JP4983900B2 - refrigerator - Google Patents
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- JP4983900B2 JP4983900B2 JP2009275139A JP2009275139A JP4983900B2 JP 4983900 B2 JP4983900 B2 JP 4983900B2 JP 2009275139 A JP2009275139 A JP 2009275139A JP 2009275139 A JP2009275139 A JP 2009275139A JP 4983900 B2 JP4983900 B2 JP 4983900B2
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Abstract
Description
本発明は冷蔵庫に関し、特に緑色葉菜類の保存に関するものである。 The present invention relates to a refrigerator, and more particularly to storage of green leafy vegetables.
野菜の鮮度低下の影響因子としては、温度、湿度、環境ガス、微生物、光などが上げられる。野菜は生き物であり呼吸と蒸散作用が行われており、鮮度を維持するには呼吸と蒸散作用の抑制が必要となる。低温障害をおこす野菜など一部の野菜を除き、多くの野菜は低温により呼吸が抑制され、高湿により蒸散を防止する事ができる。近年、家庭用冷蔵庫では野菜の保存を目的とし、密閉された野菜専用容器が設けられ、野菜を適正な温度に冷却すると共に、野菜から蒸散する水分により湿度を保つように制御されている。これにより、野菜は栄養成分を保持し、鮮度が維持できるようになる。 Factors that affect the decline in freshness of vegetables include temperature, humidity, environmental gas, microorganisms, and light. Vegetables are living creatures that are breathing and transpiration, and in order to maintain freshness, it is necessary to suppress respiration and transpiration. Except for some vegetables, such as those that cause low-temperature damage, respiration is suppressed by low temperatures, and transpiration can be prevented by high humidity. In recent years, home refrigerators are provided with a sealed vegetable container for the purpose of preserving vegetables, and are controlled so as to cool the vegetables to an appropriate temperature and to maintain the humidity by the moisture that evaporates from the vegetables. Thereby, vegetables hold | maintain a nutrient and can maintain freshness.
従来は上記のように温度、湿度管理により野菜の鮮度低下の抑制を図っていたが、鮮度低下の影響因子である「光」を利用した野菜の鮮度保持方法が開発されている。光は強光では色の変化や蒸散を促進するなど悪影響を及ぼすが、弱い光は特に、緑色葉菜類の鮮度保持に効果がある事が分かっている。緑色葉野菜は葉部にクロロフィルを含み、このクロロフィル濃度の低下は品質の低下をもたらすとされている。弱い光を照射する事により、クロロフィルの分解が抑制され、ビタミンCの保持にも効果が望めるものである。 Conventionally, as described above, temperature and humidity management has been used to suppress the decrease in freshness of vegetables, but a method for maintaining the freshness of vegetables using “light” which is an influencing factor of the decrease in freshness has been developed. Light is adversely affected by strong light, such as promoting color change and transpiration, but weak light is known to be particularly effective in maintaining the freshness of green leafy vegetables. Green leafy vegetables contain chlorophyll in the leaves, and this decrease in chlorophyll concentration is said to result in a decrease in quality. By irradiating weak light, decomposition of chlorophyll is suppressed, and an effect can be expected for retention of vitamin C.
従来の光照射による緑色野菜の保存方法としては、特許文献1に示されているものがある。 As a conventional method for preserving green vegetables by light irradiation, there is one disclosed in Patent Document 1.
以下図面を参照しながら上記従来の冷蔵庫を説明する。 The conventional refrigerator will be described below with reference to the drawings.
図9は、従来の冷蔵庫の断面図である。図9において1は冷蔵庫本体であり、前面が開口した筺体2を備えており、この筐体2の内部は横方向に沿って配置された仕切り壁2A、2Bによって上下に並んだ3つの室、すなわち、上室3、中室4、下室5に仕切られている。上室3及び中室4の開口側にはそれぞれ開閉扉6、7が取り付けられている。 FIG. 9 is a cross-sectional view of a conventional refrigerator. In FIG. 9, reference numeral 1 denotes a refrigerator main body, which includes a housing 2 having an open front surface, and the inside of the housing 2 has three chambers arranged vertically by partition walls 2 </ b> A and 2 </ b> B arranged along the horizontal direction, That is, it is partitioned into an upper chamber 3, a middle chamber 4, and a lower chamber 5. Opening / closing doors 6 and 7 are respectively attached to the opening sides of the upper chamber 3 and the middle chamber 4.
また、下室5には主として野菜などが貯蔵される引き出し8が収容されている。引き出し8は開口した略筐体状であり、前面側の前壁9は下室5の開口部より大きく、引き出し8が下室5に収容されたときに、前壁9の側面9A、9B、下面9Cがそれぞれ筐体2の側面2C、2D、下面2Eと同一面に位置するようになっている。この前壁9が当接する筐体2の部位には、引き出し8の開閉を検出するためのスイッチ10が取り付けられている。 The lower chamber 5 accommodates a drawer 8 that mainly stores vegetables and the like. The drawer 8 is substantially in the shape of an opening, and the front wall 9 on the front side is larger than the opening of the lower chamber 5, and when the drawer 8 is accommodated in the lower chamber 5, the side surfaces 9 </ b> A, 9 </ b> B, The lower surface 9C is positioned on the same surface as the side surfaces 2C, 2D and the lower surface 2E of the housing 2, respectively. A switch 10 for detecting opening / closing of the drawer 8 is attached to a portion of the housing 2 with which the front wall 9 abuts.
また、中室4と下面5とを仕切る仕切り壁2Bの下面の略中央部には白色蛍光灯11が取り付けられ、仕切り壁2Bの下面の前方側にはランプ12が取り付けられている。 A white fluorescent lamp 11 is attached to a substantially central portion of the lower surface of the partition wall 2B that partitions the middle chamber 4 and the lower surface 5, and a lamp 12 is attached to the front side of the lower surface of the partition wall 2B.
図10には白色蛍光灯11及びランプ12に電源を供給するための電気回路が示されている。スイッチ10と、白色蛍光灯11及びランプ12に電源を供給する電源供給回路13とは直列に接続され、電源供給回路13から供給される電源を白色蛍光灯11に適した電源に調整するための電源調節回路14及び白色蛍光灯11とランプ12とは並列に接続され、スイッチ10の切替えにより白色蛍光灯11とランプ12が交互にオン・オフされるものである。 FIG. 10 shows an electric circuit for supplying power to the white fluorescent lamp 11 and the lamp 12. The switch 10 and a power supply circuit 13 that supplies power to the white fluorescent lamp 11 and the lamp 12 are connected in series, and the power supplied from the power supply circuit 13 is adjusted to a power source suitable for the white fluorescent lamp 11. The power control circuit 14 and the white fluorescent lamp 11 and the lamp 12 are connected in parallel, and the white fluorescent lamp 11 and the lamp 12 are alternately turned on and off by switching the switch 10.
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.
筐体2は、図示しない冷蔵装置又は冷凍装置が取り付けられており、上室3、中室4、下室5はこれらの冷蔵装置又は冷凍装置によりそれぞれ所定の温度に維持されるものである。 The casing 2 is provided with a refrigeration device or a freezing device (not shown), and the upper chamber 3, the middle chamber 4, and the lower chamber 5 are respectively maintained at predetermined temperatures by the refrigeration device or the freezing device.
引き出し8内には主として野菜が収納されており、下室5に収容されて密閉されている時は、白色蛍光灯11が点灯し、野菜を照射する。この時、ランプ12は消灯するよう制御される。白色蛍光灯11の光強度は、緑色葉菜類のクロロフィル濃度の低下を低減するのに有効とされる範囲に設定されており、野菜は、光の照射により、クロロフィル濃度の低下が抑制され、鮮度を保持できるものである。また、引き出し8が開放している時は、ランプ12が点灯し、かつ白色蛍光灯11が消灯するよう制御される。 Vegetables are mainly stored in the drawer 8. When the drawer 8 is stored and sealed in the lower chamber 5, the white fluorescent lamp 11 is lit to irradiate the vegetables. At this time, the lamp 12 is controlled to be turned off. The light intensity of the white fluorescent lamp 11 is set in a range that is effective for reducing the decrease in the chlorophyll concentration of green leafy vegetables. It can be held. When the drawer 8 is open, the lamp 12 is controlled to be turned on and the white fluorescent lamp 11 is turned off.
しかしながら、上記従来の構成は、白色蛍光灯11は下室5が密閉されている時に点灯する制御手段を特徴としており、種々の野菜が混在して保存される家庭用の冷蔵庫の使用状況を考慮されていない欠点がある。 However, the above-mentioned conventional configuration is characterized by the control means that the white fluorescent lamp 11 is turned on when the lower chamber 5 is sealed, and considers the usage situation of a household refrigerator in which various vegetables are mixed and stored. There are disadvantages that are not.
本発明は従来の課題を解決するもので、保存した野菜に効率よく弱光照射を行い、野菜の鮮度を保持することができる冷蔵庫を提供することを目的とする。 This invention solves the conventional subject, and it aims at providing the refrigerator which can perform the weak light irradiation to the preserved vegetables efficiently, and can maintain the freshness of vegetables.
本発明は、野菜収納用の収納容器の上面部に上部室との間の仕切り板を設け、前記仕切り板と前記収納容器との間を野菜の収納スペースとして前記収納スペース内を野菜からの水分蒸散により高湿状態に保つ野菜室と、前記野菜室の前面に設けられた扉と、前記野菜室内において前記収納容器の外側に配置されて可視光線領域波長を発光照射する半導体発光素子を有する弱光照射装置とを備え、前記弱光照射装置は可視光線領域波長を発光するとともに赤色波長を、前記扉が開いた状態で所定時間照射し、前記扉が閉じた状態で常時照射することなく間欠的に照射するものであり、収納容器内の野菜に可視光線領域で且つ赤色光を多く発光する事により、光合成のエネルギー効率が高まることで光合成の速度が高まり、緑色保持効果が望めることとなる。また、赤色光は使用者にも認知されやすく、鮮度保持手段の視認効果が高まる。さらに、省エネルギーにもつながる。 The present invention provides a partition plate between the upper chamber on the upper surface of a storage container for storing vegetables, and the space between the partition plate and the storage container serves as a storage space for vegetables. Weakness having a vegetable room kept in a high humidity state by transpiration, a door provided in front of the vegetable room, and a semiconductor light emitting element disposed outside the storage container in the vegetable room and emitting light in the visible light region wavelength A light irradiation device, the weak light irradiation device emits a wavelength in the visible light region and irradiates a red wavelength for a predetermined time in a state where the door is open, and intermittently without always irradiating in a state where the door is closed. By radiating a lot of red light in the visible light region to the vegetables in the storage container, the energy efficiency of photosynthesis is increased to increase the speed of photosynthesis, and a green retention effect can be expected. It becomes a. Further, red light is easily recognized by the user, and the visual recognition effect of the freshness maintaining means is enhanced. Furthermore, it leads to energy saving.
以上説明したよう本発明は、光合成の速度が高まり、緑色保持効果が望めることができるので、野菜の鮮度保持を効率よく行うことができる。 As described above, according to the present invention, the speed of photosynthesis is increased and a green retention effect can be expected, so that the freshness of vegetables can be efficiently maintained.
本発明は、野菜収納用の収納容器の上面部に上部室との間の仕切り板を設け、前記仕切り板と前記収納容器との間を野菜の収納スペースとして前記収納スペース内を野菜からの水分蒸散により高湿状態に保つ野菜室と、前記野菜室の前面に設けられた扉と、前記野菜室内において前記収納容器の外側に配置されて可視光線領域波長を発光照射する半導体発光素子を有する弱光照射装置とを備え、前記弱光照射装置は可視光線領域波長を発光するとともに赤色波長を、前記扉が開いた状態で所定時間照射し、前記扉が閉じた状態で常時照射することなく間欠的に照射するものであり、収納容器内の野菜に可視光線領域で且つ赤色光を多く発光する事により、光合成のエネルギー効率が高まることで光合成の速度が高まり、緑色保持効果が望めることとなる。また、赤色光は使用者にも認知されやすく、鮮度保持手段の視認効果が高まる。さらに、省エネルギーにもつながる。 The present invention provides a partition plate between the upper chamber on the upper surface of a storage container for storing vegetables, and the space between the partition plate and the storage container serves as a storage space for vegetables. Weakness having a vegetable room kept in a high humidity state by transpiration, a door provided on the front surface of the vegetable room, and a semiconductor light emitting element that is disposed outside the storage container in the vegetable room and emits light in the visible light region wavelength. A light irradiation device, the weak light irradiation device emits a wavelength in the visible light region and irradiates a red wavelength for a predetermined time in a state where the door is open, and intermittently without always irradiating in a state where the door is closed. By radiating a lot of red light in the visible light region to the vegetables in the storage container, the energy efficiency of photosynthesis is increased to increase the speed of photosynthesis, and a green retention effect can be expected. It becomes a. Further, red light is easily recognized by the user, and the visual recognition effect of the freshness maintaining means is enhanced. Furthermore, it leads to energy saving.
また本発明は、野菜室内に備えた収納容器の上部に、主として葉菜類を収納する第2の収納容器を備え、前記第2の収納容器の上方に弱光照射装置を配置したものであり、種々の野菜が混在して保存する冷蔵庫において、葉菜類とそれ以外の野菜類を分けて保存する事が可能となるとともに、主として葉菜類を収納する第2の収納容器の上方に弱光照射装置を配置する事により、弱光照射効果の現れる葉菜類にのみ効率的に照射する事ができる。また、葉菜類の収納容器は、野菜室の上部に設置し、その上方に弱光照射装置を設置する事により、弱光照射距離が短くなり、照射強度を低下させる事ができ、省エネルギーにつながる。 In the present invention, a second storage container that mainly stores leafy vegetables is provided above the storage container provided in the vegetable compartment, and a low light irradiation device is disposed above the second storage container. In a refrigerator that stores a mixture of vegetables, leaf vegetables and other vegetables can be stored separately, and a low-light irradiation device is disposed above a second storage container that mainly stores leaf vegetables. Thus, it is possible to efficiently irradiate only leaf vegetables that show a low light irradiation effect. Moreover, the leaf vegetable storage container is installed in the upper part of the vegetable room, and by installing a weak light irradiation device above it, the light irradiation distance can be shortened and the irradiation intensity can be reduced, leading to energy saving.
また本発明は、野菜室内に備えた収納容器の一画に、主として葉菜類を立てて収納する第2の収納容器を備え、前記第2の収納容器の上方に弱光照射装置を配置したので、葉菜類を立てて収納でき鮮度を保つことができるとともに、その上方に弱光照射装置を設けた事により、上方から野菜に光が照射され、片面だけではなく、全体に光が照射されるようになり、照射のムラが軽減されると共に、野菜を立てて収納できる事により、整理しやすいものとなる。 Further, the present invention includes a second storage container that mainly stores leafy vegetables in a portion of the storage container provided in the vegetable compartment, and the low light irradiation device is disposed above the second storage container. The leafy vegetables can be stood up and stored, and the freshness can be maintained, and by providing a weak light irradiation device above it, light is irradiated to the vegetables from above, so that not only one side but also the whole light is irradiated Therefore, the unevenness of irradiation is reduced, and the vegetables can be stood up and stored, which makes it easy to organize.
また本発明は、第2の収納容器を野菜室内の前部に配置したので、葉菜類の取り出し性が向上すると共に、弱光照射装置が上方に設置される事により、使用者に弱光照射装置が作動している事が認知されやすくなる。 Moreover, since this invention has arrange | positioned the 2nd storage container in the front part in a vegetable compartment, while taking out leafy vegetables improves, a weak light irradiation apparatus is installed upwards, a weak light irradiation apparatus is provided to a user. It becomes easy to recognize that is operating.
また本発明は、収納容器を一体に引き出す引き出し式の扉を備えた野菜室にあって、前記収納容器の一画に主として葉菜類を収納する第2の収納容器を設け、前記野菜室の上面を仕切る仕切り板の下面に前記第2の収納容器内を照射する弱光照射装置を設けたので、扉と一体に収納容器を引き出すことができ、野菜室の使い勝手が向上するとともに、第2の収納容器に保存した葉菜類に弱光照射する事ができる。また、仕切り板を野菜室の上面に設け、その下面に弱光照射装置を取り付けているので、野菜室の扉が開閉されても弱光照射装置が邪魔になる事はなく、野菜室の収納スペースが増し、野菜の収納スペースが阻害されることはない。 Further, the present invention is a vegetable room provided with a drawer-type door that pulls out the storage container integrally, a second storage container that mainly stores leafy vegetables is provided in a portion of the storage container, and the upper surface of the vegetable room is provided. Since the weak light irradiation device for irradiating the inside of the second storage container is provided on the lower surface of the partition plate, the storage container can be pulled out integrally with the door, and the convenience of the vegetable room is improved and the second storage It is possible to irradiate the leaf vegetables stored in the container with low light. In addition, since the partition plate is provided on the top surface of the vegetable room and the low light irradiation device is attached to the bottom surface of the vegetable room, the low light irradiation device does not get in the way even if the door of the vegetable room is opened and closed. Space is increased and the storage space for vegetables is not hindered.
また本発明は、仕切り板の下面に調湿手段を設けたので、野菜室内の余分な水分が放出されて、野菜室内は適度な湿度が保たれるようになり、野菜の蒸散が防止されると共に、弱光により葉菜の鮮度低下が抑制され、鮮度保持効果が高まるものである。 Further, according to the present invention, since the humidity control means is provided on the lower surface of the partition plate, excess moisture in the vegetable compartment is released, so that moderate humidity is maintained in the vegetable compartment, and transpiration of vegetables is prevented. At the same time, the decline in freshness of leafy vegetables is suppressed by low light, and the effect of maintaining freshness is enhanced.
また本発明は、冷蔵室内の一画を仕切り板で区画され、少なくとも野菜を保存するよう
に構成された区画室と、前記区画室内に備えた収納容器と、前記収納容器内を照射する弱光照射装置を前記仕切り板に設けたので、冷蔵室内に設けた野菜収納容器においても、効果のある葉菜類に弱光を照射する事ができる。
The present invention also provides a compartment that is partitioned by a partition plate in a compartment of the refrigerated compartment and configured to store at least vegetables, a storage container provided in the compartment, and weak light that irradiates the interior of the storage container. Since the irradiation device is provided on the partition plate, it is possible to irradiate the effective leaf vegetables with weak light even in the vegetable storage container provided in the refrigerator compartment.
また本発明は、野菜室内に備えた収納容器の上面開口部に調湿手段を備えた蓋体を設け、前記野菜室の上部を仕切る仕切り板の下面に、弱光照射装置を設けると共に、前記蓋体を透光性材料で形成したので、野菜室内の収納容器は調湿手段により容器内の余分な水分を放湿し、適正な湿度を保つ事により野菜の鮮度低下が抑制できるとともに、上方からの弱光照射の光は蓋体を透過し、下方の収納容器に保存した葉菜類の鮮度低下は一層抑制される事となる。さらに弱光照射装置は蓋体の上部にあり、弱光照射装置は高湿条件下にさらされる事がなく結露などの影響を受けないため、弱光照射装置への信頼性が向上するものである。 Further, the present invention provides a lid provided with humidity control means at the upper surface opening of the storage container provided in the vegetable compartment, and provides a low light irradiation device on the lower surface of the partition plate that partitions the upper portion of the vegetable compartment, Since the lid is made of a translucent material, the storage container in the vegetable compartment can release excess moisture in the container by humidity control means, and keep the proper humidity to prevent the freshness of the vegetable from being lowered. The light of weak light irradiation from the light passes through the lid, and the freshness of the leaf vegetables stored in the lower storage container is further suppressed. In addition, the weak light irradiation device is located at the top of the lid, and the weak light irradiation device is not exposed to high humidity conditions and is not affected by condensation, which improves the reliability of the low light irradiation device. is there.
また本発明は、野菜室内に備えた収納容器の上面開口部に調湿手段を備えた蓋体を設け、前記蓋体に弱光照射手段を設けたので、野菜と弱光照射装置との距離が短くなり、照射強度を低下する事ができ、省エネルギーにつながる。 In the present invention, the lid provided with the humidity control means is provided in the upper surface opening of the storage container provided in the vegetable compartment, and the lid is provided with the weak light irradiation means. Therefore, the distance between the vegetable and the low light irradiation device. Becomes shorter and the irradiation intensity can be reduced, leading to energy saving.
また本発明は、野菜室内に収納容器を備え、弱光照射装置を野菜室内の複数の面に設けたので、上方からだけでなく、下方あるいは側面から照射する事ができ、照射面のバラツキが一層抑制されることとなり、野菜室全体に弱光照射の効果が得られやすくなる。 In addition, the present invention is provided with a storage container in the vegetable room, and the weak light irradiation device is provided on a plurality of surfaces in the vegetable room, so that the irradiation can be performed not only from above but also from the lower side or the side surface. It will be further suppressed, and the effect of weak light irradiation will be easily obtained on the whole vegetable room.
また本発明は、弱光照射装置を野菜室内の対面する二面に設けたので、野菜の相対する表面、裏面に弱光照射できる事となり、効率的に弱光照射することができる。 Further, in the present invention, the weak light irradiation device is provided on the two surfaces facing each other in the vegetable room, so that the front and back surfaces of the vegetable can be irradiated with weak light, and the low light irradiation can be efficiently performed.
また本発明は、収納容器を透光性材料としたので、複数面から弱光照射する場合、収納容器の外周面の、いずれの場所にも弱光照射装置を設ける事ができ、収納容器内の葉菜類の鮮度低下を抑制できるとともに、弱光照射装置は高湿条件下にさらされる事がなく、結露などによる装置の信頼性を高める事ができる。 In the present invention, since the storage container is made of a translucent material, a weak light irradiation device can be provided at any location on the outer peripheral surface of the storage container when the light is irradiated from multiple surfaces. The freshness of leafy vegetables can be suppressed, and the low light irradiation device is not exposed to high humidity conditions, and the reliability of the device due to condensation can be increased.
また本発明は、弱光装置を、可視光線領域波長を発光する半導体発光素子としたので、発熱量を小さく抑えることができ、野菜室内の温度上昇を抑制する事ができる。 In the present invention, since the low-light device is a semiconductor light-emitting element that emits light in the visible light region, the amount of heat generated can be reduced, and the temperature rise in the vegetable compartment can be suppressed.
また本発明は、半導体発光素子は約660nmの波長を出力する赤色LEDとしたので、葉菜類の光合成が効率的に行われて鮮度低下が抑制されると共に、発熱量が抑制されて野菜室内の温度上昇が防止できる。さらに、使用者が光照射の有無を容易に認知する事ができるものである。 Further, in the present invention, since the semiconductor light emitting device is a red LED that outputs a wavelength of about 660 nm, the photosynthesis of leaf vegetables is efficiently performed, the decrease in freshness is suppressed, and the heat generation is suppressed, and the temperature in the vegetable room is suppressed. The rise can be prevented. Furthermore, the user can easily recognize the presence or absence of light irradiation.
また本発明は、冷蔵庫前面部に弱光照射装置の作動を制御するスイッチを設置したので、使用者が野菜の収納状況に応じて弱光照射装置の作動を制御する事ができるようになる。 Moreover, since the switch which controls the action | operation of a weak light irradiation apparatus was installed in the refrigerator front part according to this invention, a user can control the action | operation of a weak light irradiation apparatus according to the accommodation condition of vegetables.
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。尚、従来と同一構成については、同一符号を付して詳細な説明を省略する。 Hereinafter, embodiments of a refrigerator according to the present invention will be described with reference to the drawings. In addition, about the same structure as the past, the same code | symbol is attached | subjected and detailed description is abbreviate | omitted.
(実施の形態1)
図1は、本発明の実施の形態1による冷蔵庫の断面図である。図2は、同実施の形態による冷蔵庫の弱光照射装置の斜視図である。
(Embodiment 1)
FIG. 1 is a cross-sectional view of a refrigerator according to Embodiment 1 of the present invention. FIG. 2 is a perspective view of the weak light irradiation device of the refrigerator according to the embodiment.
図1において、15は冷蔵庫本体、16は冷蔵室、17は野菜室であり、17aは野菜室17の冷却風路、18a、18bは冷凍室であり、冷蔵室16、野菜室17は仕切り板
19により区画されており、冷凍室18は仕切り板20により区画されている。21は冷蔵室16の扉、22は野菜室17の扉、23、24はそれぞれ、冷凍室の扉である。25は野菜室17内の一画に設けられ、主として葉菜類を収納する収納容器である。26は収納容器25の上方に取り付けられた弱光照射装置であり、可視光線領域の波長を発光する半導体発光装置などから構成されている。また、弱光照射装置26には結露を防止するための保護機能(図示せず)が備えられている。そして、26aは、冷蔵庫15の前面に設けた、弱光照射装置26の点灯を制御する弱光照射スイッチである。弱光照射スイッチ26aはなくてもよく、ない場合は自動的に弱光照射装置26が作動するものである。
In FIG. 1, 15 is a refrigerator main body, 16 is a refrigerator compartment, 17 is a vegetable compartment, 17a is a cooling air passage of the vegetable compartment 17, 18a and 18b are freezing compartments, and the refrigerator compartment 16 and the vegetable compartment 17 are partition plates. The freezer compartment 18 is partitioned by a partition plate 20. 21 is a door of the refrigerator compartment 16, 22 is a door of the vegetable compartment 17, and 23 and 24 are doors of the freezer compartment. A storage container 25 is provided in a portion of the vegetable compartment 17 and mainly stores leaf vegetables. Reference numeral 26 denotes a weak light irradiation device attached above the storage container 25, and is composed of a semiconductor light emitting device that emits a wavelength in the visible light region. Further, the weak light irradiation device 26 is provided with a protection function (not shown) for preventing condensation. And 26a is the weak light irradiation switch provided in the front surface of the refrigerator 15, and controls lighting of the weak light irradiation apparatus 26. FIG. The weak light irradiation switch 26a is not necessary, and if not, the weak light irradiation device 26 is automatically activated.
27は圧縮機、28は冷却器であり、29は冷却器28により冷却された冷気を冷蔵室16、冷凍室18内に送風する送風機、30は、冷蔵室16内への冷気量を調節するダンパー装置であり、31は冷却器28により冷却された冷気を冷蔵室16内に導入するための通風路である。 27 is a compressor, 28 is a cooler, 29 is a blower for blowing cold air cooled by the cooler 28 into the refrigerator compartment 16 and the freezer compartment 18, and 30 is adjusting the amount of cold air into the refrigerator compartment 16. A damper device 31 is a ventilation path for introducing the cold air cooled by the cooler 28 into the refrigerator compartment 16.
次に、弱光照射装置26の具体構成について説明する。弱光照射装置26は、実装基板26bと実装基板26bに併設する半導体発光素子26cと半導体発光素子26cを保護する透過性のカバー26dで構成される。 Next, a specific configuration of the weak light irradiation device 26 will be described. The weak light irradiation device 26 includes a mounting substrate 26b, a semiconductor light emitting element 26c provided on the mounting substrate 26b, and a transparent cover 26d that protects the semiconductor light emitting element 26c.
半導体発光素子26cは可視光線領域波長を発光するものであり、赤色波長を多く有するものである。可視光線は最も短い波長の紫色光から、藍、青、緑、黄、橙の各色の光を経て、最も波長の長い赤色光まである。クロロフィルが吸収する割合は青藍色光が最も大きく、ついて赤色光であり、緑、黄などの色光の割合は小さい。一方、光合成のエネルギー効率は赤色光が最も高く、短波長になるほど低くなる。このことより、光合成速度は赤色光>青藍色光>緑色光の順となるものである。したがって、可視光線領域で且つ赤色光を多く発光する事により、光合成の速度が高まり、緑色保持効果が望めることとなる。 The semiconductor light emitting element 26c emits light in the visible light region and has a lot of red wavelengths. Visible light ranges from violet light with the shortest wavelength, through light of each color of indigo, blue, green, yellow, and orange, to red light with the longest wavelength. Chlorophyll absorbs the largest amount of blue-blue light, followed by red light, and the proportion of colored light such as green and yellow is small. On the other hand, the energy efficiency of photosynthesis is the highest for red light and decreases as the wavelength becomes shorter. From this, the photosynthesis speed is in the order of red light> blue indigo light> green light. Therefore, by emitting a large amount of red light in the visible light region, the speed of photosynthesis is increased and a green retention effect can be expected.
また、半導体発光素子26cを約660nmの波長光を出力する赤色LEDとする事により、より一層光合成の速度が高まり、緑色保持効果が増すと共に、LEDを使用する事により、発熱が抑えられ、野菜の温度上昇を防止する事ができ、蒸散作用を抑える事ができるものである。また、赤色光は使用者にも認知されやすく、鮮度保持手段の視認効果が高まる。 Further, by using the semiconductor light emitting element 26c as a red LED that outputs light having a wavelength of about 660 nm, the speed of photosynthesis is further increased, and the green retention effect is increased. The temperature rise can be prevented, and the transpiration action can be suppressed. Further, red light is easily recognized by the user, and the visual recognition effect of the freshness maintaining means is enhanced.
また、高輝度タイプのLEDや拡散タイプのLEDを使用する事により、LEDの個数を減らすことが可能であり、低コストで弱光照射装置26を作る事ができることとなる。 Further, by using a high-luminance type LED or a diffusion type LED, the number of LEDs can be reduced, and the low-light irradiation device 26 can be made at low cost.
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.
冷却器29で冷却された冷気は、送風機29により冷凍室18a、18b内に送り込まれ、冷凍室18a、18b内は所定の温度(約−18〜−20℃)に冷却される。一方、冷却器29で冷却された冷気の一部は通風路31に導入され、ダンパー装置31の開閉制御により、冷蔵室16内に送り込まれ、冷蔵室16内は所定の温度(約1〜4℃)に冷却される。冷蔵室16内を循環した冷気は、野菜室17の冷却風路17aに導入され、野菜室17は所定の温度(約2〜5℃)に冷却されるものである。 The cold air cooled by the cooler 29 is sent into the freezer compartments 18a and 18b by the blower 29, and the inside of the freezer compartments 18a and 18b is cooled to a predetermined temperature (about −18 to −20 ° C.). On the other hand, a part of the cool air cooled by the cooler 29 is introduced into the ventilation path 31 and is sent into the refrigerating chamber 16 by opening / closing control of the damper device 31, and the inside of the refrigerating chamber 16 has a predetermined temperature (about 1 to 4). ℃). The cold air circulated in the refrigerator compartment 16 is introduced into the cooling air passage 17a of the vegetable compartment 17, and the vegetable compartment 17 is cooled to a predetermined temperature (about 2 to 5 ° C.).
野菜室17内には収納容器25が設けられ、野菜室扉22を開け、野菜室17に野菜を収納する場合、主としてホウレンソウなどの緑色葉菜類は収納容器25に収納区分される。野菜室の扉22が閉じると収納された緑色葉菜類は、収納容器25の上方にある弱光照射装置26により照射される事となる。この時、弱光照射装置26の作動は、弱光照射スイッチ26aにより使用者が選択する事ができる。弱光照射スイッチ26aがない場合は、自動的に弱光照射装置の作動を制御されるものである。 A storage container 25 is provided in the vegetable compartment 17. When the vegetable compartment door 22 is opened and vegetables are stored in the vegetable compartment 17, green leafy vegetables such as spinach are mainly stored in the storage container 25. When the vegetable room door 22 is closed, the stored green leafy vegetables are irradiated by the weak light irradiation device 26 above the storage container 25. At this time, the operation of the weak light irradiation device 26 can be selected by the user by the weak light irradiation switch 26a. When there is no weak light irradiation switch 26a, the operation of the weak light irradiation device is automatically controlled.
緑色葉菜類の葉は暗黒条件下におかれると、光合成系や葉緑体の崩壊、タンパク質、クロロフィルの分解などが進行する事が知られているが、弱光照射装置26からの照射により、これら老化に伴う種々の変化が抑制されるものである。具体的には葉に含まれるクロロフィルの分解が抑制され、濃度の低下が抑えられる事により緑色が維持されると共に、ビタミンCの減少も抑制されるものである。これにより、野菜の貯蔵性が高まり、栄養成分を保持する事ができる。 It is known that the leaves of green leafy vegetables are subject to photosynthesis, chloroplast decay, protein, and chlorophyll degradation when placed under dark conditions. Various changes accompanying aging are suppressed. Specifically, the decomposition of chlorophyll contained in the leaves is suppressed and the decrease in concentration is suppressed, so that the green color is maintained and the decrease in vitamin C is also suppressed. Thereby, the storage property of vegetables increases and it can hold | maintain a nutrient component.
弱光照射の効果は緑色葉菜類に認められるとされ、種々雑多な野菜を収納される冷蔵庫においては、緑色葉菜類を収納容器25内に収納区分する事により、弱光照射装置26の照射範囲を特定する事ができるため、効果のある食品に効率よく弱光照射できものである。 It is said that the effect of weak light irradiation is recognized in green leafy vegetables, and in the refrigerator that stores various miscellaneous vegetables, the irradiation range of the weak light irradiation device 26 is specified by storing the green leafy vegetables in the storage container 25. Therefore, effective food can be irradiated with low light efficiently.
以上のように本実施の形態の冷蔵庫は、野菜室17内の一画に、主として葉菜類を収納する収納容器25を備え、収納容器の上方に弱光照射装置26を配置したので、野菜室内の葉采類を低温保存した上で、弱光照射効果の葉に含まれるクロロフィルの分解が抑制され、濃度の低下が抑えられる事により緑色が維持されると共に、ビタミンCの減少も抑制されるものである。これにより、野菜の貯蔵性が高まり、栄養成分を保持する事ができる。 As described above, the refrigerator according to the present embodiment includes the storage container 25 that mainly stores leafy vegetables in one section of the vegetable room 17, and the low light irradiation device 26 is disposed above the storage container. The chlorophyll contained in the leaves of the leaves is preserved at low temperature after being stored at a low temperature, and the green color is maintained by suppressing the decrease in concentration, and the decrease in vitamin C is also suppressed. It is. Thereby, the storage property of vegetables increases and it can hold | maintain a nutrient component.
さらに、種々雑多な野菜を収納される冷蔵庫においては、緑色葉菜類を収納容器25内に収納区分する事により収納野菜の整理が可能になるとともに、弱光照射装置26の照射範囲を特定する事ができるため、効果のある食品に効率よく弱光照射できものである。 Furthermore, in the refrigerator in which various miscellaneous vegetables are stored, the stored vegetables can be organized by storing the green leafy vegetables in the storage container 25, and the irradiation range of the low light irradiation device 26 can be specified. Therefore, effective food can be irradiated with weak light efficiently.
なお、弱光照射装置26から照射される光は可視光線領域の波長とし、特に光合成の効率が最も大きい赤色光(660nm)が多く含まれる事が望ましく、照度は、野菜室17の高さ及び収納容器25の高さにより設定される。 In addition, it is desirable that the light irradiated from the weak light irradiation device 26 has a wavelength in the visible light region, and particularly contains a lot of red light (660 nm) having the highest efficiency of photosynthesis, and the illuminance is the height of the vegetable room 17 and It is set according to the height of the storage container 25.
また、弱光照射装置26には結露を防止するための保護機能が備えられ、野菜室17内がドア開閉などにより結露しても弱光照射装置26は結露の影響を受けずに点灯する事ができる。 Further, the weak light irradiation device 26 is provided with a protection function for preventing dew condensation, so that the weak light irradiation device 26 is lit without being affected by the dew condensation even if the inside of the vegetable compartment 17 is dewed by door opening and closing. Can do.
また、弱光照射装置26の点灯制御時間は扉の開閉や野菜の収納量などにより自由に設計できるものである。例えば野菜室の扉22が閉じている間以外に、開いた時に所定時間照射される制御を設けると、使用者に弱光照射装置26の点灯が認知できるようになり、鮮度保持手段の視覚的効果が得られる。また、野菜室の扉22が閉じている間常時点灯するのではなく、野菜への効果が得られる範囲内で間欠制御する事により従来技術よりも省エネルギーが図れるようになる。 Further, the lighting control time of the weak light irradiation device 26 can be freely designed by opening and closing the door, the amount of vegetables stored, and the like. For example, if a control is provided to irradiate for a predetermined time when the vegetable compartment door 22 is opened, other than when the vegetable compartment door 22 is closed, the user can recognize the lighting of the weak light irradiation device 26, and the freshness maintaining means can be visually confirmed. An effect is obtained. Moreover, it does not always light while the door 22 of the vegetable compartment is closed, but energy saving can be achieved as compared with the prior art by performing intermittent control within a range where the effect on vegetables is obtained.
更に、収納容器25内に野菜が収容されていない時には弱光照射スイッチ26aにより弱光照射装置26の作動を解除すれば過点灯する事を防止でき、省エネルギーにもつながる。 Furthermore, when vegetables are not stored in the storage container 25, over-lighting can be prevented if the operation of the low light irradiation device 26 is canceled by the low light irradiation switch 26a, leading to energy saving.
また収納容器25は、容器形状に限ったものではなく、たとえば、仕切り板や仕切り棒などの仕切部材でも良く、緑色葉菜類を立てて保存する事ができるものであり、野菜室17の前面部に配置する事もできる。立てて保存された緑色葉菜類は、弱光照射装置26により点灯されるが、この時、立てて収納している事により、一方からの照射ではなく、上方から、弱光の効果がある葉全体に照射する事ができる。また、野菜を立てて収納する事により野菜の整理整頓もしやすい。 The storage container 25 is not limited to the shape of the container, and may be a partition member such as a partition plate or a partition bar, and can store green leafy vegetables standing on the front portion of the vegetable compartment 17. It can also be arranged. The green leafy vegetables stored upright are turned on by the weak light irradiation device 26. At this time, by storing upright, the entire leaf having the effect of low light is not irradiated from one side but from above. Can be irradiated. In addition, it is easy to keep the vegetables organized by standing and storing the vegetables.
更に、収納容器25を前面部に設置する事により、野菜の出し入れがしやすくなる。また上方に弱光照射装置26が配置されるので、弱光照射装置26が消費者に視認されやすくなり、鮮度保持技術の視覚効果が高まる。 Furthermore, it becomes easy to put in and out vegetables by installing the storage container 25 in the front part. Moreover, since the weak light irradiation apparatus 26 is arrange | positioned upwards, it becomes easy for consumers to visually recognize the weak light irradiation apparatus 26, and the visual effect of a freshness maintenance technique increases.
(実施の形態2)
図3は本発明の実施の形態2による冷蔵庫の断面図である。
(Embodiment 2)
FIG. 3 is a sectional view of the refrigerator according to the second embodiment of the present invention.
図3において32は野菜室であり、33は野菜室32の前面に設けた扉である。34は野菜室32内に設けた収納容器であり、収納容器34の上部には主として葉菜類を収納する第2の収納容器34aが設けられている。35は、第2の収納容器34aの上方に配置した弱光照射装置である。 In FIG. 3, 32 is a vegetable room, and 33 is a door provided on the front surface of the vegetable room 32. Reference numeral 34 denotes a storage container provided in the vegetable compartment 32, and a second storage container 34 a that mainly stores leafy vegetables is provided at the top of the storage container 34. Reference numeral 35 denotes a weak light irradiation device arranged above the second storage container 34a.
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.
野菜室32内の上部には収納容器34aが設けられ、野菜室扉33を開け、野菜室32に野菜を収納する場合、主としてホウレンソウなどの緑色葉菜類は収納容器34aに収納区分される。野菜室の扉32が閉じると収納された緑色葉菜類は、収納容器34aの上方にある弱光照射装置35により照射される事となる。 A storage container 34a is provided in the upper part of the vegetable compartment 32. When the vegetable compartment door 33 is opened and the vegetables are stored in the vegetable compartment 32, green leafy vegetables such as spinach are mainly stored in the storage container 34a. When the vegetable room door 32 is closed, the stored green leafy vegetables are irradiated by the weak light irradiation device 35 above the storage container 34a.
このとき、弱光照射装置35の照度は収納容器34a内に収納される緑色葉菜類との距離が影響する。野菜の表面に照射される適性な照度が決まれば、野菜との距離が短いほど弱光照射装置35から発光する光強度を低下する事ができる。したがって、収納容器34aを野菜室の上部に配置する事により、弱光照射装置35との距離が短くなり、照射効率が向上する。また野菜を横向きに収納する事により、茎部から葉部にかけて全体に照射しやすくなるものである。 At this time, the illuminance of the weak light irradiation device 35 is affected by the distance from the green leafy vegetables stored in the storage container 34a. If the suitable illumination intensity irradiated to the surface of vegetables is decided, the light intensity emitted from the weak light irradiation apparatus 35 can be reduced, so that distance with vegetables is short. Therefore, by disposing the storage container 34a in the upper part of the vegetable room, the distance from the weak light irradiation device 35 is shortened, and the irradiation efficiency is improved. Moreover, it becomes easy to irradiate the whole from a stem part to a leaf part by storing vegetables sideways.
以上のように本実施の形態の冷蔵庫は、野菜室32内に備えた収納容器33の上部に、主として葉菜類を収納する第2の収納容器34aを備え、第2の収納容器34aの上方に弱光照射装置35を配置したので、種々の野菜が混在して保存する冷蔵庫において、葉菜類とそれ以外の野菜類を分けて保存する事が可能となるとともに、主として葉菜類を収納する第2の収納容器34aの上方に弱光照射装置35を配置する事により、弱光照射効果の現れる葉菜類にのみ効率的に照射する事ができる。 As described above, the refrigerator according to the present embodiment includes the second storage container 34a that mainly stores leafy vegetables at the top of the storage container 33 provided in the vegetable compartment 32, and is weak above the second storage container 34a. Since the light irradiation device 35 is arranged, in the refrigerator storing various vegetables in a mixed manner, leaf vegetables and other vegetables can be stored separately, and the second storage container that mainly stores leaf vegetables. By arranging the weak light irradiation device 35 above 34a, it is possible to efficiently irradiate only the leafy vegetables where the weak light irradiation effect appears.
(実施の形態3)
図4は本発明の実施の形態3による冷蔵庫の断面図である。
(Embodiment 3)
FIG. 4 is a sectional view of a refrigerator according to Embodiment 3 of the present invention.
図4において、36は野菜室であり、収納容器37を備えている。38は収納容器37を一体に引き出す野菜室の扉である。39は収納容器37内に備えた第2の収納容器であり、主に緑色葉菜類を収納するものである。40は冷蔵室16と野菜室37を仕切る仕切り板であり、41は弱光照射装置であり、仕切り板40の下面で且つ、第2の収納容器39内を照射するように配置している。42は、仕切り板40の下面に取り付けられた調湿手段である。 In FIG. 4, reference numeral 36 denotes a vegetable room, which includes a storage container 37. Reference numeral 38 denotes a vegetable compartment door from which the storage container 37 is pulled out. Reference numeral 39 denotes a second storage container provided in the storage container 37, which mainly stores green leafy vegetables. Reference numeral 40 denotes a partition plate for partitioning the refrigerator compartment 16 and the vegetable compartment 37, and 41 is a weak light irradiation device, which is disposed on the lower surface of the partition plate 40 so as to irradiate the inside of the second storage container 39. Reference numeral 42 denotes humidity control means attached to the lower surface of the partition plate 40.
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.
野菜室36は、上面部の仕切り板40と収納容器37により密閉されており、野菜からの蒸散により高湿状態となる。この時、収納容器37の蓋体は仕切り板40が兼用する事により、野菜室の収納スペースが向上するものである。野菜室の扉38を引き出すと、野菜室36内の野菜収納容器37が一緒に引き出される。野菜を収納する場合、ホウレンソウなどの緑色葉菜類は収納容器37内にある第2の収納容器39に収納保存する。収納さ
れた緑色葉菜類は上方に設置された弱光照射装置41により弱光照射される事となり、クロロフィルの濃度低下が抑制され、野菜の緑色が維持されると共に、ビタミンCなどの栄養成分を保持する事ができる。
The vegetable compartment 36 is hermetically sealed by the partition plate 40 and the storage container 37 on the upper surface portion, and is in a high humidity state due to transpiration from the vegetables. At this time, the lid of the storage container 37 is also used by the partition plate 40, so that the storage space of the vegetable compartment is improved. When the door 38 of the vegetable compartment is pulled out, the vegetable storage container 37 in the vegetable compartment 36 is pulled out together. When storing vegetables, green leafy vegetables such as spinach are stored and stored in the second storage container 39 in the storage container 37. The stored green leafy vegetables will be irradiated with weak light by the weak light irradiation device 41 installed above, the decrease in the concentration of chlorophyll is suppressed, the green color of the vegetables is maintained, and nutritional components such as vitamin C are retained. I can do it.
また、野菜室36内は野菜収納容器37の蓋体を仕切り板40で兼用する事により、収納スペースを大きくする事ができるため、仕切り板40の下面に弱光照射装置41をとりつけても野菜の収納スペースを確保する事ができる。また、仕切り板40に弱光照射装置41を取り付ける事により、野菜室の扉38を開閉されても弱光照射装置41は邪魔になる事がない。 Moreover, since the storage space can be enlarged in the vegetable compartment 36 by using the lid of the vegetable storage container 37 as the partition plate 40, the vegetable light can be obtained even if the low light irradiation device 41 is attached to the lower surface of the partition plate 40. Storage space can be secured. Moreover, even if the door 38 of a vegetable compartment is opened and closed by attaching the weak light irradiation apparatus 41 to the partition plate 40, the weak light irradiation apparatus 41 does not become obstructive.
また、仕切り板40の下面に取り付けられた調湿手段42は、飽和湿度以上の水分が付着しても結露する事なく吸水し、湿度が低下すれば放湿する機能を有すため、葉菜類は結露により水腐れする事がなく、且つ高湿に保たれるため、蒸散が抑制されるものである。 In addition, the humidity control means 42 attached to the lower surface of the partition plate 40 has a function of absorbing water without condensation even when moisture exceeding the saturation humidity adheres, and releasing moisture when the humidity decreases. Since it does not rot due to condensation and is kept at high humidity, transpiration is suppressed.
以上のように本実施の形態の冷蔵庫は、収納容器37を一体に引き出す引き出し式の扉38を備えた野菜室36にあって、収納容器37の一画に主として葉菜類を収納する第2の収納容器39を設け、野菜室36の上面を仕切る仕切り板40の下面に第2の収納容器39内を照射する弱光照射装置41を設けたので、扉38と一体に収納容器39を引き出すことができ、野菜室36の使い勝手が向上するとともに、第2の収納容器39に保存した葉菜類に弱光照射する事ができる。また、仕切り板40を野菜室36の上面に設け、その下面に弱光照射装置41を取り付けているので、野菜室36の扉38が開閉されても弱光照射装置41が邪魔になる事はなく、野菜室36の収納スペースが増し、野菜の収納スペースが阻害されることはない。 As described above, the refrigerator according to the present embodiment is in the vegetable compartment 36 having the drawer-type door 38 that pulls out the storage container 37 integrally, and the second storage that mainly stores leafy vegetables in a section of the storage container 37. Since the container 39 is provided and the weak light irradiation device 41 that irradiates the inside of the second storage container 39 is provided on the lower surface of the partition plate 40 that partitions the upper surface of the vegetable compartment 36, the storage container 39 can be pulled out integrally with the door 38. In addition, the usability of the vegetable compartment 36 is improved, and the leaf vegetables stored in the second storage container 39 can be irradiated with low light. Moreover, since the partition plate 40 is provided on the upper surface of the vegetable compartment 36 and the weak light irradiation device 41 is attached to the lower surface thereof, even if the door 38 of the vegetable compartment 36 is opened and closed, the weak light irradiation device 41 is not in the way. In addition, the storage space of the vegetable compartment 36 is increased, and the storage space for vegetables is not hindered.
さらに、仕切り板40の下面に調湿手段42を設けたので、野菜室36内の余分な水分が放出されて、野菜室36内は適度な湿度が保たれるようになり、野菜の蒸散が防止されると共に、弱光により葉菜の鮮度低下が抑制され、鮮度保持効果が高まるものである。 Furthermore, since the humidity control means 42 is provided on the lower surface of the partition plate 40, excess moisture in the vegetable compartment 36 is released, so that moderate humidity is maintained in the vegetable compartment 36, and the transpiration of vegetables is prevented. In addition to being prevented, a decrease in freshness of leafy vegetables is suppressed by low light, and the effect of maintaining freshness is enhanced.
(実施の形態4)
図5は本発明の実施の形態4による冷蔵庫の断面図である。
(Embodiment 4)
FIG. 5 is a sectional view of a refrigerator according to Embodiment 4 of the present invention.
図5において42aは冷蔵室16内の一画にあり、仕切り板43により区画された野菜室(区画室)である。44は野菜室42a内に備えた収納容器であり、45は収納容器44の上方の仕切り板43の下面に取り付けられ、収納容器44内を照射する弱光照射装置である。 In FIG. 5, reference numeral 42 a denotes a vegetable room (compartment room) which is located in a section of the refrigerator compartment 16 and is partitioned by a partition plate 43. 44 is a storage container provided in the vegetable compartment 42a, and 45 is a weak light irradiation device that is attached to the lower surface of the partition plate 43 above the storage container 44 and irradiates the storage container 44.
以上のように構成された冷蔵庫の野菜室(区画室)について以下その動作を説明する。 The operation of the vegetable room (compartment room) of the refrigerator configured as described above will be described below.
野菜室(区画室)42aは仕切り板43により区画された密閉空間であり、冷蔵室16内に導入された冷気により間接的に冷却され、所定の温度に制御されるものである。野菜室42a内に野菜を収納すると、室内は野菜の水分により高湿状態となり、野菜の蒸散を抑制する。また、ホウレンソウなどの緑色葉菜類は収納容器44内に収納区分でき、収納された野菜は、上方に設置された弱光照射装置45により弱光照射され、葉に含まれるクロロフィルの濃度低下が抑制される。これにより、緑色が保持されると共に、ビタミンCなどの栄養成分の減少を抑制するものである。 The vegetable compartment (compartment compartment) 42a is a sealed space partitioned by the partition plate 43, and is indirectly cooled by the cold air introduced into the refrigerator compartment 16 and controlled to a predetermined temperature. When vegetables are stored in the vegetable room 42a, the room becomes highly humid due to the moisture of the vegetables, and the transpiration of the vegetables is suppressed. Further, green leafy vegetables such as spinach can be stored in the storage container 44, and the stored vegetables are irradiated with weak light by the weak light irradiation device 45 installed above, and the decrease in the concentration of chlorophyll contained in the leaves is suppressed. The As a result, the green color is maintained and the decrease in nutrient components such as vitamin C is suppressed.
以上のように本実施の形態の冷蔵庫は、冷蔵室16内の一画を仕切り板43で区画され、少なくとも野菜を保存するように構成された野菜室42aと、野菜室42a内に備えた収納容器44と、収納容器44内を照射する弱光照射装置45を仕切り板43に設けたので、冷蔵室16内の一画に野菜室42aがある形態の冷蔵庫においても、弱光照射を行う
事ができるものである。
As described above, in the refrigerator of the present embodiment, a compartment in the refrigerator compartment 16 is partitioned by the partition plate 43, and at least a vegetable room 42a configured to store vegetables and a storage provided in the vegetable room 42a. Since the partition 44 is provided with the container 44 and the weak light irradiation device 45 for irradiating the inside of the storage container 44, the low light irradiation is performed even in the refrigerator in which the vegetable room 42 a is provided in a part of the refrigerator compartment 16. It is something that can be done.
(実施の形態5)
図6は本発明の実施の形態5による冷蔵庫の断面図である。
(Embodiment 5)
FIG. 6 is a sectional view of a refrigerator according to the fifth embodiment of the present invention.
図6において、46は野菜室であり、収納容器47を備えている。48は収納容器47の上面開口部に設置する蓋体であり、蓋体48には調湿手段49を設けている。また、蓋体48はアクリルなどの透光性材料で形成されている。50は収納容器47の一画に設けた第2の収納容器であり、51は野菜室46の扉、52は野菜室46と冷蔵室16を仕切る仕切り板。53は仕切り板52の下面に取り付けられた弱光照射装置である。 In FIG. 6, reference numeral 46 denotes a vegetable room, which includes a storage container 47. Reference numeral 48 denotes a lid that is installed in the upper surface opening of the storage container 47, and the lid 48 is provided with humidity control means 49. The lid 48 is made of a translucent material such as acrylic. 50 is a second storage container provided in a section of the storage container 47, 51 is a door of the vegetable compartment 46, and 52 is a partition plate that partitions the vegetable compartment 46 and the refrigerator compartment 16. 53 is a weak light irradiation apparatus attached to the lower surface of the partition plate 52.
以上のように構成された冷蔵庫の野菜室について以下その動作を説明する。 The operation | movement is demonstrated below about the vegetable compartment of the refrigerator comprised as mentioned above.
野菜室46の収納容器47内は上面開口部に設置した蓋体48により密閉される。野菜が収納されると野菜の水分により高湿状態となり、収納された野菜の蒸散を抑制するものである。この時、蓋体48は、飽和湿度以上の水分が付着しても結露する事なく吸水し、湿度が低下すれば放湿する調湿手段49を有するため、葉菜類は結露により水腐れする事がなく、且つ高湿に保たれるため、蒸散が抑制されるものである。野菜を収納する場合、ホウレンソウなどの緑色葉菜類は第2の収納容器50に収納する。仕切り板52の下面に設置されている弱光照射装置53の弱光は、蓋体48を透過し、収納容器50内を照射する事となり、収納された緑色葉菜類の葉に含まれるクロロフィル濃度の低下が抑制され、緑色を保持すると共に、ビタミンCなどの栄養成分が保持されるものである。 The inside of the storage container 47 of the vegetable compartment 46 is sealed by a lid body 48 installed at the upper surface opening. When vegetables are stored, they are in a high humidity state due to the moisture of the vegetables, and the transpiration of the stored vegetables is suppressed. At this time, the lid body 48 has the moisture adjusting means 49 that absorbs water without condensation even if moisture of saturation humidity or higher adheres, and releases moisture when the humidity decreases. Therefore, the leafy vegetables may rot due to condensation. And transpiration is suppressed because it is kept at high humidity. When storing vegetables, green leafy vegetables such as spinach are stored in the second storage container 50. The weak light of the weak light irradiation device 53 installed on the lower surface of the partition plate 52 passes through the lid 48 and irradiates the inside of the storage container 50, and the concentration of chlorophyll contained in the leaves of the stored green leafy vegetables is reduced. The decrease is suppressed, and while maintaining a green color, nutrient components such as vitamin C are retained.
また、弱光照射装置53は仕切り板52に設置する事により、扉51の開閉の妨げにならず、野菜室46内を広くすることができる。さらに、弱光照射装置53は高湿状態にさらされる事がないため、結露防止機能を持たせる必要がなくなる。 Further, by installing the weak light irradiation device 53 on the partition plate 52, the inside of the vegetable compartment 46 can be widened without obstructing the opening and closing of the door 51. Furthermore, since the weak light irradiation device 53 is not exposed to a high humidity state, it is not necessary to have a dew condensation prevention function.
以上のように本実施の形態の冷蔵庫は、野菜室46内に備えた収納容器50の上面開口部に調湿手段を備えた蓋体48を設け、野菜室46の上部を仕切る仕切り板52の下面に、弱光照射装置53を設けると共に、蓋体48を透光性材料で形成したので、野菜室46内の収納容器50は調湿手段49により容器内の余分な水分を放湿し、適正な湿度を保つ事により野菜の鮮度低下が抑制できるとともに、上方からの弱光照射の光は蓋体48を透過し、下方の収納容器50に保存した葉菜類の鮮度低下は一層抑制される事となる。さらに弱光照射装置53は蓋体48の上部にあり、弱光照射装置53は高湿条件下にさらされる事がなく結露などの影響を受けないため、弱光照射装置53への信頼性が向上するものである。 As described above, the refrigerator according to the present embodiment is provided with the lid body 48 provided with humidity control means at the upper surface opening of the storage container 50 provided in the vegetable compartment 46, and the partition plate 52 that partitions the upper portion of the vegetable compartment 46. Since the weak light irradiation device 53 is provided on the lower surface and the lid 48 is made of a light-transmitting material, the storage container 50 in the vegetable compartment 46 releases moisture in the container by the humidity control means 49, Maintaining the appropriate humidity can suppress a decrease in the freshness of the vegetables, and light from the low light irradiation from above passes through the lid 48 and further suppresses the decrease in the freshness of the leaf vegetables stored in the lower storage container 50. It becomes. Further, the weak light irradiation device 53 is located on the upper portion of the lid 48, and the weak light irradiation device 53 is not exposed to high humidity conditions and is not affected by dew condensation. It will improve.
(実施の形態6)
図7は本発明の実施の形態6による冷蔵庫の断面図である。
(Embodiment 6)
FIG. 7 is a sectional view of a refrigerator according to the sixth embodiment of the present invention.
図7において、54は弱光照射手段で、調湿手段49を備えた蓋体48の下面に配置され、収納容器50内を照射する。この時、蓋体48の材料は透過性の有無を問わないものである。 In FIG. 7, reference numeral 54 denotes a weak light irradiation means, which is disposed on the lower surface of the lid body 48 provided with the humidity adjustment means 49 and irradiates the inside of the storage container 50. At this time, the material of the lid 48 may be transparent or not.
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。 The operation of the refrigerator configured as described above will be described below.
野菜を収納する場合、ホウレンソウなどの緑色葉菜類は収納容器50に収納される。この時、収納容器50内は、上方に設置された弱光照射装置54により照射され、収納された緑色葉菜類は葉に含まれるクロロフィル濃度の低下が抑制され、緑色が維持されると共に、ビタミンCなどの栄養成分が保持できるものである。この時、野菜室46の収納容器
47は高湿に制御されるため、野菜の蒸散も抑制されるものである。更に、収納容器47の上面開口部に設置の蓋体48に弱光照射装置54を設置する事により、仕切り板52に取り付けるよりも、野菜との距離が短いため、照度を低下する事ができ省エネルギーになる。また蓋体48を透過性の材料に変更する必要もなくなるものである。
When storing vegetables, green leafy vegetables such as spinach are stored in the storage container 50. At this time, the inside of the storage container 50 is irradiated by the weak light irradiation device 54 installed above, and the stored green leafy vegetables are suppressed from lowering the chlorophyll concentration contained in the leaves, maintaining the green color, and vitamin C Nutritional components such as can be retained. At this time, since the storage container 47 of the vegetable compartment 46 is controlled to be highly humid, transpiration of vegetables is also suppressed. Furthermore, by installing the weak light irradiation device 54 on the lid 48 installed on the upper surface opening of the storage container 47, the illuminance can be reduced because the distance from the vegetable is shorter than attaching to the partition plate 52. It becomes energy saving. Further, it is not necessary to change the lid 48 to a permeable material.
以上のように本実施の形態の冷蔵庫は、野菜室46内に備えた収納容器47の上面開口部に調湿手段49を備えた蓋体48を設け、蓋体48に弱光照射手段54を設けたので、野菜と弱光照射装置54との距離が短くなり、照射強度を低下する事ができ、省エネルギーにつながる。 As described above, the refrigerator according to the present embodiment is provided with the lid body 48 provided with the humidity control means 49 at the upper surface opening of the storage container 47 provided in the vegetable compartment 46, and the weak light irradiation means 54 is provided on the lid body 48. Since it provided, the distance of vegetables and the weak light irradiation apparatus 54 becomes short, irradiation intensity | strength can be reduced and it leads to energy saving.
(実施の形態7)
図8は本発明の実施の形態7による冷蔵庫の断面図である。
(Embodiment 7)
FIG. 8 is a sectional view of a refrigerator according to the seventh embodiment of the present invention.
図8において、55は野菜室であり収納容器56を備えている。収納容器56は透過性材料からなるものである。57は収納容器56の上面開口部に設けられた蓋体であり、調湿手段58が設けられている。59は収納容器56の一画に設置する第2の収納容器であり、透過性材料からなるものである。60は蓋体57の下面に設置され、第2の収納容器59内を照射する第1の弱光照射装置であり、61は、冷凍室18a、18bと野菜室55を仕切る仕切り板である。62は第2の弱光照射装置であり、収納容器56の下方にあり、仕切り板61に取り付けられ、第2の収納容器59内を下方から照射する。つまり、第1の弱光照射装置60と第2の弱光照射装置62は対面するように配置している。 In FIG. 8, reference numeral 55 denotes a vegetable room provided with a storage container 56. The storage container 56 is made of a permeable material. Reference numeral 57 denotes a lid provided at the upper surface opening of the storage container 56, and is provided with humidity control means 58. Reference numeral 59 denotes a second storage container installed in a section of the storage container 56, which is made of a permeable material. Reference numeral 60 denotes a first weak light irradiation device that is installed on the lower surface of the lid 57 and irradiates the inside of the second storage container 59. Reference numeral 61 denotes a partition plate that separates the freezer compartments 18a and 18b from the vegetable compartment 55. 62 is a second weak light irradiation device, which is below the storage container 56, is attached to the partition plate 61, and irradiates the inside of the second storage container 59 from below. That is, the 1st weak light irradiation apparatus 60 and the 2nd weak light irradiation apparatus 62 are arrange | positioned so that it may face.
以上のように構成された冷蔵庫の野菜室について以下その動作を説明する。 The operation | movement is demonstrated below about the vegetable compartment of the refrigerator comprised as mentioned above.
野菜室55内に備えた収納容器56は蓋体57により密閉され、野菜の水分により高湿に保たれるものである。この時、蓋体57にとり付けられた調湿手段58により、余分な水分は吸湿、放湿され、収納容器56内は結露することなく、適正な湿度を保つことができ、収納された野菜の蒸散を抑制するものである。また、野菜を収納する場合、緑色葉菜類は第2の収納容器59に収納区分される。収納された野菜は、上方に設置された第1の弱光照射装置60及び下方に設置された第2の弱光照射装置62により照射され、葉に含まれるクロロフィルの濃度低下が抑制され、緑色を維持し、ビタミンCなどの栄養成分を保持するものである。この時、下方に取り付けた第2の弱光照射装置62は、収納容器56及び第2の収納容器59が透過性材料でできている事により、弱光を照射する事ができるものである。 A storage container 56 provided in the vegetable compartment 55 is sealed by a lid 57 and kept at high humidity by the moisture of the vegetable. At this time, excess moisture is absorbed and released by the humidity control means 58 attached to the lid 57, and the inside of the storage container 56 can be kept at an appropriate humidity without condensation. It suppresses transpiration. When storing vegetables, the green leafy vegetables are stored and classified in the second storage container 59. The stored vegetables are irradiated by the first weak light irradiation device 60 installed on the upper side and the second weak light irradiation device 62 installed on the lower side, the decrease in the concentration of chlorophyll contained in the leaves is suppressed, and the green color is reduced. Is maintained, and nutrients such as vitamin C are retained. At this time, the second weak light irradiation device 62 attached below can irradiate weak light because the storage container 56 and the second storage container 59 are made of a transmissive material.
第1及び第2の複数の弱光照射装置60,62を設け、更に、第1の弱光照射装置60と第2の弱光照射装置62を対面するように配置する事により、収納容器59内に収納された野菜は上下から照射される事となり、全体に照射する事ができ、照射バラツキをなくす事ができるものである。 The first and second plurality of weak light irradiation devices 60 and 62 are provided, and the first weak light irradiation device 60 and the second weak light irradiation device 62 are arranged so as to face each other. The vegetables stored in the inside are irradiated from above and below, so that the whole can be irradiated and the variation in irradiation can be eliminated.
なお、弱光照射装置は上下に対面するのみならず、左右対面でも良く、また第3、第4の弱光照射装置を設けてもよい。 Note that the weak light irradiation device may not only face up and down, but may also face left and right, and third and fourth weak light irradiation devices may be provided.
以上実施の形態1〜7で説明したように本発明は、野菜室内の一画に、主として野菜を収納する収納容器を備え、前記収納容器内の野菜に光を照射する弱光照射装置を配置し、前記弱光照射装置は可視光線領域波長を発光するとともに赤色波長を有したものであり、収納容器内の野菜に可視光線領域で且つ赤色光を多く発光する事により、光合成のエネルギー効率が高まることで光合成の速度が高まり、緑色保持効果が望めることとなる。また、赤色光は使用者にも認知されやすく、鮮度保持手段の視認効果が高まる。 As described in Embodiments 1 to 7 above, the present invention includes a storage container that mainly stores vegetables in a section of the vegetable room, and a low light irradiation device that irradiates light to the vegetables in the storage container. The weak light irradiation device emits a wavelength in the visible light region and has a red wavelength. By emitting a lot of red light in the visible light region to the vegetables in the storage container, the energy efficiency of photosynthesis is increased. By increasing, the speed of photosynthesis increases and a green retention effect can be expected. Further, red light is easily recognized by the user, and the visual recognition effect of the freshness maintaining means is enhanced.
また本発明は、野菜室内の一画に主として葉菜類を収納する収納容器を備え、この収納容器の上方に弱光照射装置を配置した事により、種々の野菜が混在している冷蔵庫において、葉菜類を分けて保存する事が可能となり、この上方に弱光照射装置を配置する事により、効果の現れる葉菜類にのみ効率的に弱光照射する事ができる。 In addition, the present invention includes a storage container that mainly stores leaf vegetables in a section of the vegetable room, and a low light irradiation device is disposed above the storage container so that the leaf vegetables can be used in a refrigerator in which various vegetables are mixed. It is possible to store separately, and by arranging a weak light irradiation device above this, only the leafy vegetables where the effect appears can be efficiently irradiated with weak light.
また本発明は、野菜室内に備えた収納容器内の上部に、主として葉菜類を収納する第2の収納容器を備え、この上方に弱光照射装置を配置したことにより、弱光照射距離が短くなり、照度を低下させる事ができ、省エネルギーにつながることとなる。 In addition, the present invention includes a second storage container that mainly stores leafy vegetables in the upper part of the storage container provided in the vegetable compartment, and the weak light irradiation device is disposed above the second storage container, thereby reducing the light irradiation distance. The illumination can be reduced, leading to energy saving.
また本発明は、野菜室内に備えた収納容器の一画に主として葉菜類を立てて収納する第2の収納容器を備え、この上方に弱光照射装置を配置する構成において、第2の収納容器を野菜室内の前部に配置させる事により、葉菜類は立てて収納する事ができ、整理しやすくなるものであり、前面部に収納容器が配置される事により、野菜を取り出しやすくなる。 The present invention further includes a second storage container that mainly stores leafy vegetables in a portion of the storage container provided in the vegetable compartment, and the second storage container is disposed above the second storage container. By arranging it in the front part of the vegetable room, the leafy vegetables can be stored upright, making it easier to organize. By arranging the storage container in the front part, it becomes easier to take out the vegetables.
また本発明は、第2の収納容器を野菜室内の前部に配置したので、葉菜類の取り出し性が向上すると共に、上方から野菜に光が照射され、全体に光が照射されるようになり、照射のムラが軽減されると共に、使用者に弱光照射装置が作動している事を認知されやすくなる。 Moreover, since this invention has arrange | positioned the 2nd storage container in the front part in a vegetable compartment, while taking out of leafy vegetables improves, light is irradiated to vegetables from the upper part, and light comes to be irradiated to the whole, Irradiation unevenness is reduced, and the user can easily recognize that the weak light irradiation device is operating.
また本発明は、収納容器を一体に引き出す引き出し式の扉を備えた野菜室にあって、収納容器の一画に主として葉菜類を収納する第2の収納容器を設け、野菜室の上面を仕切る仕切り板の下面に第2の収納容器内を照射する弱光照射装置を設けたので、野菜室の使い勝手が向上するとともに野菜室の扉が開閉されても弱光照射装置が邪魔にならず、野菜室の収納スペースが増し、弱光照射装置を取り付けても、野菜の収納スペースを確保する事ができる。 The present invention also provides a partition for partitioning an upper surface of a vegetable compartment in a vegetable compartment provided with a drawer-type door for pulling out the storage container, wherein a second storage container for mainly storing leafy vegetables is provided in a portion of the storage container. Since the weak light irradiation device for irradiating the inside of the second storage container is provided on the lower surface of the plate, the usability of the vegetable room is improved and the weak light irradiation device does not get in the way even if the door of the vegetable room is opened and closed. The storage space of the room is increased, and the storage space for vegetables can be secured even if a weak light irradiation device is attached.
また本発明は、仕切り板の下面に調湿手段を設けたので、野菜室内の余分な水分が放出されて、野菜室内は適度な湿度が保たれるようになり、野菜の蒸散が防止されると共に、弱光により葉菜の鮮度低下が抑制され、鮮度保持効果が高まるものである。 Further, according to the present invention, since the humidity control means is provided on the lower surface of the partition plate, excess moisture in the vegetable compartment is released, so that moderate humidity is maintained in the vegetable compartment, and transpiration of vegetables is prevented. At the same time, the decline in freshness of leafy vegetables is suppressed by low light, and the effect of maintaining freshness is enhanced.
また本発明は、冷蔵室内の一画を仕切り板で区画され、少なくとも野菜を保存するよう構成された区画室と、この区画室内に備えた収納容器と、この収納容器内を照射する弱光照射装置を仕切り板に設けたことにより、冷蔵室内に設けた野菜収納容器においても効果のある葉菜類に弱光を照射する事ができる。 Further, the present invention provides a compartment that is partitioned by a partition plate in a compartment of the refrigerated compartment and configured to store at least vegetables, a storage container provided in the compartment, and weak light irradiation that irradiates the inside of the storage container. By providing the apparatus on the partition plate, it is possible to irradiate the leafy vegetables that are effective even in the vegetable storage container provided in the refrigerator compartment.
また本発明は、野菜室内に備えた収納容器の上面開口部に調湿手段を備えた蓋体を設け、野菜室の上部を仕切る仕切り板下面に弱光照射装置を設け、蓋体を透光性材料で形成したので、適正な湿度を保つ事により野菜の鮮度保持ができ、且つ、上方からの弱光照射により葉菜類の鮮度保持は一層向上できる。さらに弱光照射装置は、高湿条件にさらされる事がないため、結露などによる装置の信頼性が向上するものである。 The present invention also provides a lid provided with humidity control means at the upper opening of the storage container provided in the vegetable compartment, and provided a low light irradiation device on the lower surface of the partition plate that partitions the upper portion of the vegetable compartment, and the lid is translucent. The freshness of the vegetables can be maintained by maintaining an appropriate humidity, and the freshness of the leaf vegetables can be further improved by weak light irradiation from above. Furthermore, since the weak light irradiation device is not exposed to high humidity conditions, the reliability of the device due to condensation is improved.
また本発明は、調湿手段を備えた蓋体に弱光照射装置を設けたので、野菜と弱光照射の距離が短くなり、照射強度を低下する事ができ、省エネルギーが可能となる。 Further, in the present invention, since the weak light irradiation device is provided on the lid body provided with the humidity control means, the distance between the vegetable and the weak light irradiation is shortened, the irradiation intensity can be reduced, and energy saving is possible.
また本発明は、弱光照射装置を野菜室内の複数の面に設けたので、上からだけでなく左右、上下から照射する事が可能となり、照射バラツキを抑制する事ができ、野菜全体に弱光の効果が得られやすくなる。 In addition, since the present invention is provided with the weak light irradiation device on a plurality of surfaces in the vegetable room, it is possible to irradiate not only from the top but also from the left and right, and from the top and bottom. The light effect is easily obtained.
また本発明は、弱光照射装置を野菜室内の対面する二面に設けたので、野菜の相対する
表面、裏面に弱光照射できる事となり、効率的に弱光照射することができる。
Further, in the present invention, the weak light irradiation device is provided on the two surfaces facing each other in the vegetable room, so that the front and back surfaces of the vegetable can be irradiated with weak light, and the low light irradiation can be efficiently performed.
また本発明は、収納容器を透光性材料としたので、収納容器の外周面の、いずれの場所にも弱光照射装置を設ける事ができ、収納容器内の葉菜類の鮮度保持が可能になるとともに、弱光照射装置は高湿条件下にさらされる事がなく、結露などによる装置の信頼性を高める事ができる。 In the present invention, since the storage container is made of a translucent material, a weak light irradiation device can be provided anywhere on the outer peripheral surface of the storage container, and the freshness of leaf vegetables in the storage container can be maintained. At the same time, the low light irradiation device is not exposed to high humidity conditions, and the reliability of the device due to condensation can be increased.
また本発明は、弱光装置を、可視光線領域波長を発光する半導体発光素子としたので、発熱量を小さく抑えることができ、野菜室内の温度上昇を抑制する事ができる。 In the present invention, since the low-light device is a semiconductor light-emitting element that emits light in the visible light region, the amount of heat generated can be reduced, and the temperature rise in the vegetable compartment can be suppressed.
また本発明は、半導体発光素子は約660nmの波長を出力する赤色LEDとしたので、葉菜類の光合成が効率的に行われて鮮度保持が一層向上すると共に、使用者が光照射の有無を容易に認知する事ができる。 Further, according to the present invention, since the semiconductor light emitting device is a red LED that outputs a wavelength of about 660 nm, the photosynthesis of leaf vegetables is efficiently performed and the freshness maintenance is further improved, and the user can easily determine the presence or absence of light irradiation. You can recognize.
また本発明は、冷蔵庫前面部に弱光照射装置の作動を制御するスイッチを設置したので、使用者が野菜の収納状況に応じて弱光照射装置の作動を制御する事ができる。 Moreover, since the switch which controls the action | operation of a weak light irradiation apparatus was installed in the refrigerator front part in this invention, the user can control the action | operation of a weak light irradiation apparatus according to the accommodation condition of vegetables.
17,32,36,46,55 野菜室
25,37,47,56 収納容器
26,35,41,45,53,54 弱光照射装置
26a 弱光照射スイッチ
26c 赤色LED(半導体発光素子)
32 野菜室
34,39,44,50,59 第2の収納容器
38 野菜室の扉
40,43,52 仕切板
42,49 調湿手段
42a 野菜室(区画室)
48 蓋体
60 第1の弱光照射装置
62 第2の弱光照射装置
17, 32, 36, 46, 55 Vegetable room 25, 37, 47, 56 Storage container 26, 35, 41, 45, 53, 54 Weak light irradiation device 26a Weak light irradiation switch 26c Red LED (semiconductor light emitting element)
32 Vegetable room 34, 39, 44, 50, 59 Second storage container 38 Vegetable room door 40, 43, 52 Partition plate 42, 49 Humidity control means 42a Vegetable room (compartment room)
48 Lid 60 First weak light irradiation device 62 Second weak light irradiation device
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