201239285 六、發明說明: 【發明所屬之技術領域】 本發明係與應用^\逮·链仏+ 右關…二 内之空氣調節技術領域 有關’更评而吕之是指—種可根據建築物 狀態選擇最低能耗運轉模式 … 依:A之工°周之调熱系統與方法 者0 【先前技術】 按’為求生活環境之健康與舒適,乃有空調設備 之產生’才目關技術亦曰益進步,多年來,關於空調設 備之技術期刊、論文與專利甚為繁多,此處不一一贅 述、,已屬甚為成熟之技術領域,使得現代人類可享有 曰益舒適的生活環境。 尸不過,人類的活動持續造成地球暖化’使得地球 氣候日漸極端化,造成各種氣候災難不斷發生,因此, 為求人類的水續生存發展,阻止地球暖化之節能減廢 方向勢在必行,特別是空調設備在移除建築物熱量運 作時必須耗用龐大的能量,並會將熱量及能量轉換過 程產生之廢熱與二氧化碳排放至空氣中,乃是造成城 市熱島效應之主要因素之一,顯然為地球永續發展, 建築物内之能量轉換必須朝向更節能減廢之方向作技 術上之突破。 其次,習知空調系統皆為主動式之熱交換空調系 統,亦即,乃偵測室内環境狀態之變化(如溫度變化), 4 201239285 以主動進行熱交換、產生室内空調效果,並無透過偵 測室内、外環境狀態之差異、變化,進而引進室外空 氣以進行能量轉換之熱交換系統。 是以,本發明人基於多年來持續研發自然空氣調 節技術之經驗,乃有本發明之誕生。 【發明内容】 本發明之主要目的即在提供一種空調之調熱系統 與方法,其可透過室内、外環境狀態之變化(如二氧 化碳濃度及溫、溼度變化),自動選擇最低能耗之運轉 模式以提供人體最適合之室内養生環境,甚具自然、 節能減廢之環保效益者。 緣是,為達成前述之目的,本發明係提供一種空 調之調熱系統,包含有一熱交換裝置,包含一高壓空 氣產生單元,用以可產生高壓空氣,一霧化器,連通 該高壓空氣產生單元,用以可將水霧化而混合於高壓 空氣中;一輔助熱交換空調裝置,用以產生預定條件 之空調氣體;一低壓空氣產生單元,連通該輔助熱交 換空調裝置,用以可產生低壓空氣;一供風單元,包 含若干喷氣口,及與該喷氣口連通之一高壓氣室與一 低壓氣室,該高壓氣室係連接熱交換裝置,該低壓氣 室係連接低壓空氣產生單元;一第一回風口,設置於 室内並連通該熱交換裝置與輔助熱交換空調裝置,用 以供建築物室内空氣流入該熱交換裝置與輔助熱交換 201239285 r ^ 空调農置;一第二回風口,設置於室外並連通該熱交 換^置,用以供建築物室外空氣流入該熱交換裝置; 境偵測裝置,設置於建築物室内、外並連接該熱 人換裝置與輔助熱交換空調裝置,用以感測建築物室 内、外環境狀態之變化。 ^此外,本發明更提供一種空調之調熱方法,主要 系持、”貝偵測建築物室内、外環境狀態之變化,當建築 物至内之環境變化至對人體不舒適之狀態預設值時, 丨進至外空氣進行熱交換再輸送至室内,配合空調氣 體調整建築物室内之環境狀態。 【實施方式】 以下,茲舉本發明數較佳實施例,並配合圖式做 進—步之詳細說明如後: 首先,請參閱各圖所示,本發明一較佳實施例之 空調之調熱系統10,係應用於空調領域,包含有一熱 父換裝置11、一輔助熱交換空調裝置12、一低壓空氣 產生單元13、一供風單元14、一第一回風口 15、一 第二回風口 16與二環境偵測裝置17、18。 5亥熱交換裝置11,包含一高壓空氣產生單元22 與一霧化器24。該高壓空氣產生單元22包含一馬達 26與一風扇28,用以可利用該馬達26驅動風扇28產 生向壓空氣。該霧化器24係習知超音波震盪霧化器或 阿壓空氣霧化裝置’連接該高壓空氣產生單元22,用 6 201239285 以可將水霧化而混合於高壓空氣、與空氣進行熱交換。 έ亥辅助熱交換空έ周裝置12 ’係習知包含熱交換器 等構件之空調設備,其冷/熱源係由中央冰/熱水主機或 直膨冷/暖空調機供應’用以主動產生冷、暖氣,其詳 細結構此處不予贅述。 邊低壓空氣產生早元13,利用一輸送管30連通咳 輔助熱交換空調裝置12,包含一馬達32與一風扇34, 用以可利用該馬達32驅動風扇34產生低壓空氣。 該供風單元14’設置於建築物室内,具有—環型 之中空框部3 6 ’該框部3 6内部延伸有一隔板3 8,用 以將該框部36内部區隔為一高壓氣室4〇與一低壓氣 室42,一喷氣口 44,係環形之細縫,延伸於該框部 36 —側並連通高壓氣室40與低壓氣室42,該高壓氣 室40係利用一輸送管46連通熱交換裝置丨】,該低壓 氣室42係利用一輸送管48連通低壓空氣產生單元 該第一回風口 15,設置於建築物室内並利用—輸 送管50連通該熱交換裝置u與輔助熱交換空調裝】 12,用以可供建築物室内空氣流入該熱交換裝置J與 辅助熱交換空調裝置12。 〃 該弟 ’設置於建築物室外並利用一; 送管52連通該熱交換裝置n,用以可供建築-空氣流入該熱交換裝置丨丨。 1 該二環境偵測裴置1 7、] 8,係㈢知可感測環境4 201239285 乾、溼球溫度、溼度、氣壓或二氧化碳濃度等環境狀 態之感測器,分別設置於建築物室内、外並連接熱交 換裝置11與輔助熱交換空調裝置12,用以可同步感 測建築物室内、外環境之狀態。 此外’更包含有—控制單元19,電連接各該熱交 換裝置U、輔助熱交換空調裝置12、低壓空氣產生單 兀13與ί衣i兄偵測裝置17、18 ’用以可控制各該熱交 換裝置11、辅助熱交換空調裝置12、低壓空氣產生單 =與環境偵測裝置17、18之運作狀態,係可利用 電子凡件或控制晶片等電子裝置配置、 成。 藉^本發明該空調之調熱系統Μ其作動方式及 特色、功效如下: 執交=制單元19可自動選擇熱交換裝置11或輔助 熱乂換空調裝置12運 年用助 式提供人體最適合之室轉内節能運轉模 如無:内、外環境接近人體舒適狀態時“列 形),該控制=:、:度與溼度過高或過低之情 風口 W丨進室外二熱交換裝置11利用第二回 可將水霧化而-人工乳並輪运至室内’該霧化器24並 空間中空氣ΓΓί於空氣内’藉由霧化水氣吸取室内 維持室内環hf、’使空間之空氣自然進行熱交換, 見f適狀態’此時’該輔助熱交換空調 8 201239285 裝置〗2運轉並未運轉。 右建築物至内之環境變化 時(例如溫度或溼度過 肢不舒適之狀態 輔助熱交換空調裂置)、則该控制單元19可驅動 經由該低愿氣室42自嗤°低厘^氣之空調氣體 Ψ夕自嘴氣口 44噴出’該喷氣口 44嗆 出之空氣可產生帶動環型 赁…4賀 可自動混溫、達到低 則工矾流動’進而 之溫度或澄度,_ ^ ^ ^效果’俾降低室内環境 “ 周整室内之環境狀態。 而右至内%楗之二氧化碳濃 19即會再駆動熱交換裝置11以引進室外4:疋 至室内,藉以降低室 ;進至外工乳並輸送 至門%纟兄之二氧化碳濃度。 據此’本發明該調熱系統1〇可視建 環境狀態之差昱,自叙遭视0 ^ 外 ,、自動擇攻低能耗之節能模式使嗲 …父換裝置11或輔助熱交換空調裝置12運轉,進: 提供人體最適合之室内養生環境,甚具自然、節;咸 廢之環保效益。 即月匕減 由上’本發明更提供—空調之調熱方法,係利用 該二環境摘測裝置1 7、1 8该測建築物室内 '外環境狀 感之變化’當建築物室内之環境變化至對人體不舒適 之狀態時’可利用該第二回風口 16引進室外空氣於熱 交換裝置11進行熱交換再輸送至室内,配合該輔㈣ 父換二δ周裝置1 2輸出之空調空氣,調整室内之環境狀 態。 9 201239285 “上所述’本發明所提供空調之調熱系統與方 法’其可透過室内、外環户仙能★蝴儿γ 、曲 ^卜衣土兄狀態之交化(如二氧化碳 =供Γ、溼度變化),自動選擇最低祕之運轉模式 ”體最適合之室内養生環境,甚具自狹、節能 環保效益’相較於習知冷氣、空調系統,本發 八:Ζ更符合自然空調之效益;緣是,本發明確實符 合發明專利之要件,爰依法提出t請。 貫付 【圖式簡單說明】 第-圖係本發明一較佳實施例之系統圖。 第-圖係本發明—較佳實施例中供風單元之示意 :二圖係本發明一較佳實施例中供風單元之部分 201239285 裝置12運轉並未運轉。 右建築物至内之環境變化至對人 時(例如溫度或溼声^、 不舒適之狀態 _ S度過向),則該控制單元】9研 輔助熱交換空調穿罟 可驅動 门忒置12,使混合低壓空窮 經由該低壓氣室C 6 礼之二凋氣體 扎至42自噴氣口 44噴出,爷喑友 出之空氣可產生帶動 、D貰軋口 44喷 生王f動%型框部22内側 可自動混溫、達到低、、θ 巩冰動,進而 之溫度或溼度,難效果’俾降低室内環境 又稭以调整室内之環境狀態。 而若室内環境之二氧化碳濃度過高, 19即會再驅動熱交 /工制早元 至官内Μ i 11 ^進室外空氣並輸送 至至内,猎以降低室 上御达 至内兄之二氧化碳濃度。 據此’本發明該調埶 if i- ^ ^ …系、·先10可視建築物室内、外 % 大悲之差異,自動 π外 熱父換裝置11哎辅肋勃a以 模式使该 及補助熱父換空調裝置 提供人體最適合之衣直u運轉,進而 之至内養生環境,甚具自秋、節处访 廢之環保效益。 、、即旎減 由上,本發明更提供一 外—用之5周熱方法’係利用 忒一裱燒偵测裝置〗7、〗8 J用 能夕作儿, 貞J建築物室内、外環琦肤 恐之變化’當建築物室内之I兄狀 之狀能日卑, '"兄史化至對人體不舒適 之狀恶時,可利用該第二回風广 交換裝置U進行熱交換 外工氣於熱 交換空調裝置帽之空===該輔助熱 態。 二虱,调整至内之環境狀 201239285 :上所述,本發明所提供空調之調熱系統斑方 法、、可透過室内、外環境狀態之變化(如二氧 濃度及溫、溼度蠻仆ώ & 半u匕石反 度艾化),自動選擇最低能耗之運 以k供人體最適合之室内春 ^ 、工 主鬥養生環境,甚具自然、銘At 減廢之環保效益’相較於 月匕 邳毕乂於I知冷氣、空調系統, 明顯然更符合自鈇★纲夕4^ 本發 ^ , 、工凋之效益;緣是,本發明確實# 合發明專利之要件1依法提出中請。 【圖式簡單說明】 第圖係本發明一較佳實施例之系統圖。 第二圖係本發明一較佳實施例中供風單元之 圖。 不思 第一圖係本發明一較佳實施例中供風單元之八 剖視圖。 σ刀 201239285 【主要元件符號說明】 調熱系統10 熱交換裝置11 控制單元1 9 霧化器24 輸送管30 框部3 6 低墨氣室4 2 輸送管48 輔助熱交換空調裝置12低壓空氣產生單元13 供風單元14 第一回風口 15 第二回風口 16 環境偵測裝置1 7、18 高壓空氣產生單元22 馬達26 馬達32 隔板38 喷氣口 44 輸送管50 風扇2 8 風扇34 高壓氣室40 輸送管46 輸送管52201239285 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to the field of air conditioning technology in the application of ^\ arrest·chain + right-close... The state selects the lowest energy operation mode... According to: A work ° ° thermostat system and method 0 [previous technology] According to 'for the health and comfort of the living environment, there is the generation of air-conditioning equipment' Thanks to progress, over the years, there have been many technical journals, papers and patents on air-conditioning equipment. It is not a detailed description here. It is already a mature technical field, which makes modern humans enjoy a comfortable and comfortable living environment. However, human activities continue to cause global warming, which makes the earth's climate increasingly extreme, causing various climate disasters to occur. Therefore, in order to save human beings' survival and development, it is imperative to prevent the global warming from energy saving and waste reduction. In particular, air-conditioning equipment must consume a lot of energy when removing building heat, and will discharge waste heat and carbon dioxide generated by heat and energy conversion into the air, which is one of the main factors that cause urban heat island effect. Obviously for the sustainable development of the earth, the energy conversion in the building must make a technical breakthrough in the direction of more energy saving and waste reduction. Secondly, the conventional air conditioning systems are all active heat exchange air conditioning systems, that is, to detect changes in the indoor environmental conditions (such as temperature changes), 4 201239285 to actively exchange heat, generate indoor air conditioning effects, without detecting A heat exchange system that measures the difference and change of indoor and outdoor environmental conditions and then introduces outdoor air for energy conversion. Therefore, the present inventors have developed the present invention based on the experience of continuously developing natural air conditioning technology for many years. SUMMARY OF THE INVENTION The main object of the present invention is to provide a heat regulation system and method for an air conditioner, which can automatically select a minimum energy consumption operation mode through changes in indoor and outdoor environmental conditions (such as carbon dioxide concentration and temperature and humidity changes). In order to provide the most suitable indoor health environment for the human body, it is very natural, energy-saving and waste-reducing environmental benefits. Therefore, in order to achieve the foregoing object, the present invention provides a heat regulation system for an air conditioner, comprising a heat exchange device including a high pressure air generating unit for generating high pressure air, and an atomizer for connecting the high pressure air to generate a unit for atomizing water to be mixed in high-pressure air; an auxiliary heat exchange air conditioner for generating air conditioning gas of a predetermined condition; and a low-pressure air generating unit for connecting the auxiliary heat exchange air conditioner for generating a low-pressure air; a supply unit comprising a plurality of air outlets, and a high-pressure air chamber and a low-pressure air chamber communicating with the air outlet, the high-pressure air chamber being connected to a heat exchange device, the low-pressure air chamber being connected to the low-pressure air generating unit a first air return opening, disposed in the room and connected to the heat exchange device and the auxiliary heat exchange air conditioning device for the indoor air of the building to flow into the heat exchange device and the auxiliary heat exchange 201239285 r ^ air conditioning farm; a second a tuyere, disposed outside and connected to the heat exchange device for allowing outdoor air of the building to flow into the heat exchange device; Disposed in the room of a building, and connected to the outer heat exchange person auxiliary heat exchange means and air conditioning means for sensing the sensing chamber buildings, changes in the external environmental conditions. In addition, the present invention further provides a method for regulating the heat of an air conditioner, which mainly controls the change of the indoor and outdoor environmental conditions of the building, and changes the state of the building to the state that is uncomfortable to the human body. At the same time, the air is exchanged to the outside air for heat exchange and then sent to the room, and the air conditioning gas is used to adjust the environmental state of the building. [Embodiment] Hereinafter, the preferred embodiment of the present invention will be described. The detailed description is as follows: First, please refer to the various figures, the air conditioning heat regulation system 10 of the preferred embodiment of the present invention is applied to the air conditioning field, and includes a hot parent changing device 11 and an auxiliary heat exchange air conditioning device. 12. A low-pressure air generating unit 13, a air supply unit 14, a first air return port 15, a second air return port 16, and two environment detecting devices 17, 18. The heat exchange device 11 includes a high-pressure air generating device. The unit 22 and an atomizer 24. The high-pressure air generating unit 22 includes a motor 26 and a fan 28 for driving the fan 28 to generate air pressure. The atomizer 24 is known for ultrasonic vibration. The atomizer or the pressure air atomizing device 'connects the high-pressure air generating unit 22, and uses 6 201239285 to atomize the water and mix it with the high-pressure air to exchange heat with the air. 'The air conditioning equipment that contains components such as heat exchangers, the cold/heat source is supplied by the central ice/hot water main engine or the direct expansion cold/warm air conditioner' to actively generate cold and heat. The detailed structure is not here. The low-pressure air generates the early element 13, and the cough-assisted heat exchange air conditioner 12 is connected by a duct 30, and includes a motor 32 and a fan 34 for driving the fan 34 to generate low-pressure air by the motor 32. The air unit 14' is disposed in the building, and has a ring-shaped hollow frame portion 3 6 '. The frame portion 36 extends internally with a partition plate 3 8 for partitioning the inside of the frame portion 36 into a high-pressure air chamber 4 . And a low pressure gas chamber 42, a gas injection port 44, a ring-shaped slit extending to the side of the frame portion 36 and communicating with the high pressure gas chamber 40 and the low pressure gas chamber 42, the high pressure gas chamber 40 utilizing a delivery tube 46 Connected heat exchange device丨, the low pressure gas The system 42 is connected to the low-pressure air generating unit by a duct 48, and is disposed in the building room and connected to the heat exchange unit u and the auxiliary heat exchange air conditioner unit 12 by using the duct 50 for the building. The indoor air flows into the heat exchange device J and the auxiliary heat exchange air conditioner 12. The younger one is disposed outside the building and utilizes a; the duct 52 communicates with the heat exchange device n for the building-air to flow into the heat. Switching device 1 1 The two environmental detection devices 1 7 , 8 , (3) know the environment 4 4, the sensor temperature of the dry, wet bulb temperature, humidity, air pressure or carbon dioxide concentration, respectively set The heat exchange device 11 and the auxiliary heat exchange air conditioner 12 are connected to the inside and outside of the building to synchronously sense the state of the indoor and outdoor environment of the building. In addition, a control unit 19 is electrically connected to each of the heat exchange unit U, the auxiliary heat exchange air conditioner 12, the low-pressure air generating unit 13 and the ί衣i brother detecting device 17, 18' for controlling each of the The heat exchange device 11, the auxiliary heat exchange air conditioner 12, the low-pressure air generation unit = and the operation state of the environment detecting devices 17, 18 can be configured by using an electronic device such as an electronic component or a control chip. By the invention, the air conditioning heating system has the following modes, features and functions: The handover = system 19 can automatically select the heat exchange device 11 or the auxiliary heat exchange air conditioner 12 to provide the most suitable for the human body. The energy-saving operation mode in the room is as follows: when the internal and external environment is close to the comfortable state of the human body, the "column shape", the control =:, the degree and the humidity are too high or too low, the air inlet W is inserted into the outdoor two heat exchange device 11 Using the second back, the water can be atomized and the artificial milk is transported to the room. 'The atomizer 24 and the air in the space ΓΓ in the air'. The air is sucked into the room to maintain the indoor ring hf, 'to make space The air naturally exchanges heat, see f suitable state 'At this time' the auxiliary heat exchange air conditioner 8 201239285 device〗 2 operation is not running. When the environment changes from the right building to the inside (such as temperature or humidity, the state of the limb is uncomfortable) The heat exchange air conditioner is ruptured, and the control unit 19 can drive the air-conditioning gas from the low-lying air chamber 42 to be ventilated from the mouth 44. The air blown out by the air outlet 44 can generate the air. Ring type rent...4 heke Dynamic mix temperature reaches the low work flow alum 'Further degrees of temperature or clear, the effect of ^ _ ^ ^' serve to reduce the indoor environment, "the entire interior circumference of the environmental conditions. The right to the inside of the carbon dioxide concentration 19 will then ignite the heat exchange device 11 to introduce the outdoor 4: 至 to the room, thereby reducing the chamber; entering the external work milk and transporting the carbon dioxide concentration to the door. According to the present invention, the temperature adjustment system of the present invention is visually different from the state of the environment, and the self-reporting is regarded as 0^, and the energy-saving mode of automatically selecting the low-energy consumption causes the father-changing device 11 or the auxiliary heat-exchange air-conditioning device 12 to operate. , Into: Provide the most suitable indoor health environment for the human body, which is very natural and economical; the environmental benefits of salty waste. The monthly reduction is provided by the above-mentioned invention. The method of adjusting the heat of the air conditioner is to use the two environment extracting devices 17 and 18 to measure the change of the external environment of the building. When changing to a state in which the human body is uncomfortable, 'the second air return port 16 can be used to introduce outdoor air to the heat exchange device 11 for heat exchange and then to the room, and the auxiliary (4) father replaces the second δ-circle device 12 to output the air-conditioned air. Adjust the indoor environment of the room. 9 201239285 "The above-mentioned "heat-conditioning system and method for air-conditioning provided by the present invention" can be communicated through indoor and outdoor rings, such as the genius, the gamma, and the mutated state of the brothers (such as carbon dioxide = supply) , humidity change), automatically select the lowest secret mode of operation "the most suitable indoor health environment, very narrow, energy-saving and environmentally friendly benefits" compared to the conventional air-conditioning, air-conditioning system, this is eight: Ζ more in line with natural air conditioning Benefits; the reason is that the invention does meet the requirements of the invention patent, and asks according to law.付付 [Simplified illustration of the drawings] The first figure is a system diagram of a preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS The present invention is a schematic representation of a supply unit in a preferred embodiment: Figure 2 is a portion of a supply unit in a preferred embodiment of the invention 201239285 Apparatus 12 is not operational. When the environment of the right building changes to the person (such as temperature or wet sound ^, uncomfortable state _ S degree over), then the control unit] 9 research auxiliary heat exchange air conditioning through the drive can drive the door set 12 The mixed low-pressure air is exhausted through the low-pressure air chamber C 6 and the gas is squirted to 42 from the air vent 44, and the air from the buddy can be driven, and the D-rolling 44 is sprayed. The inside of the part 22 can be automatically mixed, low, θ, and ice, and then the temperature or humidity, it is difficult to 'reduced the indoor environment and straw to adjust the indoor environment. If the indoor environment's carbon dioxide concentration is too high, then 19 will drive the heat exchange / work system early Yuan to the official Μ i 11 ^ into the outdoor air and transport to the inside, hunting to reduce the carbon dioxide in the room to the Royal Brother concentration. According to the present invention, the 埶 if i- ^ ^ ... system, the first 10 visible building indoor and outdoor % big sorrow difference, automatic π external heat father replacement device 11 哎 肋 勃 a a mode to make the subsidy heat The father changed the air-conditioning device to provide the most suitable clothing for the human body to operate directly, and then to the internal health environment, which has environmental benefits from the autumn and festival visits. The present invention provides an external-use 5-week thermal method 'Using a sputum-burning detection device〗 7, 〗 8 J can use energy, 贞J building indoor and outdoor The change of the ring-like skin fears 'When the shape of the I brother in the building room can be humiliated, the '" brother can be used to heat the second wind-sweeping device U. Exchanging the external work gas in the air of the heat exchange air conditioner device cap === the auxiliary hot state. Second, adjust the environment to the environment 201239285: As described above, the air conditioning system of the air conditioning system provided by the present invention, can change the indoor and external environmental conditions (such as the concentration of oxygen and temperature, humidity and servant &; semi-u 匕 反 反 反 反, automatic selection of the lowest energy consumption to k for the human body is the most suitable indoor spring ^, the main fighting environment, the natural, Ming At waste environmental benefits The moon is filled with I know the air-conditioning system, and the air-conditioning system is obviously more in line with the self-satisfaction please. BRIEF DESCRIPTION OF THE DRAWINGS The drawings are system diagrams of a preferred embodiment of the invention. The second drawing is a diagram of a supply unit in a preferred embodiment of the invention. The first figure is an eight-sectional view of the air supply unit in a preferred embodiment of the present invention. σ刀201239285 [Main component symbol description] Heating system 10 Heat exchange device 11 Control unit 1 9 Atomizer 24 Delivery pipe 30 Frame 3 6 Low ink chamber 4 2 Delivery pipe 48 Auxiliary heat exchange air conditioner 12 Low-pressure air generation Unit 13 Air supply unit 14 First air return port 15 Second air return port 16 Environmental detection device 1 7, 18 High pressure air generating unit 22 Motor 26 Motor 32 Partition 38 Air outlet 44 Delivery pipe 50 Fan 2 8 Fan 34 High pressure air chamber 40 delivery tube 46 delivery tube 52