TWI749411B - Fluid temperature control device - Google Patents

Abstract

本發明旨在揭露一種流體溫控裝置，其包含一爐體、一流體管路、複數蓄熱體、一燃燒器以及一氣體控制裝置。經由燃燒器加熱爐體，使設置於爐體內部之蓄熱體蓄熱並且傳導熱能至流體管路，由流體管路輸出一加熱液體。又，蓄熱體更產生一加熱氣體而傳輸至氣體控制裝置，經氣體控制裝置轉換加熱氣體而輸出一冷氣。The present invention aims to disclose a fluid temperature control device, which includes a furnace body, a fluid pipeline, a plurality of heat storage bodies, a burner, and a gas control device. The furnace body is heated through the burner, so that the heat storage body arranged inside the furnace body accumulates heat and conducts heat energy to the fluid pipeline, and a heating liquid is output from the fluid pipeline. In addition, the heat storage body further generates a heating gas which is transmitted to the gas control device, and the heating gas is converted by the gas control device to output a cold gas.

Description

流體溫控裝置Fluid temperature control device

本發明係有關於一種控制裝置，其尤指一種運用於流體之溫度控制裝置。The present invention relates to a control device, and particularly refers to a temperature control device applied to fluids.

化石燃料隸屬於耗竭性能源，在現階段而言，化石燃料已經隨著人類社會之發展需求，而進入供不應求之能源危機狀態。此外，在取得化石燃料過程中容易對環境生態造成破壞，而化石燃料在工業運用過程中亦需要額外處理所產生之汙染，以避免過度破壞自然環境，如溫室效應即為一嚴重破壞地球環境之問題。因此，在現今環保意識抬頭，加上化石燃料於獲取、運用所面臨之該等待改進缺失情況下，如何取得再生能源，或者是減少化石燃料使用量已成為全球重要的課題之一。Fossil fuels belong to exhaustive energy sources. At this stage, fossil fuels have entered a state of energy crisis in short supply with the development needs of human society. In addition, the process of obtaining fossil fuels is easy to cause damage to the environment and ecology, and the pollution generated by the process of industrial use of fossil fuels also requires additional treatment to avoid excessive damage to the natural environment. For example, the greenhouse effect is a serious damage to the global environment. problem. Therefore, with the rising awareness of environmental protection and the lack of waiting for improvement in the acquisition and use of fossil fuels, how to obtain renewable energy or reduce the use of fossil fuels has become one of the most important issues in the world.

再者，習知化石燃料進行燃燒後，僅能將產生之廢氣排放至外部環境中，而沒有針對廢氣進一步處理再利用之考量。故，若能將廢氣再處理，除了大幅減少危害地球環境造成汙染之外，亦可將廢氣再利用產生之能源有效運用於其他領域，而可以達成完全使用化石燃料之效用。Furthermore, after conventional fossil fuels are burned, they can only discharge the generated exhaust gas into the external environment, and there is no consideration for the further treatment and reuse of the exhaust gas. Therefore, if the waste gas can be reprocessed, in addition to greatly reducing the pollution that harms the global environment, the energy generated by the waste gas reuse can also be effectively used in other fields, and the effect of completely using fossil fuels can be achieved.

職是之故，本發明人鑑於上述所衍生之問題進行改良，茲思及發明改良之意念著手研發解決方案，冀望能開發出一種可以減少使用化石燃料即可有效加熱液體，並且將化石燃料產生之廢氣再處理之結構設計，遂經多時之構思而有本發明之流體溫控裝置產生，以服務社會大眾以及促進此業之發展。For this reason, the inventors have made improvements in view of the above-derived problems. I think and invent improved ideas to develop solutions, hoping to develop a solution that can reduce the use of fossil fuels to effectively heat liquids and generate fossil fuels. The structural design of exhaust gas reprocessing was developed after a long time of thinking and the fluid temperature control device of the present invention was produced to serve the public and promote the development of this industry.

本發明之一目的係提供一種流體溫控裝置，其將蓄熱體設置於第一容置空間之中進行流體熱傳導加熱，以取代傳統燃燒器直接對流體加熱方式，而更為縮減加熱時間、減少加熱過程所排放之汙染，以及減少加熱燃料之消耗。One object of the present invention is to provide a fluid temperature control device, which arranges the heat storage body in the first accommodating space to heat the fluid by heat conduction, instead of the traditional burner to directly heat the fluid, and further shorten the heating time and reduce Pollution from the heating process and reduction of heating fuel consumption.

本發明之一目的係提供一種流體溫控裝置，其藉由蓄熱體經加熱所排放之氣體進一步透過氣體控制裝置處理，可以有效再利用加熱氣體生成冷氣作為額外應用。An object of the present invention is to provide a fluid temperature control device, which can effectively reuse the heated gas to generate cold air as an additional application by further passing the gas discharged from the heat storage body through the gas control device for processing.

為了達成上述所指稱之各目的與功效，本發明揭露一種流體溫控裝置，其包含: 一爐體，包含一第一容置空間以及一第二容置空間，該第一容置空間設置於該爐體之一側，該第二容置空間設置於該爐體之另一側； 一流體管路，環設置於該第一容置空間外部； 複數蓄熱體，設置於該第一容置空間； 一燃燒器，設置於該第二容置空間；以及 一氣體控制裝置，設置於該爐體之一側； 其中，該燃燒器加熱該第一容置空間，使該些蓄熱體蓄熱並且傳導熱能至該流體管路，由該流體管路輸出一加熱液體，該些蓄熱體更產生一加熱氣體而傳輸至該氣體控制裝置，該氣體控制裝置轉換該加熱氣體而輸出一冷氣。In order to achieve the aforementioned objectives and effects, the present invention discloses a fluid temperature control device, which includes: A furnace body including a first accommodating space and a second accommodating space, the first accommodating space is arranged on one side of the furnace body, and the second accommodating space is arranged on the other side of the furnace body; A fluid pipeline, the ring is arranged outside the first accommodating space; A plurality of heat storage bodies are arranged in the first accommodating space; A burner arranged in the second accommodating space; and A gas control device arranged on one side of the furnace body; Wherein, the burner heats the first accommodating space, so that the heat accumulators store heat and transfer heat energy to the fluid pipeline, and a heating liquid is output from the fluid pipeline, and the heat accumulators further generate a heating gas to be transmitted to The gas control device converts the heating gas to output a cold gas.

另外，本發明揭露一種流體溫控裝置，其包含: 一爐體，包含一第一容置空間、一第二容置空間以及一開口，該第一容置空間設置於該爐體之一側，該第二容置空間設置於該爐體之另一側，該開口設置於該第一容置空間以及該第二容置空間之間，而連通該第一容置空間以及該第二容置空間； 一流體管路，環設置於該第一容置空間外部； 一蓄熱體，設置於該第一容置空間，並且包含一缺口，該缺口對應該開口； 一燃燒器，設置於該第二容置空間；以及 一氣體控制裝置，設置於該爐體之一側； 其中，該燃燒器經該開口於該缺口加熱該蓄熱體，使該蓄熱體蓄熱並且傳導熱能至該流體管路，由該流體管路輸出一加熱液體，該蓄熱體更產生一加熱氣體而傳輸至該氣體控制裝置，該氣體控制裝置轉換該加熱氣體而輸出一冷氣。In addition, the present invention discloses a fluid temperature control device, which includes: A furnace body includes a first accommodating space, a second accommodating space, and an opening, the first accommodating space is arranged on one side of the furnace body, and the second accommodating space is arranged on the other side of the furnace body On one side, the opening is arranged between the first accommodating space and the second accommodating space, and communicates with the first accommodating space and the second accommodating space; A fluid pipeline, the ring is arranged outside the first accommodating space; A heat storage body is arranged in the first accommodating space and includes a notch corresponding to the opening; A burner arranged in the second accommodating space; and A gas control device arranged on one side of the furnace body; Wherein, the burner heats the heat storage body in the gap through the opening, so that the heat storage body stores heat and conducts heat energy to the fluid pipeline, and a heating liquid is output from the fluid pipeline, and the heat storage body further generates a heating gas for transmission To the gas control device, the gas control device converts the heating gas to output a cold gas.

為使    貴審查委員對本發明之特徵及所達成之功效有更進一步之瞭解與認識，僅佐以實施例及配合詳細之說明，說明如後:In order to enable your reviewer to have a better understanding and understanding of the features of the present invention and the effects achieved, only the examples and detailed descriptions are provided, and the description is as follows:

請參閱第一圖，其為本發明之流體溫控裝置之第一實施例的結構示意圖一。如圖所示，本發明之流體溫控裝置1包含:一爐體10，包含一第一容置空間100以及一第二容置空間102，第一容置空間100設置於爐體10之一側，第二容置空間102設置於爐體10之另一側；一流體管路12，環設置於第一容置空間100外部；複數蓄熱體14，設置於第一容置空間100；一燃燒器16，設置於第二容置空間102；以及一氣體控制裝置18，設置於爐體10之一側；其中，燃燒器16加熱第一容置空間100，使該些蓄熱體14蓄熱並且傳導熱能至流體管路12，由流體管路12輸出一加熱液體120，該些蓄熱體14更產生一加熱氣體140而傳輸至氣體控制裝置18，氣體控制裝置18轉換加熱氣體140而輸出一冷氣180。Please refer to the first figure, which is a structural schematic diagram 1 of the first embodiment of the fluid temperature control device of the present invention. As shown in the figure, the fluid temperature control device 1 of the present invention includes: a furnace body 10, including a first accommodating space 100 and a second accommodating space 102, the first accommodating space 100 is disposed in one of the furnace bodies 10 On the other hand, the second accommodating space 102 is arranged on the other side of the furnace body 10; a fluid pipe 12 is arranged outside the first accommodating space 100; the plurality of heat storage bodies 14 are arranged in the first accommodating space 100; The burner 16 is arranged in the second accommodating space 102; and a gas control device 18 is arranged on one side of the furnace body 10; wherein, the burner 16 heats the first accommodating space 100, so that the heat storage bodies 14 store heat and Conduct heat energy to the fluid pipe 12, and output a heating liquid 120 from the fluid pipe 12. The heat storage bodies 14 further generate a heating gas 140 and transmit it to the gas control device 18. The gas control device 18 converts the heating gas 140 to output a cold gas 180.

請一併參閱第二圖，其為本發明之流體溫控裝置之第一實施例的結構示意圖二。如圖所示，本發明之流體溫控裝置1更包含一基座20以及至少一儲水槽22。爐體10設置於基座20之內部一側，氣體控制裝置18設置於基座20之內部另一側。儲水槽22設置於基座20之一側，並且連通流體管路12儲存加熱液體120。Please also refer to the second figure, which is the second structural diagram of the first embodiment of the fluid temperature control device of the present invention. As shown in the figure, the fluid temperature control device 1 of the present invention further includes a base 20 and at least one water storage tank 22. The furnace body 10 is arranged on one side of the inside of the base 20, and the gas control device 18 is arranged on the other side of the inside of the base 20. The water storage tank 22 is arranged on one side of the base 20 and is connected to the fluid pipeline 12 to store the heating liquid 120.

上述之蓄熱體14之材質為活性氧化鋁、銅、鐵或上述之任一組合所組成之群組之一者等具有蓄熱功能之礦石。The above-mentioned heat storage body 14 is made of activated alumina, copper, iron, or any one of the above-mentioned combination of ore with a heat storage function, etc.

上述之燃燒器16為採用天然氣、有機化合物(如甲醇)等作為燃燒材料之燃燒設備(如瓦斯爐)皆可為之，並不在此限。The above-mentioned burner 16 can be a combustion device (such as a gas stove) that uses natural gas, organic compounds (such as methanol), etc. as combustion materials, and it is not limited thereto.

上述之氣體控制裝置18可以為蒸發器、冷凝器、壓縮機和節流閥所構成之製冷系統(如冷氣機)。其目的為將加熱氣體140經過蒸發器、冷凝器、壓縮機和節流閥分別進行吸收加熱氣體140之熱量，再壓縮、汽化加熱氣體140後形成冷氣180，以供其他設備/環境銜接使用。The above-mentioned gas control device 18 may be a refrigeration system (such as an air conditioner) composed of an evaporator, a condenser, a compressor, and a throttle valve. The purpose is to pass the heating gas 140 through the evaporator, condenser, compressor and throttle valve to absorb the heat of the heating gas 140, and then compress and vaporize the heating gas 140 to form cold air 180 for use in connection with other equipment/environment.

請參閱第三圖至第五圖，其為本發明之流體溫控裝置之第一實施例的作動示意圖一至三。如第三圖所示，首先燃燒器16於第二容置空間102啟動，而位於第一容置空間100下方進行燃燒加熱作業。此時設置於第一容置空間100之蓄熱體14經加熱後，於第一容置空間100產生熱量，同時由於流體管路12環設於第一容置空間100外部與之接觸，因此可以利用第一容置空間100傳導蓄熱體14產生之熱量至流體管路12，以將流體管路12內部所輸送之液體(未圖示)加熱形成加熱液體120。Please refer to FIGS. 3 to 5, which are schematic diagrams 1 to 3 of the operation of the first embodiment of the fluid temperature control device of the present invention. As shown in the third figure, first, the burner 16 is activated in the second accommodating space 102 and is located below the first accommodating space 100 to perform combustion and heating operations. At this time, after the heat storage body 14 arranged in the first accommodating space 100 is heated, heat is generated in the first accommodating space 100. At the same time, since the fluid pipe 12 is arranged around the first accommodating space 100 to contact it, it can The first accommodating space 100 is used to transfer the heat generated by the heat storage body 14 to the fluid pipe 12 to heat the liquid (not shown) conveyed in the fluid pipe 12 to form a heating liquid 120.

接續如第四圖所示，設置於流體管路12之液體經接觸傳導熱能生成加熱液體120後，即可將加熱液體120輸送至儲水桶22儲存。或者是現階段若沒有再進一步處理運用之需求，亦可置放於流體管路12中。爾後，如第五圖所示，設置於第一容置空間100之蓄熱體14經加熱後亦會產生加熱氣體140，此時可藉由與第一容置空間100連通之氣體控制裝置18接收加熱氣體140進一步利用。當氣體控制裝置18取得加熱氣體140後，即可依據其本身之構造將加熱氣體140進行處理而產生冷氣180。氣體控制裝置18亦可與其他設備連接，以將生成之冷氣180傳輸至其他設備，或者是傳送至一室內空間作為空調使用。As shown in the fourth figure, after the liquid arranged in the fluid pipeline 12 contacts and conducts heat energy to generate the heating liquid 120, the heating liquid 120 can be transported to the water storage bucket 22 for storage. Or, if there is no need for further processing and application at this stage, it can also be placed in the fluid pipeline 12. Thereafter, as shown in FIG. 5, the heat storage body 14 disposed in the first accommodating space 100 will also generate heating gas 140 after being heated, which can be received by the gas control device 18 connected to the first accommodating space 100 at this time The heating gas 140 is further utilized. After the gas control device 18 obtains the heating gas 140, it can process the heating gas 140 according to its own structure to generate cold gas 180. The gas control device 18 can also be connected with other equipment to transmit the generated cold air 180 to other equipment, or to an indoor space for use as an air conditioner.

於此，本發明之流體溫控裝置1作動時具有下列優點: 1.蓄熱體14之蓄溫礦石材質具有快速蓄熱之功效，因此利用燃燒器16針對第一容置空間100之蓄熱體14加熱，有別於傳統利用燃燒器16直接對預加熱之流體隔水燃燒加熱方式，而可以更為快速縮減加熱時間。 2.由於縮減加熱時間，因此亦進一步減少加熱所排放之汙染，加熱燃料之消耗，而以更為節能減排之方式針對流體之溫度進行控制。 3.藉由蓄熱體14經加熱所排放之氣體(加熱氣體140)進一步透過氣體控制裝置18處理，可以有效再利用加熱氣體140生成冷氣180額外應用，藉此增進額外功效。Here, the fluid temperature control device 1 of the present invention has the following advantages when operating: 1. The heat storage ore material of the heat storage body 14 has the effect of rapid heat storage. Therefore, the burner 16 is used to heat the heat storage body 14 in the first housing space 100, which is different from the traditional use of the burner 16 to directly prevent water from the fluid that is preheated. Combustion heating method can shorten the heating time more quickly. 2. As the heating time is reduced, the pollution emitted by heating and the consumption of heating fuel are further reduced, and the temperature of the fluid is controlled in a more energy-saving and emission-reducing way. 3. As the gas (heated gas 140) discharged from the heat storage body 14 is further processed by the gas control device 18, the heated gas 140 can be effectively reused to generate cold air 180 for additional applications, thereby enhancing additional functions.

請參閱第六圖，其為本發明之流體溫控裝置之第二實施例的結構示意圖。如圖所示，本發明之流體溫控裝置1，其第二實施例與第一實施例之差異在於更包含一處理器24以及至少一感測元件26，處理器24設置於基座20之另一側，感測元件26電性連接處理器24並且設置於第一容置空間100，經偵測第一容置空間100之溫度而產生一感測數據260，處理器24依據感測數據260啟閉燃燒器16；其中，處理器24可以為一電腦，感測元件26可以為一溫度感測器。Please refer to Figure 6, which is a schematic structural view of the second embodiment of the fluid temperature control device of the present invention. As shown in the figure, the difference between the second embodiment of the fluid temperature control device 1 of the present invention and the first embodiment is that it further includes a processor 24 and at least one sensing element 26. The processor 24 is disposed on the base 20. On the other side, the sensing element 26 is electrically connected to the processor 24 and is disposed in the first accommodating space 100. The temperature of the first accommodating space 100 is detected to generate a sensing data 260, and the processor 24 is based on the sensing data 260 Open and close the burner 16; wherein, the processor 24 can be a computer, and the sensing element 26 can be a temperature sensor.

本發明第二實施例之作動方式同於第一實施例，因此遂針對其中之差異進行說明。感測元件26設置於第一容置空間100之目的，係用以偵測第一容置空間100內之溫度，因此於運作期間將一直傳送新的感測數據260至處理器24。處理器24針對第一容置空間100內之加熱溫度有儲存一標準值，當處理器24接收感測數據260並且判斷第一容置空間100內的溫度已達到標準值(或者是標準值以上)，即可將燃燒器16先行關閉避免過度加熱。同理，當處理器24接收感測數據260並且判斷第一容置空間100內的溫度低於標準值，或者是不具有將流體管路12之加熱液體120加熱至預設值時，即可再次啟動燃燒器16對第一容置空間100進行加熱，於此循環運作。The operation method of the second embodiment of the present invention is the same as that of the first embodiment, so the difference is explained. The purpose of the sensing element 26 disposed in the first accommodating space 100 is to detect the temperature in the first accommodating space 100, so that new sensing data 260 will be sent to the processor 24 during operation. The processor 24 stores a standard value for the heating temperature in the first accommodating space 100. When the processor 24 receives the sensing data 260 and determines that the temperature in the first accommodating space 100 has reached the standard value (or is above the standard value) ), the burner 16 can be turned off first to avoid overheating. Similarly, when the processor 24 receives the sensing data 260 and determines that the temperature in the first accommodating space 100 is lower than the standard value, or the heating liquid 120 of the fluid pipeline 12 is not heated to the preset value, it is sufficient The burner 16 is restarted to heat the first accommodating space 100, and the cycle operates here.

請參閱第七圖以及第八圖，其為本發明之流體溫控裝置之第三實施例的結構示意圖一以及結構示意圖二。如圖所示，本發明之流體溫控裝置1包含:一爐體10，包含一第一容置空間100、一第二容置空間102以及一開口104，第一容置空間100設置於爐體10之一側，第二容置空間102設置於爐體10之另一側，開口104設置於第一容置空間100以及第二容置空間104之間，而連通第一容置空間100以及第二容置空間102；一流體管路12，環設置於第一容置空間100外部；一蓄熱體14’，設置於第一容置空間100，並且包含一缺口142’，缺口142’對應開口104；一燃燒器16，設置於第二容置空間102；以及一氣體控制裝置18，設置於爐體10之一側，並且連通第一容置空間100；其中，燃燒器16經開口104於缺口142’加熱蓄熱體14’，使蓄熱體14’蓄熱並且傳導熱能至流體管路12，由流體管路12輸出一加熱液體120，蓄熱體14’更產生一加熱氣體140’而傳輸至氣體控制裝置18，氣體控制裝置18轉換加熱氣體140’而輸出一冷氣180。Please refer to the seventh and eighth figures, which are the first structural schematic diagram and the second structural schematic diagram of the third embodiment of the fluid temperature control device of the present invention. As shown in the figure, the fluid temperature control device 1 of the present invention includes: a furnace body 10, including a first accommodating space 100, a second accommodating space 102 and an opening 104, the first accommodating space 100 is disposed in the furnace On one side of the body 10, the second accommodating space 102 is provided on the other side of the furnace body 10, and the opening 104 is provided between the first accommodating space 100 and the second accommodating space 104, and is connected to the first accommodating space 100 And the second accommodating space 102; a fluid pipeline 12, the ring is arranged outside the first accommodating space 100; a heat storage body 14', arranged in the first accommodating space 100, and includes a gap 142', a gap 142' Corresponding to the opening 104; a burner 16 arranged in the second accommodating space 102; and a gas control device 18 arranged on one side of the furnace body 10 and communicating with the first accommodating space 100; wherein the burner 16 passes through the opening 104 heats the heat storage body 14' in the gap 142', so that the heat storage body 14' stores heat and conducts the heat energy to the fluid pipe 12. The fluid pipe 12 outputs a heating liquid 120, and the heat storage body 14' further generates a heating gas 140' for transmission To the gas control device 18, the gas control device 18 converts the heating gas 140' to output a cold gas 180.

本發明第三實施例之作動方式同於第一實施例，因此遂針對其中之差異進行說明。本發明之流體溫控裝置1之第三實施例與第一實施例之差異，在於第一容置空間100以及第二容置空間102之間開設一開口104，使得燃燒器16對蓄熱體14’進行加熱時，可以經由開口104進入缺口142’之火焰更為靠近蓄熱體14’，以加速蓄熱體14’之加熱作業。此外，蓄熱體14’為了對應開口104而亦開設一缺口142’。以第八圖所示，蓄熱體14’為一中空圓柱體結構，因此缺口142’剛好對應爐體10之開口104，而可供燃燒器16燃燒時，火焰進入開口104、缺口142’進行加熱。於此，第三實施例之蓄熱體14’僅需要設置一個，其結構尺寸可以同於第一容置空間100，或者是略小於第一容置空間100亦可為之，並不限於此。The operation method of the third embodiment of the present invention is the same as that of the first embodiment, so the difference is explained. The difference between the third embodiment of the fluid temperature control device 1 of the present invention and the first embodiment is that an opening 104 is opened between the first accommodating space 100 and the second accommodating space 102, so that the burner 16 faces the heat storage body 14 When heating is performed, the flame that can enter the gap 142 through the opening 104 is closer to the heat storage body 14' to accelerate the heating operation of the heat storage body 14'. In addition, in order to correspond to the opening 104, the heat storage body 14' also has a gap 142'. As shown in the eighth figure, the heat storage body 14' is a hollow cylindrical structure, so the gap 142' just corresponds to the opening 104 of the furnace body 10, and when the burner 16 burns, the flame enters the opening 104 and the gap 142' for heating . Here, only one heat storage body 14' of the third embodiment needs to be provided, and its structural size can be the same as the first accommodating space 100, or slightly smaller than the first accommodating space 100, and it is not limited to this.

請參閱第九圖，其為本發明之流體溫控裝置之第四實施例的結構示意圖。如圖所示，本發明之流體溫控裝置1，其第四實施例與第一實施例之差異在於更包含一熱處理器28，設置於基座20內部以及爐體10之一側，並且包含一第一管路280以及一第二管路282，第一管路280連通氣體控制裝置18，第二管路282連通儲水桶22。Please refer to Figure 9, which is a schematic structural view of the fourth embodiment of the fluid temperature control device of the present invention. As shown in the figure, the difference between the fourth embodiment and the first embodiment of the fluid temperature control device 1 of the present invention is that it further includes a heat processor 28, which is disposed inside the base 20 and one side of the furnace body 10, and includes A first pipeline 280 and a second pipeline 282. The first pipeline 280 communicates with the gas control device 18, and the second pipeline 282 communicates with the water storage bucket 22.

本發明之第四實施例中，氣體控制裝置18未與爐體10之第一容置空間100連通，流體管路12未與儲水桶22連通。而是由爐體10與熱處理器28流通，經流體管路12將加熱液體120輸送至熱處理器28，加熱氣體140亦透過相關管路(未圖示)輸送至熱處理器28，由熱處理器28針對加熱液體120、加熱氣體140進行處理，使通過第一管路280輸送至氣體控制裝置18之加熱氣體140維持一適當溫度，通過第二管路282輸送至儲水桶22之加熱液體120維持一適當溫度。詳言之，輸送至熱處理器28之加熱液體120為藉由於熱處理器28之相關管路移動，而透過管路之熱傳導特性將加熱液體120部分熱能接收並排出至外部環境，此後經調降部分溫度之加熱液體120再自第二管路282輸送至儲水桶22。同理，輸送至熱處理器28之加熱氣體140為藉由於熱處理器28之相關管路移動，而透過管路之熱傳導特性將加熱氣體140部分熱能接收並排出至外部環境，此後經調降部分溫度之加熱氣體140再自第一管路280輸送至氣體控制裝置18。In the fourth embodiment of the present invention, the gas control device 18 is not in communication with the first accommodating space 100 of the furnace body 10, and the fluid pipeline 12 is not in communication with the water storage bucket 22. Instead, the furnace body 10 and the heat processor 28 circulate, the heating liquid 120 is delivered to the heat processor 28 through the fluid pipeline 12, and the heating gas 140 is also delivered to the heat processor 28 through the related pipeline (not shown), and the heat processor 28 The heating liquid 120 and the heating gas 140 are processed so that the heating gas 140 delivered to the gas control device 18 through the first pipeline 280 maintains an appropriate temperature, and the heating fluid 120 delivered to the water storage tank 22 through the second pipeline 282 maintains a proper temperature. Appropriate temperature. In detail, the heating liquid 120 delivered to the heat processor 28 is moved by the related pipes of the heat processor 28, and part of the heat energy of the heating liquid 120 is received and discharged to the external environment through the heat conduction characteristics of the pipes, and then the part is adjusted down. The heated liquid 120 of temperature is transported from the second pipeline 282 to the water storage bucket 22. In the same way, the heating gas 140 delivered to the heat processor 28 is moved by the related pipes of the heat processor 28, and part of the heat energy of the heating gas 140 is received and discharged to the external environment through the heat conduction characteristics of the pipes, after which part of the temperature is lowered The heated gas 140 is then sent from the first pipeline 280 to the gas control device 18.

由於爐體10所傳輸之加熱液體120、加熱氣體140的溫度比較高，因此透過熱處理器28針對加熱氣體140再處理，可以使輸送至氣體控制裝置18之加熱氣體140的溫度為氣體控制裝置18可接收之溫度，而延展氣體控制裝置18之使用壽命。同理，透過熱處理器28針對加熱液體120再處理，可以使輸送至儲水桶22之加熱液體120的溫度為使用者可接收之溫度，而供使用者直接使用存放於儲水桶22之加熱液體120。Since the temperature of the heating liquid 120 and the heating gas 140 transmitted by the furnace body 10 is relatively high, the heating gas 140 is reprocessed by the heat processor 28, so that the temperature of the heating gas 140 delivered to the gas control device 18 can be the same as that of the gas control device 18. Acceptable temperature and extend the service life of the gas control device 18. In the same way, by reprocessing the heating liquid 120 through the heat processor 28, the temperature of the heating liquid 120 delivered to the water storage bucket 22 can be a temperature acceptable to the user, and the user can directly use the heating liquid 120 stored in the water storage bucket 22 .

上揭所描述之該些實施例中，蓄熱體14/14’之表面可以包含複數個孔洞(未圖示)，而依據孔洞之結構設計可以有效提升蓄熱體14/14’之蓄熱效率。此外，蓄熱體14/14’之形狀可以依據第一容置空間100對應設計，或者是可以為六角形、八角形、三角形、正方形、圓形等多角形結構設計，而以複數個、單一個設置於第一容置空間100之中，遂可根據使用者之需求而因應變化。In the embodiments described above, the surface of the heat storage body 14/14' may include a plurality of holes (not shown), and the structural design of the holes can effectively improve the heat storage efficiency of the heat storage body 14/14'. In addition, the shape of the heat storage body 14/14' can be designed according to the corresponding design of the first accommodating space 100, or can be a polygonal structure design such as hexagon, octagon, triangle, square, circle, etc. Set in the first accommodating space 100, it can be changed according to the needs of the user.

1:流體溫控裝置 10:爐體 100:第一容置空間 102:第二容置空間 104:開口 12:流體管路 120:加熱液體 14:蓄熱體 140:加熱氣體 14’:蓄熱體 140’:加熱氣體 142’:缺口 16:燃燒器 18:氣體控制裝置 180:冷氣 20:基座 22:儲水桶 24:處理器 26:感測元件 28:熱處理器 280:第一管路 282:第二管路1: Fluid temperature control device 10: Furnace 100: The first housing space 102: Second housing space 104: open 12: Fluid line 120: heating liquid 14: Heat storage body 140: Heating gas 14’: Heat storage body 140’: Heating gas 142’: gap 16: burner 18: Gas control device 180: air conditioner 20: Pedestal 22: water storage bucket 24: processor 26: Sensing element 28: thermal processor 280: First pipeline 282: second pipeline

第一圖:其為本發明之流體溫控裝置之第一實施例的結構示意圖一； 第二圖:其為本發明之流體溫控裝置之第一實施例的結構示意圖二； 第三圖:其為本發明之流體溫控裝置之第一實施例的作動示意圖一； 第四圖:其為本發明之流體溫控裝置之第一實施例的作動示意圖二； 第五圖:其為本發明之流體溫控裝置之第一實施例的作動示意圖三； 第六圖:其為本發明之流體溫控裝置之第二實施例的結構示意圖； 第七圖:其為本發明之流體溫控裝置之第三實施例的結構示意圖一； 第八圖:其為本發明之流體溫控裝置之第三實施例的結構示意圖二；以及 第九圖:其為本發明之流體溫控裝置之第四實施例的結構示意圖。The first figure: It is a schematic structural diagram of the first embodiment of the fluid temperature control device of the present invention; Figure 2: It is the second structural diagram of the first embodiment of the fluid temperature control device of the present invention; Figure 3: It is a schematic diagram of the operation of the first embodiment of the fluid temperature control device of the present invention; The fourth figure: It is the second schematic diagram of the operation of the first embodiment of the fluid temperature control device of the present invention; Figure 5: It is the third schematic diagram of the operation of the first embodiment of the fluid temperature control device of the present invention; Figure 6: It is a schematic structural view of the second embodiment of the fluid temperature control device of the present invention; Figure 7: It is the first structural schematic diagram of the third embodiment of the fluid temperature control device of the present invention; Figure 8: It is the second structural schematic diagram of the third embodiment of the fluid temperature control device of the present invention; and Figure 9: It is a schematic structural view of the fourth embodiment of the fluid temperature control device of the present invention.

1:流體溫控裝置1: Fluid temperature control device

10:爐體10: Furnace

100:第一容置空間100: The first housing space

102:第二容置空間102: Second housing space

12:流體管路12: Fluid line

120:加熱液體120: heating liquid

14:蓄熱體14: Heat storage body

140:加熱氣體140: Heating gas

16:燃燒器16: burner

18:氣體控制裝置18: Gas control device

180:冷氣180: air conditioner

Claims (8)

一種流體溫控裝置，其包含：一爐體，包含一第一容置空間以及一第二容置空間，該第一容置空間設置於該爐體之一側，該第二容置空間設置於該爐體之另一側；一流體管路，環設置於該第一容置空間外部；複數蓄熱體，設置於該第一容置空間；一燃燒器，設置於該第二容置空間；以及一冷氣機，設置於該爐體之一側，並且連通該第一容置空間；其中，該燃燒器加熱該第一容置空間，使該些蓄熱體蓄熱並且傳導熱能至該流體管路，由該流體管路輸出一加熱液體，該些蓄熱體更產生一加熱氣體而傳輸至該冷氣機，該冷氣機接收該加熱氣體並且經轉換產生一冷氣。 A fluid temperature control device, comprising: a furnace body, including a first accommodating space and a second accommodating space, the first accommodating space is arranged on one side of the furnace, and the second accommodating space is arranged On the other side of the furnace body; a fluid pipeline, the ring is arranged outside the first accommodating space; a plurality of heat accumulators are arranged in the first accommodating space; a burner is arranged in the second accommodating space And an air conditioner, arranged on one side of the furnace body and connected to the first accommodating space; wherein, the burner heats the first accommodating space, so that the heat accumulators store heat and conduct thermal energy to the fluid pipe A heating liquid is output from the fluid pipeline, and the heat accumulators further generate a heating gas to be transmitted to the air conditioner, and the air conditioner receives the heating gas and converts to produce a cold air. 如申請專利範圍第1項所述之流體溫控裝置，更包含一基座，該爐體設置於該基座之內部一側，該氣體控制裝置設置於該基座之內部另一側。 The fluid temperature control device described in item 1 of the scope of patent application further includes a base, the furnace body is arranged on one side of the inner side of the base, and the gas control device is arranged on the other side of the inner side of the base. 如申請專利範圍第1項所述之流體溫控裝置，其中該些蓄熱體之材質為活性氧化鋁、銅、鐵或上述之任一組合所組成之群組之一者。 As for the fluid temperature control device described in item 1 of the scope of patent application, the material of the regenerators is activated alumina, copper, iron or any combination of the above. 如申請專利範圍第2項所述之流體溫控裝置，更包含一處理器以及至少一感測元件，該處理器設置於該基座之另一側，該感測元件電性連接該處理器並且設置於該第一容置空間，經該偵測該第一容置空間之溫度而產生一感測數據，該處理器依據該感測數據啟閉該燃燒器。 The fluid temperature control device described in item 2 of the scope of patent application further includes a processor and at least one sensing element. The processor is disposed on the other side of the base, and the sensing element is electrically connected to the processor And it is arranged in the first accommodating space, and a sensing data is generated by detecting the temperature of the first accommodating space, and the processor opens and closes the burner according to the sensing data. 一種流體溫控裝置，其包含：一爐體，包含一第一容置空間、一第二容置空間以及一開口，該第一容置空間設置於該爐體之一側，該第二容置空間設置於該 爐體之另一側，該開口設置於該第一容置空間以及該第二容置空間之間，而連通該第一容置空間以及該第二容置空間；一流體管路，環設置於該第一容置空間外部；一蓄熱體，設置於該第一容置空間，並且包含一缺口，該缺口對應該開口；一燃燒器，設置於該第二容置空間；以及一冷氣機，設置於該爐體之一側，並且連通該第一容置空間；其中，該燃燒器經該開口於該缺口加熱該蓄熱體，使該蓄熱體蓄熱並且傳導熱能至該流體管路，由該流體管路輸出一加熱液體，該蓄熱體更產生一加熱氣體而傳輸至該冷氣機，其中該冷氣機接收該加熱氣體並且經轉換產生一冷氣。 A fluid temperature control device, comprising: a furnace body, including a first accommodating space, a second accommodating space, and an opening, the first accommodating space is arranged on one side of the furnace, and the second accommodating space Set the space in this On the other side of the furnace body, the opening is arranged between the first accommodating space and the second accommodating space, and communicates with the first accommodating space and the second accommodating space; a fluid pipeline is arranged in a ring Outside the first accommodating space; a heat accumulator disposed in the first accommodating space and including a notch corresponding to the opening; a burner disposed in the second accommodating space; and an air conditioner , Arranged on one side of the furnace body and connected to the first accommodating space; wherein, the burner heats the heat storage body through the opening in the gap, so that the heat storage body stores heat and conducts heat energy to the fluid pipeline. The fluid pipeline outputs a heating liquid, and the heat storage body further generates a heating gas to be transmitted to the air conditioner, wherein the air conditioner receives the heating gas and is converted to produce a cool air. 如申請專利範圍第5項所述之流體溫控裝置，更包含一基座，該爐體設置於該基座之內部一側，該氣體控制裝置設置於該基座之內部另一側。 The fluid temperature control device described in item 5 of the scope of patent application further includes a base, the furnace body is arranged on one side of the inner side of the base, and the gas control device is arranged on the other side of the inner side of the base. 如申請專利範圍第5項所述之流體溫控裝置，其中該蓄熱體之材質為活性氧化鋁、銅、鐵或上述之任一組合所組成之群組之一者。 The fluid temperature control device described in item 5 of the scope of patent application, wherein the material of the heat storage body is activated alumina, copper, iron or any combination of the above. 如申請專利範圍第6項所述之流體溫控裝置，更包含一處理器以及至少一感測元件，該處理器設置於該基座之另一側，該感測元件電性連接該處理器並且設置於該第一容置空間，經該偵測該第一容置空間之溫度而產生一感測數據，該處理器依據該感測數據啟閉該燃燒器。 The fluid temperature control device described in item 6 of the scope of patent application further includes a processor and at least one sensing element, the processor is disposed on the other side of the base, and the sensing element is electrically connected to the processor And it is arranged in the first accommodating space, and a sensing data is generated by detecting the temperature of the first accommodating space, and the processor opens and closes the burner according to the sensing data.

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