TWM415283U - Isothermal device using thermal energy of utility water flow - Google Patents
Isothermal device using thermal energy of utility water flow Download PDFInfo
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- TWM415283U TWM415283U TW098213415U TW98213415U TWM415283U TW M415283 U TWM415283 U TW M415283U TW 098213415 U TW098213415 U TW 098213415U TW 98213415 U TW98213415 U TW 98213415U TW M415283 U TWM415283 U TW M415283U
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- fluid
- temperature
- closed
- flow
- pipeline
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D15/00—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
- F24F5/0046—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24T—GEOTHERMAL COLLECTORS; GEOTHERMAL SYSTEMS
- F24T10/00—Geothermal collectors
- F24T10/10—Geothermal collectors with circulation of working fluids through underground channels, the working fluids not coming into direct contact with the ground
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D20/00—Heat storage plants or apparatus in general; Regenerative heat-exchange apparatus not covered by groups F28D17/00 or F28D19/00
- F28D20/0052—Heat storage plants or apparatus in general; Regenerative heat-exchange apparatus not covered by groups F28D17/00 or F28D19/00 using the ground body or aquifers as heat storage medium
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D2200/00—Heat sources or energy sources
- F24D2200/11—Geothermal energy
- F24D2200/115—Involving mains water supply
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
- F24F5/0046—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground
- F24F2005/0057—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground receiving heat-exchange fluid from a closed circuit in the ground
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/40—Geothermal heat-pumps
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/10—Geothermal energy
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/14—Thermal energy storage
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Thermal Sciences (AREA)
- Physics & Mathematics (AREA)
- Sustainable Energy (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Pipeline Systems (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
- Electromagnetic Pumps, Or The Like (AREA)
Abstract
Description
M415283 五、新型說明: 年月/:今;7 【新型所屬之技術領域】 n, fi 此項新型為首創以自來水系統之特定管路及流經管内之水 為溫能傳輸流體,或藉熱傳導方式間接傳輸溫能至另一封閉管路 内之溫能傳輸流體,並藉泵浦泵動管路内部之溫能傳輸流體’以 經均熱裝置將自來水之溫能與標的物或標的空間作均溫傳輸者。 【先前技術】 傳統建築物夏日以冷氣機冬日以電能或燃油暖氣取暖,皆耗 用大量能源’此外,寒冬時由於接近地表或外露之傳統自來水水 官結冰、屋頂與道路積雪結冰皆常造成災難,亦須較低耗能之抗 積雪或結冰之對策。 【新型内容】 此項新型為藉自來水系統埋設於地層内之地下水管’直接以 自來水之水流,與通往地蚊水管及流體I及均熱裝置構成分流 封閉官路’或藉熱傳導方式間接與由水管及流體泵及均熱裝置所 構成通往地面之封閉迴_部流體作溫能傳輸,以將地下水管内 水流所傳輸之溫能,直接或間接傳輸至通往地面之封閉管路或開 放管路内部之流體,並㈣路内部流體作單流向或職性交換流 向之聚動,以直接進人擬傳輸溫能之標的物或標的空間,或經均 熱裝置將自來水之溫能與擬傳輸溫能之標的物或標的空間作均 溫之溫能傳輸者。 【貫施方式】 如所周知,自來水不分夏季或冬季,其常態穩定溫度約為 MW之間’此項藉自來水溫能作均溫之裝置,為藉傳統自來 水系統埋設於地層中之地下水管及管内之水作為溫能傳輸流 體,直接通往設置於地面所建構之封閉管路、或藉熱傳導方式間 3 接傳輸溫能至另一封閉管路或開放管路内之溫能傳輸流體,以藉 泵浦作單流向或週期性變換流向泵動溫能傳輸流體,直接進入擬 傳輸溫能之標的物或標的空間’或經均溫裝置使所泵送溫能傳輸 流體之溫能,間接傳輸至擬傳輸溫能標的物或標的空間,以取代 或輔助傳統高耗能之空調裝置,進而節省能源者。 此項精自來水溫能作均溫之裝置,其均溫效應功能包括以下 一種或一種以上之效應功能: (1) 以相對較低溫之自來水及地層溫能,降低地表擬傳輸溫能 標的物之溫度者; (2) 以相對較高溫之自來水及地層溫能,提高地表擬傳輸溫能 標的物之溫度者。 此項藉自來水溫能作均溫之裝置,包括可供設置於下列範圍 種或一種以上作為均溫運作之標的物或標的空間之應用裝 置’以作均溫調節之溫能傳輸者;其可作均溫運作之標的物或標 的空間,包括: —其中’作為均溫運作之標的物之應用裝置含以下一種或一種 以上,包括: (1) 工具機、檢測儀器、觀測儀器、產業設備、機械設備、動 力機械、電機等具有特定環境溫度需求之設備裝置, (2) 散熱冷卻裝置、儲電裝置、燈具、發光二極體、太陽能發 包名置、電腦、電腦周邊設備、伺服器、半導體應用設備等具熱 損性裝置或元件之散熱需求, (3) 儲存固態、或液態、或氣態化學品之空間或倉儲等。 藉著自來水系統之自然溫能以冷卻設備裝置者,或藉自來水 系統之自然溫能明設備裝置作均溫之保溫者。 •-其作為均温運作之標的空間含以下一種或一種以上,包括: M415283 (1)半封閉式或封閉式建築物之内部空間, , ⑺半封閉式或封閉式結構之内部空間者, ’ 6. 2 5 (3) 淺層地表, (4) 各種開放空間, (5) 開放地表空間。 …1稽曰肐作均溫之裝置之均〉、田 各種房舍、倉庫、或柱狀體、或其他 * ’ ^物’包括由M415283 V. New Description: Year/Month/: Today; 7 [New Technology Field] n, fi This new type is the first to use the special pipeline of the tap water system and the water flowing through the pipe as the warm energy transfer fluid, or by heat conduction The method indirectly transmits the warm energy to the warm energy transfer fluid in the other closed pipeline, and uses the warm energy transfer fluid inside the pump pumping pipeline to make the temperature of the tap water and the target object or the standard space through the heat equalizing device. The average temperature transmitter. [Prior Art] Traditional buildings use air conditioners to heat the electric energy or fuel heaters in the winter, which consumes a lot of energy. In addition, in the cold winter, the traditional tap water icy close to the surface or exposed, the roof and the road are covered with snow and ice. Often causing disasters, it is also necessary to have lower energy-consuming measures against snow or ice. [New content] The new type of underground water pipe buried in the stratum by the tap water system is directly connected to the groundwater pipe of the tap water, and the groundwater mosquito pipe and fluid I and the soaking device constitute a shunt closed official road' or indirectly through heat conduction. The closed-loop fluid that is connected to the ground by the water pipe and the fluid pump and the soaking device is used for warm energy transmission to directly or indirectly transfer the temperature energy transmitted by the water flow in the underground water pipe to the closed pipe or open to the ground. The fluid inside the pipeline, and (4) the internal fluid of the pipeline acts as a single flow or a duty exchange flow to directly enter the object or target space for the intended transmission of warm energy, or the temperature and energy of the tap water by the soaking device The object of temperature transmission or the target space is transmitted as the temperature energy transmitter of the average temperature. [Commonly applied method] As is well known, tap water does not distinguish between summer and winter, and its normal stable temperature is about MW. 'This is a device that uses the tap water temperature to be the average temperature. It is a groundwater pipe buried in the stratum by the traditional tap water system. And the water in the pipe acts as a warm energy transfer fluid, and directly leads to a closed pipeline constructed on the ground, or a thermal energy transfer fluid that transfers heat energy to another closed pipeline or an open pipeline by means of heat conduction. By pumping the pump as a single flow or periodically changing the flow to the pumping temperature and energy transfer fluid, directly into the object or target space of the intended transmission of temperature energy or the temperature energy of the pumped warm energy transfer fluid by the temperature equalizing device, indirectly It is transmitted to the object or target space to be transmitted to the temperature-energy standard to replace or assist the traditional high-energy-consumption air-conditioning device, thereby saving energy. The water temperature effect can be used as a device for equalizing temperature, and the average temperature effect function includes one or more of the following effect functions: (1) lowering the temperature of the surface and the temperature of the formation to reduce the temperature of the ground surface. Temperature; (2) With relatively high temperature tap water and formation temperature, improve the temperature of the surface of the surface of the proposed temperature. The device capable of equalizing the temperature of the tap water, including an application device that can be set in the following range or one or more of the objects or space spaces for the operation of the equal temperature operation, is a temperature-transmitter for uniform temperature adjustment; The subject matter or standard space for the operation of the average temperature operation includes: - The application device for the operation of the temperature equalization operation includes one or more of the following, including: (1) Machine tools, testing instruments, observation instruments, industrial equipment, Equipments with specific environmental temperature requirements such as mechanical equipment, power machinery, and motors, (2) Cooling and cooling devices, power storage devices, lamps, light-emitting diodes, solar-powered packages, computers, computer peripherals, servers, semiconductors The heat dissipation requirements of heat-damaged devices or components such as application equipment, (3) storage of solid or liquid, or gaseous chemicals in space or storage. By means of the natural warm energy of the tap water system, the person who cools the equipment or the natural temperature and energy equipment of the tap water system is used as the warmer of the temperature. • The space for the operation of the temperature equalization operation includes one or more of the following, including: M415283 (1) Interior space of a semi-enclosed or enclosed building, (7) Interior space of a semi-enclosed or closed structure, ' 6. 2 5 (3) Shallow surface, (4) Various open spaces, (5) Open surface space. ...1 曰 曰 作 均 均 均 均 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、
溫調節之溫能傳輸之標的,或對其他依需要^建:物供作為均 閉式結構所構成之專用建築(例如涼亭)作二節 者;或供顧於如錯之_地表之姑傳輸=== 共場所之外露式之均溫傳輸者。 。用於路天公 如圖1所示為傳統自來水管路盥 — 路〃、建杀物之官路配置圖,圖 T · -- 101為地表; --102為地層,常態溫度約為12_2〇〇c之間;The temperature-adjustable temperature-energy transmission target, or other special constructions (such as gazebos) that are used as a closed structure for two sections; or for the sake of mistakes. == The average temperature transmitter of the exposed location. . For the road Tiangong as shown in Figure 1 is the traditional water pipeline 盥 - Lulu, Jiansuo official road configuration map, Figure T · -- 101 for the surface; -102 for the formation, the normal temperature is about 12_2 〇〇 Between c;
--103為埋設於地層1()2之習用自來水系統之地下水管,· —104為供水分支管’供連結於用戶水,u與地下水管如之 間,以將自來水系統之水供用戶使用; --111為用戶建柴物U0之水閥,可供作水流之開關操作以隨機 取水。 上述配置方式在寒冬時,傳統供水分支管1〇4近地表ι〇1威 露出地表101之部份,其内部之水容易因酷寒結冰而阻塞水流為 其缺失。 如圖2所示為本新型藉與自來水管直接構成分流封閉管路之 水管及流體泵及均熱裝置構成建築物内均熱功能之系統結構系 意圖,其主要構成含: , 5 M415283 ^ β 6· 2 5 --地下水管103 :為供埋設於地層ι〇2内,以傳輸自來水系統之 水流者,地下水管103可由傳統管形結構,或為呈較有利於熱傳 輸之幾何形狀結構,以及由各種良好導熱材料,如金屬或其他導 熱材料所構成,以供流過自來水傳輸溫能,以及藉由地下水管i〇3 本身傳導地層溫能者’此外,地下水管1〇3亦可依需要選擇性串 設均溫裝置122,以增進傳導地層溫能之效果者; --封閉水管m :封閉水管κι本身可由傳統管形結構,或為由 較有利於溫能傳輸之幾何形狀及材料所構成,為呈單流路或多流 路或呈特定彎曲狀,而呈封閉之水流管路,為供設置於較地下水 管103接近地表101、或露出地表101之位置,或埋設於建築物 110本體内部,或設置於接近建築物内部或外部之頂部、牆壁、 或地板内部 '或近地面、或近邊壁等選定空間,封閉水管121之 入口知供連接地下水管1〇3 ,以導入地下水管1〇3之水流,再經 封閉水管121出口端所連接地下水管丨〇3之另一段,回流至地下 水管103以構成自來水流之分流流路,藉分流之自來水流作均溫 之溫旎傳輸者,此外封閉水管121可依需要選擇性串設均溫裝置 122 ’以及設置供泵動自來水流之流體泵動裝置123,並對水流作 週期性變換流向之泵動,以及可依需要設置計量裝置251及流量 控制閥252者; 一均溫裝置122 :均溫裝置122為由良好熱傳導材料所構成,其 結構形狀為有利於熱傳導之幾何形狀者;均溫裝置122具有水流 入口、及通過均溫裝置122内部之水流通路、及水流出口,供與 地下水官103或串接於建築物11〇内部封閉水管121串接,以供 將通過水流之溫能與均溫裝置122周圍溫能,作均溫之溫能傳輸 者;此項裝置可依需要選擇設置,而串接於地下水管103、或串 接於建築物110内部之封閉水# 121兩者或其中之一或選擇不 設置者; 呀Ί 栗動裝置123:為供串聯設置於通過 i 流路,以產生栗送力 之抓體 者,泵H齡脉如傳輸溫能 “由A力馬達、引擎動力、或其他風 差能、或太陽能所產生之機 ……匕或'皿 -操控襄置250:為由3 :Γ 能所驅動者; 哭及相Μ㈣ 機ι凡件或固態電子電路元件'或微處理 、==關讀轉控介面所構成,以供胁流社《置123之 運轉者; 〜 八^//此項猎自來水溫能作均溫之裝置,亦可應用於露天之 • α人s知自m統之地下水管itf埋設於公路或其 所’而公路寒冬積®1或結冰會使祕行車困難及巧 響安全,此項藉自來水 難及〜 ㈣&政裝置,亦可供躺於如公路 傳輸,或應將露天公共場所之外露式之均溫 圖3為本新型應用於淺層地表均溫功能之系統構成示意圖; 其主要構成如下: 士也下K S 103 .為供埋設於地層1〇2内,以傳輸自來水系統之 水流者’地下水管1G3可由傳統管騎構,或為呈較有利於溫能 熱傳輸之幾何形狀結構,以及由各種良好導熱材料,如金屬或其 他導熱材料所構成,以供流過自來水以及藉由地下水管1〇3本身 傳導地層溫能者’料,地下水管朋亦可《要選擇性串設均 溫裝置122’以增進傳導地層溫能之效果者; 上封閉水T 121:封閉水管m本身可由傳統管形結構,或為由 \有利於/凰此傳輸之幾何形狀及材料所構成,為呈單流路或多流 路或呈特定彎曲狀,供設置於較地下水管103更接近地表1〇1之 位置而王封閉之水流管路,封閉水管121之入口端供連接地下水 管103,以導入地下水管103之水流,再經封閉水管 1斤ί接地Γ水管1G3之另—段,回流至地下水管ig3以構成水流 /,《路,錯水流作均溫之熱傳輸者,此外封閉水管m可依需要 T性串設均溫裝置122,以及可選擇性設置供泵動水流之流體 動裝置123 ’以及可依需要設置計量裝置251及流量控制間者 252 ; 均溫裝置I22:均溫裝置⑵為由良好熱傳導材料所構成,立 結構形狀為有利於熱傳導之幾何形狀者;均溫裝置122具有水产、 入口、及通過均溫裝置122内部之水流通路、及水流出卩,供二 =下水管Η)3或封閉水管121串接,以供將通過水流之溫能_ 二裝置122周U温能,作均溫之熱傳輸者;此項裝置可依需要選 擇设置’接於地下水管⑽、或轉於接近地表之封閉水管 121兩者或其中之一,或選擇不設置者; & l體泵動裝置123 .為供串聯設置於通過均溫裝置之流體 机路’以產生泵送力之趙泵歸置,以供泵動水如傳輸溫妒 者二泵浦含由電力馬達、引擎動力、或其他風能、錢能、 差能、或太陽能所產生之機械能或所轉換之電能所驅動者;夏 —操控裝置250:為由機電元件或固態電子電路元件、或微處理 益及相關軟體及操控介面所構成,以供操控流體泵動 運轉者; ~ d之 系統構成示 圖4為本新型應用於外露於地表標的之均溫功能 意圖;其主要構成如下: 地下水官103 :為供埋設於地層1〇2内,以傳輪自來水系統之 水流者,地下水管1G3可由傳統管形結構,或為呈較有利於熱= 輸之幾何形狀結構,以及由各齡好導紐料,如麵或其他導 熱材料所構成’以供流過自來水以及藉由地下水管103本身傳^ M415283 地層溫能者,此外,地& - ί?' 6. 2 5 班122 地下水官103亦可依需要選擇性串設均溫裝 且122,叫進傳導地層溫能之效果者; —封閉水管⑵:封陶^⑵本身可由傳統管形㈣或為由 之幾何形狀及材料所構成,流路或多流路 =:=Γ置於露出地表1〇1之位置而呈封閉之水流 欠其⑻ S之入口端供連接地下水管⑽,以導入地下 之=,再經封閉水管121出口端所連接地下水管1〇3 加之轨傳地下水官103以構成錢H藉水流作均 :2輸者,此外封閉水管121可依需要選擇性串設均溫裝置 ,乂及可選擇性設置供泵動水流之流體泵動裝置⑵以及可 依而要设置計量裝置2S1及流量控制閥议者; =溫:均溫裝置122為由良好熱傳導材料所構成,其 為有利於熱傳導之幾何形狀者;均溫裳置m具有水产 =通過獅置一水流通路、及水流出口 = 7吕阳或封閉水管121串接,以供將通過水流n 圍溫能,作均溫之熱傳輸者;此項裝置可㈣要選 其121雨去 地下水管103、或串接於露出於地表之封閉水 g /兩者或其中之一,或選擇不設置者; 奴时置123:驗㈣設置於通糾溫健122之流體 :果=送力之流義裝置,以供―: / 3 $力馬達、引擎動力、或其他風能、或熱能、或溫 。s’太陽旎所產生之機械能或所轉換之電能所驅動丨 器it裝/25〇:為由機電元件或固態電子電路元件、或微處理 °°〖人體及操控介面所構成,以供操控流體泵動裝置〗 運轉者; 、id之 圖5所示為本新型應用於建築物頂部結構體内部之均溫功炉 9 M415283 系統構成示意圖;其主要構成如下: -奶/: --地下水* 1〇3:為供埋設於地層102 β,以傳輸自來水系統之 ‘ 水流者,地下水管⑼可由傳統管形結構,或為呈較有利於熱傳 . 輸之幾何形狀結構,以及由各歡好導騎料,如金屬或其他導 料所構成’以供流過自來水以及藉由地下水管ι〇3本身傳導 • 地層溫能者,此外,地下水管103亦可依需要選擇性串設均温裝 置122 ’以增進傳導地層溫能之效果者; . —封閉水管121:封閉水mi本身可由傳統管形結構,或為由 • 較制於熱傳輸之幾何形狀及材料所構成,為呈單流路或多流路 或呈特”曲狀,供設置於建築物11G頂部結構體内部而呈封閉 之水* s路’封閉水官121之入口端供連接地下水管,以導 也下尺g 103之水流,再經封閉水管121丨口端所連接地下水 管1〇3之另一段,回流至地下水管1〇3崎成水流之流路,藉水 =均溫之熱傳輸者,此外封閉水f 121可依需要選擇性串設均 ^置122以及可廷擇性没置供栗動水流之流體果動裝置⑵, U及可依需要設置計量裝置2M及流量控制闊攻者; . —均溫裝置122 :均溫裝置122為由良好熱傳導材料所構成,其 結構形狀為有利於熱傳導之幾何形狀者;均溫裝置⑵具有水流 入口、錢過均溫裝置122内部之水流通路、及水流出口,供與 =下h 1G3或封閉水f 121 φ接,以供將通過水流之溫能與均 =置122周圍溫能’作均溫之熱傳輸者;此項裝置可依需要選 擇。又置而串接於地下水管1〇3、或串接於建築物⑽頂部結構 F之封閉水官121兩者或其中之―,或選擇不設置者; :流體轉裝置123 :絲串聯設置於通齡縣置122之流體 X產生果送力之流體栗動裝置,以供泵動水流以傳輸溫能 者,泵浦含由電力Μ、引擎動力、或其他風能、賴能、或溫 10 M415283 差能、或太陽能所產生之機械能或所轉換之電能所㈣I,6 25 --操控裝置250:為由機電元件或固態電子電路元件 器及相關軟體及操控介面所構成,以供操控流體栗 運轉者: 衣且u 立圖^本新型應用於建築物頂部呈外露均溫功能系統構成示 思圖,其主要構成如下: -地下水管103 ··為供埋設於地層1〇2内,以傳輸自來水"之--103 is the underground water pipe of the conventional tap water system buried in the ground 1 () 2, · 104 is the water supply branch pipe 'for connection with the user water, u and the underground water pipe, for the water of the tap water system for the user to use ; -- 111 for the user to build a water valve U0, can be used as a water flow switch operation to randomly take water. In the cold winter, the traditional water supply branch pipe 1〇4 is near the surface of the surface 101, and the water inside is easily blocked by the cold water and blocked. As shown in Fig. 2, the system structure of the water pipe and the fluid pump and the soaking device which directly constitute the shunt closed pipe by the water pipe and the soaking device constitute the system of the soaking function in the building, the main components of which are: 5 M415283 ^ β 6· 2 5 -- Groundwater pipe 103: For the water flow buried in the formation ι〇2 to transmit the tap water system, the underground water pipe 103 may be a conventional tubular structure or a geometric structure that is more favorable for heat transfer. And consist of a variety of good thermal conductive materials, such as metal or other heat-conducting materials, for the transmission of warm water through the tap water, and the temperature of the formation through the underground water pipe i〇3 itself. In addition, the underground water pipe can also be It is necessary to selectively arrange the temperature equalizing device 122 to improve the effect of conducting the formation temperature; - the closed water pipe m: the closed water pipe κι itself may be a conventional tubular structure, or a geometry and material which is more favorable for temperature energy transmission. The water flow conduit is a single flow path or a multi-flow path or a specific curved shape, and is disposed at a position close to the surface 101 or the surface 101 of the groundwater pipe 103. It is buried in the main body of the building 110, or placed in the selected space near the top or the wall of the building, the wall, or the interior of the floor, or near the ground, or near the side wall. The entrance of the closed water pipe 121 is connected to the underground water pipe. 3, to introduce the water flow of the underground water pipe 1〇3, and then pass through the other section of the underground water pipe 丨〇3 connected to the outlet end of the closed water pipe 121, and return to the underground water pipe 103 to form a diversion flow path of the tap water flow, and use the diverted tap water flow In addition, the closed water pipe 121 can selectively arrange the temperature equalizing device 122' and the fluid pumping device 123 for pumping the tap water flow as needed, and periodically pump the water flow to the pumping flow. And the metering device 251 and the flow control valve 252 can be provided as needed; a temperature equalizing device 122: the temperature equalizing device 122 is composed of a good heat conducting material, and the structural shape is a shape favorable for heat conduction; the temperature equalizing device 122 has The water inlet, the water flow passage through the inside of the temperature equalizing device 122, and the water flow outlet are provided to the groundwater official 103 or to the closed water pipe 12 inside the building 11 1 series connection, for the temperature energy passing through the water flow and the temperature around the temperature equalizing device 122, for the uniform temperature of the temperature energy transmission; this device can be selected according to the needs, but connected in series with the underground water pipe 103, or serially connected The closed water # 121 inside the building 110 or one of them may not be set; Ί 栗 栗 装置 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 123 H-age pulse, such as transmission of warm energy "by A motor, engine power, or other wind energy, or solar energy generated by the machine ... 匕 or 'dish-manipulation device 250: is driven by 3: Γ energy; Cry and Μ (4) 机 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡 凡It can be used as a device for equalizing temperature, and it can also be used in the open air. • The groundwater pipe itf is built on the road or its way, and the road cold weather product 1 or icing can make the secret car difficult and smart. This item is difficult to borrow from the water. (4) & political installations, which can also be used for lying on roads, or should be open air The average temperature of the exposed surface of the common site is shown in Figure 3. The main structure of the system is applied to the shallow surface uniform temperature function. The main components are as follows: KS 103 is used for burial in the ground layer 1 to transmit tap water. The system's water flower's groundwater pipe 1G3 can be constructed by a conventional pipe, or a geometric structure that is more conducive to the heat transfer of warm energy, and composed of various good thermal conductive materials, such as metal or other heat conductive materials, for flowing through the tap water. And by the groundwater pipe 1〇3 itself to conduct the formation of the warmth of the material, the groundwater pipe can also be "selectively set up the temperature equalizing device 122" to enhance the effect of the conduction layer temperature energy; upper closed water T 121: closed The water pipe m itself may be constituted by a conventional tubular structure or a geometry and material which is facilitated by the transmission of the phoenix, and is a single flow path or a plurality of flow paths or a specific curved shape for being disposed in the groundwater pipe 103. Close to the surface of the surface 1〇1 and the closed water flow line, the inlet end of the closed water pipe 121 is connected to the underground water pipe 103 to introduce the water flow of the underground water pipe 103, and then the closed water pipe 1 kg ί grounding water pipe 1G The other part of 3, back to the underground pipe ig3 to form the water flow /, "road, the wrong flow of water for the heat transfer of the average temperature, in addition, the closed water pipe m can be set to the temperature equalization device 122 according to the need, and can be selectively set The fluid moving device 123' for pumping water flow and the metering device 251 and the flow control room 252 can be provided as needed; the temperature equalizing device I22: the temperature equalizing device (2) is composed of a good heat conducting material, and the vertical structure shape is favorable for heat conduction. The geometrical shape device 122 has a water product, an inlet, a water flow passage through the inside of the temperature equalizing device 122, and a water outflow port, for the second water supply pipe 3 or a closed water pipe 121, for the passage of the water flow. Warm energy _ two devices 122 weeks U temperature energy, for the heat transfer of the average temperature; this device can choose to set either 'connected to the underground water pipe (10), or to the closed water pipe 121 close to the surface, or one of them, Or choose not to set; & l body pumping device 123. For the series connected to the fluid machine path through the temperature equalizing device to generate pumping force of the Zhao pump, for pumping water, such as transmission temperature Two pumps with electric motor Engine power, or other wind energy, money energy, poor energy, or the mechanical energy generated by solar energy or the converted electrical energy; summer - control device 250: for electromechanical components or solid state electronic circuit components, or micro-processing benefits And related software and control interface, for the control of the fluid pumping operation; ~ d system composition diagram 4 is the application of the new model for the uniform temperature function exposed to the surface standard; its main components are as follows: Groundwater Officer 103: In order to be buried in the ground layer 1〇2, to pass the water flow of the water system, the underground water pipe 1G3 can be a traditional tubular structure, or a geometric structure that is more favorable for heat=transmission, and a good guide material for each age. , such as surface or other heat-conducting materials to 'flow through the tap water and through the underground water pipe 103 itself ^ M415283 formation temperature, in addition, the ground & - ί? ' 6. 2 5 class 122 groundwater officer 103 can also Selectively set the temperature equalization and 122, which is called the effect of the temperature of the conductive formation; - the closed water pipe (2): the sealing pottery ^ (2) itself can be composed of the traditional tubular shape (four) or the geometric shape and material, the flow path The multi-flow path =:=Γ is placed at the position of the exposed surface 1〇1 and the closed water flows to the inlet end of the (8) S to connect the underground water pipe (10) to be introduced into the underground = and then connected to the groundwater connected to the outlet end of the closed water pipe 121 Pipe 1〇3 plus the railroad groundwater officer 103 to form the money H by the water flow as the average: 2 losers, in addition, the closed water pipe 121 can be selectively arranged with a temperature equalizing device, and a fluid that can selectively set the pumping water flow The pumping device (2) and the metering device 2S1 and the flow control valve can be arranged accordingly; = temperature: the temperature equalizing device 122 is composed of a good heat conducting material, which is a geometry favorable for heat conduction; With aquaculture = through the lion set a water flow path, and water outlet = 7 Luyang or closed water pipe 121 in series, for the water flow n to enclose the temperature energy, for the heat transfer of the average temperature; this device can (4) to choose 121 rain to the underground water pipe 103, or concatenated in the closed water g / two or one of them exposed on the surface, or choose not to set; slave time to 123: test (four) set in the fluid of Tongjing Wenjian 122: fruit = power supply flow device for -: / 3 $ force motor, cited Power, or other wind energy, or heat, or warm. The mechanical energy generated by the solar energy or the converted electrical energy is driven by the device. It is composed of electromechanical components or solid electronic circuit components, or micro-processing, human body and control interface for manipulation. Fluid pumping device〗 The operator; id Figure 5 shows the schematic diagram of the new M90283 system for the uniform temperature furnace inside the building's top structure; its main components are as follows: - Milk /: - Groundwater * 1〇 3: For the water flowing from the formation 102 β to transport the tap water system, the underground water pipe (9) can be a traditional tubular structure, or a geometric structure that is more favorable for heat transfer, and a good guide. Materials such as metal or other materials constitute 'for the flow of tap water and by the underground water pipe ι〇3 itself. The formation temperature can also be, in addition, the underground water pipe 103 can also be selectively arranged with the temperature equalizing device 122 ' In order to improve the effect of the temperature of the conductive layer; - closed water pipe 121: the closed water mi itself can be composed of a traditional tubular structure, or a geometric shape and material which is made by heat transfer, and is a single flow path or more The road or the special "curve" is provided for the water inside the top structure of the building 11G and is closed. The entrance end of the closed water officer 121 is connected to the underground water pipe to guide the water flow of the g 103. The other part of the underground water pipe 1〇3 connected to the closed end of the closed water pipe 121 is returned to the flow channel of the underground water pipe 1〇3, and the water is transferred by the water of the uniform temperature, and the closed water f 121 can be used as needed. Selectively set the 122 and the fluid actuating device (2), which can be used to provide the pumping water flow, and the metering device 2M and the flow control wide taper can be set as needed; The warming device 122 is composed of a good heat conducting material, and its structural shape is a geometry favorable for heat conduction; the temperature equalizing device (2) has a water flow inlet, a water flow passage inside the money equalizing device 122, and a water flow outlet, for and under h 1G3 or closed water f 121 φ is connected for the heat transfer of the temperature energy passing through the water flow and the temperature energy around the set 122; the device can be selected as needed. Tube 1〇3, or serially connected to the top structure F of the building (10) Closing the water officer 121 or both of them, or selecting not to be set; : Fluid transfer device 123: The fluid is connected in series with the fluid X of the Tongxian County 122 to produce a fruit-powered fluid pumping device for pumping water flow For the transmission of warm energy, the pump contains mechanical energy or converted electrical energy generated by electric power, engine power, or other wind energy, energy, or temperature 10 M415283 (4) I, 6 25 -- The control device 250 is composed of an electromechanical component or a solid-state electronic circuit component and a related software and a manipulation interface for manipulating the fluid pumper: a garment and a vertical image. The novel application is applied to an exposed uniform temperature function system at the top of the building. The main structure of the structure is as follows: - The underground water pipe 103 ·· is buried in the ground layer 1〇2 to transmit tap water"
=,地下水管】03可由傳統管形結構,或為呈較有利於熱傳 輸之4何形狀結構,以及由各種良好導熱材料,如金屬或其他導 熱材料所構成,以供流過自來水以及藉由地下水管⑻本身傳導 =雜者,此外,地下水管1〇3亦可依需要選擇性串設均溫裝 置22,以增進傳導地層溫能之效果者; —封閉水管121 :封閉水管121本身可由傳統管形結構,或為由 較有利於㈣輸之幾何形狀及材料所構成,為呈單流路或多流路 或呈特定彎曲狀,供設置於建築物⑽頂部呈外露之封閉水流管 封閉水g 1以之入口端供連接地下水管1〇3,以導入地下水 管103之水流,再經封閉水管121出口端所連接地下水管⑽之 另—段,回流至地下水管1Q3以構成水流之流路,藉水流作均溫 之熱傳輸者,此外封閉水管121可依需要選擇性串設均溫裝置 122,以及可選擇性設置供泵動水流之流體栗動裝置123,以及可 依需要設置計量裝置251及流量控綱252者. 句咖裝置122 .均溫裝置122為由良好熱傳導材料所構成,其 結構形狀為有利於熱料之幾何形狀者;均溫裝置122具有水流 入口 '及通過均溫裝置122内部之水流通路、及水流出口,供盘 地下水管1〇3 4串接於建築物11〇頂部呈外露之封閉水管ΐ2ι串 接,以供將通過水流之溫能與均溫裝置m 溫能,作均溫之 11 M415283 修ill 熱傳輸者;此項裝置可依需要選擇执 P 6. 25_ 伟。又置,而串接於地下水管1〇3、 或串接於建築物110頂部呈外露 - r路之封閉水管121兩者或其中之 —’或選擇不設置者; --流體泵動裝置123 :為供串聯今罢认1 心*置於通過均溫裝置122之流體 流路,以產生泵送力之流體泵動裝置, 置以供泵動水流以傳輸溫能 者,泵浦含由電力馬達、引擎動力、 勒力或其他風能、或埶能 '或黑 差能、或太陽能所產生之機械能或所轉換之電能所驅動者;—=, underground water pipe] 03 can be made of a traditional tubular structure, or a shape structure that is more favorable for heat transfer, and composed of various good heat conductive materials, such as metal or other heat conductive materials, for flowing through tap water and by The underground water pipe (8) itself conducts = miscellaneous. In addition, the underground water pipe 1〇3 can also selectively cascade the temperature equalizing device 22 as needed to enhance the effect of conducting the formation temperature; - the closed water pipe 121: the closed water pipe 121 itself can be conventional The tubular structure, or consisting of geometric shapes and materials that are more favorable to (four) transmission, is a single flow path or multiple flow paths or in a specific curved shape, and is closed to the closed water flow pipe provided at the top of the building (10). The inlet end of g 1 is connected to the underground water pipe 1〇3 to introduce the water flow of the underground water pipe 103, and then through the other section of the underground water pipe (10) connected to the outlet end of the closed water pipe 121, and is returned to the underground water pipe 1Q3 to form a flow path of the water flow. The water flow is used as the heat transferer for the uniform temperature, and the closed water pipe 121 can selectively arrange the temperature equalizing device 122 as needed, and the fluid pumping device 123 for selectively setting the pumping water flow, and The metering device 251 and the flow control unit 252 can be provided as needed. The sentence temperature device 122 is composed of a good heat conductive material, and its structural shape is favorable for the geometry of the hot material; the temperature equalizing device 122 has a water flow. The inlet 'and the water flow passage and the water flow outlet inside the temperature equalizing device 122 are connected to the closed water pipe ΐ2ι in the top of the building 11 at the top of the building, and the temperature is passed through the water flow. With the temperature of the temperature equalizing device m, for the average temperature of 11 M415283 repair ill heat transmitter; this device can choose to implement P 6. 25_ Wei. And placed in series with the underground water pipe 1〇3, or in series with the closed water pipe 121 of the exposed-r road at the top of the building 110 or therein-'or choose not to be set; - the fluid pumping device 123 : a fluid pumping device for generating a pumping force for the fluid flow path through the temperature equalizing device 122 to be used for pumping water to transmit heat energy, and the pump is powered by electricity. Motor, engine power, levee or other wind energy, or 黑 or black energy, or mechanical energy generated by solar energy or converted electric energy;
-拉控裝置250:為由機電元件或固態電子電路元件、或微處理 器及相關軟體及操控介輯構成,以供操控流體泵動裝置12 運轉者; 此項藉自來水溫能作均溫之農置之均溫裝置122可選擇以下 一種或一種以上之實施方式,各種實施方式如下: (1) 均溫裝置為設置於地下層而與地下水管串設者. (2) 均溫裝置為設置於接近地表或露出地表而與封閉水管争設 者; (3) 地下水管與封閉水管皆串設均溫裝置者;- Pull control device 250: is composed of an electromechanical component or a solid state electronic circuit component, or a microprocessor and related software and a control medium for manipulating the fluid pumping device 12; the temperature of the tap water can be used for temperature equalization The agricultural uniform temperature device 122 may select one or more of the following embodiments, and the various embodiments are as follows: (1) The temperature equalizing device is installed in the underground layer and is connected with the underground water pipe. (2) The temperature equalizing device is set Arranging with a closed water pipe close to the surface or exposing the surface; (3) The groundwater pipe and the closed water pipe are all connected with a temperature equalizing device;
(4) 地下水管與封閉水管皆不設置均溫裝置者; (5 )均溫功能亦可為由地下水管或封閉水管本身取代均溫裝置 之功能所達成,或於地下水管或由封閉水管之管體外部,另行力 設具良好導熱性能之結構體以提昇其均溫功能者。 口 此外為提昇整體效率,此項藉自來水溫能作均溫之裝置,复 可選擇在地下水管與外露或接近地表之封閉水管間,依施工環境 或功能需要加設隔熱材料,或此段封閉水管由隔熱性材料所兄 成,以防止溫能散失者。 此項藉自來水溫能作均溫之裝置,其封閉水管與地下水管 聯接關係’含以下一種或一種以上之聯接方式,包括. 12 ⑴封閉水管之進水口可為連接於地下水管之上游側, 〇則聯接於下游側者; ⑺封閉水管之進水口可為連接於地下水管之下游側而出水 口則連接於上游側者。 此項ϋ自來水溫能作均溫之裝置,絲動核之流體系動裝 *依應用場合及成本與效益作選擇性設置之考量,除設置系動 體泵動裝置以泵動水流流動作為溫能載體外亦可藉冷 降^之對流效應輯成卿之水流者,_地下水管水流流向 :力’而形成分流效應之水流,以流經封閉水管之水流為溫能 =流體作均溫之溫能傳輸者;流經·水管之水流除以流體泵 /置直接泵動外,其水流流動之方式,含以下—種或一種以上 之流動方式,包括: ()可猎由地下水官之水流流向,使水流由連接封閉永管上游之 , 王可‘人^'正水壓之特定角度,例如與地下水管水流方 1呈<90°之銳角,以有利於引導水流進入封閉水管,而由封閉水 :之出水口,呈與地下水管之水流流向,呈負水壓之特定角度, ^如呈>90。之鈍角,以有利於封閉水管出水口水流之流出,而盘 2下水«流,而形成分流效應,以由流經封閉水管之分流水流 =溫能傳輸流體作均溫之熱傳輸,並以可操控流M作流向操控 者,或 (2)可藉泵浦泵動水流或冷降熱昇之效應或分流效應豆中一種 tr上,、使水流流經閉路水管,財流為溫能傳輪流體,間 接對標的物或標的空間作均溫之熱傳輸者。 此項藉自來水溫能作均溫之裝置,可同時應用於將封閉水管 、、,Q合供水分支f,而由部份傳統供水分支管作為共同水管,座部 份封閉水管構減翻封閉水流流路;於此共構型_水流流路 13 M415283 若選擇設置流體泵動裝置時,可為: : (1) 流體泵動裝置設置於封閉水管者;或 Ή一6. 2音」二: (2) 於共用水管設置流體泵動裝置者。 此項藉自來水溫能作均溫之裝置,採用共構型封閉水流流路 之效果^及效益為至少具有以下_種或—種以上之功能,包括: ⑴藉載有相對較高溫能水流之流動,可防止傳統供水分支管 近地表及外露端因外部溫度過低而結冰者;或(4) The groundwater pipe and the closed water pipe are not provided with a uniform temperature device; (5) The temperature equalization function may be achieved by replacing the function of the temperature equalizing device with the underground water pipe or the closed water pipe itself, or by the underground water pipe or by the closed water pipe. Outside the pipe body, a structure with good thermal conductivity is additionally provided to enhance the function of the temperature equalization. In addition to improving the overall efficiency, this device can be used as a means of equalizing the temperature of the tap water. It can be selected between the underground water pipe and the closed water pipe that is exposed or close to the surface. The insulation material is added according to the construction environment or function, or this section The closed water pipe is made of insulating material to prevent the loss of warm energy. The connection between the closed water pipe and the underground water pipe by the tap water temperature can be combined with one or more of the following types, including: 12 (1) The water inlet of the closed water pipe can be connected to the upstream side of the underground water pipe. The raft is connected to the downstream side; (7) The water inlet of the closed water pipe may be connected to the downstream side of the underground water pipe and the water outlet may be connected to the upstream side. This ϋ tap water temperature can be used as a device for equalizing temperature, and the flow system of the kinetic core is installed according to the application and the cost and benefit. In addition to setting the pumping device to pump the water flow as the temperature In addition to the carrier, the convection effect of the cold drop can be used to compile the water flow of the Qing _ _ underground water pipe flow direction: force 'and form a diversion effect of the water flow, the flow through the closed water pipe for the warm energy = fluid for the average temperature The heat energy transmitter; the flow of water flowing through the water pipe divided by the fluid pump / direct pumping, the way the water flows, including the following one or more types of flow, including: () can be hunted by the water flow of the groundwater officer The flow direction is such that the water flow is connected to the upstream of the permanent pipe, and the specific angle of the water pressure of Wang Ke's person is, for example, an acute angle of <90° with the water flow pipe of the underground water pipe to facilitate guiding the water flow into the closed water pipe, and From the closed water: the water outlet, which is in the direction of the water flow from the underground water pipe, at a specific angle of negative water pressure, such as >90. The obtuse angle is beneficial to the outflow of the water outlet of the closed water pipe, and the water flow of the disk 2 is formed to form a diversion effect, so that the diversion flow flowing through the closed water pipe=the warm energy transfer fluid is used for the heat transfer of the uniform temperature, and Manipulating the flow M as the flow to the controller, or (2) by pumping the pump to move the water flow or the effect of the cold drop or the shunt effect on a kind of tr, so that the water flows through the closed pipe, and the flow is the warm energy transfer. Body, indirectly to the target object or the target space for the heat transfer of the temperature. The device can be used for the temperature equalization of the tap water temperature, and can be applied to the closed water pipe, the Q water supply branch f, and the partial water supply branch pipe as a common water pipe, and the partial closed water pipe structure reduces the closed water flow. Flow path; this type of configuration _ water flow path 13 M415283 If you choose to set up the fluid pumping device, you can: (1) The fluid pumping device is installed in the closed water pipe; or Ή1. 2 tone" two: (2) The fluid pumping device is installed in the shared water pipe. The device that uses the temperature of the tap water to be a uniform temperature, and the effect of using the co-structured closed water flow path and the benefit are at least the following _ species or more, including: (1) borrowing a relatively high temperature water flow Flow, which prevents the traditional water supply branch pipe from freezing near the surface and exposed end due to low external temperature; or
⑺藉财相對較低溫能水流之流動,夏日可降低建築物本身 或内部hfl:度者,或 (3) 藉載有相對較高溫能水流之流動,寒冬無暖氣時,亦維持 高於外部環境之溫度於倉儲、或應用於融化㈣積雪及防 止結冰者。 此項藉自來水溫能作均溫之裝置,其溫能傳輸方式進一步可 藉間接>显能傳輸結構所構成,為在自來水系統之地下或地上之自 來水管賴置包覆狀均溫室結構,以將自來水管路内部水流之溫(7) The relatively low-temperature flow of water can be used to reduce the building itself or internal hfl: in summer, or (3) to carry the flow of relatively high-temperature water, and to maintain higher than outside when there is no heating in winter. The temperature of the environment is stored in storage, or applied to melt (4) snow and prevent freezing. The device can be used for the temperature equalization by the tap water temperature, and the warm energy transmission mode can be further constituted by the indirect > sensible energy transmission structure, which is a wrap-around greenhouse structure for the water pipe in the underground or above the tap water system. To heat the water inside the tap water pipe
能’間接猎包覆狀均溫氣室内部流往標的物或標的空間之另—氣 態或液態流體’流經作為均溫標的物或標的空間、或建築物、或 其他封閉或半封閉結構内部空間,以作間接料溫能之均溫傳輸 者0 如圖所不為本新型設有包覆狀均溫室結構,以對開放式空 間作開放歧送流體之系統實施㈣意g); 此項系包括’於自來水系統之地下水管叩其中—段之周 ,設置包覆狀均溫室結構22G,包覆狀均溫室結構,之兩端面 王封閉’其郝近封閉端面之一端設有至少一個流體入口加,及 通往開放式空間之流體管路221,另—端設有至少一個流體出口 219,及通往開放式空間之趙管路23卜以供流人及流出氣態或 14 液態之流體,以及可依需要設置計量裝置251及流量^制n 者;上述流體可_昇冷降效應作對流循環,或藉設置流體泵動 裝置12)以接又電力馬達所驅動、或其他機械能所驅動、或以人 力所驅動,以在採用單流向㈣時,綠通過包覆狀均溫室结構 之/瓜虹巩體官路221通往開放式空間,開放式空間之流 u瓜肢g路231回流至包覆狀均溫室結構22〇,於採用週期性 交換流向之泵動時,射—泵動流向如前述,而於另-泵動流向 時二肢.'二机體g路231通往開放式空間,開放式空間之流體綞 抓體g路221 至包覆狀均溫室結構22〇,以間接將自來水系 統之溫能,與開放式空間侧接傳導溫能之均溫傳輸者;上述流 體官路221及流體管路23卜為各別通往開放式空間,流體管路 如及流體#路231之流體進出口,可依需要選擇性設置過慮裝 置124或不設置者; —搡控裝置25〇:為由機電元件或固態電子電路元件、或微處理 盗及相關倾及操控介面賴成,以供_越絲裝置⑵之 運轉者; 如圖8所不為本新型6又有包覆狀均溫室結構,以間接對建築 ㈣其他_或半·結構之内部空間,作職式祕流體之系 統貫施例示意圖; 此項系統包括’於自來水系統之地下水管⑴3其中一段之周 ,設置包覆狀均溫室結構22〇,包覆狀均溫室結構22〇之兩端面 壬封閉,其鄰近封閉端面之1設有至少_個流體人口 218,及 通往建築物m封閉或半封閉結構之内部空間之流體管路功, 另-端設有至少—個流體出π 219,及通往建築物⑽封閉或半 封閉結構之内部空間之流體管路231,以供流入及流出氣態或液 怨之流體,以及可依需要設置計量裝置251及流量控制間攻 15 M415283 裝1】23以接受電力馬達所嬖動、 戍稽故置流體泵動 力所驅動,β在獅料向絲:他機觀所縣' 或以人 220之流體,經流體管路22】通往建通過包覆狀均溫室結構 閉結構之内部空間,再·體管路^ ^或其他封閉或半封 構220,於採用週期性 °凌至包覆狀均溫氣室結 述,而於另-動時,其W前 或其他封_半朗結構之路231通往建築物U0 包覆狀均溫氣室結構220,以間二=管路-回流至 物110或其他封閉或半封閉結構之内部=糸t之溫能,與建築 均溫傳輸者,·上述流體管路221及1::間,作間接傳導溫能之 築物no或其他封閉或半封閉結構之〔内‘=2各別通往建 流體管路如询㈣σ, ==⑽及 或不設置者; 而受、擇性§又置過濾裝置124 ―操控裝置250 , iα 器及相關倾域^ 或職'電子電路元件、或微處理 運轉者;a丨面所構成’以供操控流體泵動裝置123之 如圖9所不為本新㈣有包覆狀均溫线構,料 : = = =: =侧一_,賴 圍二=包括’於自來水线之地下水管1Q3其中-段之周 圍汉置〇覆狀均溫室結構挪,包覆狀均溫室結構⑽之兩端面 呈封閉’其鄰近封閉端面之—端設有至少—個流體人口 218,供 聯結通往建築物外部空間之流體管路221,另一端設有至少一個 流體出口 219,供牌从、3 ,, 仏恥、、、。通往建染物110封閉或半封閉結構之内部 空間之官路231 ’以供流人及流出氣態或轉之流體,以及 16 M415283The ability to 'indirectly hunted the inner chamber of the temperature-enhancing gas chamber to the target object or the standard space--a gaseous or liquid fluid' flows through the object or target space as the temperature scale, or the interior of the building or other closed or semi-closed structure. Space, for the average temperature of the indirect material temperature energy transmission 0 As shown in the figure, there is a coating-like greenhouse structure, which is implemented in the open space for open-distribution fluid system (4) meaning g); The system includes 'the groundwater pipe of the tap water system, the circumference of the section, the cover-shaped greenhouse structure 22G, the cover-like greenhouse structure, the two ends of the king closed", at least one end of the Hao near closed end face is provided with at least one fluid The inlet plus, and the fluid line 221 leading to the open space, the other end is provided with at least one fluid outlet 219, and the Zhao pipeline 23 leading to the open space for the flow of people and the flow of gaseous or 14 liquid fluid And the metering device 251 and the flow rate can be set as needed; the fluid can be convectively circulated by the cooling effect, or the fluid pumping device 12) can be driven by the electric motor or other mechanical energy. drive Or driven by manpower, in the case of a single flow direction (four), the green through the coated greenhouse structure / melon Hong Gong body official road 221 to open space, open space flow u melon limb g 231 back to the cladding The average greenhouse structure is 22〇, when the pumping is performed by the periodic exchange flow, the jet-pump moving direction is as described above, and in the other pumping flow direction, the two limbs. The two-body g-way 231 leads to the open space. The open space fluid 缍 体 g road 221 to the coated greenhouse structure 22 〇, indirectly to the temperature of the tap water system, and the open space side conduction temperature energy uniform temperature transmitter; the above-mentioned fluid official road 221 And the fluid pipeline 23 is separately connected to the open space, the fluid pipeline, such as the fluid inlet and outlet of the fluid #路231, and the optional device 124 can be selectively disposed or not provided as needed; For the operation of the electromechanical component or the solid-state electronic circuit component, or the micro-processing stolen and related tilting and manipulation interface, for the operator of the _ wire device (2); as shown in Figure 8, the new type 6 has a coating-like greenhouse Structure, indirectly to the building (four) other _ or half of the structure Space, a schematic diagram of the system of working secret fluids; this system includes 'the circumference of one section of the groundwater pipe (1)3 in the tap water system, and the cover-shaped greenhouse structure is 22〇, and the cover-like greenhouse structure is 22 The two end faces are closed, and the adjacent closed end face 1 is provided with at least one fluid population 218, and the fluid pipe work leading to the inner space of the closed or semi-closed structure of the building m, and the other end is provided with at least one fluid out π 219, and a fluid line 231 leading to the inner space of the closed or semi-closed structure of the building (10) for flowing in and out of the fluid of the gas or liquid, and the metering device 251 and the flow control can be set as required. 15 M415283 Installed 1] 23 to be driven by the power motor, driven by the power of the pump, β in the lion to the wire: the machine of the county or the fluid of the human 220, through the fluid line 22] Through the inner space of the closed structure of the coated greenhouse structure, the body pipe ^ ^ or other closed or semi-enclosed 220 is described in the periodic ° to the coated uniform temperature chamber, and the other - When moving, its W or other seals _ The Long Structure Road 231 leads to the building U0 covered uniform temperature chamber structure 220, with the second = pipeline - return to the 110 or other closed or semi-closed structure of the interior = 糸 t of the thermal energy, and the building The temperature transmitter, the above fluid pipelines 221 and 1::, for the indirect conduction of thermal energy building no or other closed or semi-closed structure [inside = 2 separate to the construction of the fluid pipeline, such as inquiry (four) σ, ==(10) and or not set; and subject to § § and filter device 124 - control device 250, iα device and related declination ^ or job 'electronic circuit components, or micro-processors; 'For the control of the fluid pumping device 123 as shown in Figure 9 is not the new (4) with a coated uniform temperature line structure, material: = = =: = side one _, Lai Wai two = including 'the groundwater in the water line Tube 1Q3 is surrounded by a slab-shaped greenhouse structure, and both sides of the cover-like greenhouse structure (10) are closed. At the end of the closed end face, at least one fluid population 218 is provided for the connection. a fluid line 221 of the outer space of the building, and at least one fluid outlet 219 at the other end for the card, 3, shame ,,. The official road 231' to the internal space of the enclosed or semi-closed structure of the building material 110 for the flow of people and the flow of gaseous or fluid, and 16 M415283
可依需要設置計量裝置251及流量控制閥252者;上述流體可藉 熱昇冷降效應作對流循環,或藉設置流體泵動裝置123以接受電 力馬達所驅動 '或其他機械能所驅動、或以人力所驅動,以在採 用單流向泵動時,泵動室外之流體或經流體管路221,及通過包 覆狀均溫室結構220,再經流體管路231通往建築物11〇或其他 封閉或半封閉結構之内部空間,以間接將自來水系統之溫能,與 建築物110或其他封閉或半封閉結構之内部空間,作間接傳導溫 能之均溫傳輸者;上述流體管路221供通聯室外空間,而流體管 路231為通往建築物11〇或其他封閉或半封閉結構之内部空間, 抓肢官路221及流體管路231之流體進出口,可依需要選擇性設 置過濾裝置124或不設置者; 时刼控裝置250:為由機電元件或固態電子電路元件、或微處理 克及相關軟體及操控介面所構成,以供操控越泵動裝置⑵之 運轉者; 如圖10所示為本新型設有包覆狀均溫室結構,以間接對開 放式空間,作封閉式流體循環之系統實施例示意圖;The metering device 251 and the flow control valve 252 may be provided as needed; the fluid may be convectively circulated by the heat rise and cold drop effect, or may be driven by the fluid pumping device 123 to be driven by the electric motor or other mechanical energy, or Driven by manpower, when pumping in a single flow direction, pumping fluid outside the fluid or through fluid line 221, and through the coated greenhouse structure 220, and then through the fluid line 231 to the building 11 or other The internal space of the closed or semi-closed structure is used to indirectly transfer the temperature energy of the tap water system to the internal space of the building 110 or other closed or semi-closed structure for the uniform temperature transfer of the indirect conduction temperature; the fluid line 221 is provided The outdoor space is connected, and the fluid line 231 is an internal space leading to the building 11 or other closed or semi-closed structure, the fluid inlet and outlet of the grabbing official road 221 and the fluid line 231, and the filtering device can be selectively set as needed. 124 or not set; time control device 250: is composed of electromechanical components or solid electronic circuit components, or micro-processing grams and related software and control interface for manipulation of the pump The operator of the set (2); as shown in Fig. 10 is a schematic diagram of a system embodiment with a covered greenhouse structure and an indirect open space for closed fluid circulation;
此項系,統包括,於自來水系統之地下水管103其中-段之周 圍設置包覆狀均溫室結構咖,包覆狀均溫室結構220之兩端面 -封閉’其鄰近封閉端面之一端設有至少一個流體入口 218,及 通往開放式空間之流體管路221,另—端設有至少一個流體出口 =,=開放式空間之流體管路如,以供流入及流出氣態或 ^之▲體’以及可依需要設置計量裝置251及流量控制閥252 ==可藉熱昇冷降效應作對流循環,或藉設置流_ 裝置以接受電力馬達所驅動 '或其他機械能所驅動、或以人 mu在知用早流向泵動時,系動通過包覆狀均溫室結構 220之流體,經流體管路功通往開放式空間之均溫裝置122, 17 M415283 再經流體官路231回流至包覆狀均溫室結構22〇 听 交換流向之林時,其中―栗動流向如前述,而於於_週期性 時,流體經流體管路231通往職式” 栗動流向 流體管路221回流至包覆肤1 _恤、置122,再經 心μ έ- 構咖,以間接將自來水系 統之溫裝置122與開放式空間 以糸 傳輸者;上述流體管路221及流體管路231 之均溫 空間所設置之姑裝置122者; 為各卿往開放式The system includes, in the tap water pipe 103 of the tap water system, a wrap-around greenhouse structure coffee is disposed around the segment, and the two sides of the wrap-around greenhouse structure 220 are closed - at least one end of the closed end face is provided at least a fluid inlet 218, and a fluid line 221 leading to the open space, and at the other end is provided with at least one fluid outlet =, = an open space fluid line, for example, for flowing into and out of the gas or the body of the ▲ And the metering device 251 and the flow control valve 252 can be set as needed. =The convection cycle can be performed by the heat rise and cold drop effect, or by the flow device _ device to be driven by the electric motor or other mechanical energy, or by human mu When it is known to use the early flow to pump, the fluid passing through the coated greenhouse structure 220 is flowed through the fluid pipeline to the open space uniform temperature device 122, 17 M415283 and then returned to the cladding through the fluid official road 231. The average greenhouse structure 22 〇 listens to the flow of the forest, wherein the “hip flow direction is as described above, and when the _ periodicity, the fluid passes through the fluid line 231 to the position”, the chestnut flow returns to the fluid line 221 to the package. Skin care 1 _ shirt, 122, and then through the heart έ 构 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Open for all
哭及相^^^^由機“件或目㈣子電路元^或微處理 «控介面輯成,—《域置123之 π物所示為本新型設有包覆狀均溫室結構,以間接對建 他封閉或半封閉結構之内部空間’作封閉式流體循環之 系統貫施例示意圖;Cry and phase ^^^^ by machine "piece or mesh (four) sub-circuit element ^ or micro-processing" control interface compilation, - "Zone-shaped 123 π object shown in this new type is covered with a greenhouse structure, to A schematic diagram of a systematic example of a closed-loop fluid circulation indirectly for the internal space of a closed or semi-closed structure;
此項系統包括’於自來水系統之地下水管103其中一段之周 ,設置包覆狀均溫室結構220,包覆狀均溫室結構220之兩端面 呈封閉:其鄰近封閉端面之—端設有至少-個流體入口 218,及 通在建梁物110封閉或半封閉結構之内部空間之流體管路功, 另端。又有至J —個流體出口 219 ,及通往建築物no封閉或半 封^結構内部”之流體管路231 ’以供流人及流出氣態或液態 之机體,以及可依需要設置計量裝置251及流量控制閥252者; 上述流體可藉熱$冷降效應作對錢環,祕設置流體泵動裝置 ι23以接文電力馬達所驅動、或其他機械能所驅動、或以人力所 驅動’以在採用單流向泵動時,泵動通過包覆狀均溫室結構22〇 之流體’經流體管路221通往標建築物11〇或其他封閉或半封閉 結構之内部空間之均溫裝置122,再經流體管路231回流至包覆 狀均溫室結構220,於採用週期性交換流向之泵動時,其中—泵 18 M415283 ^6-25 動流向如前述,而於另-科流向時,流體經流體管路 標建築物11G或其他封閉或半封騎構之内部空間 = 122,再經流體管路221回流至包覆狀均溫室結構22〇 自來水线之溫能,經触打m鱗秘UG或其他糾或 半封閉結構之㈣"’作間接溫能之均溫傳輸者;上述攻^ 物及流體管路231,為各別通往建築物ιι〇或其“ 封閉結構之内部空間所設置之均溫裝置122者; 或丰 ―:置=二機電元件或固態電子電路元件、或微處理 时及相關軟體及墟介面所構成,以供操控流體絲裝置 運轉者; & 此項藉自來水溫能作均溫之裝置,亦可於地下或地上 水管路並般置藉溫能傳導結構,如料餘結構叫目 此之輔助均溫管路,以供流過通往標的物或標輕間之另 =流體,以間接將自來水管路内部水流之溫能,與標二 b的空間作均溫傳輸者。 如圖12所示為本新型設有與自來水管並列之輔助均 =;,以間接對開放式空間作開放式泵送流體之系統實施例示意 此項系統絲自來水㈣之地下水flG3m尸之周 邊並列設置至少—射相互傳m之輔助均溫管路222Γ兩: 可依需要製成為共構體,或為相互聯結之結構以利於傳輪溫能, 或在兩者之間設置導熱翼狀結構223或其他導熱體結構或熱管裝 置’以間接將自來水线之地下水管1G3内部水流之溫能,愈輔 助均溫管路222内部之碰作間接之溫能傳輪者,_均溫管路 2之兩端設有至少—個流體人° 218,及通往職式空間之流 "路221,另—端妨至少—個流體出口 219,及通往開放式 19 M415283The system includes a perimeter of one of the sections of the groundwater pipe 103 of the tap water system, and a wrap-around greenhouse structure 220 is provided. The two ends of the wrap-around greenhouse structure 220 are closed: at the end adjacent to the closed end face - at least - A fluid inlet 218, and a fluid line work through the internal space of the closed or semi-closed structure of the beam 110, the other end. There is also a fluid line 231 ' to the J-shaped fluid outlet 219 and to the inside of the closed or half-sealed structure of the building for the flow of people and the body of the gas or liquid, and the metering device can be provided as needed 251 and the flow control valve 252; the above fluid can be used as a money ring by the heat of the cold drop effect, and the fluid pumping device ι23 is driven by the electric motor, or other mechanical energy, or driven by human power. In the case of single-flow pumping, the pumping is carried out through the fluid-like means 122 of the inner space of the standard building 11〇 or other closed or semi-closed structure through the fluid-like structure 22 of the coated greenhouse structure. Then, the fluid line 231 is returned to the coated greenhouse structure 220, and when pumping is performed by the periodic exchange flow, the pump 18 M415283^6-25 is moved as described above, and in the other direction, the fluid is flowing. Through the fluid pipe road sign building 11G or other closed or half-sealed internal space = 122, and then returned through the fluid line 221 to the coated greenhouse structure 22 〇 tap water temperature, by tapping m scale secret UG Or other correcting or semi-closed structure (d) " 'for the average temperature of the indirect warmth; the above-mentioned attack and fluid line 231, for each of the building to the building ιι〇 or its "enclosed structure of the internal space of the uniform temperature device 122; or丰-: Set = two electromechanical components or solid-state electronic circuit components, or micro-processing and related software and market interface for the operation of the fluid wire device; & this device can be used for temperature equalization by tap water temperature, It is also possible to use a temperature-conducting structure in the underground or above-ground water pipeline, such as the auxiliary structure, which is called the auxiliary temperature-equalizing pipeline for flowing through the other fluid to the target or standard light, indirectly. The temperature energy of the water flow inside the tap water pipe is equal to the space of the standard b b. As shown in Fig. 12, the present invention is provided with an auxiliary device in parallel with the water pipe; the system embodiment for indirectly opening the pump to the open space is shown in the vicinity of the groundwater flG3m body of the system tap water (4) The auxiliary temperature equalizing pipelines 222 Γ 至少 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : 223 223 223 223 223 223 223 223 223 223 Or other heat-conductor structure or heat pipe device's indirect heat flow of the internal water flow of the 1G3 of the underground water pipe, and the inside of the auxiliary temperature-warming pipe 222 acts as an indirect warm energy transferer, _ uniform temperature pipeline 2 At least one fluid person 218 at both ends, and the flow to the job space " road 221, another - at least one fluid outlet 219, and open to the open 19 M415283
空間之流體管路231,以供流入及流出氣態或液態之流體,以及 可依需要設置計量裝置251及流量控制閥252者;上述流體可藉a fluid line 231 for space to flow into and out of a gaseous or liquid fluid, and a metering device 251 and a flow control valve 252 may be provided as needed;
熱昇冷降效應作對流循環,或藉設置流體泵動裝置123以接受電 力馬達所驅動、或其他機械能所驅動、或以人力所驅動,以在採 用單流向泵動時,泵動通過輔助均溫管路222之流體,經流體管 路221通往開放式空間,開放式空間之流體流經流體管路231回 "il至輔助均溫管路222,於採用週期性交換流向之泵勤時,其中 泵動流向如前述,而於另一泵動流向時,流體經流體管路231 通往開放式空間,開放式空間之流體流經流體管路221回流至輔 助均溫官路222,以間接將自來水系統之溫能,與開放式空間作 間接傳導溫能之均溫傳輸者;上述流體管路221及流體管路 23i,為各別通往開放式空間,流體管路221及流體管路231之 流體進出口,可依需要選擇性設置過濾裝置124或不設置者; :操控裝置250 :為由機電元件或固態電子電路元件、或微處理 及相關軟體及操控介面所構成,以供操控流體泵動裝置123之 運轉者; β 13所示為本新型設有與自來水管並列之辅助均温管 ’以間接對建築物或其他封閉或半封閉結構之内部空間作開放 式泵送流體之系統實施例示意圖; 此項系統為將自來水系統之地下水管1〇3,於其中—段之周 邊並二设置至少—個可相互傳輸溫能之辅助均溫管路222,兩者 :二:製成:共構體’或為相互聯結之結構以利於傳輪溫能, 置,以導熱翼狀結構223或其他導熱體結構或熱管裝 助均溫;==㈣W1G3内部水流之溫能,與輔 -之兩H 體作間接之溫能傳輸者,輔助均溫管路 U至少-個流體入口加,及通往建築物110封閉 20 ίΐ封閉結構之内部空間之流體管路221,另-端設有 士 — 19及通往建条物11〇封閉或半封閉結構之内部空間 •體s路23卜以供流人及流出氣態或液態之流體,以及可依 二=計量裝置251及流量控制閱252者;上述流體可藉熱昇 7 '應作對流循環,或籍設置流體泵動裝置123以接受電力馬 =所動、或其他機械能所驅動、或以人力_動,以在採用單 流向泵$時,泵動通過輔助均溫管路222之流體,經流體管路221 建水物11G或其他封閉或半封閉結構之内部空間,再經流體 官路231回流至輔助均溫管路222,於採用週期性交換流向之栗 =,其中-泵動流向如前述,而於另—泵動流向時,流體經流 體官路况通往建築物11〇或其他封閉或半封閉結構之内部空 間:再經流體管路221回流至輔助均溫管路222,以間接將自來 水糸統之溫能’與建築物則或其他封閉解封閉結構之内部空 間,作間接傳導溫能之均温傳輸者;上述流體管路功及流體管 路2M ’為各別通往建築物11〇或其他封閉式結構之内部空間, 流體管路221及流體管路231之流體進出口,可依需要選:性設 置過濾裝置】24或不設置者; -操控裝置25〇:為域電元件朗態電子電路元件、或微處理 器及相關倾及難介面所構成,以供操控流岐 | 運轉者;The heat rise and cold drop effect is used as a convection cycle, or by providing a fluid pumping device 123 to be driven by an electric motor, or driven by other mechanical energy, or driven by a human being, so that when a single flow pump is used, the pumping is assisted. The fluid of the temperature equalizing pipe 222 leads to the open space through the fluid pipe 221, and the fluid of the open space flows back through the fluid pipe 231 to the auxiliary temperature equalizing pipe 222, and the pump is used for the periodic exchange flow direction. During the diligence, wherein the pumping flow is as described above, and in the other pumping direction, the fluid passes through the fluid line 231 to the open space, and the fluid of the open space flows back through the fluid line 221 to the auxiliary equalizing temperature path 222. Indirectly, the temperature energy of the tap water system and the open space are used as the average temperature transmitter for indirect conduction of temperature energy; the fluid line 221 and the fluid line 23i are respectively connected to the open space, the fluid line 221 and The fluid inlet and outlet of the fluid line 231 can be optionally provided with a filtering device 124 or not provided; the operating device 250 is composed of an electromechanical component or a solid electronic circuit component, or a microprocessor and related software and a manipulation interface. Constructed for the operator of the fluid pumping device 123; shown in Fig. 13 is a new auxiliary temperature equalizing pipe provided in parallel with the water pipe to open indirectly to the interior space of a building or other closed or semi-closed structure Schematic diagram of a system for pumping fluid; the system is a groundwater pipe of the tap water system 1〇3, and at least two peripheral temperature pipes 222 for mutually transmitting temperature energy are disposed in the periphery of the segment. 2: Fabrication: Co-construction' or interconnected structure to facilitate the transfer of warm energy, set, with the heat-conducting wing structure 223 or other thermal structure or heat pipe to help the average temperature; == (4) W1G3 internal water flow The warm energy, and the auxiliary H-body are used as the indirect warm energy transmitter, the auxiliary temperature-equalizing pipe U is at least one fluid inlet, and the fluid line 221 leading to the building 110 is closed to the internal space of the closed structure. The other end is equipped with a sho- 19 and an internal space leading to the closed or semi-closed structure of the building 11. The body s road 23 is used for the flow of people and the flow of gaseous or liquid fluid, and the 251 and flow control read 252; the above flow The heat rise 7' should be used for convection circulation, or by setting the fluid pumping device 123 to receive electric power, or other mechanical energy, or by manpower, to use the single flow pump $ The fluid passing through the auxiliary temperature equalizing pipe 222 is moved through the fluid pipe 221 to build the inner space of the water 11G or other closed or semi-closed structure, and then returned to the auxiliary temperature equalizing pipe 222 via the fluid official road 231 for periodicity. Exchange flow direction of the pump = where - the pump flow direction as described above, and in the other - pump flow direction, the fluid through the fluid official road conditions to the interior of the building 11 or other closed or semi-closed structure: through the fluid pipeline 221 is returned to the auxiliary temperature equalizing pipe 222 to indirectly transfer the temperature energy of the tap water system to the internal space of the building or other closed deblocking structure for the indirect conduction temperature energy uniform temperature transfer; And the fluid line 2M 'is the internal space of the building 11 〇 or other closed structure, the fluid inlet and outlet of the fluid line 221 and the fluid line 231, and can be selected as follows: Not set; - manipulation 25〇 set: an electronic circuit for the electric field elements as Long state, or microprocessor and related interface difficult and poured constituted, for flow control manifold | operation by;
如圖U所示為本新型設有與自來水管並列之辅助均以 路,以由外部引人流體間接對建築物或其他封閉解=之 内部空間作開放式泵送流體之系統實施例示意圖,· D 此項系統為將自來水系統之地下水管103,於其中氏 邊並列設4至少-個可相互傳輸溫能之細均溫f路功段3 可依需要製成為共構體,或為相互聯結之結構以利於傳輸溫能, M415283As shown in Fig. U, the present invention is a schematic diagram of an embodiment of a system in which an auxiliary pumping path is provided in parallel with a water pipe, and an open pumping fluid is indirectly applied to an internal space of a building or other closed solution by an externally-introduced fluid. · D This system is a groundwater pipe 103 of the tap water system, which is juxtaposed on the side of the middle of the river. 4 At least one fine-averaged f-power segment 3 capable of transmitting thermal energy to each other can be made into a commensal or as a mutual Connected structure to facilitate the transmission of warm energy, M415283
置’以間接將自來水系統之地下水管103内部水流之溫能,與輔 助均溫官路222内部之越側接之溫能傳輸者,伽均溫管路 222之一端設有至少—個流體入口 218,流體管路22ι聯通室外 空間,另一端設有至少一個流體出口 219,及通往建築物H0封 閉或半封’構之内部空間之流體管路231,以供流通氣態或液 態之流體,以及可依需要設置計量裝置251及流量控制閥252 者’上述流ϋ可藉熱昇冷降效應作對流循環,或藉設置流體果動 裝置123以接受電力馬達所驅動、或其他機械能所驅動' 或以人 斤驅動以在採用單流向泵動時,泵動室外之流體經流體管路 221通過輔助均溫管路222之流體,再經流體管路通往建築 物110或其他封閉或半封閉結構之内部空間,以間接將自來水系 統之溫能,與建築物UG或其他封閉或半封閉結構之内部空間^ 作間接傳導溫能之均溫傳輸者;上述流體管路221供聯通室外空 間’流體官路231為通往建築物110或其他封閉式結構之内部空 ]机體s路221及流體管路〉31之流體進出口,可依需要 性設置過親置124或不設置者; 、 / _控裝置25〇 :為由機電元件或固態電子電路元件、或 微處理器及相關軟體及操控介面所構成,以供操控流體 晋 123之運轉者; 策童 S 15所示為本新型設有與自來水管並列之輔助均溫您 I以間接對開放式空間作封閉式流體循環之系統實施例= 邊並列設置至少一個可木 可依需要製成為共構體, 此項系統為將自來水系統之地下水管1〇3,於其中 個可相互傳輸溫能之輔助均溫管路22 構體,或為相互聯結之結構以利於傳輪溫能, 22 M415283 6. 2 5The warm energy transmitter that indirectly connects the internal water flow of the underground water pipe 103 of the water supply system to the inside of the auxiliary uniform temperature official road 222 is provided with at least one fluid inlet at one end of the gamma temperature heating pipe 222. 218, the fluid line 22 is connected to the outdoor space, the other end is provided with at least one fluid outlet 219, and a fluid line 231 leading to the closed or semi-closed internal space of the building H0 for the flow of a fluid or liquid fluid, And the metering device 251 and the flow control valve 252 can be provided as needed. The above-mentioned flow can be convectively circulated by the heat rise and cold drop effect, or driven by the fluid motor 123 to be driven by the electric motor or other mechanical energy. ' Or driven by a person to pump, when pumping with a single flow, the fluid outside the pumping chamber passes through the fluid line 221 through the fluid of the auxiliary temperature equalizing line 222, and then through the fluid line to the building 110 or other closed or half The internal space of the enclosed structure, indirectly transmitting the temperature energy of the tap water system to the internal space of the building UG or other closed or semi-closed structure as the average temperature of the indirect conduction temperature energy; Road 221 is used for the outdoor space of the Unicom outdoor space 'The fluid official road 231 is the internal air to the building 110 or other closed structure.> The fluid inlet and outlet of the body 221 and the fluid pipeline>31 can be set according to the needs. 124 or not set; / / _ control device 25 〇: for the electromechanical components or solid state electronic circuit components, or microprocessor and related software and control interface, for the manipulation of fluids 123 operators; Figure 15 shows the system with the auxiliary equalization temperature in parallel with the water pipe. In the case of indirect open-loop fluid circulation in the open space, the system is in parallel with at least one wood can be made into a common body. The system is a groundwater pipe of the tap water system 1〇3, in which one of the auxiliary temperature-equalizing pipes 22 can transmit heat energy to each other, or a structure connected to each other to facilitate the transfer wheel temperature, 22 M415283 6. 2 5
或在兩者之間設置導熱翼狀結構223或其他導熱體結構或熱管裝 置,以間接將自來水系統之地下水管103内部水流之溫能,與辅 助均溫管路222内部之流體作間接之溫能傳輸者,辅助均溫管路 222之兩端設有至少一個流體入口 218,及通往開放式空間之流 體管路221,另一端設有至少一個流體出口 219 ,及通往開放式 卫間之流體管路231,以供流入及流出氣態或液態之流體,以及 可依需要設置計量裝置251及流量控制閥252者;上述流體可藉 熱昇冷降效應作對流循環,或藉設置流體泵動裝置123以接受電 力馬達所驅動、或其他機械能所驅動 '或以人力所驅動,以在採 用單流向泵動時,泵動通過輔助均溫管路222之流體,流體管路 221通往開放式空間之均溫裝置122,再經流體管路“I回流至 辅助均溫管路222,於採用週期性交換流向之泵動時,其中一栗 動机向如刚述,而於另一泵動流向時,流體經流體管路231通往 =放式空間之均溫裝置122,再經流體管路221回流至輔助均溫 吕路222 ’ μ間接將自來水系統之溫能,經均溫裝置⑵Or a heat conducting wing structure 223 or other heat conductor structure or heat pipe device is disposed between the two to indirectly indirectly heat the water flow inside the underground water pipe 103 of the water supply system and the fluid inside the auxiliary temperature equalizing pipe 222 The transmitter can be provided with at least one fluid inlet 218 at both ends of the auxiliary temperature equalizing pipe 222, and a fluid line 221 leading to the open space, at least one fluid outlet 219 at the other end, and to the open bathroom. a fluid line 231 for flowing in and out of a gaseous or liquid fluid, and a metering device 251 and a flow control valve 252 may be provided as needed; the fluid may be convectively circulated by a heat rise and cold drop effect, or a fluid pump may be provided The moving device 123 is driven by the electric motor or driven by other mechanical energy or driven by human power to pump the fluid passing through the auxiliary equalizing line 222 when the single flow pumping is used, and the fluid line 221 leads to The open space uniform temperature device 122 is then returned to the auxiliary equalization temperature line 222 via the fluid line "I", and when the pump is moved by the periodic exchange flow, one of the motives is as described below. When another pump moves, the fluid passes through the fluid line 231 to the equalization device 122 of the discharge space, and then flows back to the auxiliary uniform temperature Lulu 222 ' by the fluid line 221 to indirectly control the temperature of the tap water system. Temperature equalizing device (2)
=間接傳導溫能之傳輸者;上述流體管路221及流體= 者/·騎住作為標的物之開放式空間所設置之均溫装置122 ^裝i 25…為由機電元件或固態電子電路元件 益及相關赴β 4。 X微處 運轉者; %控介面所構成,以供操控流體泵動裝置123 路,rm所示為本新型設有與自來水管並列之輔助均⑺ 式流體私他關辭賴結構之_空間; <糸統貫施例示意圖; 邊廿&、纟4為將自來H狀地下水管1G3,於其中 邊並列设置至,丨、— τ ί又之 了相互傳輸溫能之輔助均溫管路222,兩 23 置’《間接將自來水系統之地下水管或熱管裝 助均溫管路222内部之流體作間接之溫能傳輸者",=能’與辅 也之兩端設有至少—個流體入d 218 ^均溫官路 或半封閉結構之内部空間之流體管路221 ^建Γ物110封閉 流體出口⑽,及通往建築物110封閉朗=有至少一個 =频管路=,以供流入及流出氣態或液態二=之=,間 而要叹置指裝置251及流量控 了依 冷降效應作對流循環,或藉設置流體^,,上錢體可藉熱昇 達所驅動、或—7 '"置123以接受電力馬 ^ ^ / 能所驅動、或以人力所鶴,以在操用。。 机向泵動時,系動通過辅助均溫管路222之 /缺用早 通往建築物ug或其峨樹梅構之官路221 ⑵,於採用週期性交換流向之栗動時^溫裝置 而於另-栗動流向時,流髓經流體管路攻=响如前述, 拉,或經流體管路231通往建筚物u=^輪助均溫管路 構之内部空間之均溫裝置122建===,閉或半封閉結 溫管物,以間接將自來水系統之二=:=均 築物U0或其他封閉或半封閉結構之内部二 溫紙上_管路221及_:::=之均 110或其他封閉4 + 31各別通往建%物 -_::::=:=r:r :;一介-一操::裝=: 管設=;=r:r亦―地上自“ 疋狀_'、、。構之包覆狀均溫室結構,以供流過通往 M415283 ,的物或標的空間之另-氣態或液態流體,以間接將自.Ϊ水6管f 部水流之溫能與標的物或標的空間作均溫傳輸者; . b如圖17麻為本新型設置内具職狀隔離結構之包覆狀均 1室結構’以對開放式空間作開放式系送流體之系統實施例示意 rsj · - 園, . 此項系統包括,於自來水系統之地下水管103其中-段之周 SI4置内具職狀隔離結構之包覆狀均溫室結構24G,内具職 . 狀隔離結構之包覆狀均溫室結構24G之兩端面呈封閉.,其鄰近封 ^ 閉、面之一端設有至少—個流體入口 218,及通往開放式空間之 /績g路22卜另-端設有至少一個流體出口 219,及通往開放 式工間之*體官路2M ’以供流入及流出氣態或液態之流體,以 =可,需要設置計量裝置2S1及流量控制閥Μ2者;上述流體可 藉熱幵冷降效應作對流循環,或藉設置流體泵動裝置⑵以接受 電力=達所驅動、或其他機械能所驅動、或以人力所驅動,以在 才木用單机向泵動時’内具螺旋狀隔離結構之包覆狀均溫室結構 240之" ’經流體官路221通往開放式空間,開放式空間之流 . 體經流體管路231回流至内具螺旋狀隔離結構之包覆狀均溫室結 構240則木用週期性交換流向之果動時,其中一果動流向如前 逑’而於另-泵動流向時,流體經流體管路231通往開放式空間, 開放式工間之流體經流體管路221回流至内具螺旋狀隔離結構之 匕覆狀均皿至結構24G ’以間接將自來水系統之溫能,與開放式 空間f間接傳導溫能之均溫傳輸者;上述流體管路221及流體管 路為各別通往開放式空間,流體管路221及流體管路扭 之/錄進出口,可依需要選擇性設置過遽裝置以或不設置者; 250 ·為由機電元件或固態電子電路元件、或微處理 器’及相關軟體及操控介面所構成,以供操控流體录動裝置123之 25 運轉者; ^G. 2, —如圖18所不為本新哲設置内具螺旋狀隔離結構之包覆狀均 皿至結構’以間接對建築物或其他封閉或半㈣結構之内部空 間’作開放式泵送流n'統實施例示意圖; A圖18所示中’包括:於自來水系統之地下水管103其中一 &之周SU置内具螺旋狀隔離結構之包覆狀均溫室結構,内 具螺旋狀隔離結構之包覆狀均溫室結構240之兩端面呈封閉,其 鄰近封閉端面之-端設有至少—贿體人口 218,及通往建築物 別封閉或半封閉結構之内部空間之流體管路22卜另一端設有 至少一個流體―219,及通往建築物11G封閉或半封閉結構之 内部空間之流體管路231,以供流人及流出氣態或液態之流體, ⑽可依需要設置計量裝置251及流量控制閥252者;上述流體 可藉熱汁冷降效應作對流循環,或藉設置流體絲裝置123以接 受電力,達所驅動、或其他機械能所軸、或以人力所驅動,以 在採用單流向絲時,泵動通過内具微狀隔離結構之包覆狀均 溫室結構240之流體,經流體管路221通往建築物】1〇或其他封 閉或半封閉結構之内部空間,再經流體管路231回流至内具螺旋 狀隔離結構之包覆狀均溫室結構240,於採用週期性交換流向之 泵動時,其中-絲流向如前述,而於另—泵動流向時,流體經 流體管路231通往建築物110或其他封閉或半封閉結構之内部空 間,再經流體管路221回流至内具螺旋狀隔離結構之包覆狀均: 室結構240 ’以間接將自來水系统之溫能,與建築物削或其他 封閉或半封職構之内部空間,作間接傳導溫能之均溫傳輪者; 上述流體管路221及流體管路別,為各別通往建築物11〇或其 他封閉或半封閉結構之内部空間,流體管路221及流體管路2^ 之流體進出口,可依需要選擇性設置過濾裝置ί24或不設置者,· 26 M415283 6 Ο ς --操控!置250:為由機電元件或固態電子電路元件、或微處理 器及相關軟體及操控介面所構成,以供操控流舰動裝置123之 運轉者; ' 如圖19所示為本新型設置内具螺旋狀隔離結構之包覆狀均 溫室結構’以由外部引人频間麟賴物或其他糊或半封閉 結構之内部空間,作開放式紐流體之魏實施例示意圖; 圖19所示中,包括:於自來水系統之地下水管ι〇3其中— 段之周圍設置内具螺旋狀隔離結構之包覆狀均溫室結構24〇,内 具螺旋狀隔離結構之包覆狀均溫室結構24〇之兩端面呈封閉,其 鄰近封閉端面之-端設有至少—個趙人口 218,供聯結通往建 築物外部空間之流體管路221,另一端設有至少—個流體出口 219,供聯結通往建築物11〇封閉或半封閉結構之内部空間之流 體管路231 ’以供流入及流出氣態或液態之流體,以及可依需要 設置計量裝置251及流量控制閥252者;上述流體可藉熱昇冷降 效應作對流循環,或藉設置流體泵動裝置123以接受電力馬達所 驅動、或其他機械能所驅動、或以人力所驅動,以在採用單流向 果動時果動至外之流體或經流體官路221,及通過内具螺旋狀 隔離結構之包覆狀均溫室結構240,再經流體管路231通往建築 物110或其他封閉或半封閉結構之内部空間’以間接將自來水系 統之溫能’與建築物110或其他封閉或半封閉結構之内部空間, 作間接傳導溫能之均溫傳輸者;上述流體管路221供通聯室外空 間,而流體管路231為通往建築物110或其他封閉或半封閉結構 之内部空間,流體管路221及流體管路231之流體進出口,可依 需要選擇性設置過濾裝置124或不設置者; —操控裝置250:為由機電元件或固態電子電路元件、或微處理' 器及相關軟體及操控介面所構成,以供操控流體泵動裝置123之 27 M415283 運轉者; Μ 6. 2 如圖2G所不為本新型設置内具螺旋狀隔離結構之包覆狀均 溫室結構’關接_放式空間’作封閉式流體循環之系統實施 例示意圖; . π曰术水糸統之地下水管1〇3其中一 奴之周圍設置内具螺旋狀隔離結構之包覆狀均溫室結構,内= indirect conduction of heat energy transmitter; the above fluid line 221 and fluid = / / riding the open space of the object as the object of the temperature equalizing device 122 ^ i 25 ... by electromechanical components or solid state electronic circuit components Benefit and related to go to β 4. The operator of the X micro-port; the % control interface is configured to control the fluid pumping device 123, and the rm shows that the new type of space is provided with the auxiliary structure of the auxiliary fluid (7). <糸 贯 施 示意图 ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Road 222, two 23 sets 'Indirectly, the underground water pipe or heat pipe of the tap water system is installed as the indirect temperature energy transfer of the fluid inside the temperature equalizing pipe 222", = can and at least have two ends at the auxiliary Fluid into the fluid line 221 of the internal space of the d 218 ^ average temperature official road or semi-closed structure ^ The building material 110 closes the fluid outlet (10), and leads to the building 110 closed lang = there is at least one = frequency pipeline =, In order to flow into or out of the gas or liquid two =, between the sigh of the device 251 and the flow control according to the cooling effect for the convection cycle, or by setting the fluid ^, the upper body can be driven by the heat rise , or —7 '"Set 123 to accept electric horse ^ ^ / can be driven, or by manpower Crane, in the operation. . When the machine is pumping, it is driven by the auxiliary temperature equalizing pipe 222/missing to lead to the building ug or its eucalyptus plum road 221 (2), when using the periodic exchange flow direction In the case of another - chest motion, the flow of the fluid through the fluid pipeline is ringing as described above, pulling, or passing through the fluid line 231 to the building material u = ^ the average temperature of the internal space of the wheel-assisted temperature-conducting pipeline structure The device 122 is constructed ===, closed or semi-closed junction temperature pipe, indirectly to the tap water system 2 =: = uniform U0 or other closed or semi-closed structure on the internal temperature paper _ line 221 and _:: :=The average of 110 or other closed 4 + 31 each to build %--::::=:=r:r :; one - one operation:: loading =: management =; = r: r also ―On the ground, from the shape of the 疋 _ 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 f The temperature of the water flow and the target object or the standard space for the uniform temperature transmission; b. Figure 17 is the new type of the cover structure with a service isolation structure, which is open to the open space. System system for delivering fluid Italian rsj · - Park, . This system includes the underground water pipe 103 of the water system. The SI4 of the water supply pipe is surrounded by a four-dimensional structure with a covered structure. The greenhouse structure is 24G, which has a service. The two ends of the covered greenhouse structure 24G are closed. The adjacent ends of the cover are provided with at least one fluid inlet 218 at one end, and the at least one end of the open space is provided with at least one end. a fluid outlet 219, and a body passage 2M' to the open workshop for flowing in and out of a gaseous or liquid fluid, to be able to set the metering device 2S1 and the flow control valve Μ2; The enthalpy cooling effect is used as a convection cycle, or by providing a fluid pumping device (2) to receive electric power = driven by driving, or other mechanical energy, or driven by manpower, when the single machine is pumped to the wood. The wrap-around greenhouse structure 240 with a spiral isolation structure is connected to the open space through the fluid official road 221, and the open space flow. The fluid flow through the fluid line 231 is returned to the spiral isolation structure. Covered greenhouse structure 240 for wood When the periodic exchange flow is moving, one of the fluid flows toward the front and the other flows toward the open space, and the fluid passes through the fluid line 221 through the fluid line 221 Reflowing to the inner cover of the spiral isolation structure to the structure 24G' to indirectly transfer the temperature energy of the tap water system and the indirect conduction temperature of the open space f; the fluid line 221 and the fluid tube The roads are each open to the open space, the fluid line 221 and the fluid line are twisted/recorded to the inlet and outlet, and the device can be selectively set or not provided as needed; 250 · Electromechanical components or solid state electronic circuits The component, or the microprocessor', and the associated software and control interface are configured to operate the 25 operators of the fluid recording device 123; ^G. 2, - as shown in Fig. 18, the spiral is isolated in the present invention. Schematic diagram of the structure of the coated vessel to the structure 'indirectly to the internal space of the building or other closed or semi-four structure" as an open pumping flow n' embodiment; A shown in Figure 18 'includes: in tap water One of the groundwater pipes 103 of the system The circumferential SU of the & is provided with a sheath-like greenhouse structure with a spiral isolation structure, and the outer surface of the greenhouse structure 240 having a spiral isolation structure is closed, and at least the end of the closed end face is provided at least - a bribe population 218, and a fluid line 22 leading to an internal space of a closed or semi-closed structure of the building, at least one fluid - 219 at the other end, and an internal space leading to a closed or semi-closed structure of the building 11G a fluid line 231 for flowing a person and discharging a fluid in a gaseous or liquid state, (10) a metering device 251 and a flow control valve 252 may be provided as needed; the fluid may be convectively circulated by a hot juice cold drop effect, or by a fluid The wire device 123 is driven by electric power, driven by a drive or other mechanical energy, or manually driven to pump through a wrap-around greenhouse structure 240 having a micro-isolation structure when a single flow wire is used. The fluid passes through the fluid line 221 to the interior space of the building or other closed or semi-closed structure, and then flows back through the fluid line 231 to the wrap-around greenhouse structure 240 with the spiral isolation structure. When the pumping is performed by the periodic exchange flow, the flow of the wire is as described above, and in the case of the other pumping flow, the fluid passes through the fluid line 231 to the internal space of the building 110 or other closed or semi-closed structure, and then The fluid line 221 is recirculated to the inner shape of the spiral isolation structure: the chamber structure 240' indirectly transmits the temperature energy of the tap water system to the internal space of the building or other closed or half-closed structure. The average temperature transmitter of the warm energy; the fluid pipeline 221 and the fluid pipeline are the internal spaces of the 11通往 or other closed or semi-closed structures, the fluid pipeline 221 and the fluid pipeline 2^ The fluid inlet and outlet can be optionally set to filter device ί24 or not set, · 26 M415283 6 Ο ς -- control! 250: is composed of an electromechanical component or a solid state electronic circuit component, or a microprocessor and related software and a manipulation interface for manipulating the operator of the flow ship moving device 123; ' The wrap-around greenhouse structure of the spiral isolation structure is a schematic diagram of an embodiment of an open-type neofluid with an internal space that is externally introduced into the inter-frequency or other paste or semi-closed structure; Including: in the groundwater pipe of the water system ι〇3, the surrounding of the section is provided with a sheath-like greenhouse structure with a spiral isolation structure of 24 inches, and a sheath-like greenhouse structure with a spiral isolation structure. The end face is closed, and at least the end of the closed end face is provided with at least one Zhao population 218 for connecting the fluid line 221 leading to the outer space of the building, and the other end is provided with at least one fluid outlet 219 for connecting to the building. The fluid line 231' of the inner space of the closed or semi-closed structure for flowing into and out of the fluid in a gaseous or liquid state, and the metering device 251 and the flow control valve 252 may be provided as needed; The fluid can be convectively circulated by the heat rise and cold drop effect, or by the fluid pumping device 123 to be driven by the electric motor, or driven by other mechanical energy, or driven by manpower, to move when a single flow is used. The fluid to the outside or through the fluid official road 221, and through the coated greenhouse structure 240 with a spiral isolation structure, and then through the fluid line 231 to the interior space of the building 110 or other closed or semi-closed structure ' Indirectly transferring the temperature energy of the tap water system to the internal space of the building 110 or other closed or semi-closed structure for the indirect conduction temperature energy; the fluid line 221 is for communicating with the outdoor space, and the fluid line 231 In order to access the internal space of the building 110 or other closed or semi-closed structure, the fluid inlet and outlet of the fluid line 221 and the fluid line 231, the filtering device 124 may be selectively disposed or not provided as needed; Constructed by electromechanical components or solid state electronic circuit components, or microprocessors and associated software and control interfaces for manipulating the fluid pumping device 123 of the M415283 operator; 6. 2 as shown in Fig. 2G is a schematic diagram of a system embodiment of a closed-type fluid circulation in which a wrap-around greenhouse structure with a spiral isolation structure is provided as a closed-type fluid circulation; The underground water pipe 1〇3 is surrounded by a spiral structure with a wrap-around greenhouse structure inside.
具螺旋狀隔離結構之包覆狀均溫室結構24〇之兩端面呈封閉其 =封閉端:之—端設有至少—個流體入口 218,及通往開放式 Γ曰之流體官路221,另—端設有至少一個流體出口 219,及ii =開放式空間之流體管路231,以供流入及流出氣態 2以及可依需要設置計量裝置251及流量嫌細者;上述 降效應作對流循環,或藉設置流體泵動裝置123 動或其他機械能所轉、或以人力所驅 覆狀m:’ ^時’泵動通勒具職狀隔離結構之包 ==Γ體,料鮮路221物极式空間之The two sides of the cover-shaped greenhouse structure having a spiral isolation structure are closed. The closed end: the end is provided with at least one fluid inlet 218, and the fluid passage 221 leading to the open crucible. - at least one fluid outlet 219, and ii = open space fluid line 231 for inflow and outflow of gas 2 and metering device 251 and flow impregnation may be provided as needed; Or by setting the fluid pumping device 123 to move or other mechanical energy, or to be driven by manpower m: ' ^ when 'pumping the package with the service isolation structure == Γ body, material fresh road 221 things Extreme space
包覆狀均溫室結構_,= = 朗具螺旋狀隔離結構之 —泵動流向如前述,而巧=性父換流向之絲時,其令 =_構之包覆狀均溫室結構,以_ 之血月b,經均溫裝置122鱼 ^目爪水糸統 輸者;上—路221及溫能之均溫傳 間所設置之均溫裝置122者; ’為各別通往開放式空 —#控技250:為由機電元件或_電子 益及相關軟體及馳介面所 ^、或微處理 運轉者: 供知控"丨L租痕動裝置123之 28 0 如圖 9l _ 6· 2 溫室心為本新型妓祕觀狀_結構之包覆狀均 間,軸以間接對建築物或其他封閉或半封閉結構之内部空 閉式流體循環之系統實施例示意圖; 段之所示卜包括··於自來水系統之地下水管⑻其中- 具螺内具螺旋狀隔離結構之包覆狀均溫室結構240,内 鄰近二^離結構之包覆狀均溫室結構24G之兩端面呈封閉,其 U0 之—端設有至少—個流體人D 218,及通往建築物 、才或半封閉結構之内部空間之流體管路221,另—端 個流體出σ 219,及通往建築物m封閉或半封閉結ς内 。工間之流體管路231,以供流入及流出氣態或液態之流體,以 及可依需要設置計量裝i 251及流量控制間252者;上述流體可 藉熱昇冷降效應作對流循環,或赦置流奴動裝置123以接受 電力馬達賴動、或其他機械賴驅動' 或从力所驅動,以在 採用單流向泵動時’泵動通過内具螺旋狀隔離結構之包覆狀均溫 室結構24〇之流體,經流體管路功通往標建築物UQ或其他: 閉或半封閉結構之内部空間之均溫裝置122,再經流體管路加 回流至内具職狀隔離結構之包餘均溫室結構施,於採 期性交換流向之泵動時,其中—泵動流向如前述,而於另一泉動 流向時’流體、經流體管路231通往標建築物1H)或其他封閉或半 封閉結構之内部空間之均溫裝置122,再經流體管路221回流至 内具螺把狀Pw離、-構之包覆狀均溫室結構2 4 q以間接將自來水系 統之溫能’經均糾置122與建築物⑽或其他封賊半封閉二 構之内部空間,作間接溫能之均溫傳輸者;上述流體管路221: 流體官路231,為各別通往建築物⑽或其他封閉或半封閉 之内部空間所設置之均溫裝置122者; —操控裝i25G:為由機電科或固態電子電路元件、或微處理 29 M415283 運轉者; 器及相關㈣及操控介面所構成,叫餘频1=3 2 本新型各實關所狀㈣泵崎置⑵可 體泵動裝置或雙向料之流H動裝置 。,达之流 中: /、 種所構成,其 —設置之流體泵動裝置123為單向泵送功能,設 設置於通過均溫裝置122之流體流路,其泵動方向=串聯 管103内自來水之流向相同或相反者;或: ,、地下水Covered greenhouse structure _, = = Langshi spiral isolation structure - pump flow direction as mentioned above, and Q = = father when commutating to the wire, it makes = _ structure of the coating of the greenhouse structure, to _ The blood month b, the average temperature device 122 fish ^ 爪 claw water 输 system loser; the upper ROAD 221 and the warm energy even temperature transfer room set the average temperature device 122; 'for each separate access to open space —#控技250: For the electromechanical components or _ electronic benefits and related software and interface, or micro-processing operators: for knowledge control " 丨L renting device 123 28 0 Figure 9l _ 6 · 2 The greenhouse heart is the new type of secret view _ structure of the wrap-around, the axis is indirectly linked to the internal or closed or semi-closed structure of the internal closed-loop fluid circulation system diagram; · The groundwater pipe (8) in the tap water system - the wrap-around greenhouse structure 240 with a spiral-shaped spiral structure, the two sides of the cover-shaped greenhouse structure 24G in the inner adjacent structure are closed, U0 At least one fluid person D 218 is provided at the end, and the interior of the building, the only or semi-closed structure is Between the fluid conduit 221, the other - one end of the fluid σ 219, and leading to a closed or semi-closed building m nodal ς. a fluid line 231 for the inflow and outflow of a gaseous or liquid fluid, and a metering device 251 and a flow control chamber 252 may be provided as needed; the fluid may be convectively circulated by a heat rise and cold drop effect, or The flow slave device 123 is configured to receive an electric motor drive, or other mechanical drive, or driven by a force, to pump through a wrap-around greenhouse structure with a helical isolation structure when single-flow pumping is employed. 24 〇 of the fluid, through the fluid pipeline work to the standard building UQ or other: closed or semi-closed structure of the internal space of the uniform temperature device 122, and then through the fluid pipeline plus backflow to the internal isolation structure of the package The average greenhouse structure is applied, and when the pumping exchange flow is pumping, the pump flow direction is as described above, and in the other spring flow direction, the fluid flows through the fluid line 231 to the standard building 1H or other closed. Or the temperature equalizing device 122 of the inner space of the semi-closed structure, and then returning through the fluid line 221 to the inside of the screw-like Pw-off, the wrap-around greenhouse structure 2 4 q to indirectly the temperature of the tap water system' After rectifying 122 with the building (10) or its The internal space of the semi-closed structure of the thief is used as the average temperature transmitter of the indirect warm energy; the fluid line 221: the fluid official road 231 is provided for each of the closed to the building (10) or other closed or semi-closed internal space. The temperature equalizing device 122; - the control device i25G: is composed of electromechanical or solid electronic circuit components, or micro-processing 29 M415283 operators; and related (four) and control interface, called the residual frequency 1 = 3 2 The actual shut-off (4) pumping and setting (2) the body pumping device or the two-way material flow H moving device. In the flow: /, the species is configured, the fluid pumping device 123 is a one-way pumping function, and is disposed in the fluid flow path through the temperature equalizing device 122, the pumping direction = in the series tube 103 The flow of tap water to the same or the opposite; or: ,, groundwater
—設置之流體泵練置123之具正向及反向泵送 ^ 置於通過均溫裝置122之流路,其構成方式含: 恥6又 (j)為採用可作雙向泵動之流體泵浦將溫能流體粟入及排 藉由操控打25Q之馳而作泵浦之職性作正向歧軍 作’週期交換溫能流體之流向者;或 (2) ,為由兩個呈串聯之不同泵動流向之單向泵浦所構成,並分 別逆向並列單向閥,藉由操控裝置25 0之操控而作週期性之輪^ 栗動’以週期交換溫能流體之流向者;或 ^- The set of fluid pumping device 123 has forward and reverse pumping ^ placed in the flow path through the temperature equalizing device 122, and its configuration includes: shame 6 (j) is a fluid pump that can be used for bidirectional pumping Pu will use the temperature energy fluid in the millet and discharge to control the 25Q Chi Chi as the pumping duty for the positive disciple to make a 'cycle exchange of warm energy fluids; or (2), as two in series The pumping flow is formed by a one-way pumping of different pumping flows, and the parallel check valves are respectively reversed, and the periodic wheel is controlled by the manipulation of the operating device 25 to periodically exchange the flow of the warm energy fluid; or ^
(3) 為由兩個呈並聯之不同泵動流向之單向泵浦所構成者,藉 由操控裝置250之操控而作週期性之輪流泵動,以週期交換溫^ 流體之流向者,若泵浦無靜態之抗逆流性,則可分別串聯單向= 以防止逆流,而由兩個不同泵動方向之泵浦輪流作週期性之泵 動’以週期交換溫能流體之流向者;或 (4) 為由單向泵浦與呈橋式組成之四個可控開關式流體閥所構 成,以在單向泵浦運轉中藉操控裝置250之操控操控其中兩流體 閥為開啟(0pen),另組兩個流體閥為閉合(close)之輪流操控,以 使作週期性交換溫能流體之流向者; 週期父換之時機可為(1)預設溫能流體流向交換週期時間之 30 開裱式操控者;或(2)藉檢測設定溫能流體與被作溫能 之溫差值,以操控溫能流體流向交換週期時機之閉環式操控者。 精由k、纟 k被作溫能調控標的溫能流體作週期性交換流向,以 操控溫能流體與被作溫能調控標的間之溫差分佈狀態者; 本新型中,於供通過給水水流或具溫能之液態或氣態流體之 營路之具導熱性殼體外部,設置至少具有兩個導溫流體出入口之 中空包覆體,中空包覆體為供通過導溫流體,包括氣體或液體, 以構成包覆式管路流體間溫能傳輸裝置,供傳輸流體之溫能至中 二包覆體之導溫流體者,並進一步可供應用於各種具蓄溫溫能之 氣態或液態之流體,流經包覆式管路流體間溫能傳輸裝置中之管 路’而對流經管料部與包«mm、之趙作均溫之 溫能傳輸者; 如圖22所示為本新型藉自來水溫能作均溫之裝置採用包覆 式管路流體間溫能傳輸裝置之立體結構示意圖,圖23所示為圖 22之剖不圖’如圖22及圖23所示結構為本新型藉自來水溫能作 均溫之裝置细包覆式管職體間之溫能傳輸裝置,於設有至少 一個流體入口及至少—個出口以供通過給水水流或具溫能之液 悲或氣態流體之具導熱性管路殼體之外部,設置中空包覆體,中 空包覆體之内部空間為供通過導溫流體,除設有供通過導溫流體 之至少兩個導溫流體出入口外,其餘為呈中空封閉結構而包覆於 管路之殼體者;其主要構成如下: --管路300:為呈直線或曲線或近圓圈狀或螺旋狀或選定之幾何 形狀之官狀結構,其上設有至少一個流體入口 3〇1及至少一個流 體出口 301’以供通過給水水流,或具溫能之液流或氣流,並能經 由導熱性材料所製成之管路殼體,對中空包覆體3〇2内部之導溫 流體傳輸溫能,被包覆管路3〇〇之數目,可依需要選定者; M415283 年月3 -中空包覆體3〇2 :為供包覆於管路之殼體,可由導材 非導熱性材料所製成,中空包覆體之内部空間3〇5為供通過導溫 流體,除設有供通過導溫流體之至少兩個導溫流體出入口,以供 送入或送出導溫流體外,其餘為呈申空封閉結構而包覆於管路之 殼體者,此項中空包覆體302之數目可依需要選定者;(3) For the one-way pumping consisting of two different pumping flows in parallel, cyclically pumping is performed by the manipulation of the operating device 250, and the flow of the temperature fluid is periodically exchanged. If the pump has no static resistance to backflow, it can be connected in series with one-way = to prevent backflow, and the pumping of two different pumping directions is used for periodic pumping to periodically exchange the flow of warm energy fluid; or (4) It is composed of four controllable switch-type fluid valves consisting of one-way pump and bridge type, in which the two fluid valves are opened (0pen) by the operation of the operating device 250 in the one-way pumping operation. The other two fluid valves are closed to operate in order to make the flow of the periodic energy exchange fluid; the timing of the cycle father can be (1) the preset temperature energy flow to the exchange cycle time 30 The open-loop controller; or (2) by detecting the temperature difference between the warm energy fluid and the temperature being applied to control the closed-loop controller of the warm energy flow to the exchange cycle timing. The k- and 纟k are used as the temperature-controlling fluids for the regulation of the temperature energy to periodically exchange the flow direction to control the temperature difference between the warm energy fluid and the temperature-regulating target; in the present invention, the water flow through the feedwater or The outer surface of the thermal conductive housing of the liquid or gaseous fluid with warm energy is provided with a hollow covering body having at least two temperature-conducting fluid inlets and outlets, and the hollow covering body is for passing the temperature-conducting fluid, including gas or liquid. The utility model relates to a fluid energy transmission device between the fluids of the coated pipeline for transmitting the temperature of the fluid to the temperature-conducting fluid of the medium-second cladding body, and is further applicable to various fluids with a temperature or a liquid state for storing temperature and temperature. , flowing through the pipeline in the coated pipeline fluid temperature energy transmission device', and flowing through the pipe material portion and the temperature energy transfer of the package «mm, Zhao Zhao, respectively; as shown in Fig. 22, the new borrowed water temperature energy The apparatus for equalizing temperature adopts a three-dimensional structure diagram of a packaged pipeline fluid temperature energy transmission device, and FIG. 23 shows a cross-sectional view of FIG. 22'. The structure shown in FIG. 22 and FIG. 23 is a new type of borrowed water temperature energy. Fine-coated device for uniform temperature The thermal energy transmission device between the management body is provided with at least one fluid inlet and at least one outlet for the outer portion of the thermally conductive pipeline casing through the feed water flow or the warm liquid or gaseous fluid The inner space of the hollow covering body is for passing through the temperature-conducting fluid, except that at least two temperature-conducting fluid inlets and outlets for passing the temperature-conducting fluid are provided, and the other is a hollow closed structure and is covered with the shell of the pipeline. The main components are as follows: - Pipeline 300: is a straight or curved or nearly circular or spiral or selected geometric shape of the official structure, which is provided with at least one fluid inlet 3〇1 and at least one The fluid outlet 301' transmits the temperature of the temperature-conducting fluid inside the hollow covering body 3〇2 through a pipeline casing made of a feed water or a warm liquid stream or a gas stream and which can be made of a heat conductive material. Yes, the number of coated pipes 3〇〇 can be selected as required; M415283 March 3 - Hollow cladding 3〇2: for the casing covered by the pipeline, non-thermally conductive material The inner space of the hollow covering body is made 3〇 5 is for passing the temperature-conducting fluid, except that at least two temperature-conducting fluid inlets and outlets for passing the temperature-conducting fluid are provided for feeding or sending out the temperature-conducting fluid, and the rest is covered by the Shenkong closed structure and covered by the pipeline. The number of the hollow covering bodies 302 can be selected as needed;
--導溫流體出入口 303、304:為供對外送出或送入導溫流體, 以將中空包覆體302内部導溫流體,所接受來自管路3〇〇内部給 水水流或具溫能之液態或氣態流體之溫能,傳輸至外部之標的 物,此項導溫流體出入口 3〇3、3〇4之數目可依需要選定者; --中空包覆體之内部空間3〇5 :為中空包覆體3〇2與管路3〇〇之 殼體間形成之空間,為供通過導溫流體者; 此外為提昇供通過管路3〇〇之給水流體或具溫能之液態或氣 態流體之溫能’傳輸至巾空包覆體巾導溫流體之效能,可進一步 將前述管路3〇0被中空包覆體3〇2所包覆之外殼,與導溫流體接 觸之部分’增設導熱翼片結構则以增加㈣導面積,以有利於- the temperature-conducting fluid inlet and outlet 303, 304: for the external delivery or feeding of the temperature-conducting fluid, to guide the internal temperature of the hollow coating body 302, the liquid water flowing from the internal flow of the pipeline 3 or the liquid with warm energy Or the temperature energy of the gaseous fluid is transmitted to the external target. The number of the temperature-conducting fluid inlets and outlets 3〇3, 3〇4 can be selected as required; - the inner space of the hollow coating body is 3〇5: hollow a space formed between the covering body 3〇2 and the casing of the pipeline 3〇〇 for passing the temperature-conducting fluid; and further for raising the water supply fluid or the liquid or gaseous fluid having the warm energy through the pipeline 3 The temperature energy can be transmitted to the air-conditioning fluid of the towel to cover the temperature, and the outer casing of the pipe 3〇0 covered by the hollow covering body 3〇2 can be further added to the portion in contact with the temperature-conducting fluid. The thermal fin structure is increased by (four) conductive area to facilitate
修正 補充 對導溫流體傳輸溫能者,而中空包覆體3〇2之内部則可依需要 擇设置導熱翼片306或不設置者。 ' 如圖24所福本新型管路被巾空包频所包覆之殼體中, 與W讀接觸之部分,増設導熱翼片結構之結構示意圖。 如圖25所示為圖24之剖示圖。 、此項转自來水溫能作均溫之裂置採用包覆式管路流體間之 =月=輸裝置之結構方式包括:⑴鑄造或焊合製成—體式結構; 或(2)製成可組合式結構者。 处糟自來水溫能作均溫之裝置採用包覆式管路流體間溫 =輪裝置之整體結構、或其中管路之結構部份,其材料為具有 、…、'生材料所構成,例如鑄鐵、铭、銅、不銹鋼,或料導熱性 32 M415283 之材料所製成以利於溫能傳輪者。 竹6 此項藉自來水溫能作均溫之裝置 —诛用包覆式管路流體間之 /皿月b傳輸裝且,可供應用於各種蓄溫體之、田处 pa ^ 如― 輒齔對標的物或標的空 間之_傳輸者,在貫際應科,被包覆之管路可.個或一個 以上者,而包覆於管路之中空包覆體亦可為―個或―個以上者。 此項包覆式管路流體間溫能傳輸裝置可供作為以下一種或 一種以上功能之運作,包括:Correction Supplemental for the temperature-conducting fluid to transfer the warm energy, while the inside of the hollow covering body 3〇2 can be provided with the heat-conducting fins 306 or not. As shown in Fig. 24, the novel pipeline of the Fuben is covered by the empty envelope frequency of the towel, and the structure of the heat-conducting fin structure is set in the portion in contact with the W reading. FIG. 25 is a cross-sectional view of FIG. 24. The water temperature can be used for the temperature equalization. The structure of the packaged pipeline fluid is used. The structure of the installation includes: (1) casting or welding to form a body structure; or (2) Combined structure. The device for the temperature of the tap water can be used for the temperature equalization. The temperature of the coiled pipe is the temperature of the fluid. The overall structure of the wheel device, or the structural part of the pipe, is made of material, such as raw material, such as cast iron. , Ming, copper, stainless steel, or material thermal conductivity 32 M415283 made of materials to facilitate the temperature of the wheel. Bamboo 6 This is a device that can be used for temperature equalization by tap water temperature. It can be used in various types of storage bodies, such as ― 辄龀For the target object or the space of the target, in the continuous application, the coated pipeline may be one or more, and the hollow covering covered in the pipeline may also be one or one The above. The coated pipeline fluid inter-temperature energy transfer device can be used as one or more of the following functions, including:
1·應用於由具溫能之氣態或液態之流體通過管路,而藉管體之傳 導溫能’續通往被均溫標的空間或標的物之氣態或^態流體作 均溫傳輸者; 2.應用於逆向由外㈣人具溫能之氣態或液態流體,而經管體之 溫能傳導對管_之氣態或液態趙作均溫傳輸溫能者。 如圖26所示為本新型被中空包覆體包覆之管路為兩個之實 施例示意圖。 如圖27所示為圖26之剖示圖。1. Application to a fluid passing through a gas or a liquid with a warm energy through the pipeline, and the conduction temperature of the tubular body is continued to the temperature or the fluid of the space or the fluid of the target temperature for the uniform temperature transmission; 2. It is applied to the gaseous or liquid fluid with a warm energy from the outside (4), and the temperature energy transmission through the tube is the temperature or the liquid temperature of the tube. As shown in Fig. 26, a schematic view of two embodiments of a new type of pipe covered by a hollow covering body is shown. FIG. 27 is a cross-sectional view of FIG. 26.
/,?- '我 此項藉自來水溫能作均溫之裝置採用包覆式管路流體間之 溫能傳輸裝置除應用於管路及中空包覆體搬間流體之溫能傳輸 外’亦作以下之應用: 1·應用於由具溫能之氣態或液態之流體通過管路3〇〇,以對中空 包覆體302内部之氣態或液態流體傳輸溫能者;或 2.應用於逆向由外部經導溫流體出入口 303 ' 304對中空包覆體 302送入具溫能之氣態或液態流體對管路3〇〇内之氣態或液態流 體傳輸溫能者。 本新型中’可由一種傳導式管路流體間之溫能傳輸裝置,作 為流體對流體間之均溫傳導者,此項傳導管路流體間之溫能傳輸 裝置,為具有至少—個第一管路及至少一個第二管路,第一管路 33 與第二答 、 -Ψί 6· 2 構其 為勿別設置’而第一管路與第二管路之間設有導熱結 漭體”中.第—管路為供通過.給水水流或具溫能之液態或氣態之 Ί二管路亦為供通過水流或其他液態或氣態之導溫流體, 2導熱f構使第—f路中給水水流或其他㈣或氣態流體之 十第—言路中之氣態或液態流體作均溫之温能傳輸者,並 進一步:供應用於將各種具蓄溫溫能之氣態或液態之流體,流經 士 S路"α體間溫能傳輸裝置中之第—管路,而由導熱結構對 "IL ’’工第一官路之氣態或液態之流體作均溫之溫能傳輪者。 —如圖28所述為本新型藉自來水溫能作均溫之裝置採用傳導 式官路流體間之溫能傳輸裝置之立體結構示意圖,圖29所示為 圖28之剖示圖。 如圖28及圖29所示結構,此項藉自來水溫能作均溫之裝置 採用傳導式管路流體間之溫能傳輸裝置,其主要構成如下: --第一管路400 :為呈直線或曲線或近圓圈狀或螺旋狀或選定之 幾何形狀之管狀結構,其上設有至少—個流體入口 4〇1及至少一 個流體出° _,,以供通過給水水流或具溫能之氣態或液態之 流體,並能經由導熱性材料所製成之管路殼體,經導熱結構 3000,及經由導熱性材料所製成之第二管路殼體,對其内部之水 流或液態或氣態導溫流體傳輸溫能,第一管路4〇〇之數目,可依 需要選定者; --第二管路500:為呈直線或曲線或近圓圈狀或螺旋狀或選定之 及何形狀之管狀結構,其上設有至少兩個導溫流體出入口 、 404,以供通過給水水流或具溫能之氣態或液態之流體,並能經 第二管路500本身由導熱性材料所製成之管路殼體,以及經導熱 結構3000,以及經導熱性材料所製成之第一管路殼體,對第一管 路400内部之水流或液態或氣態導溫流體,作均溫之溫能傳輸 34 20M415283 者,第二管路500之數目,可依需要選定者; m -導熱結構3_ :為由良導熱性材料所構成,供聯結於第一管 路_及第二管路遍之間,以將通過第一管路働之給水水流 或具溫能之氣態或㈣流體之溫能,經第—管路彻之導執殼體 及導熱結構3_,以及經第二管路咖之導熱殼體而鱼第二管 路谓内部之水流或氣態或液態流體,作均溫之溫能傳輸者;/,?- 'This is a device that uses the temperature of the tap water to make the temperature uniform. The temperature energy transmission device between the coated pipeline fluids is used in addition to the temperature energy transmission of the fluid between the pipeline and the hollow coating body. For the following applications: 1. Apply to a gaseous or liquid fluid with a warm energy through the pipeline 3〇〇 to transfer the warm energy to the gaseous or liquid fluid inside the hollow cladding 302; or 2. Apply to the reverse The warming fluid or the liquid fluid is supplied to the hollow coating body 302 through the external temperature-conducting fluid inlet and outlet port 303'304 to transfer the warm energy to the gaseous or liquid fluid in the pipeline 3〇〇. In the present invention, a temperature energy transmission device between a fluid of a conductive pipeline can be used as a temperature-to-fluid conduction between fluids, and the temperature energy transmission device between the fluids of the conductive pipeline has at least one first tube. The road and the at least one second pipeline, the first pipeline 33 and the second A, - Ψ 6 · 构 为 勿 勿 勿 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而The first pipe is for the passage of water. The water supply or the liquid or gas phase with warm energy is also used to pass the water flow or other liquid or gaseous temperature-conducting fluid, 2 heat conduction f to make the first-f road The warm water transfer of the gaseous or liquid fluid in the water flow or other (four) or gaseous fluids, and further: supply a fluid for the flow of various gaseous or liquid gases with temperature and temperature. The first pipeline in the warrior S-way "alpha interbody thermal energy transmission device, and the heat transfer structure is used to balance the temperature of the gaseous or liquid fluid of the first official road of the 'IL'' - As shown in Figure 28, the new type of device that uses the temperature of the tap water for temperature equalization is conductive. FIG. 29 is a cross-sectional view of the temperature energy transmission device between the fluids, and FIG. 29 is a cross-sectional view of FIG. 28. As shown in FIG. 28 and FIG. 29, the device with the temperature of the tap water can be used for the uniform temperature. The main structure of the temperature energy transmission device between the road fluids is as follows: - the first pipeline 400: a tubular structure having a straight line or a curved line or a nearly circular shape or a spiral shape or a selected geometry, at least one of which is provided The fluid inlet 4〇1 and the at least one fluid are _, for passing through the feed water stream or a gaseous or liquid fluid having a warm energy, and can be made through a heat-conducting material, through the heat-conducting structure 3000, And the second pipeline casing made of the thermal conductive material transmits the temperature energy to the internal water flow or the liquid or gaseous temperature-conducting fluid, and the number of the first pipelines can be selected as needed; The second conduit 500 is a tubular structure having a straight line or a curved line or a nearly circular shape or a spiral shape or a selected shape, and is provided with at least two temperature-conducting fluid inlets and outlets 404 for passing the water supply or the temperature a gaseous or liquid fluid capable of The second pipe 500 itself is a pipe casing made of a heat conductive material, and a water flow inside the first pipe 400 through the heat conducting structure 3000 and the first pipe casing made of a heat conductive material. Or a liquid or gaseous temperature-conducting fluid, for the temperature-enhanced temperature transfer of 34 20M415283, the number of the second line 500 can be selected as required; m - heat-conducting structure 3_: consists of a good thermal conductive material for bonding Between the first pipe _ and the second pipe, the temperature of the feed water flowing through the first pipe or the temperature of the gas or the fluid of the (IV) fluid is passed through the first pipe to guide the casing and The heat conducting structure 3_, and the heat conducting shell of the second pipeline coffee, and the second pipeline of the fish is an internal water flow or a gaseous or liquid fluid for the uniform temperature and temperature energy transmission;
-導溫流體出入口彻、彻··為供對外送出或送入水流或具溫 能之液悲或氣態之導溫流體,以將第二管路5⑽内部導溫流體, 所接受來自第-管路彻㈣給水錢或具溫能之液態或氣態流 m之’皿此’傳輸至外部之標的物,或對外釋放溫能者,此項導溫 流體出入口 403、404之數目可依需要選定者。 此外為提昇供通過第-管路4⑽之給水流體或具溫能之液態 或氣悲流體之溫能,傳輸至第二管路5〇〇中導溫流體之效能,可 進一步將鈉述第一官路400内部鄰近導熱結構3〇〇〇之位置,增 §史内部導熱翼片406藉以增加熱傳導面積,以使通過第一管路- the temperature-conducting fluid inlet and outlet is completely and thoroughly provided for the externally sent or sent water flow or the temperature-stable liquid or gaseous temperature-conducting fluid to guide the temperature of the second conduit 5 (10) inside, from the first tube Luche (4) The water supply or the liquid or gaseous flow of the warm energy, which is transmitted to the external target, or the external release of the warm energy, the number of the temperature-conducting fluid inlets and outlets 403, 404 can be selected as needed. . In addition, in order to increase the temperature of the feed water flowing through the first line 4 (10) or the temperature of the liquid or gas stream with warm energy, the efficiency of the temperature transfer fluid transferred to the second line 5 , can further describe the first The interior of the official road 400 is adjacent to the position of the heat-conducting structure 3〇〇〇, and the internal heat-conducting fins 406 are added to increase the heat conduction area so as to pass through the first pipeline.
400内部之給水水流或具溫能之氣態或液態流體之溫能,經第一 管路4〇0内部導熱翼片406及本身導熱性管路殼體,及經導熱結 構3000及第一官路5〇〇之導熱性管路殼體,而由第二管路5〇〇 内部鄰近導熱結構3000之位置所設置之内部導熱翼片4〇6,對第 二官路500内部之水流或氣態或液態之導溫流體,作均溫之熱傳 輸者。 如圖30所示為本新型第一管路與第二管路鄰近導熱結構之 内部’增設導熱翼片之結構示意圖。 如圖31所示為圖30之剖示圖。 此項藉自來水溫能作均溫之裝置採用傳導式管路流體間之 溫能傳輸裝置之結構方式包括:(1)鑄造或焊合製成—體式結構, 35 M415283 或(2)製成可組合式結構者 上述措自來水^作均溫之裝置採用傳導式管路流體間之 溫能傳輸體結構,其材料為具有導熱性之材 例如禱鐵、紹、銅、不_,或為具導熱性之材料所 成’ 溫能傳輸者。 & 此項措自來水溫能作均溫之裝置採用傳導式管路流體間之 溫能傳齡置’可供躺於各㈣溫體之溫能對標的物或禪的*400 internal feed water flow or warm energy of gaseous or liquid fluid with warm energy, through the first pipeline 4〇0 internal heat conduction fin 406 and its own thermal conductive pipeline shell, and through the heat conduction structure 3000 and the first official road 5〇〇 the thermal conductive pipe casing, and the internal heat conducting fins 4〇6 disposed at the position of the second pipe 5〇〇 adjacent to the heat conducting structure 3000, the water flow or the gaseous state inside the second official road 500 or Liquid temperature-conducting fluid, for heat transfer of the average temperature. As shown in Fig. 30, a schematic structural view of the first inner tube and the second tube adjacent to the inner portion of the heat conducting structure is added. Figure 31 is a cross-sectional view of Figure 30. The structure of the temperature energy transmission device using the conductivity of the pipeline can be made by: (1) casting or welding to form a body structure, 35 M415283 or (2) can be made The combined structure of the above-mentioned device for tapping water is used for the temperature-transfer structure of the conductive pipeline fluid, and the material thereof is a material having thermal conductivity such as prayer iron, Shao, copper, no, or has heat conduction. The material of sex is made into a 'thermal energy transmitter. & This measure of the temperature of the water can be used as a means of equalizing the temperature of the medium between the fluids of the conductive pipeline. The temperature can be placed on each (four) temperature body to match the object or Zen*
間之溫能傳輸者,在實際應用時,其第-管路彻可為-個或Γ 個以上者,而經導熱結構3_聯結於第—管路彻之第二管辟 500 ’亦可為一個或一個以上者。 此項傳導式管路流體間之溫能傳輪裝置,可供作為以下一種 或一種以上功能之運作,包括: 1·應用於㈣溫能之絲或雜之流體通過管路,喊管體之傳 導溫能,以對通往被均溫標的㈣或標的物之氣態或液態流體作 均溫傳輸者; 2·應用於逆“外部送人具溫能錢態或液態流體In the case of the temperature transmitter, in the actual application, the first pipeline can be - or more than one, and the heat conduction structure 3_ is connected to the second pipeline. For one or more people. The thermal energy transfer device between the conductive pipeline fluids can be used as one or more of the following functions, including: 1. Applying (4) warm energy silk or miscellaneous fluid through the pipeline, shouting the body Conducting temperature energy to transmit the temperature to the gaseous or liquid fluid to the (4) or the target of the temperature scale; 2. Applying to the external “send the person to send warm energy or liquid fluid
η 利於 ,而經管體之 溫能傳導對管路内之氣態或祕频作均溫傳輸者。 如圖32所不為本新型為由兩個第二管路經導熱結構 3000 聯 結於一個第一管路之實施例示意圖。 如圖33所示為圖32之剖示圖。 本新型可進一步藉於供通過給水水流或具溫能之液態或氣 恶/瓜體之官路之具導熱性殼體外部,設置内具螺旋狀流體流路之 官狀包覆結構’由螺旋狀隔離結構與管狀包覆結構及管路形成螺 旋官供與管路間作流體溫能傳輸之裝置,其中,管狀包覆結構至 少具有兩個導溫流體出入口以供通過導溫流體,包括氣體或液 胆’以傳輪來自給水水流之溫能至螺旋狀流體流路中之導溫流體 36 M415283 者’並進一步可供應用於各種具蓄溫溫能之氣態或液態T流體, 流經由螺旋狀隔離結構與管狀包覆結構及管路形成螺旋管供與 管路間作流體溫能傳輸之裝置t之管路,而對流經螺旋管之氣態 或液態之流體作均溫之溫能傳輸者; ’一 如圖34所示為本新型由螺旋狀隔離結構與管狀包覆結構及 管路形成螺旋管供與管路間作流體溫能傳輸之裝置之立體結構 示意圖’圖35所示為圖34之剖示圖; 如圖34及圖35所示結構為本新型由螺旋狀隔離結構與管狀 包覆結構及管路形成螺旋管供與管路間作流體溫能傳輸之裝 置’其主要構成如下: ―管路600:為呈直線或曲線或近圓圈狀或螺旋狀或選定之幾何 形狀之管狀結構,其上設有至少一個流體入口 601及至少一個流 體出口 601,以供通過給水水流,或具溫能之液流或氣流,管路 600之外部供設有螺旋狀隔離結構6〇6,螺旋狀隔離結構6〇6之 外部設有包覆結構602,由螺旋狀隔離結構606與管路6〇〇及管 狀包覆結構602形成之螺旋管狀空間6〇5 ,以作為螺旋管狀之流 體流路供通過導溫流體,管狀包覆結構6〇2除設有供通過導溫流 體之至少兩個導溫流體出入口 6〇3、6〇4外,其兩端為呈封閉之 管狀結構,而與螺旋狀隔離結構606共同環抱於管路之殼體者; 並經由管路殼體之熱傳導作用,對螺旋管狀空間6〇5内部之導溫 /瓜體傳輸溫能,被包覆管路6〇〇之數目,可依需要選定者·, 一官狀包覆結構602 ··為供包覆於管路600之外殼,可由導熱性 材料或非導熱性材料所製成,管狀包覆結構6〇2與管路6〇〇之間 供叹置呈螺旋狀隔離結構6〇6,而使内部形成螺旋管狀空間6〇5, 作為供螺旋管狀之流體流路供通過導溫流體’管狀包覆結構設有 供通過導溫流體之至少兩個導溫流體出入口 603、604,以供送入 37 M415283 或送出導温流體,管狀包覆結構6〇2之數目可依需要選^者.*一 〜導溫流體出入口 603、604:為供對外送出或送入導溫流體, 以將螺旋管狀空間605之内部導溫流體接受來自管路6 〇 〇内部給 水水流或具溫能之液態或氣態流體之溫能,傳輸至外部之標的物 或標的空間’此項導溫流體出人D 6〇3、_之數目可依需要選 定者; 而、 官狀包覆結構602之内部螺旋管狀空間6〇5 :為由螺旋狀之 離結構606與管路600之外殼體及包覆管6〇2三者之間形成之 螺旋狀空間,以供通過導溫流體者; 此項精自來水溫能作均溫之裝置,所採用由螺旋狀隔離結構 與#管狀包⑽構及管路形成職管供與管關料體溫能傳輸 之裝置’可供財種具#溫溫能之氣態或液態之流體,流經 由螺旋狀隔縣構與管狀包覆結構及管_成螺”供與管路 ^作流體溫能傳輸之裝置中之管路,而對流經職管之氣態或液 態之流體作均溫之溫能傳輸者,在實際應用時,管路可為一個或 ,個以上者,而螺旋狀隔離結構與管狀包覆結構及管路形成螺旋 & '門之包覆式管路流體間溫能傳輸裝置亦可為一個或一個 以上者。 一 此項由螺旋狀隔離結構與管狀包覆結構及管路形成螺旋管 八’、笞路間作流體溫能傳輸之裝置,可供作為以下—種或一種以 上功能之運作,包括: 〆 ’V«用於由具溫能之氣態或液態之流體通過管路,而释管體之傳 ^ 以對通往被均溫標的空間或標的物之氣態或液態流體作 均溫傳輪者; ;逆向由外部送入具溫能之氣態或液態流體,而經管體之 孤成傳導對;I;路内之錢紐態㈣作均溫傳輸者。 38 M415283 上述圖22〜27所述之包覆式管路流體間溫能傳輸裝置,及圖 28〜33所述之傳導式管路流體間之溫能傳輸裝置,及圖34〜35 所述之由螺旋狀隔離結構與管狀包覆結構及管路形成螺旋管供 與管路間作流體溫能傳輸之裝置,除應用於本新型藉自來水溫能 作均溫之裝置外,可供應用於各種蓄溫體之溫能對標的或標的空 間藉流體作均溫調節之溫能傳輸者。 M415283 【圖式簡單說明】 . _ 年 修iF ί 圖!所示為傳統自來水管路與建築 圖2所示為本新型藉與自來水管直接構成=置®:如 流體泵及均熱裝置構成建築物内之均熱功=封閉管路之水管及 圖3為本新型應用於淺層地表均溫功能^錢結構示意圖。 圖4所示為本難應服外露於地表 μ構成不意圖。 意圖。 4溫1力能系統構成示 圖5所示為本新型應用於建築物頂部結η is beneficial to, and the temperature conduction through the pipe body is the average temperature transmission of the gas state or the secret frequency in the pipeline. As shown in Fig. 32, the present invention is a schematic view of an embodiment in which two second pipes are connected to a first pipe via a heat conducting structure 3000. Figure 33 is a cross-sectional view of Figure 32. The present invention can be further provided by a spiral-shaped fluid flow path for the outer surface of the heat-conducting casing through the feed water flow or the liquid or gas-gut/gut body with warm energy, and the officially wrapped structure with a spiral fluid flow path is provided by the spiral The isolation structure and the tubular cladding structure and the pipeline form a device for transferring the temperature energy between the screw and the pipeline, wherein the tubular cladding structure has at least two temperature-conducting fluid inlets and outlets for passing the temperature-conducting fluid, including the gas. Or the liquid bladder 'passes the temperature from the warm water flow to the temperature-conducting fluid 36 M415283 in the spiral fluid flow path' and is further applicable to various gaseous or liquid T fluids with stored temperature and temperature, flowing through the spiral The isolation structure and the tubular cladding structure and the pipeline form a conduit for the fluid energy transmission between the pipeline and the pipeline, and the temperature energy transmission to the fluid flowing through the spiral or the liquid fluid ; 'As shown in Figure 34, the schematic diagram of the three-dimensional structure of the device for forming a spiral tube between the spiral isolation structure and the tubular cladding structure and the pipeline for fluid temperature transmission between the pipelines is shown in Fig. 35. 34 is a cross-sectional view; the structure shown in FIG. 34 and FIG. 35 is a novel device which is formed by a spiral isolation structure and a tubular cladding structure and a pipe forming a spiral pipe for fluid temperature transmission between pipes. As follows: ―Pipe 600: is a tubular structure in the form of a straight line or a curve or a nearly circular shape or a spiral or a selected geometry, and is provided with at least one fluid inlet 601 and at least one fluid outlet 601 for passing water through the feed water. Or a warm liquid or air flow, the outer portion of the pipeline 600 is provided with a spiral isolation structure 6〇6, and the outer portion of the spiral isolation structure 6〇6 is provided with a cladding structure 602, and the spiral isolation structure 606 and the tube The spiral tubular space 6〇5 formed by the road 6〇〇 and the tubular covering structure 602 serves as a spiral tubular fluid flow path for passing the temperature guiding fluid, and the tubular covering structure 6〇2 is provided with at least the passing of the temperature guiding fluid. Two temperature-conducting fluid inlets and outlets 6〇3, 6〇4, the two ends of which are closed tubular structures, and the spiral isolation structure 606 is surrounded by the casing of the pipeline; and the heat conduction through the pipeline casing Role, on the spiral tube 6〇5 internal temperature guide / melon body transmission temperature energy, the number of covered pipelines 6〇〇, can be selected as needed, a bureaucratic cladding structure 602 ·· for coating on the pipeline 600 The outer casing may be made of a heat conductive material or a non-thermal conductive material, and the spiral covering structure 6〇6 is provided between the tubular covering structure 6〇2 and the pipe 6〇〇, so that the inside forms a spiral tubular space 6 〇5, as a fluid flow path for the spiral tube for passing through the temperature-conducting fluid' tubular coating structure, at least two temperature-conducting fluid inlets and outlets 603, 604 for passing the temperature-conducting fluid for feeding 37 M415283 or sending the temperature guide The number of fluid, tubular cladding structures 6〇2 can be selected as needed. *1 - temperature-conducting fluid inlets and outlets 603, 604: for externally sending or feeding a temperature-conducting fluid to guide the inner temperature of the spiral tubular space 605 The fluid receives the warm energy from the internal feed water flow of the pipeline 6 or the liquid or gaseous fluid with warm energy, and is transmitted to the external target or the target space. The number of the temperature-conducting fluid is D 6〇3, _ Selected as needed; and, the inner spiral of the officially wrapped structure 602 Space 6〇5: is a spiral space formed by the spiral separation structure 606 and the outer casing of the pipeline 600 and the cladding pipe 6〇2 for passing the temperature-conducting fluid; It can be used as a device for equalizing temperature. It adopts a device with a spiral isolation structure and a # tubular package (10) and a pipeline to form a service pipe for the temperature energy transmission of the pipe. The fuel can be used for the gas or liquid state of the temperature and energy. The fluid flows through the spiral-shaped county structure and the tubular cladding structure and the tube _ screwed into the pipeline in the device for fluid temperature energy transmission, and acts on the gaseous or liquid fluid flowing through the service tube. The temperature can be transmitted by the average temperature, in the actual application, the pipeline can be one or more, and the spiral isolation structure and the tubular cladding structure and the pipeline form a spiral & 'door coated pipeline fluid The inter-temperature energy transmission device may also be one or more. A device consisting of a spiral isolation structure and a tubular cladding structure and a pipeline forming a spiral tube VIII, and a fluid temperature transmission between the rafts, can be used as the operation of the following one or more functions, including: V« is used for passing a fluid in a gaseous or liquid state with a warm energy, and the transfer of the pipe is used to make a uniform temperature transfer to the gaseous or liquid fluid leading to the space or target of the temperature scale; In the reverse direction, the gas or liquid fluid with warm energy is sent to the body, and the orphan conduction pair is passed through the tube; I; the money state in the road (4) is the average temperature transmitter. 38 M415283 The above-mentioned coated pipeline fluid inter-temperature energy transmission device shown in FIGS. 22 to 27, and the thermal energy transmission device between the conductive pipeline fluids shown in FIGS. 28 to 33, and the methods described in FIGS. 34 to 35 The spiral isolation structure and the tubular cladding structure and the pipeline form a spiral tube for the transmission of fluid temperature energy between the pipelines, and the utility model can be applied to various kinds of devices which can be used for the uniform temperature by the tap water temperature. The warm energy of the temperature storage body is the temperature energy transmitter for the uniform temperature regulation of the target or the standard space. M415283 [Simple description of the picture] . _ Year Repair iF ί Figure! The traditional tap water pipe and building are shown in Figure 2. The new type of water pipe is directly constructed. = Set®: If the fluid pump and the soaking device constitute the soaking heat in the building = the pipe of the closed pipe and Figure 3 This is a schematic diagram of the new structure applied to the shallow surface uniform temperature function. Figure 4 shows that the uncomfortable service is exposed to the surface of the μ. intention. 4 temperature 1 force energy system composition diagram Figure 5 shows the new application to the top of the building knot
構成示意圖。 ㈣之均溫功能系統 圖6所示為本新型應用於建築物頂部呈 、 意圖。 硌均溫功能系統構成示 圖7所示為本新型設有包覆狀均溫室結構,、 放式泵送流體之系統實施例示意圖。 、,放式空間作開 圖8所示為本新型設有包覆狀均溫室結 他封閉或半封閉結構之内部空間 例示意圖。 構’以間接對建築物或其 作開敌式泵 送流體之系統實 施Form a schematic diagram. (IV) The average temperature function system Figure 6 shows the application of the new type to the top of the building.硌 硌 温 功能 功能 功能 构成 构成 构成 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The open space is opened. Figure 8 is a schematic view showing an internal space of a closed or semi-closed structure with a coated greenhouse. The system is implemented indirectly to the building or its system for pumping fluids.
圖9所示為本新型設有包覆狀均溫室結構,、 接對建築物或其他封閉或半封閉結構之内=由外部弓丨入流體間 流體之系統實施例示意圖。 ]作開放式泵送 圖W所示為本新型設有包覆狀均溫室結構, 間,作封閉式流體循環之系統實施例示意圖、]接對開放式空 圖11所示為本新型設有包覆狀均溫 其他封閉或半封閉結構之内部空間, 施例示意圖。 4〇 M415283 圖 η所示為本新型設有與自來水管並列之辅助均溫 接對建築物或其他封閉或半封閉結構之内部空間间 流體之系統實施例示意圖。 句敌式泵送 圖Μ所示為本新型設有與自來水管並批辅 外部引入龍,間接舰築物或其他封 & =,以由 間,作開放式泵送雜之錢實關示相。H構之内部空 圖15所示為本新型設有與自來水f並列 田 接對開放式空間作封閉式流體循環之系統實施例路’以間 ^ 16所示為本新型設有與自來水管並列之辅助均溫管路 接對建築物或其他制或半封閉結構之内部 間 循環之系統實施例示意圖。 " ’閉式流體 =Π所㈣本新型設置㈣螺旋狀隔離結構之 t以對開放式空間作開放歧送流體之系統實施例示^ =18 ^為本新型設肋具螺魏隔離結構之包覆料 ^以間接對建築物或其他封閉鱗封閉結構之内部空間,= 放式泵送流體之系統實施例示意圖。 =二示為本新型設置内具螺旋狀隔離結構之包覆狀均溫室处 ’以由外㈣人越間接霞H物或其他封閉解封閉社構之 内部空間’作開放式泵送流體之系統實施例示音圖。 ΐ,2二=本新型設置内具螺旋狀隔離結叙包覆狀均溫室結 Ξ。 式空間,作封閉式流體循環之系統實施例示意 為本新型設置内具螺旋狀隔離結構之包覆狀均溫室結 ^以間接對建築滅其他封閉或半封閉結構之内部空間, 4式流體循環之系統實施例示意圖。 、 圖22所示為本新麵自來水溫_均溫之裝置刺包覆式管路 41 M415283 流體間溫能傳輸裝置之立體結構示意圖。 fl G. 2 圖23所示為圖22之剖示圖。 圖24所示為本新型管路被中空包覆體所包覆之殼體中,與導溫 流體接觸之部分,增設導熱翼片結構之結構示意圖。 圖25所示為圖24之剖示圖。 圖26所示為本新型被中空包覆體包覆之管路為兩個之實施例示 意圖。 圖27所示為圖26之剖示圖。 圖28所示為本新型藉自來水溫能作均溫之裝置採用傳導式管路 流體間之溫能傳輸裝置之立體結構示意圖。 圖29所示為圖28之剖示圖。 圖30所示為本新型第一管路與第二管路鄰近導熱結構之内部, 增設導熱翼片之結構示意圖。 圖31所示為圖30之剖示圖。 圖32所示為本新型為由兩個第二管路經導熱結構(3000)聯結於 一個第一管路之實施例示意圖。 圖33所示為圖32之剖示圖。 圖34所示為本新型由螺旋狀隔離結構與管狀包覆結構及管路形 成螺旋管供與管路間作流體溫能傳輸之裝置之立體結構示意圖。 圖35所示為圖34之剖示圖。 42 M415283 【主要元件符號說明】 101 :地表 6. 2 5 102 :地層 103 :地下水管 104 :供水分支管 110 :建築物 111 :水閥 121 :封閉水管 122 :均溫裝置 123 :流體泵動裝置 124 :過濾裝置 218 :流體入口 219 :流體出口 220 :包覆狀均溫室結構 221、231 :流體管路 222 :輔助均溫管路Figure 9 is a schematic view showing an embodiment of a system in which a wrap-around greenhouse structure is provided, which is connected to a building or other closed or semi-closed structure. As an open pumping diagram, W is a schematic diagram of a system embodiment with a covered greenhouse structure and a closed fluid circulation. Covering the internal space of other closed or semi-closed structures, the schematic diagram of the example. 4 〇 M415283 Figure η shows a schematic diagram of a system embodiment in which a fluid is provided in parallel with a water pipe to assist in the homogenization of a building or other closed or semi-closed structure. The example of the enemy pumping diagram is shown in the new type of water supply pipe and the external introduction of the dragon, the indirect shipbuilding or other seals & =, for the open, pumping miscellaneous money phase. The internal space of the H structure is shown in Fig. 15. The system is provided with a closed-loop fluid circulation system in the open space with the tap water f. The road is shown in the middle of the figure. The new type is juxtaposed with the water pipe. A schematic diagram of a system embodiment in which an auxiliary temperature-equal line is connected to an internal circulation of a building or other or semi-closed structure. " 'Closed fluid = Π所(4) This new type of setting (4) The spiral isolation structure t is shown in the system of the open space for the open-distribution fluid ^ = 18 ^ is the cladding of the new ribbed screw isolation structure Material ^ is a schematic diagram of an embodiment of a system for indirectly pumping fluid to a building or other closed scale enclosed structure. = 2 shows the system of the open-type pumping fluid in the cover of the new type of spiral-isolated structure in the greenhouse. The more indirect (H) or the other internal closed space of the closed-closed community. The embodiment shows a sound map. ΐ, 2 2 = This new type of setting has a spiral-shaped isolation and is covered with a greenhouse. The space system, the embodiment of the system for closed fluid circulation is shown as a cover-like greenhouse structure with a spiral isolation structure in the present arrangement, indirectly blocking the internal space of other closed or semi-closed structures, 4 type fluid circulation A schematic of a system embodiment. Figure 22 shows the three-dimensional structure of the inter-fluid temperature energy transmission device for the new surface tap water temperature _ uniform temperature device. Fl G. 2 Figure 23 is a cross-sectional view of Figure 22. Fig. 24 is a structural schematic view showing the structure of the heat-conducting fins in the portion of the casing covered by the hollow covering body in contact with the temperature-conducting fluid. Figure 25 is a cross-sectional view of Figure 24. Fig. 26 is a view showing an embodiment in which two types of pipes covered by a hollow covering body are provided. Figure 27 is a cross-sectional view of Figure 26. Fig. 28 is a schematic view showing the three-dimensional structure of a novel warm energy transfer device using a conductive pipeline fluid by means of a tap water temperature capable of equalizing temperature. Figure 29 is a cross-sectional view of Figure 28. FIG. 30 is a structural schematic view showing the addition of a heat conducting fin according to the inside of the heat conducting structure of the first pipe and the second pipe of the present invention. Figure 31 is a cross-sectional view of Figure 30. Figure 32 is a schematic view showing an embodiment in which two second pipes are coupled to a first pipe via a heat conducting structure (3000). Figure 33 is a cross-sectional view of Figure 32. Fig. 34 is a perspective view showing the three-dimensional structure of the apparatus for fluid temperature transmission between the spiral isolation structure and the tubular cladding structure and the pipe forming the spiral pipe for the pipeline. Figure 35 is a cross-sectional view of Figure 34. 42 M415283 [Description of main component symbols] 101 : Surface 6. 2 5 102 : Formation 103 : Underground pipe 104 : Water supply branch pipe 110 : Building 111 : Water valve 121 : Closed water pipe 122 : Temperature equalizing device 123 : Fluid pumping device 124: filter device 218: fluid inlet 219: fluid outlet 220: coated greenhouse structure 221, 231: fluid line 222: auxiliary temperature equalization line
223 :導熱翼狀結構 240:内具螺旋狀隔離結構之包覆狀均溫室結構 250 :操控裝置 251 :計量裝置 252 :流量控制閥 300 :管路 301 :流體入口 301’:流體出口 302 :中空包覆體 303、304 :導溫流體出入口 43 M415283 305 :中空包覆體之内部空間 306 :導熱翼片 400 :第一管路 401 :流體入口 40Γ :流體出口223: heat-conducting wing structure 240: a wrap-around greenhouse structure 250 with a spiral isolation structure: control device 251: metering device 252: flow control valve 300: line 301: fluid inlet 301': fluid outlet 302: hollow Covering body 303, 304: temperature-conducting fluid inlet and outlet 43 M415283 305: inner space of hollow covering body 306: heat-conducting fin 400: first line 401: fluid inlet 40Γ: fluid outlet
403、404 :導溫流體出入口 406 :内部導熱翼片 500 :第二管路 3000 ··導熱結構 600 :管路 601 :流體入口 60Γ :流體出口 602 :管狀包覆結構 603、604 :流體出入口 605 :螺旋管狀空間 606 :螺旋狀隔離結構403, 404: temperature-conducting fluid inlet and outlet 406: internal heat-conducting fin 500: second pipeline 3000 · heat-conducting structure 600: pipeline 601: fluid inlet 60 Γ: fluid outlet 602: tubular cladding structure 603, 604: fluid inlet and outlet 605 : spiral tubular space 606: helical isolation structure
4444
Claims (1)
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US12/219,410 US20100018679A1 (en) | 2008-07-22 | 2008-07-22 | Isothermal method and device using periodic direction-change utility water flow |
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TWM415283U true TWM415283U (en) | 2011-11-01 |
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TW098124676A TW201013141A (en) | 2008-07-22 | 2009-07-21 | Isothermal method and device using thermal energy of utility water flow |
TW098213415U TWM415283U (en) | 2008-07-22 | 2009-07-21 | Isothermal device using thermal energy of utility water flow |
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TW098124676A TW201013141A (en) | 2008-07-22 | 2009-07-21 | Isothermal method and device using thermal energy of utility water flow |
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US8290318B2 (en) * | 2009-04-21 | 2012-10-16 | Svv Technology Innovations, Inc. | Light trapping optical cover |
SE535370C2 (en) * | 2009-08-03 | 2012-07-10 | Skanska Sverige Ab | Device and method for storing thermal energy |
CN102353104A (en) * | 2011-07-25 | 2012-02-15 | 江苏第一金合金有限公司 | Temperature control method for building |
US20130042997A1 (en) * | 2011-08-15 | 2013-02-21 | Tai-Her Yang | Open-loopnatural thermal energy releasing system wtih partialreflux |
US9109806B2 (en) * | 2011-08-19 | 2015-08-18 | Tai-Her Yang | Heating/cooling system that utilizes secondary fluid pumped through a heat exchanger by the pressure of a thermal exchange fluid |
SE537267C2 (en) * | 2012-11-01 | 2015-03-17 | Skanska Sverige Ab | Method of operating a device for storing thermal energy |
AU2013359948B2 (en) * | 2012-12-16 | 2017-03-16 | Isocurrent Energy Incorporated | Compressed air energy storage system |
WO2015129041A1 (en) * | 2014-02-28 | 2015-09-03 | 中国電力株式会社 | Heat exchanging structure for power generating equipment |
TWI600872B (en) * | 2014-10-28 | 2017-10-01 | 龍華科技大學 | Method for lowering water temperature of sea surface |
CH712665B1 (en) * | 2016-07-13 | 2023-02-28 | Geinoz Francois Ignace | Thermal energy distribution device for urban or industrial site. |
-
2008
- 2008-07-22 US US12/219,410 patent/US20100018679A1/en not_active Abandoned
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