largely improved user friendliness can be realized. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、圧縮機,凝縮器,蒸発器や除霜水蒸発装置などの冷凍サイクル関連機器の配置構成により貯蔵室の庫内容積の有効活用を図る冷蔵庫に関するものである。   The present invention relates to a refrigerator that makes effective use of the internal volume of a storage room through the arrangement of refrigeration cycle-related equipment such as a compressor, a condenser, an evaporator, and a defrosted water evaporator.

近年、冷蔵庫は地球環境保護の観点から更なる省エネルギー化が進むとともに、その使い勝手や収納性の向上が求められている。   In recent years, refrigerators are required to be further energy-saving from the viewpoint of protecting the global environment, and to be improved in usability and storage.

従来のこの種の冷蔵庫は、最下部に配設された貯蔵室の庫外側後方領域に機械室を形成し、この機械室内に冷凍サイクルの圧縮機を収容するものが一般的であるが、このような構成であると、機械室に最下部の貯蔵室の収納スペースが侵害されて収納容積が減少し、また収納スペースの空間形状も機械室の突出部を除いた複雑な形状となって収納性がよくないものとなっていた。   A conventional refrigerator of this type is generally configured such that a machine room is formed in the rear rear region of the storage room disposed at the lowermost part, and a compressor for a refrigeration cycle is accommodated in the machine room. In such a configuration, the storage space of the lowermost storage chamber is invaded in the machine room and the storage volume is reduced, and the space shape of the storage space is also stored in a complicated shape excluding the protruding part of the machine room. It was not good.

このような従来のからの収納性に関わる問題点を解消する目的のために、特許文献1に参照するように、断熱箱体の貯蔵室内最上部の後背部が下がるように窪ませた凹部を設け、その凹部に冷凍サイクルの圧縮機などの高圧側の構成部品を収納するという冷蔵庫が提案されている。   For the purpose of solving the problems related to the conventional storage properties, as described in Patent Document 1, a recessed portion that is recessed so that the upper back portion of the uppermost storage chamber of the heat insulating box is lowered. A refrigerator has been proposed in which a high-pressure component such as a compressor of a refrigeration cycle is housed in the recess.

図9は特許文献1に記載された従来の冷蔵庫の断面図を示すものである。   FIG. 9 shows a cross-sectional view of a conventional refrigerator described in Patent Document 1. In FIG.

図9に示すように、断熱箱体1は上から順に、冷蔵室2、冷凍室3、野菜室4を有し、冷蔵室2の前面開口には、冷蔵室回転扉5を設けている。また、断熱箱体1の中央から下方部に位置する冷凍室3と野菜室4は収納性と使い勝手を考慮して、簡易に取り出しが行える引出し式の冷凍室引出し扉6と野菜室引出し扉7を設けてある。冷蔵室2の庫内には複数の収納棚8か設けられており、冷凍室3と野菜室4には上面開口形状の収納容器9a、9bが取り付けてある。この収納容器9a、9bは前後方向のレール(図示せず)に、ローラにて前後方向へ移動可能に支持されている。   As shown in FIG. 9, the heat insulating box 1 has a refrigerator compartment 2, a freezer compartment 3, and a vegetable compartment 4 in order from the top, and a refrigerator compartment rotary door 5 is provided at the front opening of the refrigerator compartment 2. In addition, the freezer compartment 3 and the vegetable compartment 4 located in the lower part from the center of the heat insulating box 1 are provided with a drawer type freezer compartment drawer door 6 and a vegetable compartment drawer door 7 that can be easily taken out in consideration of storability and convenience. Is provided. A plurality of storage shelves 8 are provided in the refrigerator compartment 2, and storage containers 9 a and 9 b having an open top surface are attached to the freezer compartment 3 and the vegetable compartment 4. The storage containers 9a and 9b are supported on rails (not shown) in the front-rear direction so as to be movable in the front-rear direction by rollers.

断熱箱体に設けた凹部10は、外箱上面11と外箱背面12に渡る天面後背部を冷蔵室2の最上部の後背部が下がるように窪ませた箇所である。凹部10はその左右が断熱箱体1の左右壁にて塞がれ上方及び背方に開放しており、この凹部10の開放部は、上板13部カバー15とこれにほぼ直角な背板14とからなる凹部カバー15にて覆われている。また、凹部カバー15はネジなどで断熱箱体1に取り外し可能に固定されている。   The recessed part 10 provided in the heat insulation box is a place where the top rear part over the outer box upper surface 11 and the outer box rear surface 12 is recessed so that the uppermost rear part of the refrigerator compartment 2 is lowered. The left and right sides of the recess 10 are closed by the left and right walls of the heat-insulating box 1 and open upward and to the back. The open portion of the recess 10 includes an upper plate 13 part cover 15 and a back plate substantially perpendicular to the upper plate 13 cover 15. 14 is covered with a concave cover 15 composed of 14. The recess cover 15 is detachably fixed to the heat insulating box 1 with screws or the like.

冷凍サイクルの構成機器である圧縮機16と凝縮器17は機械室ファン18とともに凹部10内に収まるよう配置され、上板13と背板14で構成された凹部カバー15にて覆われている。   The compressor 16 and the condenser 17, which are components of the refrigeration cycle, are arranged so as to be accommodated in the recess 10 together with the machine room fan 18, and are covered with a recess cover 15 including an upper plate 13 and a back plate 14.

また冷凍サイクルの構成機器である蒸発器20は断熱箱体1の中段となる冷凍室3の後背部に冷却ファン21とともに配設されており、最下部の貯蔵室である野菜室4は奥行きを深く構成してある。   The evaporator 20 which is a component of the refrigeration cycle is disposed with a cooling fan 21 at the back of the freezer compartment 3 which is the middle stage of the heat insulating box 1, and the vegetable compartment 4 which is the lowermost storage room has a depth. Deeply structured.

これにより、断熱箱体1の背面下部に圧縮機16や凝縮器17を収納するものと比較して、最下部の貯蔵室である野菜室4の内容積を大きく、深く構成でき、貯蔵室の空間形状も圧縮機16などの無効スペースによる複雑な形状とならず収納性を高めることができるものである。
特開2001−99552号公報
Thereby, compared with what stores the compressor 16 and the condenser 17 in the back lower part of the heat insulation box 1, the internal volume of the vegetable compartment 4 which is the lowest storage room can be comprised deeply, and it can comprise. The space shape does not become a complicated shape due to an invalid space such as the compressor 16 and can improve the storage property.
JP 2001-99552 A

しかしながら、上記従来の構成では、圧縮機16と凝縮器17を断熱箱体1の天面部に配置することにより、凹部10の必要収納容積が増大し最上部の貯蔵室への凹部10の突出代が更に大きくなる。また最下部の貯蔵室である野菜室4の内容積、奥行きを大きくし、収納性も高めることができるが、冷凍室3の後背部のみに蒸発器30と冷却ファン31が配設された冷却室を有するため、冷却室前方に形成された冷凍室3の奥行きは減少し、下部に隣接する野菜室4との奥行きが相当に異なることになる。   However, in the conventional configuration described above, the compressor 16 and the condenser 17 are arranged on the top surface portion of the heat insulating box 1, so that the necessary storage volume of the recess 10 is increased and the protrusion margin of the recess 10 into the uppermost storage chamber is increased. Becomes even larger. Moreover, although the internal volume and depth of the vegetable compartment 4 which is the lowest storage room can be enlarged and the storage property can be improved, the cooling in which the evaporator 30 and the cooling fan 31 are disposed only in the rear portion of the freezer compartment 3. Since it has a chamber, the depth of the freezing chamber 3 formed in front of the cooling chamber is reduced, and the depth of the vegetable chamber 4 adjacent to the lower portion is considerably different.

このため、冷蔵室回転扉5を開いたときのちょうど目線の位置にくる凹部10の形状が目につきやすく、使用者に違和感を与えるとともに収納スペースも減少する。   For this reason, the shape of the recessed part 10 which comes to the position of the line of sight when the refrigerating compartment rotary door 5 is opened is easily noticeable, giving the user a sense of incongruity and reducing the storage space.

また、冷凍室3の奥行きが小さいため、野菜室4に比べて使い勝手が悪く、手狭な印象を与える。特に、現在の社会環境から考え、共働き世帯が増加しているため、冷凍室のニーズが高まっている今日、冷凍室の収納容量や収納性を充実させることは重要である。   Moreover, since the freezer compartment 3 has a small depth, it is less convenient than the vegetable compartment 4 and gives a narrow impression. In particular, considering the current social environment, the number of double-income households is increasing, so that the needs for freezer rooms are increasing today. It is important to enhance the storage capacity and storage capacity of freezer rooms.

以上のように上記従来の構成では、圧縮機16を最下部の貯蔵室の領域から除いて収納容積や収納性を高めても、依然として凝縮器17や蒸発器20の配置構成に工夫がなされていないため、断熱箱体1の天面に設けた凹部10が圧縮機16と凝縮器17を設置するための大きな容積が必要となり、最上部の貯蔵室である冷蔵室2の上段周辺の収納性が悪くなる。さらに冷蔵室2への凹部10の突出代が大きくなれば、使用者にとって扉を開いたときの圧迫感を与えるとともにデザイン性も悪くなるという課題を有していた。   As described above, in the above-described conventional configuration, even if the compressor 16 is removed from the region of the lowermost storage chamber and the storage volume and storage performance are increased, the arrangement of the condenser 17 and the evaporator 20 is still devised. Therefore, the concave portion 10 provided on the top surface of the heat insulating box 1 requires a large volume for installing the compressor 16 and the condenser 17, and can be stored around the upper stage of the refrigerating room 2 that is the uppermost storage room. Becomes worse. Furthermore, if the protrusion margin of the recessed part 10 to the refrigerator compartment 2 becomes large, it had the subject that a user was given a feeling of pressure when opening a door, and design property also worsened.

さらに、高温の放熱を伴う圧縮機16や凝縮器17がともに上部に配置されているため、蒸発器20から排水される除霜水を蒸発処理するために不可欠な除霜水蒸発装置について、蒸発を促進するために有効な加熱手段が蒸発器20より上部に配置されることになり、例えば除霜水のポンプアップ手段等の複雑な構成が必要となったり、加熱手段を伴わずに除霜水を蒸発促進する別途の手段を講じる必要が生じたりして、このままでは冷凍サイクルに関わる総合的な機能を円滑に維持しながら、圧縮機上部配置型の冷蔵庫を合理的に実用化することができない。   Furthermore, since both the compressor 16 and the condenser 17 with high-temperature heat radiation are arranged at the upper part, the defrost water evaporation apparatus indispensable for evaporating the defrost water discharged from the evaporator 20 is evaporated. Effective heating means is arranged above the evaporator 20, for example, a complicated configuration such as a defrosting water pump-up means is required, or defrosting without heating means is required. It may be necessary to take additional measures to promote water evaporation, and if this is the case, it is possible to rationally put into practical use a refrigerator with a compressor-top arrangement while maintaining the overall functions related to the refrigeration cycle smoothly. Can not.

また、最下部の直上部の貯蔵室である冷凍室3の後背部に配置された蒸発器20は床面から高い位置に存在するとともに、蒸発器20を収容する冷却室の冷凍室3内への突出寸法が大きくなり、庫内奥行を侵害し収納容積の減少、収納性が悪くなるというものであった。   In addition, the evaporator 20 disposed in the rear portion of the freezing room 3 that is the storage room directly above the lowermost part is located at a high position from the floor surface, and into the freezing room 3 of the cooling room that houses the evaporator 20. The projecting dimension of the container becomes large, the depth of the inside of the cabinet is infringed, the storage volume is reduced, and the storage property is deteriorated.

また、最下部の貯蔵室とその直上部の貯蔵室、すなわち冷凍室3と野菜室4の収納容量や収納性に差が有り、引出し式の貯蔵室の場合は収納容器9a、9bの引出し代の相違もあって使い勝手面の課題を有するほか、製造コスト面での課題も同時に有するものであった。   In addition, there is a difference in storage capacity and storage performance between the lowermost storage chamber and the storage chamber immediately above it, that is, the freezing chamber 3 and the vegetable chamber 4, and in the case of a drawer-type storage chamber, the withdrawal allowance of the storage containers 9a and 9b In addition to having a problem in terms of usability, there was also a problem in terms of manufacturing cost.

本発明は、上記従来の課題を解決するもので、無効スペースとなる冷凍サイクル関連機器の配置構成を工夫することで、使用者が使いやすい高さ位置の収納容積や収納性を高める冷蔵庫のレイアウト構成を提供することを目的とする。   SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and by devising the arrangement configuration of refrigeration cycle-related equipment that becomes an invalid space, the layout of a refrigerator that enhances the storage capacity and storage capacity at a height position that is easy for the user to use. The purpose is to provide a configuration.

上記従来の課題を解決するために、本発明の冷蔵庫は、冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部に前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部に前記除霜水蒸発装置を設けたものである。   In order to solve the above-described conventional problems, a refrigerator according to the present invention includes a heat insulating box and a door that form a refrigerator body, a compressor, an evaporator, and a condenser of a refrigeration cycle, and a defrosted water evaporator of the evaporator. The compressor is provided outside the heat insulation box above the evaporator provided inside the heat insulation box, and the defrost water evaporator is provided outside the heat insulation box below the evaporator. It is a thing.

また、前記凝縮器を前記蒸発器より下方の前記断熱箱体外部に設けて、前記除霜水蒸発装置の加熱源としたものである。   In addition, the condenser is provided outside the heat insulating box below the evaporator to serve as a heating source for the defrosted water evaporator.

また、前記圧縮機を前記断熱箱体外部の天部後方に形成した第1の凹部内に配置し、前記除霜水蒸発装置を前記断熱箱体外部の底部後方に形成した第2の凹部内に配置したものである。   Further, the compressor is disposed in a first recess formed at the rear of the top outside the heat insulation box, and the defrosted water evaporator is disposed in the second recess formed at the rear of the bottom outside the heat insulation box. It is arranged in.

これによって、圧縮機を断熱箱体下部の後方から排除して放熱向上による効率向上を図りながら蒸発器の除霜水蒸発機能を満足させることができるので、冷凍サイクル関連機器の機能を維持しながら、使用者にとって使い勝手の良い高さ位置の庫内スペースを増加させることができる。   As a result, it is possible to satisfy the defrosting water evaporation function of the evaporator while eliminating the compressor from the rear of the lower part of the heat insulation box and improving the efficiency by improving the heat dissipation, while maintaining the function of the refrigeration cycle related equipment. Thus, the space in the cabinet at a height that is convenient for the user can be increased.

また、使用者が手を伸ばしても届きにくいスペースに圧縮機と除霜水蒸発装置を分散して収容することで庫内側へ無効スペースの実質的影響を低減し、庫内スペースをさらに有効活用することができる。   In addition, the compressor and defrost water evaporation device are distributed and housed in a space that is difficult to reach even if the user reaches out. can do.

本発明の冷蔵庫は、冷凍サイクル関連機器の機能を維持,向上しながら、庫内側へ無効スペースの実質的影響を低減し、使用者にとって使い勝手の良い高さ位置の庫内スペースを増加させることができる。   The refrigerator of the present invention can reduce the substantial influence of the invalid space on the inside of the warehouse while maintaining and improving the function of the refrigeration cycle related equipment, and can increase the space in the warehouse at a convenient height for the user. it can.

請求項1に記載の発明は、冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部に前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部に前記除霜水蒸発装置を設けたものであり、圧縮機を断熱箱体下部の後方から排除して放熱向上による効率向上を図りながら蒸発器の除霜水蒸発機能を満足させることができるので、冷凍サイクル関連機器の機能を維持しながら、使用者にとって使い勝手の良い高さ位置の庫内スペースを増加させることができる。   Invention of Claim 1 is equipped with the heat insulation box and door which form a refrigerator main body, the compressor of the refrigerating cycle, the evaporator, the condenser, and the defrost water evaporation apparatus of the said evaporator, The said heat insulation box The compressor is provided outside the heat insulation box above the evaporator provided inside the body, and the defrost water evaporation device is provided outside the heat insulation box below the evaporator. Can be satisfied from the rear of the bottom of the heat insulation box to improve efficiency by improving heat dissipation while satisfying the evaporator's defrost water evaporation function. It is possible to increase the storage space at a good height.

請求項2に記載の発明は、請求項1に記載の発明において、前記凝縮器を前記蒸発器より下方の前記断熱箱体外部に設けて、前記除霜水蒸発装置の加熱源としたものであり、圧縮機が分離配置されても圧縮機からの放熱に頼らず凝縮器の一部からの凝縮熱を利用して除霜水の蒸発促進を図ることができる。   The invention according to claim 2 is the invention according to claim 1, wherein the condenser is provided outside the heat insulating box below the evaporator and is used as a heating source of the defrost water evaporator. Yes, even if the compressors are separated, the evaporation of defrost water can be promoted using the heat of condensation from a part of the condenser without depending on the heat radiation from the compressor.

請求項3に記載の発明は、請求項1または2に記載の発明において、前記圧縮機を前記断熱箱体外部の天部後方に形成した第1の凹部内に配置し、前記除霜水蒸発装置を前記断熱箱体外部の底部後方に形成した第2の凹部内に配置したものであり、圧縮機を断熱箱体の下部後方からなくして、使用者が手を伸ばしても届きにくく使いにくい天部の後背部を有効利用することができ、また、圧縮機と除霜水蒸発装置を分散して収容することで庫内側へ無効スペースの実質的影響を低減し、庫内スペースをさらに有効活用することができる。   According to a third aspect of the present invention, in the first or second aspect of the present invention, the compressor is disposed in a first recess formed at the rear of the top of the heat insulating box, and the defrosted water evaporation is performed. The device is placed in a second recess formed at the rear of the bottom outside the heat insulation box, and the compressor is not provided from the lower rear of the heat insulation box, making it difficult to reach and use even if the user reaches out. The back of the top can be used effectively, and the compressor and defrost water evaporator are distributed and housed to reduce the substantial effect of the invalid space on the inside of the warehouse, making the interior space even more effective Can be used.

請求項4に記載の発明は、請求項3に記載の発明において、前記蒸発器を前記断熱箱体内部の後方に形成した冷却室内に配置し、前記第1の凹部と前記冷却室と前記第2の凹部とを前記断熱箱体後方の上下方向に略一直線上に配置したものであり、断熱箱体の奥部の上下方向に冷凍サイクルの主要な関連機器を集約することができ、前部庫内スペースへの影響を抑えて実質的有効スペースを拡大し、使い勝手を高めることができる。   According to a fourth aspect of the present invention, in the third aspect of the invention, the evaporator is disposed in a cooling chamber formed at the rear of the inside of the heat insulating box, and the first recess, the cooling chamber, and the first 2 recesses are arranged in a substantially straight line in the vertical direction behind the heat insulation box, and the main related equipment of the refrigeration cycle can be concentrated in the vertical direction at the back of the heat insulation box. It is possible to increase the usability by expanding the effective space by suppressing the influence on the interior space.

請求項5に記載の発明は、請求項4に記載の発明において、前記第2の凹部を前記冷却室の前端面より後方に収まるように配置したものであり、下部庫内空間において形状的にもシンプルな庫内空間を提供することができるので使い勝手をより高めることができる。   The invention according to claim 5 is the invention according to claim 4, wherein the second recess is arranged so as to be located behind the front end surface of the cooling chamber, and is shaped in the lower internal space. However, it is possible to provide a simple storage space, so that the usability can be improved.

請求項6に記載の発明は、請求項1から5のいずれか一項に記載の発明において、前記凝縮器を前記断熱箱体外部の底部に配置したものであり、もともと冷蔵庫を移動させるためのキャスター等の設置により、冷蔵庫と床面との間に隙間があるが、この隙間に凝縮器を設けることができ、無効スペースを有効活用し庫内スペースを拡大できる。   Invention of Claim 6 arrange | positions the said condenser in the bottom part of the said heat insulation box body in the invention as described in any one of Claim 1 to 5, originally for moving a refrigerator By installing a caster or the like, there is a gap between the refrigerator and the floor surface. A condenser can be provided in this gap, and the ineffective space can be effectively utilized to enlarge the space in the cabinet.

また、前方の凝縮器で放熱された熱気を後方の第2の凹部内に設けた蒸発皿の上面を通過するよう自然対流させることか可能となり、蒸発皿内に滞留した水の温度を上昇させたり、蒸発する能力を向上することができる。   In addition, it is possible to naturally convection the hot air radiated by the front condenser so as to pass through the upper surface of the evaporating dish provided in the rear second concave portion, thereby increasing the temperature of the water remaining in the evaporating dish. Or the ability to evaporate can be improved.

請求項7に記載の発明は、請求項3から6のいずれか一項に記載の発明において、前記凝縮器を前記第2の凹部内に配置したものであり、断熱箱体の奥部の上下方向に冷凍サイクルの関連機器を集約することができ、庫内スペースへの影響を最小限に留めて実質的有効スペースを拡大し、使い勝手を高めることができる。   The invention according to claim 7 is the invention according to any one of claims 3 to 6, wherein the condenser is arranged in the second recess, and is located above and below the back of the heat insulating box. The refrigeration cycle related devices can be consolidated in the direction, and the effective space can be expanded while minimizing the influence on the internal space, thereby improving the usability.

請求項8に記載の発明は、請求項3から7のいずれか一項に記載の発明において、前記第1の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトを形成したものであり、冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、圧縮機等の放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。   The invention according to claim 8 is the invention according to any one of claims 3 to 7, wherein a forced convection blower is provided in the first recess, and air is convected in the left-right direction. A duct is formed, and a heat radiating duct with low ventilation resistance can be formed by making use of the width in the left-right direction of the refrigerator body. By improving the heat radiating effect of the compressor etc., the efficiency of the refrigeration cycle and the improvement of the reliability It is possible to reduce the influence of heat on the inside of the refrigerator.

請求項9に記載の発明は、請求項3から8のいずれか一項に記載の発明において、前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第2のダクトを形成したものであり、冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、除霜水蒸発装置の蒸発皿に貯留された除霜水の蒸発を促進し、凝縮器の放熱をも促進することができるので、除霜水蒸発装置や凝縮器をより小型化して庫内側に影響する無効スペースを抑えることができる。また、放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。   The invention according to claim 9 is the invention according to any one of claims 3 to 8, wherein a forced convection blower is provided in the second recess, and air is convected in the left-right direction. A duct is formed, making use of the width of the refrigerator body in the horizontal direction to form a heat radiating duct with low ventilation resistance, promoting evaporation of defrost water stored in the evaporating dish of the defrost water evaporator and condensing Since the heat radiation of the vessel can be promoted, the defrost water evaporation device and the condenser can be further miniaturized to suppress the invalid space that affects the inside of the warehouse. Further, by increasing the heat dissipation effect, it is possible to improve the efficiency and reliability of the refrigeration cycle and reduce the heat effect on the inside of the warehouse.

さらに、断熱箱体底部周辺においては、圧縮機が分離配置されれば庫内との温度差が小さくなることにより断熱箱体の表面温度低下による結露が発生するが、強制対流のダクトを有することによって湿気を含んだ空気の澱みを排除し、表面熱伝達を高めて表面温度を引き上げることによって結露発生の問題を抑えることができる。   Furthermore, in the vicinity of the bottom of the heat insulation box, if the compressor is separated and arranged, the temperature difference from the inside of the cabinet will be reduced, and condensation will occur due to a decrease in the surface temperature of the heat insulation box, but there will be a forced convection duct By eliminating the stagnation of air containing moisture, the problem of dew condensation can be suppressed by raising the surface temperature by increasing the surface heat transfer.

請求項10に記載の発明は、請求項3から7のいずれか一項に記載の発明において、前記第1の凹部内および前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトおよび第2のダクトをそれぞれ形成し、前記第1のダクトの排気口と前記第2のダクトの排気口とを同一方向に配置したものであり、冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、圧縮機等の放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。   According to a tenth aspect of the present invention, in the invention according to any one of the third to seventh aspects, a forced convection blower is provided in the first concave portion and the second concave portion in the left-right direction. A first duct and a second duct in which air convects are formed, respectively, and the exhaust port of the first duct and the exhaust port of the second duct are arranged in the same direction. By utilizing the width of the direction, a heat radiating duct with low ventilation resistance can be formed, and by improving the heat radiating effect of the compressor etc., it is possible to improve the efficiency and reliability of the refrigeration cycle and reduce the heat effect on the inside of the warehouse it can.

また、除霜水蒸発装置の蒸発皿に貯留された除霜水の蒸発を促進し、凝縮器の放熱をも促進することができるので、除霜水蒸発装置や凝縮器をより小型化して庫内側に影響する無効スペースを抑えることができる。また、放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。   In addition, the evaporation of the defrost water stored in the evaporating dish of the defrost water evaporation device can be promoted and the heat radiation of the condenser can be promoted, so the defrost water evaporation device and the condenser can be further downsized and stored. Invalid space that affects the inside can be reduced. Further, by increasing the heat dissipation effect, it is possible to improve the efficiency and reliability of the refrigeration cycle and reduce the heat effect on the inside of the warehouse.

また、断熱箱体底部周辺においては、圧縮機が分離配置されれば庫内との温度差が小さくなることにより断熱箱体の表面温度低下による結露が発生するが、強制対流のダクトを有することによって湿気を含んだ空気の澱みを排除し、表面熱伝達を高めて表面温度を引き上げることによって結露発生の問題を抑えることができる。   In addition, in the vicinity of the bottom of the heat insulation box, if the compressor is separated, the temperature difference from the inside of the cabinet will be reduced, and condensation will occur due to a decrease in the surface temperature of the heat insulation box, but there will be a forced convection duct. By eliminating the stagnation of air containing moisture, the problem of dew condensation can be suppressed by raising the surface temperature by increasing the surface heat transfer.

さらに、下部の第2のダクトの排気口から排出される排熱を含んだ空気が、上部の第1のダクトの吸気口に直接再度吸入されることがなく第1の凹部内の圧縮機等の放熱を阻害することがなく冷蔵庫全体としての放熱効率を高めることができる。   Further, the air containing the exhaust heat discharged from the exhaust port of the lower second duct is not directly sucked again into the intake port of the upper first duct, and the compressor in the first recess, etc. The heat dissipation efficiency of the entire refrigerator can be increased without hindering heat dissipation.

請求項11に記載の発明は、請求項3から10のいずれか一項に記載の発明において、前記第1の凹部の外郭を樹脂成形で形成したものであり、圧縮機を収容する異形で複雑な形状の機械室部分を樹脂成形で別途一体に形成することができ、機械室の組み立て工程において簡素化による作業性の向上と組み立て精度の向上が図れ、製造コストを抑えて、圧縮機上部配置型の冷蔵庫を高い品質で合理的に提供することができる。   According to an eleventh aspect of the invention, in the invention according to any one of the third to tenth aspects, an outer shape of the first concave portion is formed by resin molding, and is a deformed and complex housing a compressor. Machine room parts can be formed separately by resin molding, improving the workability and the assembly accuracy by simplifying the assembly process of the machine room, reducing the manufacturing cost, and placing the upper part of the compressor A type refrigerator can be reasonably provided with high quality.

また、機械室外郭の樹脂成形における補強構造や外箱との接合構造を適切なものとすることにより剛性が高くなり、かつ鋼板に代表される金属板製の外箱と材質の異なる樹脂成形の機械室外郭を接合することによって振動伝播が減衰し、圧縮機の騒音,振動が冷蔵庫本体への伝播することが抑制され、庫内部品の共振音の発生等も防止できて、人の耳障りになりやすい配置となる圧縮機上部配置型の冷蔵庫においても使用者や居住者の不快感を拭うことができる。   In addition, by making the reinforcement structure in the resin molding of the machine room outer shell and the joining structure with the outer box appropriate, the rigidity is increased, and the resin molding of a material different from the metal box outer box represented by the steel plate is used. By joining the machine room shell, the vibration propagation is attenuated, the compressor noise and vibration are prevented from propagating to the refrigerator body, and the generation of resonance noise of the internal parts can be prevented, which can be detrimental to humans. Even in the compressor upper arrangement type refrigerator that is easily arranged, the discomfort of the user or resident can be wiped off.

また、機械室外郭を別途樹脂で一体成型して冷蔵庫本体の外箱と接合する構成を採用することによって、製造工程においては冷蔵庫の外形の異なる製品間でも機械室部分の共用化や標準化を図れる可能性を有するものである。   In addition, by adopting a structure in which the outer casing of the machine room is integrally molded with resin and joined to the outer box of the refrigerator body, the machine room can be shared and standardized between products with different external shapes in the manufacturing process. It has a possibility.

また、製造工程の工夫によっては、樹脂成形された機械室外郭に圧縮機をはじめとした各部品を予め装着して予備的に組み立てておき、この機械室の予備組み立て品を冷蔵庫本体の外箱に装着して接合させ、冷媒配管等を連結するなどの方法も考えられ、製造工程の一層の合理化による生産性の向上や予備組み立て品としての共用化、標準化を取り入れることによる製造コストの低減が図れる。   In addition, depending on the contrivance of the manufacturing process, parts such as a compressor are preliminarily assembled and pre-assembled on the resin-molded machine room outline, and this machine room pre-assembled product is attached to the outer box of the refrigerator main body. It is also conceivable to attach and join to refrigerant pipes and connect refrigerant pipes, etc., improving productivity by further streamlining the manufacturing process, sharing it as a pre-assembly, and reducing manufacturing costs by incorporating standardization I can plan.

請求項12に記載の発明は、請求項4から11のいずれか一項に記載の発明において、前記断熱箱体内を上下に区画して複数の貯蔵室を形成し、前記貯蔵室のうち最上部の貯蔵室を冷蔵室として前記第1の凹部を上部後方の室外に設け、最下部の貯蔵室を冷凍室として前記第2の凹部を下部後方の室外に設け、前記最下部の貯蔵室内の後方に前記冷却室を設けたものであり、庫内への温度影響が最も大きい圧縮機を庫内温度が高いために比較的にその影響が少ない冷蔵室に対面でき、かつ使用者の手が届きにくくて最も使いにくく温度分布的にも高いため普段積極的には使用されない庫内最上段部の後方を上手く有効活用して最も無効スペースをとる圧縮機を配置できる。   The invention according to claim 12 is the invention according to any one of claims 4 to 11, wherein the heat insulating box is partitioned vertically to form a plurality of storage chambers, and the uppermost portion of the storage chambers The storage chamber is a refrigeration chamber, the first recess is provided outside the upper rear chamber, the lowermost storage chamber is a freezing chamber, the second recess is provided outside the lower rear chamber, and the rear of the lower storage chamber The compressor having the greatest temperature influence on the inside of the refrigerator can be faced to the refrigerator room having a relatively low influence due to the high inside temperature, and reach the user's hand. It is difficult to use and most difficult to use, and the temperature distribution is high, so it is possible to arrange a compressor that takes the most ineffective space by making good use of the rear of the uppermost part of the cabinet that is not normally used actively.

また、蒸発器を収容した冷却室を少なくとも最下部の冷凍室に対面させるので、最も低温に維持される冷凍室に対して蒸発器の冷却効果を直接的に最大限に供与することができるので、圧縮機の上部配置と併せてスペース面と冷却面で実質的な庫内側への影響を与えない合理的な冷凍サイクル関連機器のレイアウトが実現できる。   In addition, since the cooling chamber containing the evaporator faces at least the lowest freezing chamber, the cooling effect of the evaporator can be directly and directly provided to the freezing chamber maintained at the lowest temperature. In addition to the upper arrangement of the compressor, a rational refrigeration cycle-related equipment layout that does not substantially affect the interior of the storage space and cooling surface can be realized.

また、少なくとも最下部の冷凍室の後方に蒸発器を有する冷却室を配置するので、圧縮機上部配置によって高くなった冷蔵庫本体の重心を下げることができ、冷蔵庫の転倒安定性を高めてより安全な圧縮機上部配置型の冷蔵庫を提供できる。また、凝縮器が下部配置されるものにあってはさらに重心を引き下げることができて一層安定性が高められる。   In addition, since a cooling chamber with an evaporator is disposed at least behind the lowermost freezing chamber, the center of gravity of the refrigerator body, which has been raised by the upper arrangement of the compressor, can be lowered, and the stability of the refrigerator can be increased and the safety can be improved. It is possible to provide a refrigerator with an upper compressor type. Further, in the case where the condenser is disposed below, the center of gravity can be further lowered, and the stability is further improved.

請求項13に記載の発明は、請求項12に記載の発明において、前記最上部の貯蔵室の扉を回転式扉とし、前記最上部の貯蔵室より下部の貯蔵室の扉を引出し式扉としたものであり、下部の貯蔵室の扉を引出し式の扉とすることによって、扉を引き出した際に冷蔵庫の重心が前方に移動して、特に収納物の重量が重い場合には冷蔵庫本体が手前に傾きやすい傾向となるが、これに対して、圧縮機は上部配置であっても重量の比較的重い冷凍サイクル関連機器を冷蔵庫本体の下部にも分散配置し、また圧縮機を含めて冷凍サイクルの関連機器を冷蔵庫本体の後方に集約配置することによって重心を下部方向および後部方向に設定することができ、圧縮機上部配置型の冷蔵庫での安定性を高めて、転倒に対する安全性を確保することができる。   The invention according to claim 13 is the invention according to claim 12, wherein the door of the uppermost storage chamber is a rotary door, and the door of the storage chamber lower than the uppermost storage chamber is a drawer door. By making the door of the lower storage room a drawer-type door, the center of gravity of the refrigerator moves forward when the door is pulled out. In contrast to this, although the compressor tends to tilt forward, relatively heavy refrigeration cycle-related equipment is distributed in the lower part of the refrigerator body even if the compressor is placed in the upper part, and the compressor and the refrigeration unit are The center of gravity can be set in the lower and rear direction by concentrating and arranging the cycle related equipment at the rear of the refrigerator body, increasing the stability of the compressor upper arrangement type refrigerator and ensuring safety against falling can do.

以下、本発明による冷蔵庫の実施の形態について、図面を参照しながら説明するが、先の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。   Hereinafter, an embodiment of a refrigerator according to the present invention will be described with reference to the drawings. However, the same components as those of the previous embodiment will be denoted by the same reference numerals, and detailed description 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における冷蔵庫の正面図、図2は同実施の形態における冷蔵庫の扉を開けた状態の断熱箱体の正面図、図3は図1のB−B線断面図、図4は同実施の形態における冷蔵庫の断熱箱体の天面後方部の要部斜視図、図5は同実施の形態における冷蔵庫の断熱箱体の底面後方部の要部分解斜視図である。
(Embodiment 1)
1 is a front view of a refrigerator according to Embodiment 1 of the present invention, FIG. 2 is a front view of a heat insulating box with the refrigerator door opened according to the same embodiment, and FIG. 3 is a cross-sectional view taken along line BB in FIG. FIG. 4 is a perspective view of the main part of the rear part of the top surface of the heat insulation box of the refrigerator in the embodiment, and FIG. 5 is an exploded perspective view of the main part of the rear part of the bottom surface of the heat insulation box of the refrigerator in the same embodiment. is there.

図1から図5において、例えば硬質発泡ウレタンなどの断熱材で周囲と断熱して構成されている断熱箱体50は複数の区画に区分されて貯蔵室を形成しており、最上部の貯蔵室を冷蔵室51、冷蔵室の直下には断熱された仕切壁によって区画された製氷室52と第1の冷凍室53を横並びで配置している。最下段の貯蔵室は第2の冷凍室54、そして製氷室52及び第1の冷凍室53と第2の冷凍室54との間において第2の冷凍室54の直上部に野菜室55が配置される構成となっている。第2の冷凍室54及び野菜室55はともに引き出し式貯蔵室の形態をしている。各貯蔵室の前面開口部はそれぞれ断熱扉である回転式の冷蔵室扉51a、引き出し式の製氷室扉52a、第1の冷凍室扉53a、第2の冷凍室扉54a、野菜室扉55aが備えられている。   In FIG. 1 to FIG. 5, a heat insulating box 50 configured to be insulated from the surroundings with a heat insulating material such as hard foamed urethane is divided into a plurality of sections to form a storage chamber, and the uppermost storage chamber The ice making chamber 52 and the ice making chamber 52 and the first freezing chamber 53, which are partitioned by an insulated partition wall, are arranged side by side immediately below the refrigerator compartment 51. The lowermost storage room is the second freezer room 54, and the vegetable room 55 is arranged immediately above the second freezer room 54 between the ice making room 52 and the first freezer room 53 and the second freezer room 54. It becomes the composition which is done. Both the second freezer compartment 54 and the vegetable compartment 55 are in the form of pull-out storage rooms. The front opening of each storage room has a rotary refrigerator door 51a, a drawer-type ice making door 52a, a first freezer door 53a, a second freezer door 54a, and a vegetable room door 55a, which are heat insulating doors. Is provided.

冷蔵室51は冷蔵保存のために凍らない温度を下限に通常1℃〜5℃で設定され、野菜室55は冷蔵室51と同等もしくは若干高い温度設定の2℃〜7℃とすることが多く、低温、高湿にするほど葉野菜の鮮度を長期間維持することが可能である。   The refrigerator compartment 51 is usually set at 1 ° C to 5 ° C with the lower limit of the temperature at which it is not frozen for refrigerated storage, and the vegetable compartment 55 is often set to 2 ° C to 7 ° C, which is the same or slightly higher temperature setting as the refrigerator compartment 51. The freshness of the leafy vegetables can be maintained for a long period of time as the temperature and humidity become lower.

冷凍温度帯の貯蔵室である第1の冷凍室53と第2の冷凍室54は冷凍食品を凍結、保存するために充分な約−18℃に設定されているが、冷凍保存状態向上のために、例えば−30℃程度の低温で設定されることもある。   The first freezing room 53 and the second freezing room 54 which are storage rooms in the freezing temperature zone are set to about −18 ° C. sufficient for freezing and storing frozen foods. For example, the temperature may be set at a low temperature of about −30 ° C., for example.

断熱箱体51の天面部は、背面方向に向かって階段状に凹みを設けて、第1の天面部60と、第2の天面部61で構成されており、この階段状の第1の凹部62内に圧縮機63、冷媒を循環するための配管63a、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の構成部品が収納され、第1の凹部62内の空気を排熱するための強制対流用の送風機である機械室ファン79も収納されて、冷蔵庫本体の左右方向に空気が流れる第1のダクトを形成している。   The top surface portion of the heat insulation box 51 is provided with a first step surface portion 60 and a second top surface portion 61 with a stepped recess in the back direction, and this step-shaped first recess. 62 includes components such as a compressor 63, a pipe 63a for circulating the refrigerant, and a high-pressure side component of the refrigeration cycle such as a dryer (not shown) for removing moisture, and exhausts air in the first recess 62. A machine room fan 79, which is a blower for forced convection for heating, is also housed to form a first duct through which air flows in the left-right direction of the refrigerator body.

一般的に階段状の第1の凹部62は、断熱箱体50の外郭である金属鋼板等で形成された外箱64の第1の天面部60に圧縮機63を載置するスペース分の切欠部65をつくり、その切欠部65に前壁と左右両側壁と圧縮機63を載せるための第2の天面部61とを一体で形成した樹脂部品66を外郭として嵌め込むような形にして第1の凹部62を形成している。第1の凹部62は上方及び背方が開口されており凹部カバー62aにより圧縮機63を覆っている。なお、第2の天面部61に設けた圧縮機63の固定部にゴムや樹脂などの弾性体67を中間にかませて設置することで振動伝播を防止できる。庫内側は断熱箱体50内を形成する内箱68を樹脂部品66の形状に沿った形で湾曲させ、冷蔵室51の最上段付近は内箱68が庫内側に突出するような形になっている。また外箱64と内箱68の間には発泡断熱材69を注入し、冷蔵室51と第1の凹部62を断熱するよう構成されている。なお、外箱64の第1の天面部60に切欠部65を入れ、圧縮機63を載置する第1の凹部62の強度を向上するため、一般的に切欠部65周辺に補強部材(図示せず)を設けて補強することが望ましい。したがって、従来一般的であった断熱箱体51の最下部の貯蔵室の後方領域に圧縮機63は配置されないことになる。   In general, the step-like first recess 62 has a notch for a space for placing the compressor 63 on the first top surface portion 60 of the outer box 64 formed of a metal steel plate or the like that is the outer shell of the heat insulating box 50. A portion 65 is formed, and a resin part 66 formed integrally with a front wall, left and right side walls, and a second top surface portion 61 for mounting the compressor 63 is inserted into the cutout portion 65 as an outer shell. 1 recess 62 is formed. The first recess 62 is open at the top and the back, and covers the compressor 63 with a recess cover 62a. Note that vibration propagation can be prevented by installing an elastic body 67 such as rubber or resin in the middle of the fixing portion of the compressor 63 provided on the second top surface portion 61. The inner box 68 that forms the inside of the heat insulating box 50 is curved along the shape of the resin component 66 on the inner side of the refrigerator, and the inner box 68 protrudes to the inner side in the vicinity of the uppermost stage of the refrigerator compartment 51. ing. Further, a foam heat insulating material 69 is injected between the outer box 64 and the inner box 68 to insulate the refrigerator compartment 51 and the first recess 62. In order to improve the strength of the first recess 62 in which the compressor 63 is placed by inserting a notch 65 into the first top surface 60 of the outer box 64, a reinforcing member (see FIG. It is desirable to provide reinforcement. Therefore, the compressor 63 is not arranged in the rear region of the lowermost storage chamber of the heat insulating box 51 that is conventionally common.

また、第2の冷凍室54と野菜室55の両室の背面にまたがって冷却室70が設けられ、冷却室70は仕切壁としての断熱性を有する第1の仕切壁71で第2の冷凍室54および野菜室55から仕切られている。   In addition, a cooling chamber 70 is provided across the back surfaces of both the second freezing chamber 54 and the vegetable chamber 55, and the cooling chamber 70 is a first partition wall 71 having heat insulating properties as a partition wall, and is a second freezing chamber. It is partitioned from the chamber 54 and the vegetable chamber 55.

また、第2の冷凍室54と野菜室55は断熱仕切壁としての断熱性を有する第2の仕切壁72で仕切られている。また、冷蔵室51と製氷室52及び第1の冷凍室52とは断熱性を有する第3の仕切壁73、製氷室52及び第1の冷凍室53と野菜室55とは同じく断熱性を有する第4の仕切壁74で仕切られている。これらの仕切壁は、断熱箱体50の発泡後組み立てられる部品であるため、通常断熱材として発泡ポリスチレンが使われるが、断熱性能や剛性を向上させるために硬質ウレタンを用いても良く、さらには、より高断熱性の真空断熱材を挿入して、仕切壁構造の薄型化を図ってもよい。また、第3の仕切壁73のように冷蔵室扉51aを回転させるためのヒンジ(図示せず)を表面に設けるなど、強度と剛性が必要な場合は、発泡断熱材の発泡前に取り付けておき、断熱箱体50と一体で構成するとよい。   Moreover, the 2nd freezer compartment 54 and the vegetable compartment 55 are partitioned off by the 2nd partition wall 72 which has the heat insulation as a heat insulation partition wall. Further, the refrigerator compartment 51, the ice making chamber 52, and the first freezing chamber 52 have a third partition wall 73 having heat insulating properties, and the ice making chamber 52, the first freezing chamber 53, and the vegetable chamber 55 have the same heat insulating properties. Partitioned by a fourth partition wall 74. Since these partition walls are parts that are assembled after foaming of the heat insulation box 50, foamed polystyrene is usually used as a heat insulating material, but hard urethane may be used to improve heat insulation performance and rigidity, The partition wall structure may be thinned by inserting a vacuum insulation material having higher heat insulation properties. In addition, if strength and rigidity are required such as a hinge (not shown) for rotating the refrigerator door 51a on the surface like the third partition wall 73, attach the foam insulation before foaming. In addition, it may be configured integrally with the heat insulating box 50.

また、製氷室52と第1の冷凍室53とは第5の仕切壁75で区画されている。第5の仕切壁75は必要に応じて、例えば第1の冷凍室53を温度調節できる部屋に設定し、製氷室との温度差が生じる場合などには断熱材を用いた断熱仕切壁としてもよい。   Further, the ice making chamber 52 and the first freezing chamber 53 are partitioned by a fifth partition wall 75. The fifth partition wall 75 is set as a room in which the temperature of the first freezer compartment 53 can be adjusted, for example, if necessary, and as a heat insulating partition wall using a heat insulating material when a temperature difference from the ice making room occurs. Good.

冷却室70には、代表的なものとしてフィンアンドチューブ式の蒸発器76が第1の仕切壁71の後方領域を含めて第2の冷凍室54と野菜室55とにまたがって上下方向に縦長に配設されており、第2の冷凍室54の領域の配置比率が野菜室55の領域の配置比率よりも大きくなるように配置されている。蒸発器76の上部空間には強制対流方式により各貯蔵室へ冷気を送るために蒸発器76で冷却した冷気を送風する冷却ファン77が配置され、冷蔵室51へ冷気を送るための冷蔵室用送風路(図示せず)と製氷室52、第1の冷凍室53へ冷気を送るための製氷室用送風路(図示せず)、第2の冷凍室54へ冷気を送るための冷凍室用送風路(図示せず)を備えている。蒸発器76の下部空間には冷却時に蒸発器76や冷却ファン77に付着した霜や氷を溶かす除霜装置としてのガラス管製のラジアントヒータ78が設けられている。   In the cooling chamber 70, a fin-and-tube evaporator 76 as a representative is vertically long in the vertical direction across the second freezing chamber 54 and the vegetable chamber 55 including the rear region of the first partition wall 71. It arrange | positions so that the arrangement ratio of the area | region of the 2nd freezer compartment 54 may become larger than the arrangement ratio of the area | region of the vegetable compartment 55. In the upper space of the evaporator 76, a cooling fan 77 that blows the cold air cooled by the evaporator 76 is disposed in order to send the cold air to each storage chamber by a forced convection method, and for the cold room for sending the cold air to the cold room 51. An air duct (not shown), an ice making chamber 52, an ice making chamber air passage (not shown) for sending cold air to the first freezing chamber 53, and a freezer compartment for sending cold air to the second freezing chamber 54 An air passage (not shown) is provided. In the lower space of the evaporator 76, a radiant heater 78 made of a glass tube is provided as a defrosting device for melting frost and ice adhering to the evaporator 76 and the cooling fan 77 during cooling.

断熱箱体50の底面後方は、背面方向に向かって一段上がった凹みを設けて、第1の底面部80と第2の底面部81で階段状に構成された第2の凹部82を設けている。この第2の凹部82は金属鋼板をプレスすることによって両底面部80、81を形成し、外箱64のほぼ下端付近の内側左右両面と背板64aとのあわせ面に設置することで形成することが一般的であるが、鋼板と樹脂の組み合わせや成形加工した樹脂などで構成することもできる。   The rear of the bottom surface of the heat insulation box 50 is provided with a dent that is raised by one step toward the back surface, and a second concave portion 82 configured in a stepped manner by the first bottom surface portion 80 and the second bottom surface portion 81 is provided. Yes. The second concave portion 82 is formed by pressing the metal steel plate to form both bottom surface portions 80 and 81, and installing them on the mating surfaces of the inner left and right both surfaces near the lower end of the outer box 64 and the back plate 64 a. In general, however, a combination of a steel plate and a resin, a molded resin, or the like can be used.

また、第1の底面部80から第2の凹部82にかけては、通常冷蔵庫を前後方向に動かすことができる複数のローラ88が断熱箱体50の前後に取り付けられ、冷蔵庫が設置されている床面との間に空間を設けている。その空間の断熱箱体50前方に冷凍サイクルの凝縮器83、後方に蒸発器76で除霜された水を貯留するための蒸発皿84及び第1の底面部80から第2の凹部82の空間内を強制対流させるための送風機である放熱ファン86を配置構成し、冷蔵庫本体の左右方向に第2のダクトを形成している。   Moreover, from the 1st bottom face part 80 to the 2nd recessed part 82, the several roller 88 which can usually move a refrigerator to the front-back direction is attached to the front and back of the heat insulation box 50, and the floor surface in which the refrigerator is installed There is a space between them. The space of the second recess 82 from the first bottom surface 80 and the evaporating dish 84 for storing the water defrosted by the evaporator 76 in the front of the heat insulating box 50 and the evaporator 76 in the rear of the space. A heat dissipating fan 86, which is a blower for forced convection inside, is arranged and formed, and a second duct is formed in the left-right direction of the refrigerator body.

なお、第2のダクトの排気口は第1の凹部62内に形成した第1のダクトの排気口と同一の側面方向にして第2のダクトの排熱空気が直接、第1のダクトの吸気口に再度吸い込まれないように構成している。   The exhaust port of the second duct has the same side surface direction as the exhaust port of the first duct formed in the first recess 62, and the exhaust heat air of the second duct is directly taken into the intake air of the first duct. It is configured not to be sucked into the mouth again.

またラジアントヒータ78で除霜された水を蒸発皿84まで送るための排水管89が第2の底面部81から第2の凹部82内に延びるように設置されており、後方の開口は凹部カバー82aにより覆われている。   Further, a drain pipe 89 for sending water defrosted by the radiant heater 78 to the evaporating dish 84 is installed so as to extend from the second bottom surface portion 81 into the second recess 82, and the rear opening is a recess cover. 82a is covered.

凝縮器83は代表的なものとしてスパイラルフィンチューブ式で、樹脂成形された凝縮器ダクト85にはめ込まれ第1の底面部80にビス等で取り付けられている。一方蒸発皿84は第1の底面80から第2の底面81にかけて断熱箱体50の略全幅の大きさで構成されていて、凝縮器ダクト85に載置するよう配置されている。なお蒸発皿84は凝縮器ダクト85と一体成形してもよい。   The condenser 83 is typically a spiral fin tube type and is fitted into a resin-molded condenser duct 85 and attached to the first bottom surface portion 80 with screws or the like. On the other hand, the evaporating dish 84 is configured to have a substantially full width from the first bottom surface 80 to the second bottom surface 81, and is arranged to be placed on the condenser duct 85. The evaporating dish 84 may be integrally formed with the condenser duct 85.

なお、本実施の形態において凝縮器83は第2の凹部82内にまで延出しない配置構成としているが、放熱能力の確保や除霜水蒸発のための加熱能力の確保のため第2の凹部82内に一部が跨って配設される構成としても構わない。   In the present embodiment, the condenser 83 is arranged so as not to extend into the second recess 82. However, the second recess is used to secure the heat dissipation capability and the heating capability for evaporating the defrost water. A configuration may be adopted in which a part thereof is disposed within 82.

また、本実施の形態において蒸発皿84は第2の凹部82内にその一部が跨って配置される構成としているが、除霜水の蒸発能力が確保できるのであれば第2の凹部82内のみに収容してよりコンパクトに配設しても構わない。   Further, in the present embodiment, the evaporating dish 84 is configured such that a part of the evaporating dish 84 is disposed in the second recess 82. However, if the evaporation capacity of the defrost water can be ensured, the evaporating dish 84 is in the second recess 82. It may be accommodated only in the case and arranged more compactly.

また、蒸発皿84内には圧縮機63で圧縮された高温高圧の冷媒を循環させる凝縮器配管の一部となる蒸発皿配管87を加熱手段として設けている。この蒸発皿配管87は、蒸発皿84内に直接配置して貯留する除霜水に直接浸漬させる構造でもよいし、蒸発皿の底部などから熱伝導的に間接加熱する構造としてもよい。   Further, an evaporating dish pipe 87 serving as a part of a condenser pipe for circulating the high-temperature and high-pressure refrigerant compressed by the compressor 63 is provided in the evaporating dish 84 as a heating means. The evaporating dish pipe 87 may be structured so as to be directly immersed in the defrost water stored in the evaporating dish 84, or may be indirectly heated from the bottom of the evaporating dish or the like.

そして、この蒸発皿84と蒸発皿配管87とで除霜水蒸発装置を構成するものである。なお、除霜水蒸発装置は蒸発皿配管87のような加熱手段が必ずしもなくても、例えば吸水性のある部材を用いて除霜水を気化促進するものでも、強制対流用の送風機などを設けて蒸発を促進する構成を用いるものでもよい。加熱手段を併用すれば一層効果的である。   The evaporating dish 84 and the evaporating dish pipe 87 constitute a defrosted water evaporator. Note that the defrost water evaporation apparatus does not necessarily have a heating means such as the evaporating dish pipe 87, for example, a device that promotes vaporization of defrost water using a water-absorbing member, a forced convection blower or the like is provided. Alternatively, a configuration that promotes evaporation may be used. It is more effective if a heating means is used in combination.

また、庫内については断熱箱体50内を形成する内箱68を階段状の第2の凹部82とほぼ同様の形状に湾曲させることで庫内の底面後背部が階段状に突出した庫内底面部を形成している。   Moreover, about the inside of the warehouse, the inside box 68 which forms the inside of the heat insulation box 50 is curved in a shape substantially the same as that of the step-like second concave portion 82, so that the bottom rear portion of the inside of the warehouse protrudes in a step shape. A bottom portion is formed.

冷蔵室51には、庫内の後方に冷却室70で冷却された冷気を通すための冷蔵室ダクト90を備え、複数の吐出孔(図示せず)から庫内全体に冷気を行き渡らせるようにしている。その冷気風路と庫内側とは発泡ポリスチレンなどで簡易的に断熱され、庫内側と断熱区画している。一方庫内は、収納物を重ならず整理して保存するための複数の収納棚91を設け、一部上下に可動できるよう構成されている。なお最上段の収納棚91は第1の凹部62の内箱68の天井部分と略面一にすることが望ましい。最下段には、生鮮類の肉や魚をおいしく保存できるようにした特定低温室を設け、約−1℃〜1℃程度に設定されている。また特定低温室の隣に氷をつくるための水を貯留する給水タンク93を設け前後方向で引き出せるよう構成されている。また、冷蔵室扉51aの庫内側にはペットボトルや牛乳パックといった飲料、調味量などの中ビン類を効率的に収納保存できる複数のポケット94を設けている。   The refrigerating room 51 is provided with a refrigerating room duct 90 for passing the cold air cooled in the cooling room 70 at the rear of the inside of the warehouse, so that the cold air is distributed from the plurality of discharge holes (not shown) to the entire inside of the warehouse. ing. The cold air passage and the inside of the cabinet are simply insulated with foamed polystyrene or the like, and are insulated from the inside of the cabinet. On the other hand, the inside of the warehouse is provided with a plurality of storage shelves 91 for organizing and storing the stored items without overlapping, and a part thereof is configured to be movable up and down. Note that the uppermost storage shelf 91 is preferably substantially flush with the ceiling portion of the inner box 68 of the first recess 62. At the bottom, a specific low-temperature chamber is provided so that fresh meat and fish can be stored deliciously, and is set to about -1 ° C to 1 ° C. Further, a water supply tank 93 for storing water for making ice is provided next to the specific low temperature chamber so that it can be drawn out in the front-rear direction. In addition, a plurality of pockets 94 that can efficiently store and store beverages such as plastic bottles and milk cartons, and medium bottles such as seasonings are provided inside the refrigerator compartment door 51a.

製氷室52には、上部空間に冷蔵室51の給水タンク93から水を汲み取り、氷を生成するための製氷機構95を設け、下部空間には生成した氷を貯留するための貯氷容器96を配置構成している。製氷室扉52aを前後方向に移動させることで貯氷容器96も一緒に移動するよう庫内のレールにより支持されている。   The ice making chamber 52 is provided with an ice making mechanism 95 for drawing water from the water supply tank 93 of the refrigerator compartment 51 in the upper space and generating ice, and an ice storage container 96 for storing the generated ice is arranged in the lower space. It is composed. By moving the ice making chamber door 52a in the front-rear direction, the ice storage container 96 is supported by rails in the cabinet so as to move together.

第1の冷凍室53には、食品を整理して収納するための容器が設けられていて上面が開口されている。容器は前方の第1の冷凍室扉53aを前後方向へ移動させることで容器も一緒に移動するように庫内のレールにより支持されている。背面には冷却室80で冷却された冷気を通すための第1の冷凍室ダクト100を備え、複数の吐出孔(図示せず)から庫内全体に冷気を行き渡らせるようにしていて、その冷気風路は簡易的に断熱され、庫内側と断熱区画している。なお、第1の冷凍室53は冷凍温度以外にも、約5℃の冷蔵温度帯から約−18℃の冷凍温度帯まで温度切替可能な室としても構成できる。その場合第1の冷凍室ダクト100には第1の冷凍室53の庫内温度を管理するセンサー機構(図示せず)と温度切替のための冷気量調節機構としてのダンパー101を組み込んだ形で収納する。   The first freezer compartment 53 is provided with a container for organizing and storing food and has an upper surface opened. The container is supported by rails in the cabinet so that the container moves together by moving the front first freezer compartment door 53a in the front-rear direction. A first freezer compartment duct 100 for passing cold air cooled in the cooling chamber 80 is provided on the back surface, and the cold air is distributed over the entire interior from a plurality of discharge holes (not shown). The air passage is simply insulated and separates from the inside of the cabinet. In addition to the freezing temperature, the first freezing chamber 53 can be configured as a chamber whose temperature can be switched from a refrigeration temperature zone of about 5 ° C. to a freezing temperature zone of about −18 ° C. In that case, the first freezer compartment duct 100 incorporates a sensor mechanism (not shown) for managing the internal temperature of the first freezer compartment 53 and a damper 101 as a cold air amount adjusting mechanism for temperature switching. Store.

第2の冷凍室54には、食品を整理して収納するための冷凍室収納容器105が設けられていて上面が開口されている。冷凍室収納容器105は前方の第2の冷凍室扉54aを前後方向へ移動させることで冷凍室収納容器105も一緒に移動するように庫内のレールにより支持されている。   The second freezer compartment 54 is provided with a freezer compartment container 105 for organizing and storing food, and the upper surface is opened. The freezer compartment container 105 is supported by rails in the cabinet so that the freezer compartment container 105 moves together by moving the second freezer compartment door 54a in the front-rear direction.

野菜室55には葉野菜や根菜、果物などの野菜類を主に整理して収納するための野菜室収納容器106が設けられていて上面が開口されている。野菜室収納容器106は前方の野菜室扉55aを前後方向へ移動させることで野菜室収納容器106も一緒に移動するよう庫内に設置したレールにより支持されている。特に、野菜室収納容器106内の手前側には簡易的な仕切りなどを設けて区画形成し、ペットボトルや野菜を縦置きで収納できるように野菜室収納容器106の高さ寸法を設定して、野菜室扉55aを少し開けるだけで取り出せるように配慮されるとよい。   The vegetable room 55 is provided with a vegetable room storage container 106 for mainly organizing and storing vegetables such as leaf vegetables, root vegetables and fruits, and the upper surface is opened. The vegetable compartment storage container 106 is supported by rails installed in the cabinet so that the vegetable compartment storage container 106 moves together by moving the front vegetable compartment door 55a in the front-rear direction. In particular, a simple partition or the like is provided on the front side of the vegetable compartment storage container 106 to form a compartment, and the height dimension of the vegetable compartment storage container 106 is set so that PET bottles and vegetables can be stored vertically. It should be considered that the vegetable compartment door 55a can be taken out by opening it a little.

上述のように冷凍サイクルの圧縮機63が第2の冷凍室54の後方領域に存在せず、冷蔵室51の庫内は冷蔵室ダクト90までの奥行き、製氷室52及び第1の冷凍室53の庫内は第1の冷凍室ダクト100までの奥行き、また第2の冷凍室54及び野菜室55庫内は第1の仕切壁71までの奥行きがそれぞれ確保でき、圧縮機63収容する第1の凹部62の冷蔵室51の最上段が最も突出していて、冷却室70は極力奥行き方向の厚みを大きくしないように配慮されて、ほぼ同様の厚みで上下方向に略一直線上に配置されている。これにより、第2の仕切壁72の下方貯蔵室である製氷室52、第1の冷凍室53、第2の冷凍室54、野菜室55の奥行きはほぼ同等で形成される。   As described above, the compressor 63 of the refrigeration cycle does not exist in the rear region of the second freezer compartment 54, and the inside of the refrigerator compartment 51 has a depth to the refrigerator compartment duct 90, the ice making compartment 52, and the first freezer compartment 53. The inside of the storage room can be secured to the first freezer compartment duct 100, and the second freezer compartment 54 and the vegetable compartment 55 can be secured to the first partition wall 71. The uppermost stage of the refrigerating chamber 51 of the recess 62 protrudes the most, and the cooling chamber 70 is arranged in a substantially straight line with substantially the same thickness so as not to increase the thickness in the depth direction as much as possible. . As a result, the ice making chamber 52, the first freezing chamber 53, the second freezing chamber 54, and the vegetable chamber 55, which are lower storage chambers of the second partition wall 72, are formed with substantially the same depth.

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基板(図示せず)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なわれる。圧縮機63の動作により吐出された高温高圧の冷媒は、凝縮器83にて放熱して凝縮液化し、キャピラリーチューブ(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蒸発器76に至る。   First, the refrigeration cycle operation will be described. The refrigeration cycle is operated by a signal from a control board (not shown) according to the set temperature in the cabinet, and the cooling operation is performed. The high-temperature and high-pressure refrigerant discharged by the operation of the compressor 63 releases heat in the condenser 83 to be condensed and liquefied, and is reduced in pressure while exchanging heat with a capillary tube (not shown) to become a low-temperature and low-pressure liquid refrigerant. It reaches the evaporator 76.

冷却ファン77の動作により、各貯蔵室内の空気と熱交換されて冷却器76内の冷媒は蒸発気化し、低温の冷気をダンパー装置などで供給制御することで、各貯蔵室の設定された所定の温度を維持できるよう冷却を行う。蒸発器76を出た冷媒は吸入管を経て圧縮機63へと吸い込まれる。   By the operation of the cooling fan 77, heat is exchanged with the air in each storage chamber, the refrigerant in the cooler 76 evaporates, and supply of low-temperature cold air is controlled by a damper device or the like. Cooling is performed so that the temperature can be maintained. The refrigerant exiting the evaporator 76 is sucked into the compressor 63 through the suction pipe.

圧縮機63を断熱箱体50の第2の天面部61に載置して第2の冷凍室54の後方領域には配置せず、冷却室70を第2の冷凍室54と野菜室55の背面に配置し、蒸発器76と冷却ファン77を概ね第2の冷凍室54と野菜室55の高さ範囲内で設け、蒸発器76を高さ方向に延長させ奥行き寸法を短縮することにより、冷却室70の厚みを薄くして庫内容積として寄与しない無効スペースを減少できる。   The compressor 63 is placed on the second top surface portion 61 of the heat insulating box 50 and is not disposed in the rear region of the second freezer compartment 54, and the cooling chamber 70 is placed between the second freezer compartment 54 and the vegetable compartment 55. By arranging the evaporator 76 and the cooling fan 77 within the height range of the second freezer compartment 54 and the vegetable compartment 55, and arranging the evaporator 76 in the height direction to reduce the depth dimension, By reducing the thickness of the cooling chamber 70, the ineffective space that does not contribute to the internal volume can be reduced.

また、凝縮器83を断熱箱体50の底面前方の庫外側ほぼ全幅に高さ寸法を小さく、かつ蒸発皿84を第2の凹部82付近に高さ寸法を小さくして取り付けることにより、設置された床面と第1の底面部80との空間及び第2の底面部81までの空間である第2の凹部82の高さを低くして庫内容積として寄与しない無効スペースを減少できる。   Further, the condenser 83 is installed by attaching the condenser 83 with a small height in the vicinity of the second outside of the bottom of the heat insulation box 50 and a small height in the vicinity of the second recess 82. Thus, the height of the second recess 82, which is the space between the floor surface and the first bottom surface portion 80 and the space up to the second bottom surface portion 81, can be reduced to reduce the ineffective space that does not contribute to the internal volume.

上記のように、断熱箱体50の天面後方及び底面後方という使用者の手が最も届きにくい、いわば無効スペース近い空間の断熱箱体50の上下に第1の凹部62、第2の凹部82を設けて、庫内容積には寄与しない圧縮機63、凝縮器83や蒸発皿84といった冷凍サイクルに必要な部品をコンパクトに収容することで、使用者が使いやすい高さ位置の収納容積を増大し、収納性を高めることが可能となる。   As described above, the first concave portion 62 and the second concave portion 82 are located above and below the thermal insulation box 50 in the space near the invalid space that is most difficult for the user's hand to reach the top and rear of the thermal insulation box 50. The storage capacity at a height position that is easy for the user to use is increased by compactly storing the components required for the refrigeration cycle, such as the compressor 63, the condenser 83, and the evaporating dish 84, which do not contribute to the internal volume. In addition, it is possible to improve the storage property.

そして、これにより、断熱箱体50の奥部の上下方向の略一直線上に冷凍サイクルの主要な関連機器である圧縮機63、蒸発器76、凝縮器83(凝縮器配管となる蒸発皿配管87でも可)と蒸発皿84を集約することができ、前部庫内スペースへの影響を抑えて実質的有効スペースを拡大し、使い勝手を高めることができる。   As a result, the compressor 63, the evaporator 76, and the condenser 83 (evaporation dish pipe 87 serving as a condenser pipe), which are main related devices of the refrigeration cycle, are arranged on a substantially straight line in the vertical direction at the back of the heat insulating box 50. However, the evaporating dish 84 can be integrated, and the effective space can be expanded by suppressing the influence on the space in the front cabinet, thereby improving the usability.

また、第2の凹部82を冷却室70の前端面より後方に収まるように配置したので、形状的にもシンプルな庫内空間を提供することができるので使い勝手をより高めることができる。   Moreover, since the 2nd recessed part 82 was arrange | positioned so that it might be settled back from the front-end surface of the cooling chamber 70, since a simple interior space can be provided also in shape, usability can be improved more.

なお、断熱箱体50の奥部の上下方向の略一直線上に冷凍サイクルの主要な関連機器や蒸発皿84を配置する場合について、これら機器や部品の全ての部位が第1の凹部62と第2の凹部82とを結ぶ直線上に収容されていれば最も好ましいが、本願発明の趣旨においては必ずしもそのような形態を要求しない。   In addition, about the case where the main related apparatus of the refrigerating cycle and the evaporating dish 84 are arranged on a substantially straight line in the vertical direction at the back of the heat insulating box 50, all the parts of these apparatuses and parts are connected to the first recess 62 and the first. Although it is most preferable if it is accommodated on a straight line connecting the two recesses 82, such a form is not necessarily required in the gist of the present invention.

第1の凹部62と第2の凹部82とを結ぶ直線上にこれら機器や部品が少なくとも存在し、これら第1の凹部62と第2の凹部82のいわゆる庫内側に影響しないスペースを有効に活用して、実質的に有効な庫内スペースを拡大またはシンプル化して使い勝手を向上できるものであればよい。すなわち、たとえば凝縮器83や蒸発皿84の全体が第2の凹部82内に収容されておらず、他の場所に跨って配置されたり分散して配置されたりしても、従来の冷蔵庫に比して十分に一定の効果が得られるものであり、使い勝手や収納性の向上と凝縮器83や蒸発皿84の能力を確保する目的とを両立する観点では、むしろ実用的で合理的な手段となり得る。   These devices and parts are present at least on a straight line connecting the first recess 62 and the second recess 82, and the space that does not affect the so-called inner side of the first recess 62 and the second recess 82 is effectively used. And what is necessary is just to be able to expand or simplify a substantially effective internal space and improve usability. That is, for example, the entire condenser 83 and evaporating dish 84 are not accommodated in the second recess 82, and even if they are arranged over other places or arranged in a distributed manner, they are compared with conventional refrigerators. Therefore, it is a practical and rational means from the viewpoint of achieving both usability and improvement in storage performance and the purpose of securing the ability of the condenser 83 and the evaporating dish 84. obtain.

本実施の形態の貯蔵室配置では、断熱箱体50の上部を冷蔵室51、最下段の直上の貯蔵室を野菜室55、冷蔵室51と野菜室55に挟まれた貯蔵室をそれぞれ製氷室52、第1の冷凍室53としているので、冷蔵庫の基本機能である冷蔵、冷凍、野菜の全ての温度帯を前述した使用者の使いやすい位置に集結することができる。   In the storage room arrangement of the present embodiment, the upper part of the heat insulation box 50 is the refrigeration room 51, the storage room directly above the lowermost stage is the vegetable room 55, and the storage room sandwiched between the refrigeration room 51 and the vegetable room 55 is an ice making room. 52, since the first freezer compartment 53 is used, all the temperature ranges of refrigeration, freezing, and vegetables, which are basic functions of the refrigerator, can be gathered at the above-described positions that are easy for the user to use.

特に、近年、使用者の使用頻度や鮮度管理のしやすさ、人間工学的な使い勝手の観点などから使用頻度の最も高い冷蔵室51を使用者の前面で見開いて出し入れできる腰よりも上の上段位置に、重量物の出し入れや健康志向の野菜室55を使いやすい中段に、そして、長期間出し入れしないストック品などもありかつ取扱時の落下などへの配慮も必要な冷凍室54を最下段にレイアウトした冷蔵庫が主流になっているが、このレイアウトにおいて、圧縮機63を含めた機械室の配置で最下段の冷凍室54の収納容量を充分に確保できないのが欠点であったが、本実施の形態によると最下段の第2の冷凍室54の奥行きを野菜室55と同様に拡大することができて、しかも夏場に使用頻度が高く、ニオイ移りが心配な製氷室52を独立した部屋にして冷蔵庫のほぼ中間に設けることで、さらに使い勝手がよく収納効率を高めた冷蔵庫を提供できる。   In particular, in recent years, the upper tier above the waist where the most frequently used refrigeration room 51 can be opened and removed in front of the user from the viewpoint of user's usage frequency, ease of freshness management, ergonomic usability, etc. In the middle, the vegetable compartment 55 for taking in and out heavy objects and the health-conscious vegetable compartment 55 is easy to use, and the freezer compartment 54, which has stock items that will not be taken in and out for a long period of time and requires consideration for dropping during handling, is at the bottom. The layout of the refrigerator is the mainstream. However, in this layout, it is a drawback that the storage capacity of the lowermost freezer compartment 54 cannot be sufficiently secured by the arrangement of the machine room including the compressor 63. According to the embodiment, the depth of the second freezing chamber 54 at the lowest stage can be expanded in the same manner as the vegetable chamber 55, and the ice making chamber 52 that is frequently used in summer and is worried about odor shift is an independent room. To by providing approximately midway of the refrigerator, it is possible to provide a further refrigerator usability is enhanced well storage efficiency.

断熱箱体50の天面後方に設けた第1の凹部62の庫内側への突出高さを、冷蔵室の複数の棚のうち、最も高い位置にある棚より下方へ突出しないよう構成することにより、最も使用頻度の低い最上段のみ収納するための奥行きが小さくなるものの、最上段下方の収納容積は大きく、冷蔵室扉31aを開けたときの見た目の圧迫感もないスッキリしたデザインに仕上げることができる。   The protrusion height of the first recess 62 provided at the rear of the top surface of the heat insulation box 50 to the inside of the cabinet is configured not to protrude downward from the highest shelf among the plurality of shelves in the refrigerator compartment. Although the depth for storing only the uppermost infrequently used floor becomes smaller, the storage volume under the uppermost stage is large, and a clean design that does not feel the appearance when the refrigerator door 31a is opened is finished. Can do.

断熱箱体50の底面部庫外の配置で、凝縮器83を断熱箱体50の前方へ蒸発皿84を後方である第2の凹部82周辺に配置することにより凝縮器83で熱交換した暖気が上昇気流を起こすため蒸発皿84の上方空間内に対流が起こり貯留している水の蒸発能力を向上することができる。なお、蒸発皿84が前方で凝縮器83が後方の配置であっても放熱による空間内の対流は起こるため蒸発能力は同様に効果を得ることができる。さらに第2の凹部82に冷蔵庫の背面方向に向かって対流させる放熱ファン86の設置により、周辺に配置された凝縮器83の放熱能力を向上し、蒸発皿84に滞留した水を蒸発させる能力を向上することができ、両者をより小型化することが可能となる。   Warm air that has been heat-exchanged by the condenser 83 by disposing the condenser 83 in front of the heat insulating box 50 in the vicinity of the second concave portion 82 at the rear in the arrangement outside the bottom surface of the heat insulating box 50. Causes an updraft, so that convection occurs in the space above the evaporating dish 84 and the evaporation capacity of the stored water can be improved. Even if the evaporating dish 84 is in the front and the condenser 83 is in the rear, convection in the space due to heat radiation occurs, so that the evaporating capacity can be similarly effective. Furthermore, by installing a heat radiating fan 86 that convects the second concave portion 82 toward the rear side of the refrigerator, the heat radiating capacity of the condenser 83 arranged in the periphery is improved, and the ability to evaporate water staying in the evaporating dish 84 is provided. It is possible to improve both, and it is possible to make both smaller.

また、蒸発皿84内に圧縮機63で圧縮された高温高圧の冷媒を循環させる凝縮器の一部である凝縮器配管としての蒸発皿配管87を設けることで除霜水を蒸発させる能力を向上することができ蒸発皿84をさらに小型化できる。なお上下第1の凹部62、82に設けた凹部カバー62a、82aには、放熱、排熱用の開口を設けるとそれぞれの効果を高めることができる。   Moreover, the ability to evaporate defrost water is improved by providing an evaporating dish pipe 87 as a condenser pipe that is a part of a condenser that circulates the high-temperature and high-pressure refrigerant compressed by the compressor 63 in the evaporating dish 84. The evaporation tray 84 can be further reduced in size. It is to be noted that the effects can be enhanced by providing openings for heat dissipation and heat removal in the recess covers 62a and 82a provided in the upper and lower first recesses 62 and 82, respectively.

また断熱箱体50の底面の第2の凹部82は、蒸発皿84や凝縮器83を収納することの他にラジアントヒータ78で除霜された水を蒸発皿84まで送るための排水管89としての空間や凝縮器83の取り付ける作業性を高めたり、蒸発皿84の取り出す作業性を高める役目としてもある。   Further, the second recess 82 on the bottom surface of the heat insulating box 50 serves as a drain pipe 89 for feeding the water defrosted by the radiant heater 78 to the evaporating dish 84 in addition to housing the evaporating dish 84 and the condenser 83. This also serves to enhance the workability of attaching the space and the condenser 83 and improving the workability of taking out the evaporating dish 84.

冷蔵室51は冷蔵庫の中でも使用頻度が非常に高いことから、回転式の冷蔵室扉31aにより庫内を見開いた状態で使用者が目線の位置に収納物を見渡すことができるため出し入れ性に優れる。   Since the refrigerator compartment 51 is very frequently used in the refrigerator, the user can look over the stored item at the position of the eyes with the rotary refrigerator compartment door 31a wide open, so that the storage room is excellent in putting in and out. .

製氷室52は、断熱箱体50の高さ方向の中央付近に配置することで腰を屈めず簡単に氷を取り出しできるとともに、独立した室にすることで他室からのにおい移りを防止し、さらには製氷室扉52aを個別に設けているため扉開閉による外気の侵入を抑制し省エネにも繋がる。また使用頻度が高く夏場に多量の氷を必要とされることから、製氷室52の背面にある第1の冷凍室ダクト100を構成する風路(図示せず)やダンパーを小型化することによって冷却室70の奥行きよりも小さくすることが可能であり、その場合は氷を貯留する製氷室容器96の奥行きを更に延長し、貯氷量を増大することができる。   The ice making chamber 52 is arranged near the center of the heat insulation box 50 in the height direction so that ice can be easily taken out without bending, and by making it an independent chamber, it prevents odors from other rooms, Furthermore, since the ice making chamber door 52a is provided individually, intrusion of outside air due to opening and closing of the door is suppressed, which leads to energy saving. In addition, since the usage frequency is high and a large amount of ice is required in summer, by reducing the size of the air passage (not shown) and the damper constituting the first freezer compartment duct 100 at the back of the ice making chamber 52, The depth of the cooling chamber 70 can be made smaller, and in this case, the depth of the ice making chamber container 96 for storing ice can be further extended to increase the amount of ice storage.

第1の冷凍室53は製氷室52と横並びで配置し、フリージング、短期保存用として食品をより早く凍結させるために収納する食品の形態を薄くする必要があるため第2の冷凍室54の高さ寸法よりも小さくし、逆に第2の冷凍室の高さを大きくすることで、冷凍食品等のストックを大容量でできるメリットがある。さらに、第1の冷凍室53を冷蔵温度帯から冷凍温度帯まで切替可能な機能を有する貯蔵室にすることで、使用者のライフスタイルの変化にも対応できる機能をつけることで価値を向上することができる。また製氷室52と同様に第1の冷凍室ダクト100を構成する風路(図示せず)やダンパーを小型化することによって冷却室70の奥行きよりも小さくすることが可能であり、その場合は使いやすい高さ位置の第1の冷凍室容器(図示せず)の奥行きを更に延長し、収納容積を増大することができる。   The first freezing chamber 53 is arranged side by side with the ice making chamber 52, and it is necessary to reduce the form of the food to be stored in order to freeze the food faster for freezing and short-term storage. By making it smaller than the size and conversely increasing the height of the second freezer compartment, there is an advantage that stock of frozen foods and the like can be produced with a large capacity. Further, by making the first freezer compartment 53 a storage room having a function that can be switched from a refrigeration temperature zone to a freezing temperature zone, the value can be improved by adding a function that can cope with changes in the lifestyle of the user. be able to. Similarly to the ice making chamber 52, it is possible to reduce the depth of the cooling chamber 70 by reducing the size of the air passage (not shown) and the damper constituting the first freezer compartment duct 100. It is possible to further extend the depth of the first freezer compartment container (not shown) at an easy-to-use height position and increase the storage capacity.

野菜室55は、断熱箱体50の高さ方向の中央付近で、かつ製氷室52と第1の冷凍室53より下部に配置しているので、重量物である白菜などの野菜類やペットボトルなどの飲料品の持ち上げ代が少なくて出し入れ性が大きく向上する。   Since the vegetable compartment 55 is arranged near the center of the heat insulation box 50 in the height direction and below the ice making compartment 52 and the first freezing compartment 53, vegetables such as Chinese cabbage, which are heavy objects, and plastic bottles are used. The lifting allowance for beverages such as these is small, and the taking in and out is greatly improved.

また、第2の冷凍室54、野菜室55が引出し式の貯蔵室でなくても享受できるものであるが、引き出し式の貯蔵室であればさらにその効用は大きい。すなわち、第2の冷凍室54、野菜室55の奥行きがともに拡大する分、レールの選定によっては冷凍室収納容器105、野菜室収納容器106の引き出し代も拡大でき、使用者は収納容器内を広々と見渡しながら収納物の出し入れを効率良く行うことができ、使い忘れなどが減って衛生的に管理することもできる。レールの選定にあたっては、摺動性の高い高品位なベアリング式レールや、中間レールを有して庫外側への引出し代を大きくできるタイプのレールを採用すればその効果を一層享受することができる。   The second freezer compartment 54 and the vegetable compartment 55 can be enjoyed even if they are not drawer-type storage rooms, but the utility is even greater if they are drawer-type storage rooms. That is, as the depths of the second freezer compartment 54 and the vegetable compartment 55 both increase, the drawer allowance of the freezer compartment storage container 105 and the vegetable compartment storage container 106 can be increased depending on the selection of rails, and the user can move inside the storage container. It is possible to efficiently put in and out the stored items while looking out over the spacious area, and it can be managed hygienically with less forgetting to use. When selecting rails, the effect can be further enjoyed by adopting high-quality bearing-type rails with high slidability and types of rails that have intermediate rails and can be extended to the outside of the warehouse. .

また、第2の凹部82の庫内底面部とほぼ同等の面積で高さ方向の投影面上に冷却室70を設置しているので、冷却室70の幅と第2の凹部82の庫内への突出代がほぼ同等になり、冷凍室収納容器を直方体形状にできるとともに、奥行きを拡大することができ収納効率が上がる。また、庫内底面部の直上に蒸発器76を設けているため、蒸発器76の霜を蒸発皿84へ送るときの経路の一部として使うことができ、さらに庫内底面部を蒸発器76の霜受けとして形成すれば、一般的に使用している露受けの部品を削減できるためコストメリットも大きい。   In addition, since the cooling chamber 70 is installed on the projection surface in the height direction with an area substantially the same as the bottom surface of the second recess 82, the width of the cooling chamber 70 and the interior of the second recess 82 are stored. Protrusion allowance is almost the same, and the freezer compartment container can be formed in a rectangular parallelepiped shape, and the depth can be increased, thereby increasing the storage efficiency. Moreover, since the evaporator 76 is provided directly above the bottom surface of the interior, it can be used as a part of the path when the frost of the evaporator 76 is sent to the evaporating dish 84. Further, the bottom surface of the interior is connected to the evaporator 76. If it is formed as a frost receiver, it is possible to reduce the number of commonly used dew receiver parts, which is also very cost-effective.

なお、本実施の形態では引き出し式の野菜室55を上部に、第2の冷凍室54を最下部としたが、これとは逆の配置で引き出し式の第2の冷凍室54を上部に、野菜室55を最下部としても同様の効果を得ることができる。   In the present embodiment, the drawer-type vegetable compartment 55 is at the top and the second freezer compartment 54 is at the bottom, but the drawer-type second freezer compartment 54 is at the top in the opposite arrangement. The same effect can be obtained even when the vegetable compartment 55 is at the bottom.

(実施の形態2)
図6は本発明の実施の形態2における冷蔵庫の断面図である。
(Embodiment 2)
FIG. 6 is a cross-sectional view of the refrigerator in the second embodiment of the present invention.

図6において、断熱箱体201の下部後方で、冷却室202の下方の庫外に形成した第2の凹部203内に凝縮器204が収容されている。凝縮器204以外に他の凝縮器が他の場所にあってもよいが、すくなくとも凝縮器204は第2の凹部203内に収容されるものである。   In FIG. 6, the condenser 204 is accommodated in the 2nd recessed part 203 formed in the back of the lower part of the heat insulation box 201 and the downward direction of the cooling chamber 202. As shown in FIG. In addition to the condenser 204, other condensers may be provided in other places, but at least the condenser 204 is accommodated in the second recess 203.

除霜水蒸発装置を構成する蒸発皿205は、第2の凹部202内の底部にあって、同じく除霜水蒸発装置を構成する凝縮器204の一部となる蒸発皿配管87からの熱伝導による加熱作用と、強制対流用の送風機86による蒸発促進作用を受けるように配置構成されている。蒸発皿205は、そのすべてが第2の凹部203内に収容されていなくてもよく、貯留された除霜水の表面の一部が送風機86の対流経路中にあればよい。   The evaporating dish 205 constituting the defrosting water evaporation apparatus is located at the bottom in the second recess 202, and conducts heat from the evaporating dish pipe 87, which is also part of the condenser 204 constituting the defrosting water evaporation apparatus. Are arranged and configured to receive the heating action by the air and the evaporation promoting action by the forced convection blower 86. All of the evaporating dish 205 may not be accommodated in the second recess 203, and a part of the surface of the stored defrosted water may be in the convection path of the blower 86.

以上のような構成において、凝縮器204が第2の凹部203内に収められるので冷凍サイクルの関連機器である圧縮機63,蒸発器76,凝縮器204,除霜水蒸発装置が冷蔵庫本体の後方において上下方向の略一直線上に集約配置され、庫内スペースへの影響を最小限に留めて実質的有効スペースを拡大し、使い勝手を高めることができる。   In the configuration as described above, since the condenser 204 is housed in the second recess 203, the compressor 63, the evaporator 76, the condenser 204, and the defrosted water evaporation device, which are related equipment of the refrigeration cycle, are located behind the refrigerator main body. In this case, the effective space can be expanded while minimizing the influence on the interior space, and the usability can be enhanced.

また、冷蔵庫本体の底部空間への冷凍サイクル機器の配置がなくなるので断熱箱体201の底部をさらに下げることができて庫内側のスペースをより拡大することができる。   Moreover, since the arrangement | positioning of the refrigerating cycle apparatus to the bottom part space of a refrigerator main body is lose | eliminated, the bottom part of the heat insulation box 201 can be further lowered | hung and the space inside a store | warehouse | chamber can be expanded more.

(実施の形態3)
図7は本発明の実施の形態3における冷蔵庫の断面図である。
(Embodiment 3)
FIG. 7 is a cross-sectional view of the refrigerator according to Embodiment 3 of the present invention.

図7において、例えば硬質発泡ウレタンなどの断熱材で周囲と断熱して構成されている断熱箱体301は複数の区画に区分されて貯蔵室を形成しており、最上部の貯蔵室を冷蔵室302、最下部の貯蔵室を冷凍室303、そして冷蔵室302と冷凍室303との間の貯蔵室を野菜室304とする構成となっている。冷蔵室302は回転式の扉305を備え、冷凍室303及び野菜室304はともに引出し式の扉306,307を備えた貯蔵室の形態をしている。   In FIG. 7, for example, a heat insulating box 301 configured to be insulated from the surroundings with a heat insulating material such as hard foamed urethane is divided into a plurality of compartments to form a storage room, and the uppermost storage room is a refrigeration room. 302, the lowermost storage room is a freezer room 303, and the storage room between the freezer room 302 and the freezer room 303 is a vegetable room 304. The refrigerator compartment 302 is provided with a rotary door 305, and the freezer compartment 303 and the vegetable compartment 304 are both in the form of a storage room provided with drawer-type doors 306 and 307.

なお、冷凍サイクル関連機器の配置構成については、実施の形態1と同様である。   Note that the arrangement configuration of the refrigeration cycle-related devices is the same as that in the first embodiment.

以上のような構成において、実施の形態1と比べて上下方向に貯蔵室数が少ないシンプルな形態の冷蔵庫においても実施の形態1と同様の効果を享受することができ、また、シンプルなレイアウトの冷蔵庫であれば、冷蔵庫の全高が低いケースが多いが、この場合には圧縮機上部配置型の冷蔵庫として設置安定性や実用時の安定性が一層高まり、安全で、使う勝手の優れた冷蔵庫を提供できる。   In the configuration as described above, even in a simple form refrigerator having a smaller number of storage rooms in the vertical direction than in the first embodiment, the same effect as in the first embodiment can be enjoyed, and a simple layout can be obtained. If it is a refrigerator, there are many cases where the total height of the refrigerator is low, but in this case, as a refrigerator with a compressor placed on top, the installation stability and stability in practical use are further increased, and a refrigerator that is safe and easy to use is used. Can be provided.

(実施の形態4)
図8は本発明の実施の形態4における冷蔵庫の断面図である。
(Embodiment 4)
FIG. 8 is a cross-sectional view of the refrigerator in the fourth embodiment of the present invention.

図8において、例えば硬質発泡ウレタンなどの断熱材で周囲と断熱して構成されている断熱箱体401は複数の区画に区分されて貯蔵室を形成しており、上部の貯蔵室を冷蔵室402、下部の貯蔵室を冷凍室403としている。冷蔵室402,冷凍室403はともに回転式の扉404,405を備えた貯蔵室の形態をしている。   In FIG. 8, a heat insulating box 401 configured to be insulated from the surroundings with a heat insulating material such as hard foam urethane is divided into a plurality of compartments to form a storage room, and the upper storage room is referred to as a refrigerator room 402. The lower storage chamber is a freezing chamber 403. Both the refrigerator compartment 402 and the freezer compartment 403 are in the form of a storage room having rotary doors 404 and 405.

なお、冷凍サイクル関連機器の配置構成については、実施の形態1と同様である。   Note that the arrangement configuration of the refrigeration cycle-related devices is the same as that in the first embodiment.

以上のような構成において、実施の形態1,2と比べて上下方向に貯蔵室数がより少ないシンプルな形態の冷蔵庫においても実施の形態1と同様の効果を享受することができ、また、本実施の形態のような冷蔵庫は、全高がより低いケースが多いが、下部の冷凍室の扉405が回転式の扉で開放時に引出し式扉に比べて重心の前方への移動が少ないことも相まって、圧縮機上部配置型の冷蔵庫として設置安定性や実用時の安定性がさらに高まり、安全で、使う勝手の優れた冷蔵庫を提供できる。   In the configuration as described above, even in a simple form refrigerator having a smaller number of storage rooms in the vertical direction than in the first and second embodiments, the same effect as in the first embodiment can be obtained. Refrigerators such as the embodiment are often lower in overall height, but coupled with the fact that the lower freezer compartment door 405 is a rotary door and moves less to the front of the center of gravity than a drawer door when opened. As a refrigerator with a compressor upper arrangement, the installation stability and stability in practical use are further increased, and a safe and easy-to-use refrigerator can be provided.

以上のように、本発明にかかる冷蔵庫は、断熱箱体の天面及び底面部の無効スペースに圧縮機等の機能部品を収容することで、一般的に使いやすい高さ位置の収納容積を増大し、収納性を高めることができるので、同様の箱体である業務用冷蔵庫や冷凍庫等の用途に広く適用できる。   As described above, the refrigerator according to the present invention increases the storage volume at a height position that is generally easy to use by storing functional parts such as a compressor in the invalid space on the top and bottom surfaces of the heat insulation box. And since storage property can be improved, it is widely applicable to uses, such as a commercial refrigerator and a freezer which are the same box bodies.

本発明の実施の形態1における冷蔵庫の正面図Front view of the refrigerator in Embodiment 1 of the present invention 同実施の形態における冷蔵庫の扉を開けた状態の断熱箱体の正面図The front view of the heat insulation box of the state which opened the door of the refrigerator in the embodiment 図1のB−B線断面図BB sectional view of FIG. 同実施の形態における冷蔵庫の断熱箱体の天面後方部の要部斜視図The principal part perspective view of the top | upper surface rear part of the heat insulation box of the refrigerator in the embodiment 同実施の形態における冷蔵庫の断熱箱体の底面後方部の要部分解斜視図The principal part disassembled perspective view of the bottom face rear part of the heat insulation box of the refrigerator in the embodiment 本発明の実施の形態2における冷蔵庫の断面図Sectional drawing of the refrigerator in Embodiment 2 of this invention 本発明の実施の形態3における冷蔵庫の断面図Sectional drawing of the refrigerator in Embodiment 3 of this invention 本発明の実施の形態4における冷蔵庫の断面図Sectional drawing of the refrigerator in Embodiment 4 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

50,201,301,401 断熱箱体
51,302,402 冷蔵室
51a,305,404 冷蔵室扉
52 製氷室
52a 製氷室扉
53 第1の冷凍室
53a 第1の冷凍室扉
54 第2の冷凍室
54a 第2の冷凍室扉
55,304 野菜室
55a,306 野菜室扉
62 第1の凹部
63 圧縮機
66 第1の凹部の外郭
70,202 冷却室
76 蒸発器
82,203 第2の凹部
83,204 凝縮器
84,205 蒸発皿
87 蒸発皿配管(凝縮器)
79,86 送風機
303,403 冷凍室
307,405 冷凍室扉
50, 201, 301, 401 Thermal insulation box 51, 302, 402 Refrigeration room 51a, 305, 404 Refrigeration room door 52 Ice making room 52a Ice making room door 53 First freezing room 53a First freezing room door 54 Second freezing room Chamber 54a Second freezer compartment door 55, 304 Vegetable compartment 55a, 306 Vegetable compartment door 62 First recess 63 Compressor 66 First recess exterior 70, 202 Cooling chamber 76 Evaporator 82, 203 Second recess 83 , 204 Condenser 84,205 Evaporating dish 87 Evaporating dish piping (condenser)
79,86 Blower 303,403 Freezer compartment 307,405 Freezer compartment door

上記従来の課題を解決するために、本発明の冷蔵庫は、冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部の天部後方において、背面方向に向かって階段状に形成した第1の凹部内に前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部の底部後方において、背面方向に向かって一段上がって階段状に形成した第2の凹部内に、前記圧縮機を設けることなく、前記除霜水蒸発装置と前記除霜水蒸発装置からの除霜水蒸発を促進する強制対流用の送風機とを設けたものである。 In order to solve the above-described conventional problems, a refrigerator according to the present invention includes a heat insulating box and a door that form a refrigerator body, a compressor, an evaporator, and a condenser of a refrigeration cycle, and a defrosted water evaporator of the evaporator. The compressor is provided in a first recess formed stepwise toward the back direction behind the top of the heat insulation box above the evaporator provided inside the heat insulation box. The defrosted water evaporates without providing the compressor in the second recess formed stepwise upward in the rear direction at the rear of the bottom outside the heat insulation box below the evaporator. A device and a blower for forced convection that promotes evaporation of defrost water from the defrost water evaporator are provided.

請求項1に記載の発明は、冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部の天部後方において、背面方向に向かって階段状に形成した第1の凹部内に前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部の底部後方において、背面方向に向かって一段上がって階段状に形成した第2の凹部内に、前記圧縮機を設けることなく、前記除霜水蒸発装置と前記除霜水蒸発装置からの除霜水蒸発を促進する強制対流用の送風機とを設けたものであり、圧縮機を断熱箱体下部の後方から排除して放熱向上による効率向上を図りながら蒸発器の除霜水蒸発機能を満足させることができるので、冷凍サイクル関連機器の機能を維持しながら、使用者にとって使い勝手の良い高さ位置の庫内スペースを増加させることができる。
また、圧縮機を断熱箱体の下部後方からなくして、使用者が手を伸ばしても届きにくく使いにくい天部の後背部を有効利用することができ、また、圧縮機と除霜水蒸発装置を分散して収容することで庫内側へ無効スペースの実質的影響を低減し、庫内スペースをさらに有効活用することができる。
冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、除霜水蒸発装置の蒸発皿に貯留された除霜水の蒸発を促進し、凝縮器の放熱をも促進することができるので、除霜水蒸発装置や凝縮器をより小型化して庫内側に影響する無効スペースを抑えることができる。また、放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。
さらに、断熱箱体底部周辺においては、圧縮機が分離配置されれば庫内との温度差が小さくなることにより断熱箱体の表面温度低下による結露が発生するが、強制対流のダクトを有することによって湿気を含んだ空気の澱みを排除し、表面熱伝達を高めて表面温度を引き上げることによって結露発生の問題を抑えることができる。
請求項2に記載の発明は、請求項1に記載の発明において、前記除霜水蒸発装置は、除霜水を貯留する蒸発皿と前記凝縮器の配管の一部となる蒸発皿配管とより構成されたものであり、凝縮器の凝縮熱を除霜水の蒸発促進に有効に利用できる。
Invention of Claim 1 is equipped with the heat insulation box and door which form a refrigerator main body, the compressor of the refrigerating cycle, the evaporator, the condenser, and the defrost water evaporation apparatus of the said evaporator, The said heat insulation box The compressor is provided in a first recess formed stepwise toward the back direction behind the top of the heat insulation box above the evaporator provided inside the body , and below the evaporator. The defrosted water evaporation device and the defrosted water evaporation are provided in the second recess formed in a stepped shape in the rearward direction at the rear of the bottom outside the heat insulating box without providing the compressor. A forced convection blower that promotes evaporation of defrost water from the device is provided, and the compressor defrost water is removed from the rear of the lower part of the heat insulation box to improve efficiency by improving heat dissipation. Since the evaporation function can be satisfied, the freezing cycle While maintaining the function of the equipment, it is possible to increase the internal space of good height convenient for the user.
In addition, the compressor can be removed from the lower rear of the heat insulation box, and the back of the top that is difficult to reach even when the user reaches out can be used effectively, and the compressor and defrost water evaporator By dispersing and accommodating, the substantial influence of the invalid space can be reduced to the inside of the warehouse, and the interior space can be used more effectively.
Making use of the width of the left and right sides of the refrigerator body to form a heat radiating duct with low ventilation resistance, promoting the evaporation of defrost water stored in the evaporating dish of the defrost water evaporation device, and also promoting the heat dissipation of the condenser Therefore, it is possible to further reduce the size of the defrosting water evaporation device and the condenser and suppress the ineffective space that affects the inside of the warehouse. Further, by increasing the heat dissipation effect, it is possible to improve the efficiency and reliability of the refrigeration cycle and reduce the heat effect on the inside of the warehouse.
Furthermore, in the vicinity of the bottom of the heat insulation box, if the compressor is separated and arranged, the temperature difference from the inside of the cabinet will be reduced, and condensation will occur due to a decrease in the surface temperature of the heat insulation box, but there will be a forced convection duct By eliminating the stagnation of air containing moisture, the problem of dew condensation can be suppressed by raising the surface temperature by increasing the surface heat transfer.
According to a second aspect of the present invention, in the first aspect of the invention, the defrosting water evaporator includes an evaporating dish that stores defrosted water and an evaporating dish pipe that is a part of the condenser pipe. It is configured, and the condensation heat of the condenser can be effectively used for promoting evaporation of defrost water.

請求項3に記載の発明は、請求項1または2に記載の発明において、前記凝縮器を前記蒸発器より下方の前記断熱箱体外部に設けて、前記除霜水蒸発装置の加熱源としたものであり、圧縮機が分離配置されても圧縮機からの放熱に頼らず凝縮器の一部からの凝縮熱を利用して除霜水の蒸発促進を図ることができる。 The invention according to claim 3 is the invention according to claim 1 or 2 , wherein the condenser is provided outside the heat insulating box below the evaporator, and is used as a heating source of the defrost water evaporator. Even if the compressors are separated and arranged, the evaporation of defrost water can be promoted using the heat of condensation from a part of the condenser without depending on the heat radiation from the compressor.

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おいて、前記蒸発器を前記断熱箱体内部の後方に形成した冷却室内に配置し、前記第1の凹部と前記冷却室と前記第2の凹部とを前記断熱箱体後方の上下方向に略一直線上に配置したものであり、断熱箱体の奥部の上下方向に冷凍サイクルの主要な関連機器を集約することができ、前部庫内スペースへの影響を抑えて実質的有効スペースを拡大し、使い勝手を高めることができる。 The invention according to claim 4 is the invention according to any one of claims 1 to 3 , wherein the evaporator is disposed in a cooling chamber formed at the rear of the inside of the heat insulation box, and the first recess. The cooling chamber and the second recess are arranged in a substantially straight line in the vertical direction behind the heat insulation box, and the main related equipment of the refrigeration cycle is concentrated in the vertical direction at the back of the heat insulation box. It is possible to increase the usability by suppressing the influence on the space in the front cabinet and expanding the effective space.

請求項7に記載の発明は、請求項1から6のいずれか一項に記載の発明において、前記凝縮器を前記第2の凹部内に配置したものであり、断熱箱体の奥部の上下方向に冷凍サイクルの関連機器を集約することができ、庫内スペースへの影響を最小限に留めて実質的有効スペースを拡大し、使い勝手を高めることができる。 The invention according to claim 7 is the invention according to any one of claims 1 to 6 , wherein the condenser is disposed in the second recess, and is located above and below the back of the heat insulating box. The refrigeration cycle related devices can be consolidated in the direction, and the effective space can be expanded while minimizing the influence on the internal space, thereby improving the usability.

請求項8に記載の発明は、請求項1から7のいずれか一項に記載の発明において、前記第1の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトを形成したものであり、冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、圧縮機等の放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。 The invention according to claim 8 is the invention according to any one of claims 1 to 7 , wherein a forced convection blower is provided in the first recess, and air is convected in the left-right direction. A duct is formed, and a heat radiating duct with low ventilation resistance can be formed by making use of the width in the left-right direction of the refrigerator body. By improving the heat radiating effect of the compressor etc., the efficiency of the refrigeration cycle and the improvement of the reliability It is possible to reduce the influence of heat on the inside of the refrigerator.

請求項9に記載の発明は、請求項8に記載の発明において、前記第1の凹部内および前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトおよび第2のダクトをそれぞれ形成し、前記第1のダクトの排気口と前記第2のダクトの排気口とを同一方向に配置したものであり、冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、圧縮機等の放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。 The invention according to claim 9 is the invention according to claim 8 , wherein a forced convection blower is provided in the first recess and the second recess so that air is convected in the left-right direction. Each of the duct and the second duct is formed, and the exhaust port of the first duct and the exhaust port of the second duct are arranged in the same direction. A heat radiating duct with low resistance can be formed, and by improving the heat radiating effect of the compressor or the like, it is possible to improve the efficiency of the refrigeration cycle, improve the reliability, and reduce the heat influence on the inside of the refrigerator.

請求項10に記載の発明は、請求項1から9のいずれか一項に記載の発明において、前記第1の凹部の外郭を樹脂成形で形成したものであり、圧縮機を収容する異形で複雑な形状の機械室部分を樹脂成形で別途一体に形成することができ、機械室の組み立て工程において簡素化による作業性の向上と組み立て精度の向上が図れ、製造コストを抑えて、圧縮機上部配置型の冷蔵庫を高い品質で合理的に提供することができる。 A tenth aspect of the invention is the invention according to any one of the first to ninth aspects, wherein an outline of the first concave portion is formed by resin molding, and is a deformed and complex housing a compressor. Machine room parts can be formed separately by resin molding, improving the workability and the assembly accuracy by simplifying the assembly process of the machine room, reducing the manufacturing cost, and placing the upper part of the compressor A type refrigerator can be reasonably provided with high quality.

請求項11に記載の発明は、請求項10に記載の発明において、前記第1の凹部は、金属板で形成された外箱の第1の天面部に切欠部を設け、前記切欠部に、前壁と左右両側壁と前記圧縮機を載せるための第2の天面部とを樹脂で形成した外郭を嵌め込んで構成されたものであり、機械室外郭の樹脂成形における補強構造や外箱との接合構造を適切なものとすることにより剛性が高くなり、かつ鋼板に代表される金属板製の外箱と材質の異なる樹脂成形の機械室外郭を接合することによって振動伝播が減衰し、圧縮機の騒音,振動が冷蔵庫本体への伝播することが抑制され、庫内部品の共振音の発生等も防止できて、人の耳障りになりやすい配置となる圧縮機上部配置型の冷蔵庫においても使用者や居住者の不快感を拭うことができる。 The invention according to claim 11 is the invention according to claim 10, wherein the first recess is provided with a notch in the first top surface portion of the outer box formed of a metal plate, and the notch A front wall, left and right side walls, and a second top surface portion on which the compressor is placed are fitted with an outer shell formed of resin. By making the joint structure suitable, the rigidity is increased, and by joining the outer casing made of metal plate represented by steel plate and the machine room outer shell of resin molding made of different materials, vibration propagation is attenuated and compressed Used in compressor-top refrigerators that prevent the noise and vibration of the machine from propagating to the refrigerator body, prevent the generation of resonance noise in the internal components, and can be harsh to people. The discomfort of a person or a resident can be wiped out.

請求項12に記載の発明は、請求項1から11のいずれか一項に記載の発明において、前記断熱箱体内を上下に区画して複数の貯蔵室を形成し、前記貯蔵室のうち最上部の貯蔵室を冷蔵室として前記第1の凹部を上部後方の室外に設け、最下部の貯蔵室を冷凍室として前記第2の凹部を下部後方の室外に設け、前記最下部の貯蔵室内の後方に前記冷却室を設けたものであり、庫内への温度影響が最も大きい圧縮機を庫内温度が高いために比較的にその影響が少ない冷蔵室に対面でき、かつ使用者の手が届きにくくて最も使いにくく温度分布的にも高いため普段積極的には使用されない庫内最上段部の後方を上手く有効活用して最も無効スペースをとる圧縮機を配置できる。
The invention according to claim 12 is the invention according to any one of claims 1 to 11 , wherein the heat insulating box is partitioned vertically to form a plurality of storage chambers, and the uppermost portion of the storage chambers. The storage chamber is a refrigeration chamber, the first recess is provided outside the upper rear chamber, the lowermost storage chamber is a freezing chamber, the second recess is provided outside the lower rear chamber, and the rear of the lower storage chamber The compressor having the greatest temperature influence on the inside of the refrigerator can be faced to the refrigerator room having a relatively low influence due to the high inside temperature, and reach the user's hand. It is difficult to use and most difficult to use, and the temperature distribution is high, so it is possible to arrange a compressor that takes the most ineffective space by making good use of the rear of the uppermost part of the cabinet that is not normally used actively.

上記従来の課題を解決するために、本発明の冷蔵庫は、 冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部前記除霜水蒸発装置設け、前記圧縮機を前記断熱箱体外部の天部後方に形成した第1の凹部内に配置し、前記除霜水蒸発装置を前記断熱箱体外部の底部後方に形成した第2の凹部内に配置し、かつ前記第1の凹部内および前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトおよび第2のダクトをそれぞれ形成し、前記第1のダクトの排気口と前記第2のダクトの排気口とを同一方向に配置したものである。 In order to solve the above-described conventional problems, a refrigerator according to the present invention includes a heat insulating box and a door that form a refrigerator body, a compressor, an evaporator, and a condenser of a refrigeration cycle, and a defrosted water evaporator of the evaporator. with the door, the heat insulating box of the compressor from the heat-insulating main body outside of the upper the evaporator provided provided in the body portion, the defrosted water evaporator disposed in the heat-insulating main body outside of lower than the evaporator The compressor is disposed in a first recess formed at the rear of the top outside the heat insulation box, and the defrost water evaporator is disposed in the second recess formed at the rear of the bottom outside the heat insulation box. And a forced convection blower is provided in the first recess and the second recess to form a first duct and a second duct in which air is convected in the left-right direction, respectively, The exhaust port of the second duct and the exhaust port of the second duct are arranged in the same direction. It is a thing.

また、使用者が手を伸ばしても届きにくいスペースに圧縮機と除霜水蒸発装置を分散して収容することで庫内側へ無効スペースの実質的影響を低減し、庫内スペースをさらに有効活用することができる。
また、冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、圧縮機等の放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。
また、除霜水蒸発装置の蒸発皿に貯留された除霜水の蒸発を促進し、凝縮器の放熱をも促進することができるので、除霜水蒸発装置や凝縮器をより小型化して庫内側に影響する無効スペースを抑えることができる。また、放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。
In addition, the compressor and defrost water evaporation device are distributed and housed in a space that is difficult to reach even if the user reaches out. can do.
In addition, by utilizing the width of the refrigerator body in the left-right direction, a heat radiating duct with low ventilation resistance can be formed. Can be reduced.
In addition, the evaporation of the defrost water stored in the evaporating dish of the defrost water evaporation device can be promoted and the heat radiation of the condenser can be promoted, so the defrost water evaporation device and the condenser can be further downsized and stored. Invalid space that affects the inside can be reduced. Further, by increasing the heat dissipation effect, it is possible to improve the efficiency and reliability of the refrigeration cycle and reduce the heat effect on the inside of the warehouse.

請求項1に記載の発明は、 冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部前記除霜水蒸発装置設け、前記圧縮機を前記断熱箱体外部の天部後方に形成した第1の凹部内に配置し、前記除霜水蒸発装置を前記断熱箱体外部の底部後方に形成した第2の凹部内に配置し、かつ前記第1の凹部内および前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトおよび第2のダクトをそれぞれ形成し、前記第1のダクトの排気口と前記第2のダクトの排気口とを同一方向に配置したものであり、圧縮機を断熱箱体下部の後方から排除して放熱向上による効率向上を図りながら蒸発器の除霜水蒸発機能を満足させることができるので、冷凍サイクル関連機器の機能を維持しながら、使用者にとって使い勝手の良い高さ位置の庫内スペースを増加させることができる。
また、圧縮機を断熱箱体の下部後方からなくして、使用者が手を伸ばしても届きにくく使いにくい天部の後背部を有効利用することができ、また、圧縮機と除霜水蒸発装置を分散して収容することで庫内側へ無効スペースの実質的影響を低減し、庫内スペースをさらに有効活用することができる。
冷蔵庫本体の左右方向の幅を生かして通風抵抗の少ない放熱ダクトが形成でき、除霜水蒸発装置の蒸発皿に貯留された除霜水の蒸発を促進し、凝縮器の放熱をも促進することができるので、除霜水蒸発装置や凝縮器をより小型化して庫内側に影響する無効スペースを抑えることができる。また、放熱効果を高めることによって、冷凍サイクルの効率向上や信頼性の向上および庫内側への熱影響の低減を図ることができる。
さらに、断熱箱体底部周辺においては、圧縮機が分離配置されれば庫内との温度差が小さくなることにより断熱箱体の表面温度低下による結露が発生するが、強制対流のダクトを有することによって湿気を含んだ空気の澱みを排除し、表面熱伝達を高めて表面温度を引き上げることによって結露発生の問題を抑えることができる。
さらに、下部の第2のダクトの排気口から排出される排熱を含んだ空気が、上部の第1のダクトの吸気口に直接再度吸入されることがなく第1の凹部内の圧縮機等の放熱を阻害することがなく冷蔵庫全体としての放熱効率を高めることができる。
請求項2に記載の発明は、請求項1に記載の発明において、前記除霜水蒸発装置は、除霜水を貯留する蒸発皿と前記凝縮器の配管の一部となる蒸発皿配管とより構成されたものであり、凝縮器の凝縮熱を除霜水の蒸発促進に有効に利用できる。
Invention of Claim 1 is equipped with the heat insulation box and door which form a refrigerator main body, the compressor of the refrigerating cycle, the evaporator, the condenser, and the defrost water evaporation apparatus of the said evaporator, The said heat insulation box the compressor from the heat-insulating main body outside of the upper the evaporator provided in the body portion is provided, the defrosted water evaporator disposed in the heat-insulating main body outside of lower than the evaporator, the heat insulating said compressor It arrange | positions in the 1st recessed part formed in the top part back outside the box, the said defrost water evaporation apparatus is arrange | positioned in the 2nd recessed part formed in the bottom back part outside the said heat insulation box, and said 1st A forced convection blower is provided in each of the concave portion and the second concave portion to form a first duct and a second duct in which air convects in the left-right direction, and the exhaust port of the first duct and the The exhaust port of the second duct is arranged in the same direction , and the compressor is insulated. It is possible to satisfy the defrosting water evaporation function of the evaporator while eliminating the rear of the box body and improving the efficiency by improving the heat dissipation, so it is convenient for the user while maintaining the function of the refrigeration cycle related equipment The space in the warehouse at the height position can be increased.
In addition, the compressor can be removed from the lower rear of the heat insulation box, and the back of the top that is difficult to reach even when the user reaches out can be used effectively, and the compressor and defrost water evaporator By dispersing and accommodating, the substantial influence of the invalid space can be reduced to the inside of the warehouse, and the interior space can be used more effectively.
Making use of the width of the left and right sides of the refrigerator body to form a heat radiating duct with low ventilation resistance, promoting the evaporation of defrost water stored in the evaporating dish of the defrost water evaporation device, and also promoting the heat dissipation of the condenser Therefore, it is possible to further reduce the size of the defrosting water evaporation device and the condenser and suppress the ineffective space that affects the inside of the warehouse. Further, by increasing the heat dissipation effect, it is possible to improve the efficiency and reliability of the refrigeration cycle and reduce the heat effect on the inside of the warehouse.
Furthermore, in the vicinity of the bottom of the heat insulation box, if the compressor is separated and arranged, the temperature difference from the inside of the cabinet will be reduced, and condensation will occur due to a decrease in the surface temperature of the heat insulation box, but there will be a forced convection duct By eliminating the stagnation of air containing moisture, the problem of dew condensation can be suppressed by raising the surface temperature by increasing the surface heat transfer.
Further, the air containing the exhaust heat discharged from the exhaust port of the lower second duct is not directly sucked again into the intake port of the upper first duct, and the compressor in the first recess, etc. The heat dissipation efficiency of the entire refrigerator can be increased without hindering heat dissipation.
According to a second aspect of the present invention, in the first aspect of the invention, the defrosting water evaporator includes an evaporating dish that stores defrosted water and an evaporating dish pipe that is a part of the condenser pipe. It is configured, and the condensation heat of the condenser can be effectively used for promoting evaporation of defrost water.

請求項8に記載の発明は、請求項1から7のいずれか一項に記載の発明において、前記第1の凹部の外郭を樹脂成形で形成したものであり、圧縮機を収容する異形で複雑な形状の機械室部分を樹脂成形で別途一体に形成することができ、機械室の組み立て工程において簡素化による作業性の向上と組み立て精度の向上が図れ、製造コストを抑えて、圧縮機上部配置型の冷蔵庫を高い品質で合理的に提供することができる。 The invention according to an eighth aspect is the invention according to any one of the first to seventh aspects, wherein an outline of the first concave portion is formed by resin molding, and is a deformed and complex housing a compressor. Machine room parts can be formed separately by resin molding, improving the workability and the assembly accuracy by simplifying the assembly process of the machine room, reducing the manufacturing cost, and placing the upper part of the compressor A type refrigerator can be reasonably provided with high quality.

請求項9に記載の発明は、請求項8に記載の発明において、前記第1の凹部は、金属板で形成された外箱の第1の天面部に切欠部を設け、前記切欠部に、前壁と左右両側壁と前記圧縮機を載せるための第2の天面部とを樹脂で形成した外郭を嵌め込んで構成されたものであり、機械室外郭の樹脂成形における補強構造や外箱との接合構造を適切なものとすることにより剛性が高くなり、かつ鋼板に代表される金属板製の外箱と材質の異なる樹脂成形の機械室外郭を接合することによって振動伝播が減衰し、圧縮機の騒音,振動が冷蔵庫本体への伝播することが抑制され、庫内部品の共振音の発生等も防止できて、人の耳障りになりやすい配置となる圧縮機上部配置型の冷蔵庫においても使用者や居住者の不快感を拭うことができる。 The invention according to claim 9 is the invention according to claim 8 , wherein the first recess is provided with a notch in the first top surface portion of the outer box formed of a metal plate, and the notch A front wall, left and right side walls, and a second top surface portion on which the compressor is placed are fitted with an outer shell formed of resin. By making the joint structure suitable, the rigidity is increased, and by joining the outer casing made of metal plate represented by steel plate and the machine room outer shell of resin molding made of different materials, vibration propagation is attenuated and compressed Used in compressor-top refrigerators that prevent the noise and vibration of the machine from propagating to the refrigerator body, prevent the generation of resonance noise in the internal components, and can be harsh to people. The discomfort of a person or a resident can be wiped out.

請求項10に記載の発明は、請求項1から9のいずれか一項に記載の発明において、前記断熱箱体内を上下に区画して複数の貯蔵室を形成し、前記貯蔵室のうち最上部の貯蔵室を冷蔵室として前記第1の凹部を上部後方の室外に設け、最下部の貯蔵室を冷凍室として前記第2の凹部を下部後方の室外に設け、前記最下部の貯蔵室内の後方に前記冷却室を設けたものであり、庫内への温度影響が最も大きい圧縮機を庫内温度が高いために比較的にその影響が少ない冷蔵室に対面でき、かつ使用者の手が届きにくくて最も使いにくく温度分布的にも高いため普段積極的には使用されない庫内最上段部の後方を上手く有効活用して最も無効スペースをとる圧縮機を配置できる。 The invention according to claim 10 is the invention according to any one of claims 1 to 9 , wherein the heat insulating box is partitioned vertically to form a plurality of storage chambers, and the uppermost portion of the storage chambers. The storage chamber is a refrigeration chamber, the first recess is provided outside the upper rear chamber, the lowermost storage chamber is a freezing chamber, the second recess is provided outside the lower rear chamber, and the rear of the lower storage chamber The compressor having the greatest temperature influence on the inside of the refrigerator can be faced to the refrigerator room having a relatively low influence due to the high inside temperature, and reach the user's hand. It is difficult to use and most difficult to use, and the temperature distribution is high, so it is possible to arrange a compressor that takes the most ineffective space by making good use of the rear of the uppermost part of the cabinet that is not normally used actively.

請求項11に記載の発明は、請求項10に記載の発明において、前記最上部の貯蔵室の扉を回転式扉とし、前記最上部の貯蔵室より下部の貯蔵室の扉を引出し式扉としたものであり、下部の貯蔵室の扉を引出し式の扉とすることによって、扉を引き出した際に冷蔵庫の重心が前方に移動して、特に収納物の重量が重い場合には冷蔵庫本体が手前に傾きやすい傾向となるが、これに対して、圧縮機は上部配置であっても重量の比較的重い冷凍サイクル関連機器を冷蔵庫本体の下部にも分散配置し、また圧縮機を含めて冷凍サイクルの関連機器を冷蔵庫本体の後方に集約配置することによって重心を下部方向および後部方向に設定することができ、圧縮機上部配置型の冷蔵庫での安定性を高めて、転倒に対する安全性を確保することができる。

The invention according to claim 11 is the invention according to claim 10 , wherein the door of the uppermost storage chamber is a rotary door, and the door of the storage chamber lower than the uppermost storage chamber is a drawer door. By making the door of the lower storage room a drawer-type door, the center of gravity of the refrigerator moves forward when the door is pulled out. In contrast to this, although the compressor tends to tilt forward, relatively heavy refrigeration cycle-related equipment is distributed in the lower part of the refrigerator body even if the compressor is placed in the upper part, and the compressor and the refrigeration are also included. The center of gravity can be set in the lower and rear direction by concentrating and arranging the cycle related equipment at the rear of the refrigerator body, increasing the stability of the compressor upper arrangement type refrigerator and ensuring safety against falling can do.

Claims (13)

冷蔵庫本体を形成する断熱箱体と扉と、冷凍サイクルの圧縮機と蒸発器と凝縮器と、前記蒸発器の除霜水蒸発装置とを備え、前記断熱箱体内部に設けた前記蒸発器より上方の前記断熱箱体外部に前記圧縮機を設け、前記蒸発器より下方の前記断熱箱体外部に前記除霜水蒸発装置を設けた冷蔵庫。   A heat insulating box and a door that form a refrigerator main body, a compressor, an evaporator and a condenser of a refrigeration cycle, and a defrosting water evaporation device for the evaporator, from the evaporator provided inside the heat insulating box The refrigerator which provided the said compressor outside the said heat insulation box upper part, and provided the said defrost water evaporation apparatus outside the said heat insulation box body lower than the said evaporator. 前記凝縮器を前記蒸発器より下方の前記断熱箱体外部に設けて、前記除霜水蒸発装置の加熱源とした請求項1に記載の冷蔵庫。   The refrigerator according to claim 1, wherein the condenser is provided outside the heat insulating box below the evaporator to serve as a heating source for the defrosted water evaporator. 前記圧縮機を前記断熱箱体外部の天部後方に形成した第1の凹部内に配置し、前記除霜水蒸発装置を前記断熱箱体外部の底部後方に形成した第2の凹部内に配置した請求項1または2に記載の冷蔵庫。   The compressor is disposed in a first recess formed at the rear of the top outside the heat insulation box, and the defrost water evaporator is disposed in a second recess formed at the rear of the bottom outside the heat insulation box. The refrigerator according to claim 1 or 2. 前記蒸発器を前記断熱箱体内部の後方に形成した冷却室内に配置し、前記第1の凹部と前記冷却室と前記第2の凹部とを前記断熱箱体後方の上下方向に略一直線上に配置した請求項3に記載の冷蔵庫。   The evaporator is disposed in a cooling chamber formed at the rear of the heat insulation box, and the first recess, the cooling chamber, and the second recess are substantially aligned in a vertical direction behind the heat insulation box. The refrigerator according to claim 3 arranged. 前記第2の凹部を前記冷却室の前端面より後方に収まるように配置した請求項4に記載の冷蔵庫。   The refrigerator according to claim 4, wherein the second recess is disposed so as to be located behind the front end surface of the cooling chamber. 前記凝縮器を前記断熱箱体外部の底部に配置した請求項1から5のいずれか一項に記載の冷蔵庫。   The refrigerator as described in any one of Claim 1 to 5 which has arrange | positioned the said condenser in the bottom part outside the said heat insulation box. 前記凝縮器を前記第2の凹部内に配置した請求項3から6のいずれか一項に記載の冷蔵庫。   The refrigerator as described in any one of Claim 3 to 6 which has arrange | positioned the said condenser in the said 2nd recessed part. 前記第1の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトを形成した請求項3から7のいずれか一項に記載の冷蔵庫。   The refrigerator as described in any one of Claim 3 to 7 which provided the air blower for forced convection in the said 1st recessed part, and formed the 1st duct which air convects in the left-right direction. 前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第2のダクトを形成した請求項3から8のいずれか一項に記載の冷蔵庫。   The refrigerator as described in any one of Claim 3 to 8 which provided the air blower for forced convection in the said 2nd recessed part, and formed the 2nd duct which air convects in the left-right direction. 前記第1の凹部内および前記第2の凹部内に強制対流用の送風機を設けて左右方向に空気が対流する第1のダクトおよび第2のダクトをそれぞれ形成し、前記第1のダクトの排気口と前記第2のダクトの排気口とを同一方向に配置した請求項3から7のいずれか一項に記載の冷蔵庫。   A forced convection blower is provided in the first recess and the second recess to form a first duct and a second duct in which air is convected in the left-right direction, respectively, and the exhaust of the first duct The refrigerator as described in any one of Claim 3 to 7 which has arrange | positioned the opening | mouth and the exhaust port of the said 2nd duct in the same direction. 前記第1の凹部の外郭を樹脂成形で形成した請求項3から10のいずれか一項に記載の冷蔵庫。   The refrigerator according to any one of claims 3 to 10, wherein an outline of the first recess is formed by resin molding. 前記断熱箱体内を上下に区画して複数の貯蔵室を形成し、前記貯蔵室のうち最上部の貯蔵室を冷蔵室として前記第1の凹部を上部後方の室外に設け、最下部の貯蔵室を冷凍室として前記第2の凹部を下部後方の室外に設け、前記最下部の貯蔵室内の後方に前記冷却室を設けた請求項4から11のいずれか一項に記載の冷蔵庫。   A plurality of storage chambers are formed by dividing the inside of the heat insulation box vertically, the uppermost storage chamber of the storage chambers is used as a refrigeration chamber, and the first recess is provided outside the upper rear chamber, and the lowermost storage chamber The refrigerator according to any one of claims 4 to 11, wherein the second recess is provided outside the lower rear chamber, and the cooling chamber is provided rearward of the lowermost storage chamber. 前記最上部の貯蔵室の扉を回転式扉とし、前記最上部の貯蔵室より下部の貯蔵室の扉を引出し式扉とした請求項12に記載の冷蔵庫。   The refrigerator according to claim 12, wherein the uppermost storage chamber door is a rotary door, and the lower storage chamber door is a drawer-type door from the uppermost storage chamber.
JP2005254796A 2005-08-02 2005-09-02 refrigerator Active JP3904023B2 (en)

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PCT/JP2006/315105 WO2007015443A1 (en) 2005-08-02 2006-07-31 Refrigerator

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