JP5445113B2 - refrigerator - Google Patents

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JP5445113B2
JP5445113B2 JP2009291737A JP2009291737A JP5445113B2 JP 5445113 B2 JP5445113 B2 JP 5445113B2 JP 2009291737 A JP2009291737 A JP 2009291737A JP 2009291737 A JP2009291737 A JP 2009291737A JP 5445113 B2 JP5445113 B2 JP 5445113B2
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duct
return
chamber
switching
room
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JP2011133151A (en
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愼一 堀井
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Panasonic Corp
Panasonic Holdings Corp
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Panasonic Corp
Matsushita Electric Industrial Co Ltd
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Priority to JP2009291737A priority Critical patent/JP5445113B2/en
Priority to EP10196308.0A priority patent/EP2339275B1/en
Priority to CN201010614138.2A priority patent/CN102109264B/en
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Description

本発明は冷却器で生成した冷気を強制循環させて温度帯の異なる各貯蔵室を冷却する冷蔵庫に関するものである。   The present invention relates to a refrigerator that forcibly circulates cold air generated by a cooler to cool each storage room having a different temperature range.

図12は、従来の冷蔵庫の縦断面図である。   FIG. 12 is a longitudinal sectional view of a conventional refrigerator.

図12に示すように、キャビネット1は、内箱2と外箱3との間に断熱材4が充填された断熱箱体5によって構成された冷蔵庫を示している。冷蔵庫は上から冷蔵室6、保温室7、冷凍室8を有しており、前面は冷蔵室開閉扉9、保温室開閉扉10、冷凍室開閉扉11となっている。   As shown in FIG. 12, the cabinet 1 shows a refrigerator configured by a heat insulating box 5 in which a heat insulating material 4 is filled between an inner box 2 and an outer box 3. The refrigerator has a refrigerator compartment 6, a storage compartment 7, and a freezer compartment 8 from above, and a front side is a refrigerator compartment opening / closing door 9, a storage compartment opening / closing door 10, and a freezer compartment opening / closing door 11.

冷蔵室6と保温室7は断熱効果を有する仕切り板12によって、保温室7と冷凍室8は断熱効果を有する仕切り板13によって仕切られている。仕切り板13の奥には、冷凍室8と繋がるダクト14が設置されている。   The refrigerator compartment 6 and the storage room 7 are partitioned by a partition plate 12 having a heat insulation effect, and the storage room 7 and the freezer compartment 8 are partitioned by a partition plate 13 having a heat insulation effect. A duct 14 connected to the freezer compartment 8 is installed in the back of the partition plate 13.

冷蔵室6内には食品を収納するための冷蔵室棚及び、冷蔵室ケースが配置されている。また、冷蔵室6の内箱2の背面には、壁面に接してチューブオンシート15(蒸発器)が配置され、冷蔵室6庫内はチューブオンシート15によって冷却される冷却壁面を有する構成となっている。また、冷凍室8の背面には冷却器16と、冷却器16の上方にはファン17が配置している。   In the refrigerator compartment 6, a refrigerator compartment shelf for storing food and a refrigerator compartment case are arranged. In addition, a tube-on-sheet 15 (evaporator) is disposed in contact with the wall surface on the back surface of the inner box 2 of the refrigerator compartment 6, and the refrigerator compartment 6 has a cooling wall surface cooled by the tube-on-sheet 15. It has become. A cooler 16 is disposed on the back of the freezer compartment 8, and a fan 17 is disposed above the cooler 16.

また保温室7内は、食品を収納するための保温室ケースがあり、背面にはダンパー19を内部に有したダクト18が配置されている。   In addition, the inside of the warm room 7 has a warm room for storing food, and a duct 18 having a damper 19 inside is disposed on the back side.

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

冷蔵室6の冷却は、チューブオンシート15は、冷蔵室6の内箱5の背面に接しており、冷蔵室6の内箱5面が冷却壁面となり、自然冷却により冷蔵室6内の冷蔵室棚、冷蔵室ケースの冷却を行っている。   As for cooling of the refrigerator compartment 6, the tube-on-sheet 15 is in contact with the back surface of the inner box 5 of the refrigerator compartment 6, and the inner box 5 surface of the refrigerator compartment 6 serves as a cooling wall, and the refrigerator compartment in the refrigerator compartment 6 is naturally cooled. Cooling of shelves and refrigerator compartment cases.

一方、冷凍室8の冷却は、ファン17によって冷却室内にある冷却器16の冷気を強制循環させ、冷凍室8内を冷却する。冷凍室8内を循環した冷気は冷却器16へ戻る。   On the other hand, the cooling of the freezer compartment 8 is performed by forcibly circulating the cool air of the cooler 16 in the cooling chamber by the fan 17 to cool the inside of the freezer compartment 8. The cold air circulated in the freezer compartment 8 returns to the cooler 16.

さらに、保温室7の冷却は、ファン17によって、一部冷気はダクト14へ流入し、保温室7の背面にあるダクト18へ循環していく。ダクト18に流入した冷気は、ダンパー19を通過し、保温室ケースに吐出され、保温室ケース内の空気と熱交換した後、背面にある冷却器16への戻りダクトに吸い込まれ、冷却器16へ戻される。   Further, the cooling of the warming chamber 7 is partly cooled by the fan 17 and flows into the duct 14 and circulates to the duct 18 on the back of the warming chamber 7. The cold air that has flowed into the duct 18 passes through the damper 19, is discharged into the storage room case, exchanges heat with the air in the storage room case, and then is sucked into the return duct to the cooler 16 on the back surface. Returned to

以上のように、本実施の形態では、冷蔵室6と保温室7とは仕切り板12によって冷気が循環する通路を形成せず、上下に区画し、冷蔵室6はチューブオンシート15の冷却によって適温に冷却し、保温室7は冷却器16の蒸発潜熱をファン17にて保温室7内へ循環させ、さらに、保温室7の温度を検知しているダンパーにて循環する冷気量をコントロールすることにより保温室7の温度を一定に保つことで、保温室ケース内の食品の温度を一定に保つことが可能となり、食品の保鮮性を向上することができる。(例えば、特許文献1参照)。   As described above, in the present embodiment, the refrigerating room 6 and the storage room 7 do not form a passage through which the cold air is circulated by the partition plate 12, but are partitioned vertically, and the refrigerating room 6 is formed by cooling the tube-on-sheet 15. Cooling to an appropriate temperature, the holding chamber 7 circulates the latent heat of evaporation of the cooler 16 into the holding chamber 7 by the fan 17, and further controls the amount of cold air circulated by a damper that detects the temperature of the holding chamber 7. Thus, by keeping the temperature of the temperature-preserving chamber 7 constant, it becomes possible to keep the temperature of the food in the temperature-holding case constant, and the freshness of the food can be improved. (For example, refer to Patent Document 1).

特開2005−195293号公報JP 2005-195293 A

しかしながら、上記従来の構成では、冷蔵室6内に風路が構成されず、チューブオンシート15に近い場所と遠い場所では、庫内温度差が大きくなりやすい。また保温室7内を均一に冷却するため、ダクト18の内部は、多岐に分流するように複数の通路に分かれており、保温室7の天面に設けた複数の吐出口20に連通して冷気を吐出するため、ダクト18の構造が複雑になり、冷却器16からファン17によって導かれた冷気はダクト18内での風路抵抗が増して所定量の冷気を保温室7へ吐出できず、適温を確保できない虞があった。またダクト18の風路抵抗を低減するため風路面積を大きくする必要があり、このため保温室7の奥行き寸法が小さくなって内容積が低減する虞があった。   However, in the above-described conventional configuration, the air path is not configured in the refrigerator compartment 6, and the temperature difference inside the chamber tends to be large between a location close to the tube-on-seat 15 and a location far away. Further, in order to uniformly cool the inside of the warming chamber 7, the inside of the duct 18 is divided into a plurality of passages so as to be diverged in various ways, and communicated with a plurality of discharge ports 20 provided on the top surface of the warming chamber 7. Since the cool air is discharged, the structure of the duct 18 is complicated, and the cool air guided from the cooler 16 by the fan 17 has an increased air path resistance in the duct 18 and cannot discharge a predetermined amount of cool air to the temperature keeping chamber 7. There was a possibility that the proper temperature could not be secured. Further, it is necessary to increase the air passage area in order to reduce the air passage resistance of the duct 18, and thus there is a possibility that the depth dimension of the thermal storage chamber 7 is reduced and the internal volume is reduced.

本発明は、上記従来の課題を解決するもので、冷蔵室を冷却する冷気風路も備えたダクトを背面に構成しつつ冷却風路を簡素化し、適性な風量を確保するとともに、貯蔵室の奥行き寸法を維持して内容積を確保したダクト装置を有する冷蔵庫を提供することを目的とする。   The present invention solves the above-described conventional problems, and while simplifying the cooling air passage while configuring a duct having a cold air passage for cooling the refrigerator compartment on the back surface, ensuring an appropriate air volume, It aims at providing the refrigerator which has a duct apparatus which maintained the depth dimension and secured the internal volume.

上記従来の課題を解決するために、本発明の冷蔵庫は、上部に冷蔵室と下部に冷凍室、前記冷蔵室と前記冷凍室の間に温度帯を切替えられる切替室と、前記冷凍室の後方に冷気を生成する冷却器と、前記冷却器の上部に配置され生成された冷気を各室へ強制的に送風するファンと、前記冷蔵室と前記切替室へ冷気を送風する送風ダクトと、前記冷蔵室内に吐出された冷気を前記冷却器に帰還させる冷蔵室帰還ダクトとを前記切替室の後方に構成するダクト装置とを備えた冷蔵庫において、前記送風ダクトは前記冷蔵室へ冷気を送風する冷蔵室送風ダクトと前記切替室へ冷気を送風する切替室送風ダクトとをそれぞれ独立して形成し、前記ダクト装置は前記冷蔵室送風ダクトと前記切替室送風ダクトと前記冷蔵室帰還ダクトとを横並びに配置構成されたものである。   In order to solve the above-described conventional problems, a refrigerator according to the present invention includes a refrigeration room at the top, a freezer room at the bottom, a switching room that can switch a temperature zone between the refrigeration room and the freezer room, A cooler that generates cool air, a fan that is disposed at the top of the cooler and forcibly blows the generated cool air to each chamber, a blower duct that blows cool air to the refrigerator compartment and the switching chamber, and In the refrigerator having a duct device that configures a cooler chamber return duct for returning cool air discharged into the cooler chamber to the cooler at the rear of the switching chamber, the air duct duct cools air to the refrigerator room. A cooling chamber ventilation duct, a switching chamber ventilation duct, and a refrigerating chamber return duct arranged side by side; Placement structure It is those that have been.

これによって、冷蔵室内に冷気を万遍なく吐出できるので冷蔵室の均温化を図ることができるとともに、切替室背面のダクト装置の風路構造を簡素化して切替室の奥行き寸法を確保でき、さらに各貯蔵室への風量を確保されることとなる。   As a result, cold air can be uniformly discharged into the refrigeration room, so that the temperature of the refrigeration room can be equalized, and the air duct structure of the duct device on the back of the switching room can be simplified to ensure the depth dimension of the switching room. Furthermore, the air volume to each storage room will be secured.

本発明の冷蔵庫は、ダクト装置内の風路を簡素化構造にしたことで、冷却効率を向上させ風路に連結される貯蔵室内を均一に冷却でき、信頼性さらにダクト装置を配置した貯蔵室の内容積を確保した冷蔵庫を提供できる。   The refrigerator of the present invention has a simplified structure of the air passage in the duct device, so that the storage chamber connected to the air passage can be uniformly cooled by improving the cooling efficiency, and the storage chamber in which the duct device is further arranged is reliable. It is possible to provide a refrigerator that secures the inner volume of the refrigerator.

本発明の実施の形態1における冷蔵庫の縦断面図The longitudinal cross-sectional view of the refrigerator in Embodiment 1 of this invention 本発明の実施の形態1における本体の正面図The front view of the main body in Embodiment 1 of this invention 本発明の実施の形態1における風路の概略図Schematic of the air path in Embodiment 1 of the present invention 本発明の実施の形態1におけるダクト装置の第1分解図First exploded view of a duct device according to Embodiment 1 of the present invention. 本発明の実施の形態1におけるダクト装置の第2分解図The 2nd exploded view of the duct device in Embodiment 1 of the present invention. 本発明の実施の形態1におけるダクト装置の斜視図The perspective view of the duct apparatus in Embodiment 1 of this invention 本発明の実施の形態1におけるダクト装置の第3分解図The 3rd exploded view of the duct device in Embodiment 1 of the present invention. 本発明の実施の形態1におけるダクト装置の概略図Schematic of the duct device in Embodiment 1 of the present invention 本発明の実施の形態1における要部分解図1 is an exploded view of a main part in Embodiment 1 of the present invention. 本発明の実施の形態1における要部斜視図The principal part perspective view in Embodiment 1 of this invention 本発明の実施の形態1における要部概略図Main part schematic in Embodiment 1 of this invention 従来の冷蔵庫の断面図Cross-sectional view of a conventional refrigerator

第1の発明は、上部に冷蔵室と下部に冷凍室、前記冷蔵室と前記冷凍室の間に温度帯を切替えられる切替室と、前記冷凍室の後方に冷気を生成する冷却器と、前記冷却器の上部に配置され生成された冷気を各室へ強制的に送風するファンと、前記冷蔵室と前記切替室へ冷気を送風する送風ダクトと、前記冷蔵室内に吐出された冷気を前記冷却器に帰還させる冷蔵室帰還ダクトとを前記切替室の後方に構成するダクト装置とを備えた冷蔵庫において、前記送風ダクトは前記冷蔵室へ冷気を送風する冷蔵室送風ダクトと前記切替室へ冷気を送風する切替室送風ダクトとをそれぞれ独立して形成し、前記ダクト装置は前記冷蔵室送風ダクトと前記切替室送風ダクトと前記冷蔵室帰還ダクトとを左右に横並びに配置構成され前記冷蔵室帰還ダクトと切替室帰還ダクトはダクト装置の前後方向にそれぞれ独立して構成され、前方に前記切替室帰還ダクト、後方に前記冷蔵室帰還ダクトを配置し、前記冷蔵室と前記切替室への冷気量を調節するダンパ装置を前記ダクト装置内に埋設し、設定される切替室の温度帯によって通電するヒータを有し、前記ヒータは前記ダクト装置の前記冷蔵室帰還ダクト内に貼り付けたこととなり、ダクト装置内の風路を簡素化構造にしたことで、冷却効率を向上させ風路に連結される貯蔵室内を均一に冷却でき、さらにダクト装置を配置した貯蔵室の内容積を確保した冷蔵庫を提供できる。また、冷蔵室帰還ダクトと切替室帰還ダクトはダクト装置の前後方向にそれぞれ独立して構成されるものであり、冷蔵室と切替室に冷気を送る送風ダクトを幅方向に大きく設計することができる。また、切替室側である前方に切替室帰還ダクトを配置することで切替室の戻り口より切替室の冷気を効率よく冷却器への戻り風路に流すことができる。また、設定される切替室の温度帯によって通電するヒータを有し、前記ヒータはダクト装置の冷蔵室帰還ダクト内に貼り付けたものであり、切替室の設定温度が冷蔵室設定温度よりも低い場合、冷蔵室帰還ダクト内に結露が発生する可能性があり、貼付したヒータを運転することで結露を抑制できる。 The first invention includes a refrigerator compartment in the upper part, a freezer compartment in the lower part, a switching room in which a temperature zone can be switched between the refrigerator compartment and the freezer compartment, a cooler for generating cold air behind the freezer compartment, A fan that is arranged at the top of the cooler and forcibly blows the generated cool air to each room, a blower duct that blows cool air to the refrigerating room and the switching room, and the cool air discharged into the refrigerating room is cooled. A refrigerator having a refrigerating room return duct for returning to the refrigerator, and a duct device configured at a rear side of the switching room, wherein the air blowing duct sends cold air to the refrigerating room and the switching room. The switching chamber blowing duct for blowing air is formed independently, and the duct device is configured such that the refrigeration chamber blowing duct, the switching chamber blowing duct, and the refrigeration chamber return duct are arranged side by side on the left and right sides. Cut off The room return duct is configured independently in the longitudinal direction of the duct device, and the switching room return duct is arranged in the front and the cold room return duct is arranged in the rear to adjust the amount of cold air to the cold room and the switching room. A damper device is embedded in the duct device and has a heater that is energized according to a set temperature range of the switching chamber, and the heater is pasted in the refrigerator compartment return duct of the duct device. By making the air passage of the simplified structure, it is possible to improve the cooling efficiency, uniformly cool the storage chamber connected to the air passage, and provide a refrigerator that secures the internal volume of the storage chamber in which the duct device is arranged. The refrigerating room return duct and the switching room return duct are configured independently in the longitudinal direction of the duct device, and the blower duct that sends the cold air to the refrigerating room and the switching room can be designed to be large in the width direction. . Further, by disposing the switching chamber return duct in front of the switching chamber, the cool air in the switching chamber can be efficiently flowed from the return port of the switching chamber to the return air path to the cooler. In addition, a heater that is energized according to the temperature zone of the switching room to be set is provided, and the heater is affixed in the refrigerating room return duct of the duct device, and the setting temperature of the switching room is lower than the refrigerating room setting temperature. In such a case, there is a possibility that condensation may occur in the refrigerating room return duct, and the condensation can be suppressed by operating the attached heater.

の発明は、第1の発明の冷蔵庫において、切替室に送風された冷気を冷却器に帰還させる切替室帰還ダクトに連通する戻り口をダクト装置の下部に備えたものであり、切替室に吐出された冷気は室内を循環した後、下部に備えた戻り口に吸い込まれて帰還するので、吐出冷気は切替室内を万遍なく循環でき、均温に冷却することができる。 According to a second aspect of the present invention, in the refrigerator according to the first aspect of the present invention, a return port that communicates with a switching chamber return duct that returns the cool air blown into the switching chamber to the cooler is provided at a lower portion of the duct device. After the cool air discharged to the inside circulates in the room, it is sucked in and returned to the return port provided at the lower portion, so that the discharged cold air can circulate uniformly in the switching room and can be cooled uniformly.

の発明は、第の発明にさらに、切替室と冷凍室を上下に区画する第1区画壁を備え、前記区画壁にダクト装置を接続したとき、冷蔵室帰還ダクトに連通する冷蔵室帰還連通口と、切替室帰還ダクトに連通する切替室帰還連通口とを、前記第1区画壁に前後位置で開口したことを特徴とするものである。 The third invention further to the first aspect of the present invention, includes a first partition wall for partitioning the switching chamber and freezing chamber vertically, when connected to a duct device to said partition wall, refrigerating chamber communicating with the refrigerating compartment return duct A return communication port and a switching chamber return communication port communicating with the switching chamber return duct are opened at the front and rear positions of the first partition wall.

の発明は、第の発明に、冷却室の冷却器をカバーし、冷凍室と前記冷却室を仕切るカバーコイルを備え、前記カバーコイルは第1区画壁に連通し、冷蔵室帰還連通口と切替室帰還連通口を通る戻り冷気を前記冷却器の下部に導く戻り通路を備え、前記戻り通路は少なくとも上流側で冷蔵室の戻り冷気と切替室の戻り冷気を分流する分流ダクトを形成したものであり、戻り冷気の逆流を防止することができ、切替室の信頼性を確保できる。 According to a fourth aspect of the present invention, there is provided the cover according to the third aspect of the present invention, further comprising a cover coil that covers the cooler of the cooling chamber and partitions the freezing chamber and the cooling chamber, and the cover coil communicates with the first partition wall. A return passage that guides the return cold air that passes through the opening and the switching chamber return communication port to the lower part of the cooler, and the return passage forms a shunt duct that divides the return cold air of the refrigerator compartment and the return cold air of the switching chamber at least upstream Therefore, it is possible to prevent the backflow of the return cold air and to ensure the reliability of the switching chamber.

の発明は、第の発明に、冷却器の下方に備え、前記冷却器に付着した霜や氷を除霜する除霜ヒータと、前記冷却器と前記除霜ヒータをカバーするカバーコイルと、前記カバーコイルに形成し、冷却器へ連通する冷気戻り通路とを備え、前記除霜ヒータは投影面で、前記冷却器の一端部から前記冷気戻り通路内に延在して配置したものであり、戻り通路内の結露、凍結を防止できる。 5th invention is equipped with the defrost heater which defrosts the frost and ice adhering to the said cooler, and the cover coil which covers the said cooler and the said defrost heater in the 4th invention. And a cool air return passage formed in the cover coil and communicating with the cooler, wherein the defrost heater is disposed on the projection surface so as to extend from one end of the cooler into the cool air return passage. It is possible to prevent condensation and freezing in the return passage.

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

(実施の形態1)
図1は、本発明の実施の形態1における冷蔵庫の縦断面図、図2は、本発明の実施の形態1における本体の正面図、図3は、本発明の実施の形態1における風路の概略図、図4は本発明の実施の形態1におけるダクト装置の第1分解図、図5は本発明の実施の形態1におけるダクト装置の第2分解図、図6は本発明の実施の形態1におけるダクト装置の斜視図、図7は本発明の実施の形態1におけるダクト装置の第3分解図、図8は本発明の実施の形態1におけるダクト装置の概略図、図9は本発明の実施の形態1における要部分解図、図10は本発明の実施の形態1における要部斜視図、図11は本発明の実施の形態1における要部概略図である。
(Embodiment 1)
1 is a longitudinal sectional view of a refrigerator according to Embodiment 1 of the present invention, FIG. 2 is a front view of a main body according to Embodiment 1 of the present invention, and FIG. 3 is an air path according to Embodiment 1 of the present invention. 4 is a first exploded view of the duct device according to the first embodiment of the present invention, FIG. 5 is a second exploded view of the duct device according to the first embodiment of the present invention, and FIG. 6 is an embodiment of the present invention. FIG. 7 is a third exploded view of the duct device according to the first embodiment of the present invention, FIG. 8 is a schematic diagram of the duct device according to the first embodiment of the present invention, and FIG. FIG. 10 is a main part exploded view according to the first embodiment of the present invention, and FIG. 11 is a main part schematic view according to the first embodiment of the present invention.

図1において、冷蔵庫30の断熱箱体31は主に鋼板を用いた外箱32とABSなどの樹脂で成型された内箱33とで構成され、その内部には例えば硬質発泡ウレタンなどの発泡断熱材34が充填、周囲と断熱され、複数の貯蔵室に区分されている。最上部に冷蔵室35、その冷蔵室35の下部に切替室36、そして最下部に冷凍室37が配置される構成となっている。   In FIG. 1, a heat insulating box 31 of a refrigerator 30 is mainly composed of an outer box 32 using a steel plate and an inner box 33 formed of a resin such as ABS, and inside thereof, for example, a foam insulation such as hard foam urethane. The material 34 is filled and insulated from the surroundings, and is divided into a plurality of storage chambers. The refrigeration chamber 35 is disposed at the top, the switching chamber 36 is disposed below the refrigeration chamber 35, and the freezing chamber 37 is disposed at the bottom.

冷蔵室35の前面開口部には冷蔵室ドア38、切替室36の前面開口部には切替室ドア39、冷凍室37の前面開口部には冷凍室ドア40が、それぞれの前面開口部を開閉自在に枢支されている。   The refrigerator compartment door 38 opens and closes the front opening of the refrigerating room 35, the switching room door 39 opens the front opening of the switching room 36, and the freezing room door 40 opens and closes the front opening of the freezing room 37. It is freely pivoted.

冷蔵室35は冷蔵保存のために凍らない温度を下限に通常1℃〜5℃とし、切替室36は冷凍温度帯から冷蔵温度帯の温度切替設定が可能で、−18〜4℃まで1℃間隔で設定することができる。冷凍室37は冷凍温度帯に設定されており、冷凍保存のために通常−22℃〜−15℃で設定されているが、冷凍保存状態の向上のために、例えば−30℃や−25℃の低温で設定されることもある。   The refrigeration chamber 35 is normally set to 1 ° C. to 5 ° C. at the lower limit of the temperature at which it does not freeze for refrigerated storage, and the switching chamber 36 can be set to change the temperature from the refrigeration temperature zone to the refrigeration temperature zone. Can be set at intervals. The freezer compartment 37 is set in a freezing temperature zone and is usually set at −22 ° C. to −15 ° C. for frozen storage, but for example, −30 ° C. or −25 ° C. to improve the frozen storage state. It may be set at a low temperature.

また第1区画壁41によって切替室36と冷凍室37とは上下に区画され、第2区画壁42によって冷蔵室35と切替室36とは上下に区画されている。   Further, the switching chamber 36 and the freezing chamber 37 are vertically partitioned by the first partition wall 41, and the refrigerator compartment 35 and the switching chamber 36 are vertically partitioned by the second partition wall 42.

また冷凍室37の背面には冷気を生成する冷却室43が設けられ、内部には冷却器44が配設されている。冷却室43はカバーコイル45によって冷凍室37と断熱区画されている。冷却器44の上方に生成された冷気を強制的に送風するファン46が配置され、冷却器44の下方に、冷却器44に付着した霜や氷を除霜する除霜ヒータ47が設けられている。除霜ヒータ47は、具体的にはガラス製のガラス管ヒータであり、特に冷媒が炭化水素系冷媒ガスである場合、防爆対応としてガラス管が2重に形成された2重ガラス管ヒータが採用されている。またカバーコイル45は、樹脂製の化粧板45aと、スチロール材などの断熱材でファン46の保持部や冷気通路を形成したインスカバーコイル45bとで形成されている。   A cooling chamber 43 for generating cool air is provided on the back of the freezing chamber 37, and a cooler 44 is provided inside. The cooling chamber 43 is insulated from the freezing chamber 37 by a cover coil 45. A fan 46 that forcibly blows cool air generated above the cooler 44 is disposed, and a defrost heater 47 that defrosts frost and ice adhering to the cooler 44 is provided below the cooler 44. Yes. Specifically, the defrost heater 47 is a glass tube heater made of glass, and in particular, when the refrigerant is a hydrocarbon-based refrigerant gas, a double glass tube heater in which glass tubes are formed in a double manner is adopted for explosion protection. Has been. Further, the cover coil 45 is formed of a resin decorative plate 45a and an inner cover coil 45b in which a holding portion of the fan 46 and a cold air passage are formed by a heat insulating material such as a styrene material.

また切替室36の背面には、冷蔵室35と切替室36へ冷気を送風する送風ダクト48を有するダクト装置49が備えられている。送風ダクト48は冷蔵室35へ冷気を送風する冷蔵室送風ダクト48aと切替室36へ冷気を送風する切替室送風ダクト48bとがそれぞれダクト装置49内に左右に横並びで上下方向に向かって配置されている。ダクト装置49内には冷蔵室35と切替室36への冷気量を調節するダンパ装置50が埋設され、
冷蔵室送風ダクト48aと切替室送風ダクト48bのそれぞれのダクト内に配置されて、通過する冷気量を別々にコントロールしている。
In addition, a duct device 49 having a cooling duct 35 and a blower duct 48 for blowing cool air to the switching chamber 36 is provided on the back surface of the switching chamber 36. The air duct 48 has a refrigerating room air duct 48a for sending cool air to the refrigerating room 35 and a switching room air duct 48b for sending cold air to the switching room 36, which are arranged side by side in the duct device 49 side by side in the vertical direction. ing. In the duct device 49, there is embedded a damper device 50 for adjusting the amount of cold air to the refrigerator compartment 35 and the switching chamber 36,
It arrange | positions in each duct of the refrigerator compartment ventilation duct 48a and the switching chamber ventilation duct 48b, and controls the amount of cold air to pass separately.

また冷蔵室送風ダクト48aを通って冷蔵室35の吐出口35aから吐出した冷気は冷蔵室35の下部背面に設けられた戻り口35bから冷蔵室帰還ダクト51aを通って冷却器44へ帰還する。切替室送風ダクト48bを通って切替室36へ吐出された冷気は切替室36の背面で、ダクト装置の下部に設けた切替室戻り口36cから切替室帰還ダクト51bを通って冷却器44へ帰還する。   The cold air discharged from the discharge port 35a of the refrigerating chamber 35 through the refrigerating chamber air duct 48a returns to the cooler 44 through the refrigerating chamber return duct 51a from the return port 35b provided on the lower back surface of the refrigerating chamber 35. The cold air discharged to the switching chamber 36 through the switching chamber air duct 48b returns to the cooler 44 from the switching chamber return port 36c provided in the lower part of the duct device through the switching chamber return duct 51b on the back surface of the switching chamber 36. To do.

冷蔵室帰還ダクト51aは送風ダクト48と横並びに配置され、これによりダクト装置49には冷蔵室送風ダクト48a、切替室送風ダクト48bそして冷蔵室帰還ダクト51aの3本のダクトが上下方向に向かって横並びに配置される。切替室帰還ダクト51bは冷蔵室帰還ダクト51aと隣り合わせで前後の位置関係に配置され、切替室帰還ダクト51bは冷蔵室帰還ダクト51aよりも前方に配置される。   The refrigerating room return duct 51a is arranged side by side with the air duct 48, whereby three ducts of the refrigerating room air duct 48a, the switching room air duct 48b, and the refrigerating room return duct 51a are arranged vertically in the duct device 49. They are arranged side by side. The switching chamber return duct 51b is arranged next to the refrigerator compartment return duct 51a in the front-rear positional relationship, and the switching chamber return duct 51b is arranged in front of the refrigerator compartment return duct 51a.

ダクト装置49は切替室36の背面高さ及び左右幅寸法程度に大きく形成され、冷蔵室送風ダクト48aと切替室送風ダクト48bは切替室36の左右幅方向すなわちダクト装置49の幅方向のほぼ中央に配置し、冷蔵室帰還ダクト51aと切替室帰還ダクト51bは冷蔵室送風ダクト48aおよび切替室送風ダクト48bを中心とするダクト装置49の片側に集約配置している。   The duct device 49 is formed to have a large rear surface height and lateral width dimensions of the switching chamber 36, and the refrigeration chamber air duct 48 a and the switching chamber air duct 48 b are approximately in the center in the lateral width direction of the switching chamber 36, that is, the width direction of the duct device 49. The refrigerating room return duct 51a and the switching room return duct 51b are collectively arranged on one side of the duct device 49 centering on the refrigerating room air duct 48a and the switching room air duct 48b.

ダクト装置49は発泡スチロールから形成された上部ダクト部材49aと下部ダクト部材49bの2部品と、上部ダクト部材49aと下部ダクト部材49bの前面をカバーする樹脂製のダクト化粧板49cとで形成され、上部ダクト部材49aの下面部と下部ダクト部材49bの上面部とが上下方向で接続され、接続面をシールして、前面をダクト化粧板49cでカバーしている。したがって、ダクト装置49内を貫通する冷蔵室送風ダクト48aおよび切替室送風ダクト48bは上部ダクト部材49aと下部ダクト部材49bの接続によってダクト壁面を構成している。   The duct device 49 is composed of two parts, an upper duct member 49a and a lower duct member 49b, formed of foamed polystyrene, and a resin duct decorative plate 49c that covers the front surfaces of the upper duct member 49a and the lower duct member 49b. The lower surface portion of the duct member 49a and the upper surface portion of the lower duct member 49b are connected in the vertical direction, the connection surface is sealed, and the front surface is covered with the duct decorative plate 49c. Therefore, the refrigerating room air duct 48a and the switching room air duct 48b penetrating through the duct device 49 constitute a duct wall surface by connecting the upper duct member 49a and the lower duct member 49b.

またダンパ装置50は下部ダクト部材49b内に埋設され、具体的にはダンパ装置50のダンパ装置枠50aが上部ダクト部材49aとの接続面となる下部ダクト部材49bの接続面部49dよりも下方に配置するように埋設されている。   The damper device 50 is embedded in the lower duct member 49b. Specifically, the damper device frame 50a of the damper device 50 is disposed below the connection surface portion 49d of the lower duct member 49b that serves as a connection surface with the upper duct member 49a. It is buried to do.

また冷蔵室送風ダクト48aおよび切替室送風ダクト48bを中心とするダクト装置49の他側にはダンパ装置50の配線やコネクタを収納する配線収納部52や、冷蔵室35に配置される自動製氷装置の給水タンク53と冷凍室37に配置する製氷皿54とを接続する給水配管55が収納される凹部56が構成されている。   Further, on the other side of the duct device 49 centering on the refrigerating room air duct 48a and the switching room air duct 48b, a wiring housing portion 52 for housing the wiring and connectors of the damper device 50, and an automatic ice making device disposed in the refrigerating room 35 A recess 56 is formed in which a water supply pipe 55 that connects the water supply tank 53 and the ice tray 54 disposed in the freezer compartment 37 is accommodated.

具体的に、配線収納部52は上部ダクト部材49aあるいは下部ダクト部材49bとダクト化粧板49cとの間に形成された段差部74に構成される。この配線収納部52は上部ダクト部材49aと下部ダクト部材49bとのシール接続面部49dに跨って構成され、給水配管55を収納する凹部56を残して、前方に上部ダクト部材49aと下部ダクト部材49bの中に収納部52を形成している。上部ダクト部材49aと下部ダクト部材49bの外周部はシール接続部49dに向かって、接続部の断面が大きくなるように傾斜構造となっている。具体的には、上部ダクト部材49aの側面部は上面部から下面部に向かって末広がりの勾配形状(テーパー)が形成、また下部ダクト部材49bの側面部は下面部から上面部に向かって広がる勾配形状(テーパー)が形成されている。このためシール接続面部49dは断熱壁厚を大きく確保できるため、ダクト化粧板49cとの間で段差部74が確保しやすく、配線収納部52のスペース確保を容易にできる。   Specifically, the wiring storage portion 52 is configured by a stepped portion 74 formed between the upper duct member 49a or the lower duct member 49b and the duct decorative plate 49c. The wiring storage portion 52 is configured to straddle the seal connection surface portion 49d between the upper duct member 49a and the lower duct member 49b, leaving the recessed portion 56 for storing the water supply pipe 55, and the upper duct member 49a and the lower duct member 49b in front. The storage part 52 is formed in the inside. The outer peripheries of the upper duct member 49a and the lower duct member 49b are inclined so that the cross section of the connecting portion increases toward the seal connecting portion 49d. Specifically, the side surface portion of the upper duct member 49a has a divergent gradient shape (taper) from the upper surface portion toward the lower surface portion, and the side surface portion of the lower duct member 49b has a gradient that expands from the lower surface portion toward the upper surface portion. A shape (taper) is formed. For this reason, since the seal connecting surface portion 49d can ensure a large heat insulating wall thickness, the stepped portion 74 can be easily secured between the seal decorative surface portion 49d and the duct decorative plate 49c, and the space for the wiring storage portion 52 can be easily secured.

また切替室36には上面を開口し上部引出しケース69と下部引出しケース70とが前後方向に移動可能に備えられている。そして切替室36に冷気を吐出する上部吐出口36aは上部引出しケース69の上面開口部69aよりも上部に配置し、ダクト装置49に開口し切替室36に冷気を吐出する下部吐出口36bは、下部引出しケース70の上面開口部70aよりも上部で、上部引出しケース69の底面部69bとの間に形成されている。または、上部引出しケース69の背面壁69cを下部引出しケース70の前方向に傾斜させて、下部吐出口36bが背面壁69cに対向する位置に備えてもよい。これによって背面壁69cが吐出される冷気の案内板となって、下部引出しケース70内に冷気を導くことができる。   The switching chamber 36 is provided with an upper drawer case 69 and a lower drawer case 70 that are open at the top and are movable in the front-rear direction. An upper discharge port 36a that discharges cold air to the switching chamber 36 is disposed above the upper surface opening 69a of the upper drawer case 69, and a lower discharge port 36b that opens to the duct device 49 and discharges cold air to the switching chamber 36 includes: It is formed above the upper surface opening 70 a of the lower drawer case 70 and between the bottom surface 69 b of the upper drawer case 69. Alternatively, the back wall 69c of the upper drawer case 69 may be inclined in the front direction of the lower drawer case 70 so that the lower discharge port 36b is provided at a position facing the back wall 69c. As a result, the back wall 69c serves as a guide for cool air to be discharged, and the cool air can be guided into the lower drawer case 70.

またダクト装置49の上部ダクト部材49aとの接続面となる下部ダクト部材49bの接続面部49dは下部引出しケース70の上面開口部70aよりも下方で、底面部70bよりも上方の位置で構成され、下部引出しケース70の背面壁70cに対応する位置に構成されている。   Further, the connection surface portion 49d of the lower duct member 49b, which is a connection surface with the upper duct member 49a of the duct device 49, is configured at a position below the upper surface opening 70a of the lower drawer case 70 and above the bottom surface portion 70b. The lower drawer case 70 is configured at a position corresponding to the back wall 70c.

またダクト装置49の切替室帰還ダクト51bに隣接する冷蔵室帰還ダクト51a内のダクト面にはアルミ箔ヒータ57が貼付されている。アルミ箔ヒータ57は切替室36が冷蔵温度帯よりも温度が低い冷凍温度帯などに設定された場合、または低外気温度の時にヒータを通電制御する。これは冷蔵室帰還ダクト51aを通る冷蔵室35を循環した後の湿気を含んだ冷気は、切替室帰還ダクト51bに導かれた冷気よりも温度が高いため、冷蔵室帰還ダクト51a内が冷やされて結露または凍結する虞があるため、ヒータ通電して凍結防止を図る。   An aluminum foil heater 57 is attached to the duct surface in the refrigerating room return duct 51a adjacent to the switching room return duct 51b of the duct device 49. The aluminum foil heater 57 controls energization of the heater when the switching chamber 36 is set to a refrigeration temperature zone where the temperature is lower than the refrigeration temperature zone or when the temperature is low outside air. This is because the cold air containing moisture after circulating through the refrigerator compartment 35 passing through the refrigerator compartment return duct 51a is higher in temperature than the cold air led to the switching chamber return duct 51b, so that the inside of the refrigerator compartment return duct 51a is cooled. In order to prevent condensation or freezing, the heater is energized to prevent freezing.

またダクト装置49の下面部と接続される第1区画壁41には冷蔵室帰還ダクト51aに連通する冷蔵室帰還連通口58と、切替室帰還ダクト51bに連通する切替室帰還連通口59とを前後配置で開口し、前側に切替室帰還連通口59、後ろ側に冷蔵室帰還連通口58を設けて、冷却室43に連通している。第1区画壁41は断熱箱体31の発泡前に所定位置に組立てられ、断熱箱体31に充填されたウレタンを第1区画壁41の固定にも使うことで冷蔵庫の断熱性能を高めている。   The first partition wall 41 connected to the lower surface portion of the duct device 49 has a refrigerator compartment return communication port 58 communicating with the refrigerator compartment return duct 51a and a switching chamber return communication port 59 communicating with the switching chamber return duct 51b. Opened in the front-rear arrangement, the switching chamber return communication port 59 is provided on the front side, and the refrigeration chamber return communication port 58 is provided on the rear side so as to communicate with the cooling chamber 43. The first partition wall 41 is assembled at a predetermined position before foaming of the heat insulating box 31, and the heat insulation performance of the refrigerator is enhanced by using urethane filled in the heat insulating box 31 for fixing the first partition wall 41. .

具体的に、第1区画壁41は発泡スチロールで形成された第1区画壁41aと、第1区画壁41aの上面をカバーする第1上面区画カバー41bと、第1区画壁41aの下面をカバーする第1下面区画カバー41cとで形成される。そして第1上面区画カバー41bと第1下面区画カバー41cとの間にウレタンを充填して、断熱箱体31に第1区画壁41を固定している。また第1区画壁41の上面にはアルミ箔ヒータ41dが貼付され、切替室36が冷蔵温度帯に設定された場合にアルミ箔ヒータ41dを通電して、適温化を図る。   Specifically, the first partition wall 41 covers a first partition wall 41a formed of foamed polystyrene, a first upper surface partition cover 41b that covers the upper surface of the first partition wall 41a, and a lower surface of the first partition wall 41a. The first lower surface section cover 41c is formed. The first partition wall 41 is fixed to the heat insulating box 31 by filling urethane between the first upper surface partition cover 41 b and the first lower surface partition cover 41 c. In addition, an aluminum foil heater 41d is attached to the upper surface of the first partition wall 41, and when the switching chamber 36 is set to a refrigeration temperature zone, the aluminum foil heater 41d is energized to achieve an appropriate temperature.

カバーコイル45には冷却器44の側方に併設され、冷却器44と仕切り部材75と冷却室43の背面壁によって仕切られた冷気戻り通路71が形成され、冷気戻り通路71には第1区画壁41の冷蔵室帰還連通口58と切替室帰還連通口59とを通過した冷気を導入する。また冷気戻り通路71は仕切り部材75によって、冷却器44の側部に形成され、冷気戻り通路71の上流側には、第1区画壁41とシールされて連通し、冷蔵室戻り冷気と切替室戻り冷気とが合流しないように分流する分流ダクト76があり、実施例の場合、切替室戻り冷気を冷蔵室戻り冷気と分流するように、切替室帰還連通口59に接続される分流ダクト76が形成されている。実施例の場合、上流側のみ分流ダクト76を形成し、途中から冷蔵室戻り冷気と切替室戻り冷気が合流するように構成されている。   The cover coil 45 is provided side by side with the cooler 44 and is formed with a cool air return passage 71 partitioned by the cooler 44, the partition member 75, and the back wall of the cooling chamber 43. Cold air that has passed through the refrigerator compartment return communication port 58 and the switching chamber return communication port 59 of the wall 41 is introduced. The cool air return passage 71 is formed on the side of the cooler 44 by the partition member 75, and the upstream side of the cool air return passage 71 is in communication with the first partition wall 41 so as to communicate with the return air in the refrigerator compartment and the switching chamber. In the embodiment, there is a diversion duct 76 connected to the switching chamber return communication port 59 so that the switching chamber return cold air is diverted with the refrigeration chamber return cold air. Is formed. In the case of the embodiment, the shunt duct 76 is formed only on the upstream side, and the cold room return cold air and the switching room return cold air are merged from the middle.

これは、切替室帰還ダクト51bを通過してきた冷気と冷蔵室帰還ダクト51aを通過してきた冷気とが冷気戻り通路71を通って合流すると、第1区画壁41の冷蔵室帰還連
通口58と切替室帰還連通口59を介して冷気が逆流し、切替室戻り冷気よりも温度の高い冷蔵室戻り冷気が切替室帰還連通口59を通って上昇し切替室戻り口36cから切替室36へ逆流して切替室36を効率よく適温に冷却できない、また結露等を発生させる要因となる。
This is because when the cold air that has passed through the switching chamber return duct 51 b and the cold air that has passed through the cold room return duct 51 a merge through the cold air return passage 71, the first compartment wall 41 switches to the cold room return communication port 58. Cold air flows backward through the room return communication port 59, and the cold room return cold air having a temperature higher than that of the switching room return cold air rises through the switching room return communication port 59 and flows back from the switching room return port 36c to the switching room 36. As a result, the switching chamber 36 cannot be efficiently cooled to an appropriate temperature, and condensation may occur.

したがって冷気戻り通路71の上流部分に冷気を分流し混ざらないようにしている。よって冷蔵室帰還ダクト51aを通過してきた冷気が下方へ流れず、切替室帰還連通口59へ逆流し、ダクト装置49の切替室戻り口36cから切替室36内へ逆流するのを防止するトラップ機能で、逆流防止ダクトとして作用している。   Therefore, the cool air is divided into the upstream portion of the cool air return passage 71 so as not to be mixed. Therefore, the trap function that prevents the cold air that has passed through the refrigerating chamber return duct 51a from flowing downward, backflowing to the switching chamber return communication port 59, and backflowing from the switching chamber return port 36c of the duct device 49 into the switching chamber 36 is prevented. Therefore, it acts as a backflow prevention duct.

分流ダクト76は戻り通路71の開口面積を確保するため上流部分のみに形成したが、戻り通路71の下流側の開口面積を確保可能であれば下流部分まで延長して形成してもよい。   The shunt duct 76 is formed only in the upstream portion in order to secure the opening area of the return passage 71, but may be formed to extend to the downstream portion as long as the downstream opening area of the return passage 71 can be secured.

また冷気戻り通路71を通る冷気が冷却器44の下部に帰還する冷気帰還口77が設けられ、すなわち冷気帰還口77は仕切り部材75の下端部75aに開口した構成となる。そして冷却器44の下方にほぼ水平に配置した除霜ヒータ47の端部は投影面で、冷却器44の一端部からはみ出し、冷気帰還口77内を通って冷気戻り通路71内に延在して配置している。   Further, a cold air return port 77 through which the cold air passing through the cold air return passage 71 returns to the lower part of the cooler 44 is provided, that is, the cold air return port 77 is open to the lower end portion 75 a of the partition member 75. The end of the defrost heater 47 disposed substantially horizontally below the cooler 44 is a projection surface, protrudes from one end of the cooler 44, passes through the cool air return port 77, and extends into the cool air return passage 71. Arranged.

これによって冷気戻り通路71内の湿気を帯びた冷気が冷却器44や冷凍室の冷たい冷気によって冷却され冷気戻り通路71内で凍結するのを防止できる。   As a result, it is possible to prevent the chilled air in the cold air return passage 71 from being cooled by the cool air in the cooler 44 or the freezer compartment and freezing in the cold air return passage 71.

またカバーコイル45にはファン46と、冷蔵室35と切替室36に冷気を送る冷気吐出口72が備えられ、ファン46と冷気戻り通路71の間に冷気吐出口72が形成され、冷気吐出口72と冷気戻り通路71の間に仕切り部材75が形成している。   Further, the cover coil 45 is provided with a fan 46 and a cold air discharge port 72 for sending cold air to the refrigerating chamber 35 and the switching chamber 36, and a cold air discharge port 72 is formed between the fan 46 and the cold air return passage 71. A partition member 75 is formed between 72 and the cool air return passage 71.

次に冷蔵室35について説明する。   Next, the refrigerator compartment 35 will be described.

冷蔵室35は複数の棚61で室内を上下に複数区画し冷蔵室35の背面に構成される冷蔵室送風ダクト48aは複数の棚61の後方に上下方向に形成され、各棚61に対応して冷蔵室吐出口62が開口している。また冷蔵室送風ダクト48aは冷蔵室35空間内で、左右に分岐する分岐路63が形成されてもよく、分岐路63を備えることで、冷蔵室35の幅方向の空間の温度分布を均一化することができる。   The refrigerator compartment 35 is divided into a plurality of upper and lower compartments by a plurality of shelves 61, and the refrigerator compartment air duct 48 a configured on the back surface of the refrigerator compartment 35 is formed in the vertical direction behind the plurality of shelves 61 and corresponds to each shelf 61. The refrigerator discharge port 62 is open. The refrigerating room air duct 48a may be formed with a branch path 63 that branches left and right in the space of the refrigerating room 35. By providing the branch path 63, the temperature distribution in the space in the width direction of the refrigerating room 35 is made uniform. can do.

また冷蔵室35内の下部には野菜室64が形成され、野菜室64は、前面に開閉蓋64aがあり、前後方向に引出せる野菜ケース64bが構成されている。野菜室64はこのような構成以外に、上面に開口部を有し、上面蓋で密閉できるボックスケース65を収納しておいてもよい。   A vegetable compartment 64 is formed in the lower part of the refrigerator compartment 35. The vegetable compartment 64 has an open / close lid 64a on the front surface, and a vegetable case 64b that can be pulled out in the front-rear direction. In addition to such a configuration, the vegetable compartment 64 may have a box case 65 that has an opening on the top surface and can be sealed with a top cover.

また野菜室64は冷蔵室35の全幅寸法に合わせて構成されていてもよいが、本実施例の場合、野菜室64は冷蔵室35の全幅寸法よりも小さい寸法で構成され、野菜室64の横には自動製氷用の水を貯蔵する給水タンク53が着脱可能に収納されている。そして給水タンク53に接続される給水配管55が冷蔵室35から切替室36を通って冷凍室37まで延びている。給水タンク53内の水は図示しないモータによって吸上げられて給水配管55内に導かれる。   Further, the vegetable compartment 64 may be configured according to the full width dimension of the refrigerator compartment 35. However, in the present embodiment, the vegetable compartment 64 is configured with a dimension smaller than the full width dimension of the refrigerator compartment 35, and A water supply tank 53 for storing water for automatic ice making is detachably stored on the side. A water supply pipe 55 connected to the water supply tank 53 extends from the refrigerator compartment 35 to the freezer compartment 37 through the switching chamber 36. The water in the water supply tank 53 is sucked up by a motor (not shown) and guided into the water supply pipe 55.

切替室36は冷凍温度帯に設定可能であり、給水配管55内の水が凍る可能性もある。このため、給水配管55の外周には図示しない凍結防止用ヒータが巻かれ、また給水配管55は内箱33とダクト装置49の間に配置するので、ダクト装置49の裏面に凹部56
を形成し給水配管55を凹部56に埋設して断熱している。またダンパ装置50の配線やコネクタを収納する配線収納部52もダクト装置49の裏面に収納部52を設け収納してもよい。
The switching chamber 36 can be set in a freezing temperature zone, and the water in the water supply pipe 55 may be frozen. For this reason, an anti-freezing heater (not shown) is wound around the outer periphery of the water supply pipe 55, and the water supply pipe 55 is disposed between the inner box 33 and the duct device 49.
And the water supply pipe 55 is embedded in the recess 56 for heat insulation. In addition, the wiring storage portion 52 that stores the wiring and connectors of the damper device 50 may be stored by providing the storage portion 52 on the back surface of the duct device 49.

凹部56、収納部52を形成することで、給水配管55や配線収納部52に必要な前後方向の収納空間を低減でき切替室36の内容積を確保できる。また凹部56、配線収納部52はダクト装置49の冷蔵室送風ダクト48a、切替室送風ダクト48b、そして冷蔵室帰還ダクト51aが形成されている部分にラップしないように反対側に構成されているので、断熱性を損なうのを防止する。   By forming the recess 56 and the storage portion 52, the storage space in the front-rear direction necessary for the water supply pipe 55 and the wiring storage portion 52 can be reduced, and the internal volume of the switching chamber 36 can be secured. Moreover, since the recessed part 56 and the wiring accommodating part 52 are comprised by the other side so that it may not wrap to the part in which the refrigerator compartment ventilation duct 48a of the duct apparatus 49, the switching chamber ventilation duct 48b, and the refrigerator compartment return duct 51a are formed. , Prevent impairing thermal insulation.

また外箱32で、切替室36の背面に対応する位置には冷蔵庫30全体をコントロールする制御基板66が配置される。   Further, a control board 66 for controlling the entire refrigerator 30 is arranged at a position corresponding to the back surface of the switching chamber 36 in the outer box 32.

また冷蔵室35の温度を検知する冷蔵室温度センサー67は冷蔵室戻り口35b内に設置され、切替室36の温度を検知する切替室温度センサー68は切替室戻り口36c内に設置されている。   A refrigerator temperature sensor 67 for detecting the temperature of the refrigerator compartment 35 is installed in the refrigerator compartment return port 35b, and a switching chamber temperature sensor 68 for detecting the temperature of the switching chamber 36 is installed in the switching chamber return port 36c. .

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.

冷却室43の冷却器44で生成された冷気の一部はファン46によって前方へ強制的に送風され、冷凍室37はカバーコイル45の吐出口から吐出した冷気によって冷却され、冷気はカバーコイル45の下部に開口した戻り口を介して冷却器44の下部に導かれ、冷却器44で熱交換されて、再び新鮮な冷気がファン46によって循環を繰返す。これによって冷凍室37は冷凍室センサー(図示しない)の制御で適温に冷却される。   A part of the cold air generated by the cooler 44 in the cooling chamber 43 is forcibly blown forward by the fan 46, the freezing chamber 37 is cooled by the cold air discharged from the discharge port of the cover coil 45, and the cold air is covered by the cover coil 45. The air is guided to the lower part of the cooler 44 through a return port opened at the lower part of the heat exchanger, heat exchanged by the cooler 44, and fresh cold air is again circulated by the fan 46. As a result, the freezer compartment 37 is cooled to an appropriate temperature under the control of a freezer sensor (not shown).

またファン46の上方に吐出された冷気はカバーコイル45の冷気吐出口72から第1区画壁41の連通孔を経て、ダクト装置49に導かれる。そして冷蔵室35に吐出される冷気は冷蔵室温度センサー67により室内温度が設定温度以上の時、ダンパ装置50の冷蔵室ダンパ50aを開放し、冷蔵室送風ダクト48aを通って冷蔵室の吐出口35aから冷気を吐出し室内を冷却する。循環した冷気は戻り口35bに導かれ、冷蔵室35内の空気や貯蔵物に含まれる湿気を帯びた空気となって、ダクト装置49の冷蔵室帰還ダクト51aを通ってカバーコイル45と冷却室43の背面壁とで構成される冷気戻り通路71を通って冷気帰還口77から冷却器44の下部に導かれて冷却器44と熱交換して、新鮮な冷気が再びファンによって強制的に送風される。   The cool air discharged above the fan 46 is guided from the cool air discharge port 72 of the cover coil 45 through the communication hole of the first partition wall 41 to the duct device 49. When the room temperature is equal to or higher than the set temperature by the cold room temperature sensor 67, the cold air discharged to the cold room 35 opens the cold room damper 50a of the damper device 50, passes through the cold room air duct 48a, and discharges the cold room. Cold air is discharged from 35a to cool the room. The circulated cold air is guided to the return port 35b, becomes air having moisture contained in the air in the refrigerating chamber 35 and the stored material, passes through the refrigerating chamber return duct 51a of the duct device 49, and the cover coil 45 and the cooling chamber. Through the cool air return passage 71 constituted by the back wall 43 of the gas 43, the cool air return port 77 leads to the lower part of the cooler 44 to exchange heat with the cooler 44, and fresh cool air is forcibly blown by the fan again. Is done.

これによって、冷蔵室35は、冷却器44から離れた位置にあっても、ファン46によって冷気を冷却器44に連通する冷蔵室送風ダクト48aに強制送風させ、ダクト装置49内の冷蔵室送風ダクト48aを通って冷蔵室35へ冷気を吐出させ、また冷蔵室温度センサー67によって冷蔵室ダンパ50aの開閉を制御するので、室内を設定温度に制御することができる。   Thus, even if the refrigerator compartment 35 is located away from the cooler 44, the fan 46 forcibly blows cool air to the refrigerator compartment air duct 48 a communicating with the cooler 44, and the refrigerator compartment air duct in the duct device 49 is forced. Cold air is discharged to the refrigerating room 35 through 48a, and the opening and closing of the refrigerating room damper 50a is controlled by the refrigerating room temperature sensor 67, so that the room can be controlled to the set temperature.

また切替室36に吐出される冷気は、切替室温度センサー68により室内温度が設定温度以上の場合、ダンパ装置50の切替室ダンパ50bを開放し、切替室送風ダクト48bを通って上部引出しケース69の上面開口部より高い位置に設けた切替室の吐出口36aから冷気を吐出し、上部引出しケース69内に冷気を導入し、また下部引出しケース70の上面開口部より高い位置に設けた吐出口36bから冷気を吐出し、上部引出しケース69の背面壁を冷気の流れを規制するガイドとして作用させ下部引出しケース70内に冷気を導入する。切替室36内を循環した冷気は戻り口36cに導かれ、切替室帰還ダクト51bを通って切替室帰還連通口59を通過し、カバーコイル45に形成された分流ダクト76を通って冷気帰還口77から冷却器44の下部に導かれ冷却器44と熱交換し、熱交
換した冷気が再びファンによって強制的に送風される。
In addition, when the room temperature is equal to or higher than the set temperature by the switching chamber temperature sensor 68, the cool air discharged into the switching chamber 36 opens the switching chamber damper 50b of the damper device 50, passes through the switching chamber air duct 48b, and passes through the upper drawer case 69. The cool air is discharged from the discharge port 36a of the switching chamber provided at a position higher than the upper surface opening of the upper discharge case 69, the cool air is introduced into the upper drawer case 69, and the discharge port provided at a position higher than the upper surface opening of the lower drawer case 70 The cool air is discharged from 36 b, and the back wall of the upper drawer case 69 acts as a guide for regulating the flow of the cool air to introduce the cool air into the lower drawer case 70. The cold air circulated in the switching chamber 36 is guided to the return port 36 c, passes through the switching chamber return duct 51 b, passes through the switching chamber return communication port 59, and passes through the shunt duct 76 formed in the cover coil 45. 77 is led to the lower part of the cooler 44 and exchanges heat with the cooler 44, and the cooled air is forcibly blown by the fan again.

これによって、切替室36は、冷却器44から離れた位置にあっても、ファン46によって冷気を冷却器44に連通する切替室送風ダクト48bに強制送風させてダクト装置49内を通って切替室36へ冷気を吐出させ、また切替室温度センサー68によって切替室ダンパ50bの開閉を制御するので、室内を設定温度に制御することができる。   As a result, even if the switching chamber 36 is located away from the cooler 44, the fan 46 forcibly blows cool air to the switching chamber air duct 48 b communicating with the cooler 44 and passes through the duct device 49 to switch the switching chamber 36. Since the cool air is discharged to 36 and the switching chamber temperature sensor 68 controls the opening and closing of the switching chamber damper 50b, the room can be controlled to the set temperature.

ダクト装置49内では、冷蔵室送風ダクト48aと切替室送風ダクト48bと冷蔵室帰還ダクト51aとが上下方向に延びて左右横並びに配置され、切替室帰還ダクト51bは冷蔵室帰還ダクト51aの前方に形成している。   In the duct device 49, a refrigerating room air duct 48a, a switching room air duct 48b, and a refrigerating room return duct 51a extend in the vertical direction and are arranged side by side. The switching room return duct 51b is disposed in front of the refrigerating room return duct 51a. Forming.

したがってダクト装置49の幅方向のほぼ中心位置に冷蔵室送風ダクト48aと切替室送風ダクト48bを設けて、一側に冷蔵室帰還ダクト51aと切替室帰還ダクト51bを断熱箱体31に対して前後方向に配置したので、他側に給水タンク53に接続する給水配管55と配線収納部52が配置されるので切替室36後方の無効空間となるダクト装置49と内箱33間の距離を小さくすることができ、切替室36の奥行き寸法を大きく確保できる。   Therefore, the refrigerating room air duct 48 a and the switching room air duct 48 b are provided at substantially the center position in the width direction of the duct device 49, and the refrigerating room return duct 51 a and the switching room return duct 51 b are arranged in front and rear with respect to the heat insulating box 31. Since the water supply pipe 55 and the wiring storage section 52 connected to the water supply tank 53 are arranged on the other side, the distance between the duct device 49 serving as an invalid space behind the switching chamber 36 and the inner box 33 is reduced. Therefore, a large depth dimension of the switching chamber 36 can be secured.

また冷蔵室送風ダクト48aは切替室36のダクト装置49内から冷蔵室35内の分岐路63に至るまで、ほぼ垂直方向にダクトが形成されるので、ダクト内の風路抵抗を低減し冷蔵室35への風量を確保できる。   Further, since the refrigerating room air duct 48a is formed in a substantially vertical direction from the inside of the duct device 49 of the switching room 36 to the branch path 63 in the refrigerating room 35, the air path resistance in the duct is reduced and the refrigerating room is reduced. The air volume to 35 can be secured.

また発泡断熱材34が充填されて、第1区画壁41と第2区画壁42は断熱箱体31に形成され、その後、第1区画壁41と第2区画壁42との間で、切替室36の背面にダクト装置49が配置することで、切替室36のダクト構成を簡単に形成することができる。   Also, the foam insulating material 34 is filled so that the first partition wall 41 and the second partition wall 42 are formed in the heat insulating box 31, and then the switching chamber between the first partition wall 41 and the second partition wall 42. By arranging the duct device 49 on the back surface of 36, the duct configuration of the switching chamber 36 can be easily formed.

切替室36はー18℃の冷凍温度帯から4℃の冷蔵温度帯まで設定温度を切替ることができ、これは切替室ダンパ50bの開度率を設定温度に応じて制御することで実現できる。   The switching chamber 36 can switch the set temperature from a freezing temperature zone of −18 ° C. to a refrigeration temperature zone of 4 ° C., and this can be realized by controlling the opening rate of the switching chamber damper 50b according to the set temperature. .

特に切替室36の設定温度が冷蔵温度よりも低い温度帯に設定された場合、切替室の吐出口36a、36bから吐出した冷気は戻り口36cを通って切替室帰還ダクト51b内に導かれる。冷蔵室帰還ダクト51aを通る冷気は切替室帰還ダクト51bを通る冷気よりも温度が高いため、冷蔵室帰還ダクト51aのダクト表面に結露が発生する虞があり、特に低外気温度の場合、結露が凍結する可能性、また結露水が冷蔵室帰還ダクト51a内を流れ、戻り通路71で凍結する可能性もある。このため冷蔵室帰還ダクト51aに貼付したヒータ57を運転することで結露水が発生しても蒸発させて、ダクト内の凍結を防止することができる。   In particular, when the set temperature of the switching chamber 36 is set to a temperature range lower than the refrigeration temperature, the cool air discharged from the discharge ports 36a and 36b of the switching chamber is guided into the switching chamber return duct 51b through the return port 36c. Since the cold air passing through the refrigerating room return duct 51a has a higher temperature than the cold air passing through the switching room return duct 51b, there is a risk that condensation will occur on the duct surface of the refrigerating room return duct 51a. There is a possibility that the water will freeze, and there is a possibility that the dew condensation water will flow in the refrigerating room return duct 51 a and freeze in the return passage 71. For this reason, by operating the heater 57 stuck to the refrigerator compartment return duct 51a, it is possible to evaporate even if condensed water is generated, and to prevent freezing in the duct.

また冷気戻り通路71の上流部分に冷気を分流し混ざらないようにすることで冷蔵室帰還ダクト51aを通過してきた冷気が下方へ流れず、切替室帰還連通口59へ逆流し、ダクト装置49の切替室戻り口36cから切替室36内へ逆流するのを防止するトラップ機能で、逆流防止ダクトとして作用し、冷蔵室戻り冷気が切替室帰還連通口59を通って切替室戻り口36cから切替室36へ逆流するのを阻止し、切替室36を効率よく適温に冷却でき、また結露等を防止できる。   Further, by distributing the cold air to the upstream portion of the cold air return passage 71 so as not to be mixed, the cold air that has passed through the refrigerating chamber return duct 51a does not flow downward but flows back to the switching chamber return communication port 59, and the duct device 49 A trap function that prevents backflow from the switching chamber return port 36c into the switching chamber 36, and acts as a backflow prevention duct. The cold room return cold air passes through the switching chamber return communication port 59 from the switching chamber return port 36c. Therefore, the switching chamber 36 can be efficiently cooled to an appropriate temperature, and condensation can be prevented.

また除霜ヒータ47の端部は投影面で、冷却器44の一端部からはみ出し、冷気帰還口77内を通って冷気戻り通路71内に延在して配置しているので、除霜時に、ヒータ熱で戻り通路71内を加熱できるので、結露や凍結を改善し防止することができ信頼性を高めることができる。   Moreover, since the edge part of the defrost heater 47 is a projection surface, it protrudes from the one end part of the cooler 44 and extends into the cold air return passage 71 through the cold air return port 77, Since the inside of the return passage 71 can be heated by heater heat, condensation and freezing can be improved and prevented, and reliability can be enhanced.

冷蔵室帰還ダクト51aと切替室帰還ダクト51bは切替室36や冷蔵室35よりも温度帯の低い冷凍室37領域を通って冷却器44の下方に連通するので、冷凍室37の温度帯よりも戻り冷気温度が最も高い冷蔵室帰還ダクト51aを冷凍室37から離れた位置に配置した方が冷蔵室帰還ダクト51a内が冷やされて結露の発生、さらには冷蔵室帰還ダクト51a内の凍結の虞を低減できる。   The refrigerating room return duct 51a and the switching room return duct 51b communicate with the lower part of the cooler 44 through the freezing room 37 region having a temperature range lower than that of the switching room 36 and the refrigerating room 35. If the refrigerator compartment return duct 51a having the highest return cold air temperature is arranged at a position away from the freezer compartment 37, the inside of the refrigerator compartment return duct 51a is cooled to cause dew condensation, and further, the refrigerator compartment return duct 51a may be frozen. Can be reduced.

したがって冷凍室37の温度に近い温度から冷蔵室温度に近い温度まで設定可能な切替室36の切替室帰還ダクト51bを冷蔵室帰還ダクト51aの前方に配置することで、冷蔵室帰還ダクト51a内の結露や凍結を低減できる。   Therefore, the switching chamber return duct 51b of the switching chamber 36 that can be set from a temperature close to the temperature of the freezer compartment 37 to a temperature close to the refrigerator compartment temperature is disposed in front of the refrigerator compartment return duct 51a, so that the inside of the refrigerator compartment feedback duct 51a is arranged. Condensation and freezing can be reduced.

以上のように、本発明にかかる冷蔵庫は、家庭用又は業務用冷蔵庫に対しても適用できる。   As described above, the refrigerator according to the present invention can also be applied to household or commercial refrigerators.

30 冷蔵庫
35 冷蔵室
36 切替室
37 冷凍室
41 第1区画壁
44 冷却器
45 カバーコイル
46 ファン
47 除霜ヒータ
48 送風ダクト
48a 冷蔵室送風ダクト
48b 切替室送風ダクト
49 ダクト装置
50 ダンパ装置
51a 冷蔵室帰還ダクト
51b 切替室帰還ダクト
58 冷蔵室帰還連通口
59 切替室帰還連通口
71 戻り通路
76 分流ダクト
DESCRIPTION OF SYMBOLS 30 Refrigerator 35 Refrigeration room 36 Switching room 37 Freezing room 41 1st division wall 44 Cooler 45 Cover coil 46 Fan 47 Defrost heater 48 Blowing duct 48a Refrigeration room ventilation duct 48b Switching room ventilation duct 49 Duct apparatus 50 Damper apparatus 51a Refrigeration room Return duct 51b Switch room return duct 58 Refrigerating room return communication port 59 Switch room return communication port 71 Return passage 76 Dividing duct

Claims (5)

上部に冷蔵室と下部に冷凍室、前記冷蔵室と前記冷凍室の間に温度帯を切替えられる切替室と、前記冷凍室の後方に冷気を生成する冷却器と、前記冷却器の上部に配置され生成された冷気を各室へ強制的に送風するファンと、前記冷蔵室と前記切替室へ冷気を送風する送風ダクトと、前記冷蔵室内に吐出された冷気を前記冷却器に帰還させる冷蔵室帰還ダクトとを前記切替室の後方に構成するダクト装置とを備えた冷蔵庫において、前記送風ダクトは前記冷蔵室へ冷気を送風する冷蔵室送風ダクトと前記切替室へ冷気を送風する切替室送風ダクトとをそれぞれ独立して形成し、前記ダクト装置は前記冷蔵室送風ダクトと前記切替室送風ダクトと前記冷蔵室帰還ダクトとを左右に横並びに配置構成され前記冷蔵室帰還ダクトと切替室帰還ダクトはダクト装置の前後方向にそれぞれ独立して構成され、前方に前記切替室帰還ダクト、後方に前記冷蔵室帰還ダクトを配置し、前記冷蔵室と前記切替室への冷気量を調節するダンパ装置を前記ダクト装置内に埋設し、設定される切替室の温度帯によって通電するヒータを有し、前記ヒータは前記ダクト装置の前記冷蔵室帰還ダクト内に貼り付けたことを特徴とする冷蔵庫。 A refrigeration room at the top, a freezing room at the bottom, a switching room that can switch the temperature zone between the refrigeration room and the freezing room, a cooler that generates cool air behind the freezing room, and an upper part of the cooler A fan for forcibly blowing the generated cold air to each chamber, a blower duct for blowing cold air to the refrigerating chamber and the switching chamber, and a refrigerating chamber for returning the cool air discharged into the refrigerating chamber to the cooler In the refrigerator including a duct device that configures a return duct behind the switching chamber, the air blowing duct sends a cold air to the refrigerating chamber, and a switching chamber air duct that blows the cold air to the switching chamber. DOO is formed independently, the duct system is arranged configured side by side and the refrigerating chamber feedback duct and the switching compartment air duct and the cooling chamber air duct horizontally the refrigerating compartment return duct and the switching compartment return duct A damper device that is configured independently in the front-rear direction of the duct device, includes the switching chamber return duct in the front, the refrigeration chamber return duct in the rear, and adjusts the amount of cold air to the refrigeration chamber and the switching chamber. A refrigerator embedded in a duct device and energized according to a set temperature range of the switching chamber, wherein the heater is attached in the return refrigerator duct of the duct device . 切替室に送風された冷気を冷却器に帰還させる切替室帰還ダクトに連通する戻り口をダクト装置の下部に備えたことを特徴とする請求項1の冷蔵庫。 The refrigerator according to claim 1, further comprising a return port communicating with a switching chamber return duct for returning cool air blown into the switching chamber to the cooler at a lower portion of the duct device. 切替室と冷凍室を上下に区画する第1区画壁を備え、前記区画壁にダクト装置を接続したとき、冷蔵室帰還ダクトに連通する冷蔵室帰還連通口と、切替室帰還ダクトに連通する切替室帰還連通口とを、前記第1区画壁に前後位置で開口したことを特徴とする請求項の冷蔵庫。 A first compartment wall that divides the switching chamber and the freezer compartment vertically, and when a duct device is connected to the compartment wall, the refrigerator compartment return communication port that communicates with the refrigerator compartment return duct, and the switch that communicates with the switch room return duct. Refrigerator according to claim 1 in which the chamber feedback communication port, characterized in that an opening in the longitudinal position in the first partition wall. 冷却室の冷却器をカバーし、冷凍室と前記冷却室を仕切るカバーコイルを備え、前記カバーコイルは第1区画壁に連通し、冷蔵室帰還連通口と切替室帰還連通口を通る戻り冷気を前記冷却器の下部に導く戻り通路を備え、前記戻り通路は少なくとも上流側で冷蔵室の戻り冷気と切替室の戻り冷気を分流する分流ダクトを形成したことを特徴とする請求項の冷蔵庫。 A cover coil is provided for covering the cooler of the cooling chamber and partitioning the freezing chamber and the cooling chamber. The cover coil communicates with the first partition wall, and returns the return cold air passing through the refrigerator compartment return communication port and the switching chamber return communication port. 4. The refrigerator according to claim 3 , further comprising a return passage leading to a lower portion of the cooler, wherein the return passage forms a diversion duct for diverting the return cold air from the refrigerator compartment and the return cold air from the switching chamber at least upstream. 冷却器の下方に備え、前記冷却器に付着した霜や氷を除霜する除霜ヒータと、前記冷却器
と前記除霜ヒータをカバーするカバーコイルと、前記カバーコイルに形成し、冷却器へ連通する冷気戻り通路とを備え、前記除霜ヒータは投影面で、前記冷却器の一端部から前記冷気戻り通路内に延在して配置したことを特徴とする請求項の冷蔵庫。
Provided below the cooler and formed on the defrost heater for defrosting frost and ice adhering to the cooler, the cover coil covering the cooler and the defrost heater, and the cover coil, to the cooler 5. The refrigerator according to claim 4 , further comprising a cold air return passage communicating therewith, wherein the defrost heater is disposed on the projection surface so as to extend from one end of the cooler into the cold air return passage.
JP2009291737A 2009-12-24 2009-12-24 refrigerator Expired - Fee Related JP5445113B2 (en)

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