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JP2008286462A - Refrigerator - Google Patents

Refrigerator Download PDF

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Publication number
JP2008286462A
JP2008286462A JP2007131194A JP2007131194A JP2008286462A JP 2008286462 A JP2008286462 A JP 2008286462A JP 2007131194 A JP2007131194 A JP 2007131194A JP 2007131194 A JP2007131194 A JP 2007131194A JP 2008286462 A JP2008286462 A JP 2008286462A
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refrigerator
door
high voltage
detection means
door opening
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Japanese (ja)
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Takahiro Ueno
孝浩 上野
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Panasonic Corp
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Panasonic Corp
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  • Electrostatic Spraying Apparatus (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
  • Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To improve safety in a case of loading an electrostatic atomizing device functioned by application of high voltage to keep freshness in a refrigerator. <P>SOLUTION: In a vegetable compartment loading the electrostatic atomizing device 115 composed of an atomizing portion 131 and a high tension generating circuit portion 125, a door opening/closing detecting means for detecting opening/closing of a vegetable compartment door is disposed between a power source circuit 134 for supplying electric power to the high tension generating circuit portion 125 and a control device 136 composed of a control circuit 135 controlling the refrigerator, thus power supply to the high tension generating circuit portion 125 is directly cut off, a charging portion of the atomizing portion 131, and a structure and stored objects around it are suppressed to be lower than a reference potential, and danger can be prevented even when a person touches them accidentially. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

本発明は、高電圧の印加によって機能する霧化装置を備えた冷蔵庫に関するものである。   The present invention relates to a refrigerator provided with an atomizing device that functions by application of a high voltage.

近年の冷蔵庫において、高電圧を印加することで、食品の鮮度保持能力の向上、脱臭、抗菌効果を促す装置を備えたものが増加している。   In recent years, refrigerators equipped with devices that promote the improvement of food freshness retention ability, deodorization, and antibacterial effects by applying a high voltage are increasing.

このように、冷蔵庫に付加され得る機能の一つである高電圧を印加される霧化装置として、静電霧化を利用した液体噴霧装置がある(例えば、特許文献1参照)。   As described above, as an atomizing device to which a high voltage that is one of functions that can be added to a refrigerator is applied, there is a liquid atomizing device that uses electrostatic atomization (see, for example, Patent Document 1).

図5は、従来の液体噴霧装置の概要構成を示し、液体を噴射するノズル201と、これにて噴射される液体に静電気を帯電させて霧化するために高電圧の電界を形成する帯電部202と、その帯電部202を帯電させる高電圧電源206とからなる。この例の帯電部202は、ノズル201から噴射される液体の水柱203を、帯電電極204にて誘電帯電法により静電霧化し、つまり高電圧の電界を通過させることにより粒径を小さくして、帯電した微粒子の水滴205として噴霧する。   FIG. 5 shows a schematic configuration of a conventional liquid spraying apparatus, in which a nozzle 201 that ejects a liquid and a charging unit that forms a high-voltage electric field to charge and atomize the liquid ejected by the nozzle 201 202 and a high voltage power source 206 for charging the charging unit 202. The charging unit 202 in this example reduces the particle diameter by electrostatically atomizing the liquid water column 203 ejected from the nozzle 201 by the dielectric charging method at the charging electrode 204, that is, by passing a high-voltage electric field. Then, it is sprayed as water droplets 205 of charged fine particles.

図6はその一例で、ノズル201の一部を円筒形の帯電電極204内に突入させ、高電圧電源206によりノズル201をプラス極、帯電電極204をマイナス極として高電圧を印加し、ノズル201から噴射される液体の微粒子の水滴205をマイナスに帯電させて静電霧化する。このようにマイナスに帯電させた場合には、マイナスイオン効果も発揮できる。液体に、ビタミンC等の酸化防止剤や殺菌剤を混合し、これらを同時に静電霧化して噴霧することにより、酸化防止剤にて空気中に滞留している活性酸素を除去したり、殺菌剤にて殺菌することができる。帯電電極204による帯電部204の先に、接地された静電吸着部(図示せず)を設置すれば、液体の水滴205と同時に空気中の浮遊微粒子等を静電気にて吸着回収することができる。図7に示すように、ノズル201自体に高電圧を直接印加すれば、ノズル201自体を帯電部として、消臭剤をノズル201にて噴霧と同時に直接帯電させることができる。図6の構造および図7の構造のいずれも、冷蔵庫に内蔵し、冷蔵庫内の保湿や、脱臭等に応用することが考えられる。
特開2005−270669号公報
FIG. 6 shows an example of this. A part of the nozzle 201 is plunged into the cylindrical charging electrode 204, and a high voltage is applied by the high voltage power source 206 using the nozzle 201 as a positive electrode and the charging electrode 204 as a negative electrode. The water droplets 205 of the liquid fine particles ejected from the liquid are charged negatively and electrostatically atomized. When charged negatively in this way, the negative ion effect can also be exhibited. Antioxidants such as vitamin C and bactericides are mixed into the liquid, and these are simultaneously atomized and sprayed to remove active oxygen remaining in the air with the antioxidant, or sterilize. It can be sterilized with an agent. If a grounded electrostatic adsorption unit (not shown) is installed at the tip of the charging unit 204 by the charging electrode 204, the suspended particles in the air can be adsorbed and collected by static electricity simultaneously with the liquid water droplet 205. . As shown in FIG. 7, if a high voltage is directly applied to the nozzle 201 itself, the nozzle 201 itself can be used as a charging unit, and the deodorant can be directly charged by the nozzle 201 simultaneously with spraying. Both the structure of FIG. 6 and the structure of FIG. 7 are incorporated in the refrigerator and can be applied to moisture retention, deodorization, and the like in the refrigerator.
JP 2005-270669 A

しかしながら、上記従来の液体噴霧装置を冷蔵庫に取り付けた場合、高電圧を印加される帯電部は、機能上冷蔵庫庫内に露出され、また帯電部の周囲は電界により冷蔵庫庫内の構造体や収納物が高電位に帯電される。   However, when the conventional liquid spraying device is attached to the refrigerator, the charging unit to which a high voltage is applied is functionally exposed in the refrigerator cabinet, and the surroundings of the charging unit are structured and stored in the refrigerator cabinet by an electric field. Objects are charged to a high potential.

そのため、冷蔵庫庫内において帯電部に人が触れた場合や、構造体や収納物が静電気的に導電物で有った場合、人が触れた際に一気に放電し、人が電撃を受けることがある。この電撃は帯電部や帯電物の静電容量が大きくなるほど強く、場合によっては激しい傷みを伴うものである。   Therefore, when a person touches the charging part in the refrigerator or when a structure or storage object is electrostatically conductive, the person may be discharged at a stroke when the person touches it, and the person may receive an electric shock. is there. This electric shock becomes stronger as the electrostatic capacity of the charged part or charged object increases, and in some cases, it is accompanied by severe damage.

このような帯電現象は、帯電物からの自然放電が起き難い低温乾燥環境の密閉空間では特に深刻で、冷蔵庫はこれに該当する。   Such a charging phenomenon is particularly serious in a sealed space in a low-temperature drying environment where natural discharge from a charged object is difficult to occur, and the refrigerator corresponds to this.

本発明は、上記従来の課題を解決するもので、高電圧帯電に起因する高圧電源の供給を冷蔵庫のドアを開いた状態では遮断することにより帯電部やその周辺にある構造体や収納物を基準電位以下に抑制し、万が一、人が接触した場合においても不安全を回避することができる冷蔵庫を提供するものである。   The present invention solves the above-described conventional problems, and by blocking the supply of high-voltage power caused by high-voltage charging when the refrigerator door is open, the charging unit and the surrounding structures and stored items can be removed. The present invention provides a refrigerator that can be suppressed to a reference potential or less and that can avoid unsafety even when a person touches it.

上記従来の課題を解決するために、本発明の冷蔵庫は、霧化部と高電圧発生回路からなる霧化装置と、前記霧化装置に電源を供給する電源回路と制御回路からなる制御装置と、ドアの開閉を検知するドア開閉検知手段とを備え、前記ドア開閉検知手段によりドアが開を検知した場合は、前記霧化装置への電源供給を遮断するものである。   In order to solve the above-described conventional problems, a refrigerator according to the present invention includes an atomization device including an atomization unit and a high voltage generation circuit, a control device including a power supply circuit that supplies power to the atomization device, and a control circuit. A door opening / closing detecting means for detecting opening / closing of the door, and when the door opening / closing detecting means detects the opening of the door, the power supply to the atomizing device is cut off.

これによって、冷蔵庫のドアが閉まっている場合、冷蔵庫庫内の高電圧による帯電部や帯電部の周囲の電界により高電位に帯電された構造体や収納物は、冷蔵庫のドアを開けた場合、高圧電源の供給を遮断することにより帯電部やその周辺にある構造体や収納物を基準電位以下に抑制し、万が一、人が接触した場合においても感電等を回避することができる。   As a result, when the refrigerator door is closed, the structure and storage items charged to a high potential by the electric field around the charging unit and the charging unit due to the high voltage in the refrigerator cabinet, when the refrigerator door is opened, By shutting off the supply of the high-voltage power supply, the charging unit and the structures and stored items in the vicinity thereof are suppressed to a reference potential or lower, so that an electric shock or the like can be avoided even if a person contacts.

本発明の冷蔵庫は、高電圧を印加される霧化装置を備えた冷蔵庫において、ドアが開を検知した場合は、霧化装置への電源供給を遮断することで、高電圧による帯電部やその周辺にある構造体や収納物を基準電位以下に抑制し、万が一、人が接触した場合においても感電等を回避することができる。   The refrigerator of the present invention is a refrigerator equipped with an atomizing device to which a high voltage is applied. When the door is detected to be open, the power supply to the atomizing device is cut off, thereby charging the high voltage charging unit and its The surrounding structures and stored items are suppressed to a reference potential or less, and even if a person comes into contact, an electric shock or the like can be avoided.

請求項1に記載の発明は、霧化部と高電圧発生回路からなる霧化装置と、前記霧化装置に電源を供給する電源回路と制御回路からなる制御装置と、ドアの開閉を検知するドア開閉検知手段とを備え、前記ドア開閉検知手段によりドアが開を検知した場合は、前記霧化装置への電源供給を遮断するものであり、冷蔵庫のドアが閉まっている場合、冷蔵庫庫内の高電圧による帯電部や帯電部の周囲の電界により高電位に帯電された構造体や収納物は、冷蔵庫のドアを開けた場合、高圧電源の供給を遮断することにより帯電部やその周辺にある構造体や収納物を基準電位以下に抑制し、万が一、人が接触した場合においても感電等を回避することができる。   The invention according to claim 1 detects the opening / closing of a door, an atomizing device comprising an atomizing section and a high voltage generating circuit, a control device comprising a power supply circuit for supplying power to the atomizing device and a control circuit. A door opening / closing detection means, and when the door opening / closing detection means detects the opening of the door, the power supply to the atomizer is cut off, and the refrigerator door is closed, Structures and storage items that are charged to a high potential due to the high voltage of the charging unit and the electric field around the charging unit, when the refrigerator door is opened, shut off the supply of high-voltage power to the charging unit and its surroundings. A certain structure or stored item is suppressed to a reference potential or less, and an electric shock or the like can be avoided even if a person contacts.

請求項2に記載の発明は、請求項1に記載の発明において、前記ドア開閉検知手段は、前記霧化装置と前記制御装置の間に設けられた接点部を有し、前記霧化装置への電源供給を前記接点部に設けられた接点により遮断するものであり、ドア開閉検知手段による電源供給の遮断を制御回路からの信号により実施するものでなく、直接行うことにより、回路にかかるノイズ等による誤動作を回避し信頼性の向上をはかることができる。   According to a second aspect of the present invention, in the first aspect of the invention, the door opening / closing detection means includes a contact portion provided between the atomizing device and the control device, The power supply is shut off by the contact provided at the contact portion, and the power supply is not shut down by the door open / close detection means by a signal from the control circuit, but noise caused to the circuit by performing directly. It is possible to improve the reliability by avoiding malfunction due to the above.

請求項3に記載の発明は、請求項2に記載の発明において、前記ドア開閉検知手段は、マグネットにより直接接点を開閉するリードスイッチであり、外部からのいたずらに対する動作不具合がなく、高電圧の遮断を確実に実施することができる。   According to a third aspect of the present invention, in the invention of the second aspect, the door opening / closing detection means is a reed switch that directly opens and closes a contact by a magnet, and there is no malfunction due to tampering from the outside, and high voltage Blocking can be carried out reliably.

請求項4に記載の発明は、請求項2に記載の発明において、前記ドア開閉検知手段は、押し込み力により直接接点を開閉するプッシュ式スイッチであり、外部からの電気、磁界等による誤動作がなく、高電圧の遮断を確実に実施することができる。   The invention according to claim 4 is the invention according to claim 2, wherein the door opening / closing detection means is a push-type switch that directly opens and closes a contact by a pushing force, and there is no malfunction caused by an external electric, magnetic field, or the like. The high voltage can be reliably cut off.

請求項5に記載の発明は、請求項1に記載の発明において、前記ドア開閉検知手段は、前記霧化装置と前記制御装置の間に設けられた接点部を有し、前記接点部に設けられた接点により電源供給を遮断する手段であって、前記制御装置の制御回路からの信号により電源供給を遮断する手段とともに用いたものであり、ドア開閉時の高電圧の遮断に関し、さらに安全性を向上させることができる。   According to a fifth aspect of the present invention, in the first aspect of the invention, the door opening / closing detection means includes a contact portion provided between the atomizing device and the control device, and is provided in the contact portion. A means for shutting off the power supply by the contact point, which is used together with a means for shutting off the power supply by a signal from the control circuit of the control device. Can be improved.

以下、本発明の実施の形態について、図面を参照しながら説明する。なお、この実施の形態によってこの発明が限定されるものではない。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. 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における冷蔵庫の側断面図である。図2は本発明の実施の形態1における野菜室の側断面図である。
(Embodiment 1)
1 is a side sectional view of a refrigerator according to Embodiment 1 of the present invention. FIG. 2 is a side sectional view of the vegetable compartment in Embodiment 1 of the present invention.

図1、図2において、冷蔵庫101は箱体本体102と貯蔵室の区画をつくるための仕切りが上から103a、103b、103c、それら区画を閉空間にするための扉が上から104a、104b、104c、104dにより各断熱区画され、上から冷蔵室105、切替室106、野菜室107、冷凍室108の異なる温度の貯蔵空間になっている。その中で、野菜室107は扉開閉がなければ湿度約80%R.H以上(食品収納時)、4〜6℃に冷却されている。   1 and 2, the refrigerator 101 has 103a, 103b, and 103c from the top for partitioning the box body 102 and the storage compartment, and 104a, 104b from the top for the doors for making these compartments closed. Each of the heat insulating compartments 104c and 104d is a storage space having different temperatures from the top to the refrigerator compartment 105, the switching room 106, the vegetable compartment 107, and the freezing compartment 108. Among them, the vegetable room 107 has a humidity of about 80% R.D. H or more (during food storage), cooled to 4 to 6 ° C.

また、冷蔵庫101を冷却するため、冷凍サイクルが圧縮機111、凝縮器、膨張弁やキャピラリチューブなどの減圧装置(図示せず)、蒸発器112、それら構成部品を連結する配管、冷媒(図示せず)などで構成される。   Further, in order to cool the refrigerator 101, the refrigeration cycle includes a compressor 111, a condenser, a decompression device (not shown) such as an expansion valve and a capillary tube, an evaporator 112, piping connecting these components, and a refrigerant (not shown). Etc.).

さらに蒸発器112で生成された低温空気を各貯蔵室空間に搬送、もしくは貯蔵室空間で熱交換された空気を蒸発器112に回収するための風路113があり、風路113は各貯蔵室と仕切り114で断熱されている。   Furthermore, there is an air passage 113 for conveying the low-temperature air generated by the evaporator 112 to each storage room space, or for collecting the air heat-exchanged in the storage room space to the evaporator 112, and the air passage 113 is provided for each storage room. And is insulated by a partition 114.

次に野菜室107において、野菜室107の背面には、野菜室ケース116内に向けて微細ミストを噴霧するための高電圧によって機能する静電霧化装置115が配設され、また、仕切り103bの前面には、野菜室107の野菜室扉104cの開閉を検知するドア開閉検知手段110が配設されている。   Next, in the vegetable compartment 107, on the back of the vegetable compartment 107, an electrostatic atomizer 115 functioning by a high voltage for spraying fine mist toward the inside of the vegetable compartment case 116 is disposed, and the partition 103b Is provided with door opening / closing detection means 110 for detecting the opening / closing of the vegetable compartment door 104c of the vegetable compartment 107.

静電霧化装置115は、回収された水分を野菜室107内に噴霧するための形状を有したノズル先端部122と回収された水分に高電圧を印加する印加電極123と先端部122の近傍に一定距離を保つように設けられた対向電極124からなる霧化部131と、印加電極123に高電圧を供給する高電圧発生回路部125からなり、高電圧発生回路部125により数キロボルトのマイナス極性電圧が印加され、対向電極124は高電圧発生回路部125の基準電圧またはプラス数キロボルトのプラス極性電圧が印加されている。   The electrostatic atomizer 115 includes a nozzle tip 122 having a shape for spraying the collected water into the vegetable compartment 107, an application electrode 123 for applying a high voltage to the collected water, and the vicinity of the tip 122. The atomizing portion 131 is formed of a counter electrode 124 provided to maintain a constant distance between the first electrode and the high voltage generating circuit portion 125 for supplying a high voltage to the applying electrode 123. The high voltage generating circuit portion 125 reduces the negative voltage of several kilovolts. A polarity voltage is applied, and a reference voltage of the high voltage generation circuit unit 125 or a plus polarity voltage of plus several kilovolts is applied to the counter electrode 124.

ドア開閉検知手段110は、野菜室扉104cに設置されたマグネット117により動作するリードスイッチであり、野菜室扉104cが閉じた状態では、内部の接点が閉状態であり、野菜室扉104cが開いた状態では接点は開状態となる。   The door open / close detection means 110 is a reed switch that is operated by a magnet 117 installed on the vegetable compartment door 104c. When the vegetable compartment door 104c is closed, the internal contact is closed and the vegetable compartment door 104c is opened. In this state, the contact is open.

図3は、本発明の実施の形態1における冷蔵庫の制御ブロック図である。   FIG. 3 is a control block diagram of the refrigerator in the first embodiment of the present invention.

霧化部131と高電圧発生回路部125からなる静電霧化装置115と、高電圧発生回路部125に電源供給を行う電源回路134と冷蔵庫の制御を行う制御回路135とからなる制御装置136との間にドア開閉検知手段110が設けられている。   A control device 136 comprising an electrostatic atomization device 115 comprising an atomization unit 131 and a high voltage generation circuit unit 125, a power circuit 134 for supplying power to the high voltage generation circuit unit 125, and a control circuit 135 for controlling the refrigerator. The door opening / closing detection means 110 is provided between the two.

以上のように構成された冷蔵庫についてその動作を説明する。   The operation of the refrigerator configured as described above will be described.

まず野菜室107の野菜室扉104cが閉じた状態の場合、野菜室扉104cに設置されたマグネット117の磁界によりドア開閉検知手段110の接点は閉状態であり制御装置136の電源回路134から静電霧化装置115の高電圧発生回路部125に出力電圧が印加され、高電圧発生回路部125より印加電極123と対向電極124に高電圧の静電エネルギーが供給される。その静電エネルギーにより、ノズル先端部122に付着した水分は、微細化され、さらに液滴が帯電しているためレイリー分裂により数nmから数μmの微粒子に霧化され、野菜室107に噴霧されることにより庫内をすばやく加湿する。   First, when the vegetable compartment door 104c of the vegetable compartment 107 is in a closed state, the contact of the door open / close detection means 110 is closed by the magnetic field of the magnet 117 installed in the vegetable compartment door 104c. An output voltage is applied to the high voltage generation circuit unit 125 of the electroatomizer 115, and high voltage electrostatic energy is supplied from the high voltage generation circuit unit 125 to the application electrode 123 and the counter electrode 124. Due to the electrostatic energy, the water adhering to the nozzle tip 122 is refined, and since the droplet is charged, it is atomized into fine particles of several nm to several μm by Rayleigh splitting and sprayed to the vegetable compartment 107. To quickly humidify the interior.

更に、噴霧された微細ミストはマイナス極性に帯電しているため、OHラジカルなどを多く含んでおり、殺菌、抗菌、除菌などに効果がある他、酸化分解による農薬除去や抗酸化によるビタミンC量などの栄養素の増加を野菜に促す。   Furthermore, since the sprayed fine mist is charged with a negative polarity, it contains a lot of OH radicals and is effective for sterilization, antibacterial, sterilization, etc., as well as removal of agricultural chemicals by oxidative degradation and vitamin C by antioxidant. Encourage vegetables to increase the amount of nutrients.

次に、野菜室107の野菜室扉104cが開いた状態の場合、ドア開閉検知手段110の接点は開状態になり制御装置136の電源回路134からの出力は遮断され、静電霧化装置115の高電圧回路125からの出力電圧は遮断される。   Next, when the vegetable compartment door 104c of the vegetable compartment 107 is opened, the contact of the door opening / closing detection means 110 is opened, the output from the power supply circuit 134 of the control device 136 is cut off, and the electrostatic atomizer 115 The output voltage from the high voltage circuit 125 is cut off.

それにより、霧化部131の印加電極123や対向電極124及びその周辺にある構造対や収納物は基準電位以下に抑制される。   Thereby, the application electrode 123 and the counter electrode 124 of the atomization part 131 and the structure pair and storage thing in the periphery are suppressed below to a reference potential.

以上のように、冷蔵庫101の野菜室107に静電霧化装置115を設け、野菜室107の保鮮を行う場合、霧化部131と高電圧回路部125からなる静電霧化装置115と、高電圧発生回路部125に電源供給を行う電源回路134と冷蔵庫の制御を行う制御回路135とからなる制御装置136との間に接点を有したドア開閉検知手段110を設けることにより、冷蔵庫のドアが閉まっている場合、冷蔵庫庫内の高電圧による帯電部や帯電部の周囲の電界により高電位に帯電された構造体や収納物は、冷蔵庫のドアを開けた場合、高圧電源の供給を遮断されることにより帯電部やその周辺にある構造体や収納物を基準電位以下に抑制し、万が一、人が接触した場合においても感電等を回避することができる。   As described above, when the electrostatic atomizer 115 is provided in the vegetable compartment 107 of the refrigerator 101 and the vegetable compartment 107 is kept fresh, the electrostatic atomizer 115 including the atomizer 131 and the high voltage circuit unit 125, A door opening / closing detection means 110 having a contact point is provided between a control device 136 including a power supply circuit 134 that supplies power to the high voltage generation circuit unit 125 and a control circuit 135 that controls the refrigerator, thereby providing a door for the refrigerator. If the battery is closed, the high voltage charging unit in the refrigerator and the structure and storage items charged to a high potential by the electric field around the charging unit will shut off the supply of high voltage power when the refrigerator door is opened. As a result, the charging unit and its surrounding structures and stored items are suppressed to a reference potential or less, and even if a person comes into contact, an electric shock or the like can be avoided.

なお、ドア開閉検知手段110が、外部から容易に動作することができないように設計された、プッシュ式の接点開閉装置としてもよい。   The door opening / closing detection means 110 may be a push-type contact opening / closing device designed so that it cannot be easily operated from the outside.

この構成により、外部からの電気、磁界等による誤動作がなく、高電圧の遮断を確実に実施することができる。   With this configuration, there is no malfunction due to external electricity, magnetic field, or the like, and high voltage interruption can be reliably performed.

(実施の形態2)
図4は本発明の実施の形態2における冷蔵庫の制御ブロック図である。
(Embodiment 2)
FIG. 4 is a control block diagram of the refrigerator in the second embodiment of the present invention.

印加電極123と対向電極124を有した霧化部131と高電圧発生回路部125からなる静電霧化装置115と、高電圧発生回路部125に電源供給を行う電源回路134と冷蔵庫の制御を行う制御回路135とからなる制御装置136とを有し、野菜室107の野菜室扉104cの開閉を検知するドア開閉検知手段110として、リードスイッチからなる直接接点の開閉を行う第一のドア開閉検知手段110aを静電霧化装置115と制御装置136の間に設け、ホール素子からなる第二のドア開閉検知手段110bを制御装置136に信号出力するように設けられている。   Control of the refrigerator with the electrostatic atomizer 115 comprising the atomizing part 131 having the application electrode 123 and the counter electrode 124 and the high voltage generating circuit part 125, the power supply circuit 134 for supplying power to the high voltage generating circuit part 125, and the refrigerator A first door opening / closing unit that opens and closes a direct contact comprising a reed switch as a door opening / closing detection unit 110 that detects the opening / closing of the vegetable room door 104c of the vegetable room 107. The detection means 110a is provided between the electrostatic atomizer 115 and the control device 136, and the second door opening / closing detection means 110b made of a Hall element is provided to output a signal to the control device 136.

以上のように構成された冷蔵庫についてその動作を説明する。   The operation of the refrigerator configured as described above will be described.

まず野菜室107の野菜室扉104cが閉じた状態の場合、野菜室扉104cに設置されたマグネット117の磁界により第一のドア開閉検知手段110aの接点は閉状態であり、また第二のドア開閉検知手段110bの信号により制御装置136の電源回路134から静電霧化装置115の高電圧発生回路部125に出力電圧が印加され、高電圧発生回路部125より印加電極123と対向電極124に高電圧の静電エネルギーが供給される。その静電エネルギーにより、ノズル先端部122に付着した水分は、微細化され、さらに液滴が帯電しているためレイリー分裂により数nmから数μmの微粒子に霧化され、野菜室107に噴霧されることにより庫内をすばやく加湿する。   First, when the vegetable compartment door 104c of the vegetable compartment 107 is closed, the contact of the first door opening / closing detection means 110a is closed by the magnetic field of the magnet 117 installed in the vegetable compartment door 104c, and the second door The output voltage is applied from the power supply circuit 134 of the control device 136 to the high voltage generation circuit unit 125 of the electrostatic atomizer 115 by the signal of the open / close detection means 110b, and the high voltage generation circuit unit 125 applies the output voltage to the application electrode 123 and the counter electrode 124. High voltage electrostatic energy is supplied. Due to the electrostatic energy, the water adhering to the nozzle tip 122 is refined, and since the droplet is charged, it is atomized into fine particles of several nm to several μm by Rayleigh splitting and sprayed to the vegetable compartment 107. To quickly humidify the interior.

次に、野菜室107の野菜室扉104cが開いた状態の場合、第一のドア開閉検知手段110aの接点は開状態となり、また第二のドア開閉検知手段110bの信号が制御装置136の制御回路135に伝送され、電源回路134から静電霧化装置115の高電圧発生回路部125への出力電圧が遮断される。   Next, when the vegetable compartment door 104c of the vegetable compartment 107 is in an open state, the contact of the first door opening / closing detection means 110a is opened, and the signal of the second door opening / closing detection means 110b is controlled by the control device 136. The voltage is transmitted to the circuit 135, and the output voltage from the power supply circuit 134 to the high voltage generation circuit unit 125 of the electrostatic atomizer 115 is cut off.

それにより、霧化部131の印加電極123や対向電極124及びその周辺にある構造対や収納物は基準電位以下に抑制される。   Thereby, the application electrode 123 and the counter electrode 124 of the atomization part 131 and the structure pair and storage thing in the periphery are suppressed below to a reference potential.

以上のように、冷蔵庫101の野菜室107に設けた静電霧化装置115によって野菜室107の保鮮を行う場合、霧化部131と高電圧発生回路部125からなる静電霧化装置115と、高電圧発生回路部125に電源供給を行う電源回路134と冷蔵庫の制御を行う制御回路135とからなる制御装置136と、接点を有した第一のドア開閉検知手段110aと、第二のドア開閉検知手段110bによって、制御装置136の制御回路135からの信号により電源供給を遮断する手段とを組み合わせて用いることにより、冷蔵庫のドアを開けた場合、高圧電源の供給が停止されると共に供給経路も同時に遮断されることで、何らかの原因で一方の機能が作動しなくても他方の機能が作動することで、確実に帯電部やその周辺にある構造体や収納物を基準電位以下に抑制することができ、さらに安全性を向上させることが可能となる。   As described above, when the vegetable compartment 107 is kept fresh by the electrostatic atomizer 115 provided in the vegetable compartment 107 of the refrigerator 101, the electrostatic atomizer 115 including the atomization unit 131 and the high voltage generation circuit unit 125; , A control device 136 comprising a power supply circuit 134 for supplying power to the high voltage generation circuit section 125 and a control circuit 135 for controlling the refrigerator, a first door opening / closing detection means 110a having a contact, and a second door When the open / close detection means 110b is used in combination with a means for shutting off the power supply by a signal from the control circuit 135 of the control device 136, when the refrigerator door is opened, the supply of the high-voltage power supply is stopped and the supply path Is also shut off at the same time, so that even if one function does not work for some reason, the other function will work, so the structure in the charged part and its surroundings can be surely It is possible to suppress the stored items below the reference potential, it is possible to further improve safety.

以上のように、本発明は冷蔵庫以外にも、密閉空間で高電圧発生回路を使用する機器、例えばエアコン、空気清浄機等の家電製品を始め、自動車や設備機器等についても応用できるものである。   As described above, the present invention can be applied not only to refrigerators but also to appliances that use high voltage generation circuits in sealed spaces, such as home appliances such as air conditioners and air purifiers, as well as automobiles and equipment. .

本発明の実施の形態1における冷蔵庫の側断面図Side sectional view of the refrigerator according to Embodiment 1 of the present invention. 本発明の実施の形態1における野菜室の側断面図Side sectional view of the vegetable compartment in Embodiment 1 of the present invention 本発明の実施の形態1における冷蔵庫の制御ブロック図Control block diagram of refrigerator in Embodiment 1 of the present invention 本発明の実施の形態2における冷蔵庫の制御ブロック図Control block diagram of refrigerator in Embodiment 2 of the present invention 従来の液体噴霧装置の概要構成図Schematic configuration diagram of a conventional liquid spray device 従来の液体噴霧装置の構造図Structure diagram of conventional liquid spray device 従来の液体噴霧装置の構造図Structure diagram of conventional liquid spray device

符号の説明Explanation of symbols

101 冷蔵庫
104c 野菜室扉
110 ドア開閉検知手段
110a 第一のドア開閉検知手段
110b 第二のドア開閉検知手段
115 静電霧化装置
125 高電圧発生回路
131 霧化部
134 電源回路
135 制御回路
136 制御装置
DESCRIPTION OF SYMBOLS 101 Refrigerator 104c Vegetable room door 110 Door opening / closing detection means 110a 1st door opening / closing detection means 110b 2nd door opening / closing detection means 115 Electrostatic atomizer 125 High voltage generation circuit 131 Atomization part 134 Power supply circuit 135 Control circuit 136 Control apparatus

Claims (5)

霧化部と高電圧発生回路からなる霧化装置と、前記霧化装置に電源を供給する電源回路と制御回路からなる制御装置と、ドアの開閉を検知するドア開閉検知手段とを備え、前記ドア開閉検知手段によりドアが開を検知した場合は、前記霧化装置への電源供給を遮断することを特徴とする冷蔵庫。   An atomization device comprising an atomization unit and a high voltage generation circuit, a control device comprising a power supply circuit for supplying power to the atomization device and a control circuit, and a door opening / closing detection means for detecting opening / closing of the door, The refrigerator characterized by shutting off the power supply to the atomizing device when the door opening / closing detecting means detects the opening of the door. 前記ドア開閉検知手段は、前記霧化装置と前記制御装置の間に設けられた接点部を有し、前記霧化装置への電源供給を前記接点部に設けられた接点により遮断することを特徴とする請求項1に記載の冷蔵庫。   The door opening / closing detection means has a contact portion provided between the atomizing device and the control device, and the power supply to the atomizing device is interrupted by the contact provided in the contact portion. The refrigerator according to claim 1. 前記ドア開閉検知手段は、マグネットにより接点を開閉するリードスイッチであることを特徴とする請求項2に記載の冷蔵庫。   The refrigerator according to claim 2, wherein the door opening / closing detection means is a reed switch that opens and closes a contact by a magnet. 前記ドア開閉検知手段は、押し込み力により接点を開閉するプッシュ式スイッチであることを特徴とする請求項2に記載の冷蔵庫。   The refrigerator according to claim 2, wherein the door opening / closing detection means is a push-type switch that opens and closes a contact point by a pushing force. 前記ドア開閉検知手段は、前記霧化装置と前記制御装置の間に設けられた接点部を有し、前記接点部に設けられた接点により電源供給を遮断する手段であって、前記制御装置の制御回路からの信号により電源供給を遮断する手段とともに用いたことを特徴とする請求項1に記載の冷蔵庫。   The door opening / closing detection means has a contact portion provided between the atomizing device and the control device, and is a means for shutting off power supply by the contact provided at the contact portion. 2. The refrigerator according to claim 1, wherein the refrigerator is used together with means for cutting off power supply by a signal from a control circuit.
JP2007131194A 2007-05-17 2007-05-17 Refrigerator Pending JP2008286462A (en)

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JP2011002206A (en) * 2009-06-22 2011-01-06 Toshiba Corp Refrigerator
JP2011012946A (en) * 2009-03-27 2011-01-20 Toshiba Corp Refrigerator
JP2011043261A (en) * 2009-08-19 2011-03-03 Toshiba Corp Refrigerator
JP2011043307A (en) * 2009-08-24 2011-03-03 Toshiba Corp Refrigerator
JP2015025596A (en) * 2013-07-25 2015-02-05 株式会社東芝 Refrigerator

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JP2001255053A (en) * 2000-03-13 2001-09-21 Daiwa Industries Ltd Refrigerator
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JP2006242556A (en) * 2005-02-07 2006-09-14 Matsushita Electric Ind Co Ltd Refrigerator

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Publication number Priority date Publication date Assignee Title
JP2011012946A (en) * 2009-03-27 2011-01-20 Toshiba Corp Refrigerator
CN102419059A (en) * 2009-03-27 2012-04-18 株式会社东芝 Refrigerator
CN102419059B (en) * 2009-03-27 2015-01-14 株式会社东芝 Refrigerator
JP2011002206A (en) * 2009-06-22 2011-01-06 Toshiba Corp Refrigerator
JP2011043261A (en) * 2009-08-19 2011-03-03 Toshiba Corp Refrigerator
JP2011043307A (en) * 2009-08-24 2011-03-03 Toshiba Corp Refrigerator
JP2015025596A (en) * 2013-07-25 2015-02-05 株式会社東芝 Refrigerator

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