JP2015004504A - Air intake filter for cooling/freezing device - Google Patents
Air intake filter for cooling/freezing device Download PDFInfo
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- JP2015004504A JP2015004504A JP2013140145A JP2013140145A JP2015004504A JP 2015004504 A JP2015004504 A JP 2015004504A JP 2013140145 A JP2013140145 A JP 2013140145A JP 2013140145 A JP2013140145 A JP 2013140145A JP 2015004504 A JP2015004504 A JP 2015004504A
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- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
Abstract
Description
本発明は、冷房・冷凍装置の省エネや節電を目的として、30〜40テラヘルツの共鳴電磁波を放射する材料で作製された冷房・冷凍装置用の吸気フィルターに関するものである。 The present invention relates to an air intake filter for a cooling / refrigeration apparatus made of a material that emits resonance electromagnetic waves of 30 to 40 terahertz for the purpose of energy saving and power saving of the cooling / refrigeration apparatus.
従来、冷房・冷凍装置の省エネや節電は、外部の排熱やエネルギーを有効利用することによる方法がほとんどである。 Conventionally, most of the energy saving and power saving of the cooling / refrigeration apparatus is based on the effective use of external exhaust heat and energy.
また、冷却用空気を除湿することにより顕熱負荷を減少させる方法も開発されている。
従来の冷房冷凍装置の省エネや節電は、排熱の有効利用等の外部エネルギーを利用するものが殆どで、系全体としてはエネルギーを節約していなかったり、省エネ節電装置が大型化する問題があった。 Most of the conventional cooling and refrigeration equipment uses external energy, such as effective use of exhaust heat, and there is a problem that the system as a whole does not save energy or the size of the energy saving power saving device increases. It was.
また、上記の欠点を解決するために、除湿フィルターや除湿ローターで、冷房用空気の除湿を行い顕熱負荷を減少させる方法も開発されているが、室内冷房用空気が乾燥しすぎて、利用者に乾燥肌等の健康被害を発生させるという問題もあった。 In order to solve the above disadvantages, a method of dehumidifying the cooling air by using a dehumidifying filter or a dehumidifying rotor to reduce the sensible heat load has been developed. There was also a problem of causing health problems such as dry skin to the elderly.
このような課題を解決するために本発明者は、30〜40テラヘルツの共鳴電磁波を発振する吸気フィルターを取り付けた送風機により水道水や井戸水を曝気すると、当該水の水分子間の水素結合が共振励起され分離し、当該水の水分子クラスターが微細化し、当該水のPH値が1.5〜2程大きくなり弱アルカリ化し、酸化還元電位が還元側になることを見出し、本発明をなすに至った。 In order to solve such a problem, when the present inventor taps tap water or well water by a blower equipped with an intake filter that oscillates resonance electromagnetic waves of 30 to 40 terahertz, hydrogen bonds between water molecules of the water resonate. It is excited and separated, the water molecule cluster of the water is refined, the pH value of the water is increased by about 1.5 to 2 and weakened, and the redox potential is found to be on the reduction side. It came.
すなわち、上記課題を解決するために、本発明では、30〜40テラヘルツの共鳴電磁波を放射するフィルターを、冷房・冷凍装置の吸気側に取り付け、室内空気または冷凍冷蔵庫内の循環空気に含まれる水分の水分子間の水素結合を分離し、当該空気を活性化する。 That is, in order to solve the above-described problem, in the present invention, a filter that emits a resonance electromagnetic wave of 30 to 40 terahertz is attached to the intake side of the cooling / freezing device, and moisture contained in the indoor air or the circulating air in the refrigerator-freezer The hydrogen bond between water molecules is separated and the air is activated.
また、30〜40テラヘルツの共鳴電磁波で活性化された室内空気または、冷凍冷蔵庫内の循環空気は、熱交換器表面の結露水滴の水素結合を分離し単分子化し、低温条件下での蒸発を活発にし、冷房用空気や庫内循環空気を適度に加湿するとともに、当該空気から気化熱を奪い、温度を下げる。 In addition, indoor air activated by resonance electromagnetic waves of 30 to 40 terahertz or circulating air in a refrigerator / refrigerator separates hydrogen bonds of condensed water droplets on the surface of the heat exchanger into a single molecule, and evaporates under low temperature conditions. It is activated and moderately humidifies the air for cooling and the circulating air in the cabinet, and removes heat of vaporization from the air to lower the temperature.
本発明の冷房・冷凍装置用吸気フィルターによれば、当該フィルターの放射する30〜40テラヘルツの共鳴電磁波で、室内空気や冷蔵冷凍庫の循環空気を活性化し、当該冷房冷凍装置内に付着する水滴を低温条件下で蒸散させ、気化熱を奪うことにより、当該冷房用空気や冷凍用循環空気の温度を無動力で下げることができる。 According to the air-conditioning / refrigeration apparatus intake filter of the present invention, 30 to 40 terahertz resonance electromagnetic waves radiated from the filter activate indoor air and circulating air in the refrigerator-freezer to remove water droplets adhering to the cooling / refrigeration apparatus. By evaporating under low temperature conditions and taking away the heat of vaporization, the temperature of the cooling air and the circulating air for freezing can be lowered without power.
また本発明の冷房・冷凍装置用吸気フィルターによれば、冷房装置の室内空気に適度な湿度を加湿することができ、冷房病や乾燥肌の対策としての効果がある。 In addition, according to the air-conditioning / refrigeration apparatus intake filter of the present invention, it is possible to humidify the room air of the cooling apparatus with an appropriate humidity, which is effective as a countermeasure against cooling disease and dry skin.
また本発明の吸気フィルターによれば、冷凍冷蔵庫内の循環空気を活性化することができ、当該冷蔵冷凍庫内の結露及び霜の形成を抑制することができ、除霜回数を減らすことができ、省エネや節電に効果がある。 Moreover, according to the intake filter of the present invention, it is possible to activate the circulating air in the refrigerator-freezer, to suppress the formation of condensation and frost in the refrigerator-freezer, can reduce the number of defrosting, Effective for energy saving and power saving.
以下、本発明の実施形態について図面を参照しながら詳細に説明する。
図1は、本発明の作用を示す断面図である。Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a cross-sectional view showing the operation of the present invention.
図1に示すように、室内空気8は、送風機3により、30〜40テラヘルツの共鳴電磁波6を放射する吸気フィルター2を通過して、熱交換器4に送られ、冷却される。 As shown in FIG. 1, the indoor air 8 is sent by the
吸気フィルター2から放射される30〜40テラヘルツの共鳴電磁波6により、室内空気8に含まれる水蒸気が、当該電磁波の転写体となる活性空気9となり、30〜40テラヘルツの共鳴電磁波6を放射する。 Due to the 30 to 40 terahertz resonance
活性空気9が熱交換器4で熱を奪われ冷房用空気10となる際、熱交換器表面の結露5の水分子間の水素結合が、活性空気9の放射する30〜40テラヘルツの共鳴電磁波6で共振励起され、分離し、当該水分子が単分子化することにより、液相から気相への相変化が容易になり、低温でも活発に水蒸気7となり蒸発し、活性空気9から気化熱を奪う。 When the active air 9 is deprived of heat by the heat exchanger 4 to become the
熱交換器4による冷却に、結露5の低温蒸散による気化熱が加わることにより、外部エネルギーを全く与えることなく、冷房用空気10をさらに冷却することが可能となり、冷房効率が向上する。 By adding the heat of vaporization due to the low temperature transpiration of the
また、一般的な冷房装置の場合、室内空気から湿度を奪うことにより冷却するため、乾燥空気による乾燥肌の問題があったが、本発明によれば、冷房用空気に、水蒸気7が加わるため、加湿効果も得られる。 Further, in the case of a general cooling device, since cooling is performed by removing humidity from room air, there is a problem of dry skin due to dry air. However, according to the present invention,
また、前述の説明は、冷房装置と限定しているが、冷蔵庫や冷凍庫のように、庫内の空気を、熱交換器で冷却し、循環するシステムの冷却装置は、同じように、冷却効率が向上する。 Moreover, although the above-mentioned explanation is limited to the cooling device, the cooling device of the system that cools and circulates the air in the refrigerator with a heat exchanger, like a refrigerator or a freezer, has the same cooling efficiency. Will improve.
本発明による吸気フィルターを発明者の自宅の冷房装置に取り付け、前年の消費電気量と比較したところ約38%の節電が確認された。また本発明の吸気フィルターの取り付け前と後の、冷房用空気の温度を遠隔放射温度計で測定したところ、当該フィルター取り付け後の方が約2℃、冷房用空気の温度が下がり、冷房用空気の湿度が10〜20%上昇することが確認できた。 The intake filter according to the present invention was attached to the air conditioner at the inventor's home, and when compared with the amount of electricity consumed in the previous year, about 38% power saving was confirmed. Moreover, when the temperature of the cooling air before and after the intake filter of the present invention was installed was measured with a remote radiation thermometer, the temperature after the filter was installed was about 2 ° C., and the temperature of the cooling air was lowered. It was confirmed that the humidity increased by 10 to 20%.
本発明は、空調装置や冷凍冷蔵庫の省エネや節電だけでなく、自動販売機や冷凍コンテナーの省エネや節電にも利用できる。 The present invention can be used not only for energy saving and power saving of air conditioners and refrigerators, but also for energy saving and power saving of vending machines and refrigerated containers.
1 冷房装置本体
2 吸気フィルター
3 送風機
4 熱交換器
5 結露
6 共鳴電磁波
7 水蒸気
8 室内空気
9 活性空気
10 冷房用空気DESCRIPTION OF SYMBOLS 1 Cooling device
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JP2013140145A JP2015004504A (en) | 2013-06-18 | 2013-06-18 | Air intake filter for cooling/freezing device |
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JP2013140145A JP2015004504A (en) | 2013-06-18 | 2013-06-18 | Air intake filter for cooling/freezing device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107062480A (en) * | 2017-04-18 | 2017-08-18 | 海南佩尔优科技有限公司 | A kind of air-conditioning equipment and its control method |
CN109363327A (en) * | 2018-11-11 | 2019-02-22 | 王洪福 | A kind of hair dryer using Terahertz energy |
CN109959119A (en) * | 2019-03-31 | 2019-07-02 | 广东美的制冷设备有限公司 | Antifreeze control method, freezing protection control device, air conditioner and storage medium |
-
2013
- 2013-06-18 JP JP2013140145A patent/JP2015004504A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107062480A (en) * | 2017-04-18 | 2017-08-18 | 海南佩尔优科技有限公司 | A kind of air-conditioning equipment and its control method |
CN109363327A (en) * | 2018-11-11 | 2019-02-22 | 王洪福 | A kind of hair dryer using Terahertz energy |
CN109959119A (en) * | 2019-03-31 | 2019-07-02 | 广东美的制冷设备有限公司 | Antifreeze control method, freezing protection control device, air conditioner and storage medium |
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