TWM314842U - Dualpower temperature regulation system - Google Patents
Dualpower temperature regulation system Download PDFInfo
- Publication number
- TWM314842U TWM314842U TW095218967U TW95218967U TWM314842U TW M314842 U TWM314842 U TW M314842U TW 095218967 U TW095218967 U TW 095218967U TW 95218967 U TW95218967 U TW 95218967U TW M314842 U TWM314842 U TW M314842U
- Authority
- TW
- Taiwan
- Prior art keywords
- frame
- air
- fan
- module
- indoor
- Prior art date
Links
Classifications
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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
- F24D5/00—Hot-air central heating systems; Exhaust gas central heating systems
- F24D5/005—Hot-air central heating systems; Exhaust gas central heating systems combined with solar energy
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S10/00—Solar heat collectors using working fluids
- F24S10/25—Solar heat collectors using working fluids having two or more passages for the same working fluid layered in direction of solar-rays, e.g. having upper circulation channels connected with lower circulation channels
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S20/00—Solar heat collectors specially adapted for particular uses or environments
- F24S20/40—Solar heat collectors combined with other heat sources, e.g. using electrical heating or heat from ambient air
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S20/00—Solar heat collectors specially adapted for particular uses or environments
- F24S20/60—Solar heat collectors integrated in fixed constructions, e.g. in buildings
- F24S20/63—Solar heat collectors integrated in fixed constructions, e.g. in buildings in the form of windows
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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
- F24D2200/08—Electric heater
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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
- F24D2200/14—Solar energy
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S80/00—Details, accessories or component parts of solar heat collectors not provided for in groups F24S10/00-F24S70/00
- F24S2080/03—Arrangements for heat transfer optimization
- F24S2080/05—Flow guiding means; Inserts inside conduits
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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
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/27—Relating to heating, ventilation or air conditioning [HVAC] technologies
- Y02A30/272—Solar heating or cooling
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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
- Y02B10/20—Solar thermal
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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
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
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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
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Sustainable Energy (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Cooling Or The Like Of Electrical Apparatus (AREA)
- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
Description
M314842 八、新型說明: 【新型所屬之技術領域】 本系統為一種結合太陽能及電能動力風扇以調整安裝標的 , 物内之溫度、過濾、空氣、及其内外空氣交換的裝置。 : 【先前技術】 (參考圖5) _ Page 353 of Ortho s home improvement encyclopedia55, ISBN-098721-066-2 UPC 05620, first printing in July, 1985 •’ 【新型内容】 , Α·先前技術問題(參考圖5)在於 1·僅提供升溫功能,無降溫功能。 - 2.無室内外空氣交換功能。 ® 3·如先前技術附圖,其進出氣口 5f雖上下分離但太接近, ’ 只月b熱對、/;IL至至内冷空氣入口線以上之區域,致升溫效 . 果不佳。 4·如先别技術附圖’其太1%能加熱板背面未隔以熱絕 緣材料,ie成至内冷空氣在未達其太陽能加熱通道即被 加熱,產生逆向之熱虹吸現象,且由於太陽能加熱板熱 源因逆向之熱虹吸吸熱減損,導致正向熱虹吸效果不 彰,更減損整個系統之熱虹吸績效。 5·無輔助設施以加速調溫功能及空氣交換。日照不足或夜 6 M314842 間即無作用。 6· :其上蓋5h内未附以熱絕緣材料,造 率 σ^、、工氣熱消散至室外而減損升溫效果及升溫效 7·無過濾室内空氣功能 Β· 題之手段··(各問觸策分段詳述於使用實施方M314842 VIII. New Description: [New Technology Field] This system is a device that combines solar energy and electric power power fans to adjust the installation temperature, temperature, filtration, air, and internal and external air exchange. : [Prior Art] (Refer to Figure 5) _ Page 353 of Ortho s home improvement encyclopedia55, ISBN-098721-066-2 UPC 05620, first printing in July, 1985 • 'New content】 , Α · Prior technical issues (Reference Fig. 5) is based on 1. Only the temperature rise function is provided, and there is no temperature drop function. - 2. No indoor and outdoor air exchange function. ® 3 · As in the prior art drawing, the inlet and outlet ports 5f are separated from each other but are too close together, and only the month b is hot, /; IL to the area above the inlet line of the internal cold air, causing a warming effect. 4. If the technical drawing is as follows: '1% of the surface of the heating plate is not separated by a thermal insulating material, and the inner cooling air is heated in the absence of its solar heating channel, causing a reverse thermal siphon phenomenon, and The heat source of the solar heating plate is degraded by the reverse thermal siphon heat absorption, which results in a positive thermal siphon effect and detracts from the thermal siphon performance of the entire system. 5. No auxiliary facilities to accelerate temperature regulation and air exchange. Insufficient sunshine or night 6 M314842 has no effect. 6· : The thermal insulation material is not attached to the upper cover for 5 hours, the production rate is σ^, the heat of the work gas is dissipated to the outside, and the heating effect is reduced and the heating effect is improved. 7. The function of the indoor air without filtering is solved. The touch segment is detailed in the use of the implementer
/JEL旲、、且·包力風扇调溫模組,再配合相關之主體框架 機構設計,以利用系.統内三個可活動之導通道框架(圖工 之N、0、及P)在主體内不同位置以開啟或關閉該通道 閘門來控制整個系統的冷熱空氣出/入流向,以調整室 内之溫度及室内外空氣交換。前者利用太陽熱能及熱對 流原理(系統内4熱虹吸)產生氣流驅動力以調節溫度 及空氣交換,辅以後者以加強調溫/換氣功能,並在^ 照不足或夜間時提供風扇動力來達到降溫及空氣交換 之目的。佐以一系統附件-可拆卸室内空氣排放/吸入雙 向導通道延伸框·架,以延伸室内空氣排放/吸入雙向導 通道框架後端開口至室内較低位置來改善室内熱對沪 績效。配合一組系統附件-室内介面開口空氣濾網框, 以過濾室内室氣。綜合以上諸手段來解決前述之先前技 術問題。詳細說明如下 1.太陽能調溫模組’包含二主要相連通之導通模組,—盔 7 M314842 熱氣導通模組,另一為空氣導通模組, 侧蓋板與主體框架。 D之左右 1-1·熱氣導通模組 1 1 1·太1%此加熱板(圖D)—太陽能加熱板本體(di) 一 黑色錄金屬成型板用以吸收太陽能來加熱流通於其 (熱氣導通道)之空氣,其f面附以熱絕緣材料以阻絕熱 ^其他較低溫空氣通道,左右緣及上緣_耐_條以^ ϊί左右㈣板及太陽能加熱板後附導板⑽接合以阻絕 空氣^逸散。該太陽能加熱板後附導板後方附有一熱氣排= 導通這框架之閘門(D3)用以控制熱氣排放導通道框架(圖Ny 之熱空氣室内流入(升溫)或室外流出(降溫)。其左右(及中 央,視系統長度而定)各鑽以數個加熱板三階段支撐栓柱固 定孔(D4)用以與空氣導通板(Ε1)及三階段支 合,以固定各導通道之高度及支撐其組合結構。! (Q4)、、且 1 1 2·热色透光板(圖g)—為一成型本體,置於太陽能加熱 板〇1,)之前方,以使木陽輻射能穿透以加熱太陽能加熱板 (D1)並作為熱氣導通道之氣流導板及前蓋,其上下左右四緣 附以膠條以與左右侧蓋板(C1及C2)、熱氣排放導通道框架 (圖N)、及主體框架底板(B1)密接以阻絕空氣之逸散。 1 一卜3·上蓋(圖η)—為一成型本體,内附以熱絕緣材料以阻 絕熱消散,其左右緣及下端後斜面緣附以膠條以與左右侧蓋 板(C1及C2)及無色透光板(圖G)上緣密接合以阻絕空氣之 8 M314842 ! m. ,.蝴》(·.·: i»K«;rwt :;irrc 1««W S^‘*^ 逸政。釘端後斜面緣亦肋顯並固定無色透光板(圖G) 之上、彖其别緣凸出設計以阻絕雨水入侵本體,前端下方設 以數個上蓋排朗口(111)轉放熱空氣至室外或吸 空氣至系統。 主r 1^—4.熱氣排放導通道框架(圖N)_為一成型框架,其前 面δ又以與上盍珂緣同斜面,前方開口設於前緣下方,其開口 寬度f等於上蓋之排氣開口(Η1)寬度加上熱氣導通道上方 開口寬度’賴口長邊兩翻定位置設以導通道框架向 點(N4)以配合由本框架下方開口組人之空氣_⑽之空 =濾網向相點⑽關定之,此設計制日後空氣滤網更 、不:拆下整個系統。當將本框架推至本體前端時,其 圖Η甘)前緣貼合,其下方開口前半部與上蓋排氣開 (Η1)另口、、下方開口後半部亦與熱氣導通道上方開口契 合,而本框紐端之純排放導通道框架之_⑽將自動 關閉,如此形成本系統上方熱空氣之室外排出(降溫)。當將 本框架拉後至其瞒底部與無色透光板上賴合時,本框架 後端之熱氣排放導通道框架之閑mD3)將自躺啟,直^ 與熱氣導通道上方開口契合,造成上蓋排氣開 ,,1' L已加熱空氣只能由框架後端斜面開σ (N1)排 入室内,如此形成本系統上方熱空氣之室内排 為本框架之支撐肋。 1 -2.空氣導通模組 1-2-1.空氣導通板(圖E)_s氣導通板本體(ει)為一成型 9 M314842 板附以熱絕緣材料於其上方、前方、及下方底部,其左右緣 ,下端後緣附以膠條以與左右側蓋板(C1及C2)、及室内空 氣排放/吸入雙向導通道框架(圖p)接合以防止空氣 ς 導通板左右(及中央,視系統長度而定)各鑽以數個導通板= 階段支撐栓_定孔⑽)㈣配合三階段支雜柱(Q4)^ 組合太陽能加熱板本體⑽來形成空氣導通道,並固定 度及支撐其組合結構。—室内空氣排放/吸入ς =通25之中段閘⑽3)設於其τ端後緣用以啟閉: 空軋排放/吸入雙向導通道框架。 鬥 ^2山-2.纟内熱氣排放導通道框架(圖⑴—為―成型框龙 刚端斜面設與太陽能加熱板本細)同 端下缘 孰板背面貼人,官Π Γΐ 其與斜面與太陽能加 端開口(01)進入、經室内敎氣排放^ ff ¥通逼框錢 (02)導通至允褒莫、sΓ排放¥通逼框架前端向下開口 ⑽前端繼合體 此時配合㈣线減= 一姑此流通’ ⑽排放開啟,室内冷空氣進:孰㈣、逼框架之前端開Η 排放導通道框架(圖Ν)流回室^^通逼加熱,再經熱氣 架之支撐肋。 門^達升溫之目的。03為本框 導通道框架(圖ρ)~ 月J立而開口一Ρ2 為一個 、及前端下方開口-Ρ3) 10 細.乂 M314842 架。降科,料_前_至主體框架 位,其麵將$邮氣賊/狀導通道框 -;則罐,)關閉並同時開啟本框架前端下方開口 :-.、'甘^室外冷空氣再由後端開口⑽排入室内以降 ;間定:,。升溫時,將本_後拉至主體框架 .^ ^位,β2將自動開啟並同時闕閉前端下方開口⑽,以 氣入室内冷空氣至熱氣導通道加熱,配合熱 $排放導通道框架之閘門⑽開啟 乂 IV 框木之中段間門(Ε3)將自動關閉,此時益空氣 内流通。本框架前端下方開口⑽上方設以固定位 (Ρ5)^=(Ρ6)以配合㈣端開口(Ρ2)組入之空氣翻 口ϋ if Γ而固定,此設計便利日後空氣滤網更換, 二而拆下本框4而不需拆下整個系統。本框架另設以室外空 ,上下雙通之外部框道⑽以提供本框架外(室外)上下空 通’以助電力風扇(J1)之室外空氣流通並支撐本框 結構。 3.左^則盍板(圖〇—為熱氣導通模組、空氣導通模組之 :右側蓋板(C1及⑵’其内部附以熱絕緣材料以阻絕孰消 ^上下^數層凸出緣(上蓋框架導緣C3,力口熱板及其後附 二板,緣C4:空氣導通板導緣⑸使主體框架(圖B)穩固支 #側蓋板’並支撐所有相接合之目定或可動树。其上下後 端垂直緣附以膠條以與介面面板框(圖L)及室内空氣排放/ 吸入雙向導通道框架(圖p)密接合。 M314842 L電=風扇調溫模組,包含電力風扇模組(圖j),介面面 扳框(圖L),及風扇閘門模組(圖μ)。 2一I電力風扇模組(圖j) 二1-1.電力風扇(J1)—為一具風向及風量調節機構之電力 風扇,其週邊附以框蓋(未圖示)以阻止 ==條與電力風麵板框⑽接合以防雨水浸入。; 、、、糸人屯力風扇面板框⑽固定於電力風雜裝螺絲孔⑽。、 2卜2.電力風扇面油⑽—為― · ,以配合電力風扇之大小,上有數個螺:孔洞,、 这力風扇組裝螺絲孔⑽供電力風扇固定螺_,外數L且 〇主,框架螺絲孔⑺)供、喊後之電力風扇模組(圖乃鱼主 合用。巾央鏤雜口上下各魏個附有向内 =(的^顧_定緣⑽,用聰合岐風顧網之固定 =1 風扇濾網(圖κ)—為一附有抓網之風扇遽網⑽,复 風扇滤,·架(Κ3)上下附以數個風扇濾網之固定凹點^ ^配合電力風扇面板框之風顧_定緣⑻之凸點以 2-2.介面面板框(圖L)一(L1)為本機構之室内 本體’其上方排進氣開口介面⑽為熱氣排放導通道框架: M314842 中°間開4== 道框架(圖0)之室内開口介面, 二介,)為室内二 階段栓(M2)支撐 心)之閉門二階段供風扇閘門模組 2绫 T組(圖M)—其風仙mMi)為—平板附以 二二i :V、上緣左右兩端為間門二階段栓柱(M4)以配合 ^門之=(圖Li之上二風扇間門栓扣(L4),作為風扇間門 =之轉軸。風制門下緣左右兩端接以風扇閘門支竿臂 » 顧綱n支料料賊核臂轉_检及帶耳螺 風制n支料,旋緊該帶耳螺胃以固定閑門 开 X0第一風扇間門支架臂的末端再組以支架臂二階段 ,·柱(M2)㈣合介面面板框之下二風扇閘門支架扣(⑷ ,、成為風扇閘Η支架臂的支禮、轉動支點。風扇閘門兩端下 緣設以磁鐵⑽)’以在風制η閉合時使其貼合固定於介面 面板框。Ml,及ΜΓ為風扇閘門(mi)在不同開啟角度示意參 考0 μ ’ 3·主體框架(圖Β)—為一金屬框架作為本機構之骨幹以妗 構、支撐、保護並包護本機構所有主要元件、並用以固; 13 M314842 本機構至安裝對象物(如垂直壁開口或氣窗框),其前端下 方5又一上覆熱絕緣材料之主體框架底板(B1)作為加熱通道 之底部’底板中間設有室内空氣排放/吸入雙向導通道框架 之箾^閘門(B2)以啟閉該通道至加熱通道,底板之最後端 設以數個外部空氣導入開口(B6)以配合室内空氣排放/吸 入雙向導通道框架前端下方開口(P3)。框架左右之下端前 緣設有無色透光板壓條固定扣孔(B8)用以固定附有膠環之 金屬壓條⑽)使無色透光板(圖G)T·緣固定於框架。框架 左右之上端前緣設有上蓋壓條固定扣孔(B9)以固定另一附 有膠攀之金屬壓條⑽使上助定於框架。框架後端設以 左右兩片各鑽有數個固定用孔洞(β5)的主體框 定_3及Β4)用以支撐並固定主體框架至安裝對象= 及固定電力風扇模組(圖j)、及介面面板框(圖L)。左右靠 内^孔供電力風扇模組固定用,左右巾間2孔供主體框架 口疋用,左右外部2孔供介面面板框固定用。框架後端上 J以:ί四水平緣及主體框架底板(B1)後端水平緣附以膠 Ϊ接H板框及嫩氣排放/吸人雙向導通道框架 i本入雙向導通道延伸框架版本α t =(力圖p),其上方可拆卸室内空氣排放/吸入 條申框架之前端開口㈤之上下左右緣附以勝 架後端7 口=、大小與室内空氣排放/吸入雙向導通道框 後而開σ(Ρ1)之形狀、大小相契合,以延伸該後端開口至 M314842 框架之卸二 彎道向下流通至室内丄二 室及輯,減至契合的 夕火始、、ώ — 、、框木、進入加熱通道加熱、 二i-:'本ί架設以前後雙通之框道(R2a及R2b)以 光、° t在窗台安裝上提供向外可透視空間及室外 定”古iiV/、T設有螺检腳柱(R4)供調整接地高低並固 寺吸附室内油煙或塵埃。τι為熱氣排放導通 =^至内熱祕放導通道_之空氣濾雕,τ τΤΓ f ^ T4 ^ T2之開口,其大小各契合該介面面板框開口(L2及L3) 小·,開口上下二内緣附以磁性材料(Τ5)用以貼付該空 網框至介面面板框各姉開口 m網由各開口組入=、 空氣翻框之5 _ _網。T2亦可安裝於可 内 工氣排放/吸入雙向導通道延伸框架之下端開口肋。 實施方式】 1 ·女裳貫施方式 15/JEL旲, and · Baoli fan temperature control module, together with the relevant main frame mechanism design, to utilize the three movable guide channel frames in the system (N, 0, and P of the drawings) Different positions in the main body are used to open or close the passage gate to control the hot/cold air in/out flow direction of the whole system to adjust the indoor temperature and indoor and outdoor air exchange. The former uses the principle of solar thermal energy and thermal convection (4 thermosiphons in the system) to generate airflow driving force to adjust temperature and air exchange, supplementing the latter with emphasis on temperature/ventilation function, and providing fan power when the illumination is insufficient or at night. To achieve the purpose of cooling and air exchange. A system attachment-removable indoor air vent/suction double-guide channel extension frame/frame is used to extend the indoor air vent/suction dual-guide channel frame rear opening to the lower indoor position to improve indoor heat performance in Shanghai. Fit a set of system accessories - indoor interface open air filter frame to filter indoor air. The above various means are combined to solve the aforementioned prior art problems. The details are as follows: 1. The solar temperature control module includes two main conduction modules: the helmet 7 M314842 hot gas conduction module, and the other is an air conduction module, a side cover and a main body frame. DD around 1-1·Hot gas conduction module 1 1 1·Too 1% of this heating plate (Fig. D)—Solar heating plate body (di) A black recording metal forming plate is used to absorb solar energy to heat it in circulation (hot gas) The air of the guide channel) is attached with a heat insulating material to block the heat and other lower temperature air passages, and the left and right edges and the upper edge are resistant to the left and right sides of the plate and the solar heating plate is attached to the rear guide plate (10). Block air ^ escape. The solar heating plate is attached with a hot gas sluice behind the guide plate. The gate (D3) that opens the frame is used to control the hot gas discharge guide channel frame (the hot air chamber inflow (heating) or outdoor outflow (cooling) in Fig. Ny. (and central, depending on the length of the system) each of the three-stage support bolt mounting holes (D4) of the heating plate is used to support the air conduction plate (Ε1) and three stages to fix the height of each guide channel and Support the combined structure.! (Q4), and 1 1 2 · thermochromic plate (figure g) - is a molded body, placed in front of the solar heating plate 〇 1,), so that the yang radiation can wear Through the heating of the solar heating plate (D1) and as the hot air guiding channel of the air flow guide and the front cover, the upper, lower, left and right edges are attached with rubber strips to the left and right side covers (C1 and C2), and the hot gas discharge guide frame (Fig. N), and the main frame bottom plate (B1) is in close contact to block the escape of air. 1 卜3·上盖(图η)—is a molded body with thermal insulation material to prevent heat dissipation, and the left and right edges and the lower rear slanting edge are attached with rubber strips to the left and right side covers (C1 and C2) And the colorless light-transmissive plate (Fig. G) is tightly joined to prevent air 8 M314842 ! m. ,. Butterfly (·.·: i»K«;rwt :;irrc 1««WS^'*^ Yazheng The rear edge of the nail end is also ribbed and fixed on the colorless light-transmitting plate (Fig. G). The other side of the nail is convex to prevent the rain from invading the body. The front end is provided with several upper cover rows (111). Air to the outside or air to the system. Main r 1^—4. The hot gas discharge guide frame (Fig. N) _ is a molding frame, the front δ is opposite to the upper rim, and the front opening is at the leading edge. Below, the opening width f is equal to the width of the exhaust opening (Η1) of the upper cover plus the width of the opening above the hot air guiding channel. 'The long side of the opening is set at two positions to guide the frame to the point (N4) to match the opening group below the frame. The air of the person _(10) is empty = the filter screen is determined to the phase point (10). The design of the air filter after the day is more, not: the entire system is removed. When pushed to the front end of the body, the front edge of the body is attached, and the front half of the lower opening and the upper cover are opened (Η1), and the lower half of the lower opening is also matched with the upper opening of the hot air guiding channel. The _(10) of the pure discharge guide channel frame will be automatically closed, thus forming the outdoor discharge (cooling) of the hot air above the system. When the frame is pulled back to the bottom of the frame and the colorless light-transmitting plate is attached, the idle mD3) of the hot gas discharge guide channel frame at the rear end of the frame will be self-laid, and the straight air fits into the upper opening of the hot air guiding channel, resulting in The upper cover is exhausted, and the 1' L heated air can only be discharged into the room by the slanted surface σ (N1) of the frame rear end, so that the indoor air that forms the hot air above the system is the support rib of the frame. 1 - 2. Air conduction module 1-2-1. Air conduction plate (Fig. E) _s Air conduction plate body (ει) is a molding 9 M314842 plate with thermal insulation material above, at the front, and below the bottom, The left and right edges, the lower end trailing edge are provided with rubber strips to engage the left and right side covers (C1 and C2), and the indoor air discharge/intake double guide channel frame (Fig. p) to prevent the air ς conduction plate from being left and right (and center, view Depending on the length of the system, each drill has several conduction plates = stage support bolts - fixed holes (10)) (4) with three-stage branch columns (Q4) ^ combined solar heating plate body (10) to form air guide channels, and to fix and support them Composite Structure. - Indoor air discharge / suction ς = pass 25 middle gate (10) 3) is located at the trailing edge of its τ end for opening and closing: air rolling discharge / suction double guide channel frame.斗^2山-2. The inner hot gas discharge guide channel frame (Fig. (1)—for the forming frame, the long-end end slope surface is set with the solar heating plate), the lower end of the lower edge of the raft is attached to the back, the official Π and its bevel Entering with the solar end opening (01), discharging through the indoor helium gas ^ ff ¥ 通 框 box (02) conduction to the allowable 、, Γ Γ emissions ¥ through the frame front end downward opening (10) front end of the joint body at this time with the (four) line Less = one awkward circulation' (10) Emissions are turned on, indoor cold air is in: 孰 (4), and the front end of the frame is forced to open. The discharge guide channel frame (Fig. 流) flows back to the room ^^ to force heating, and then through the support rib of the hot gas frame. The door ^ is heated for the purpose. 03 is the frame guide channel frame (Fig. ρ) ~ month J and the opening is one Ρ 2 for one, and the front end opening - Ρ 3) 10 thin. 乂 M314842 frame. Down Division, material _ before _ to the main frame position, its face will be $ philosopher / guide channel frame -; then can,) close and open the opening below the front end of the frame: -., 'gan ^ outdoor cold air Discharged into the room by the rear opening (10); When warming up, pull the _ back to the main frame. ^ ^ position, β2 will automatically open and simultaneously close the opening below the front end (10), to enter the indoor cold air to the hot air guiding channel to heat, with the heat $ discharge guide channel frame gate (10) Opening the middle door of the 乂IV frame wood (Ε3) will be automatically closed, and the air will flow in the air. The opening (10) at the lower end of the front end of the frame is fixed with a fixed position (Ρ5)^=(Ρ6) to fit the air opening ϋ if Γ of the (four) end opening (Ρ2), which is designed to facilitate the replacement of the air filter in the future. Remove this frame 4 without removing the entire system. The frame is additionally provided with an outdoor space, an upper and a lower double-passing outer frame (10) to provide space outside the frame (outdoor) to assist the outdoor air circulation of the power fan (J1) and support the frame structure. 3. Left ^ then 盍 board (Figure 〇 - for the hot gas conduction module, air conduction module: the right side cover (C1 and (2)' is internally insulated with a thermal insulating material to block the 上下 ^ ^ (The upper cover frame guide edge C3, the force port hot plate and its rear attachment plate, the edge C4: the air conduction plate guide edge (5) enables the main frame (Fig. B) to securely support the # side cover' and support all the joints or Movable tree. The vertical edges of the upper and lower rear ends are glued to the interface panel frame (Fig. L) and the indoor air discharge/suction double guide channel frame (Fig. p). M314842 L electric = fan thermostat module, including Power fan module (Fig. j), interface face frame (Fig. L), and fan gate module (Fig. μ). 2 I power fan module (Fig. j) II. 1-1. Power fan (J1)— A power fan for a wind direction and air volume adjustment mechanism is attached with a frame cover (not shown) to prevent the == strip from engaging with the power wind panel frame (10) to prevent rainwater from entering. The panel frame (10) is fixed to the power wind screw hole (10). 2 Bu 2. Power fan oil (10) - is " · · to match the size of the power fan, there are several : Hole, this force fan assembly screw hole (10) power supply fan fixing screw _, external number L and 〇 main, frame screw hole (7)) supply and shout after the power fan module (Figure is the main fish combination. Each of the upper and lower Weis is accompanied by an inward = (the ^ Gu _ ding edge (10), with the Conghe 岐 岐 顾 之 =1 =1 =1 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇Multi-fan filter, · frame (Κ3) with a fixed number of fixed fan points on the top and bottom of the fan ^ ^ with the fan panel of the power fan _ fixed edge (8) bumps to 2-2. interface panel frame (Figure L) One (L1) is the indoor body of the mechanism'. The upper air intake opening interface (10) is the hot gas discharge guide channel frame: M314842 The middle opening 4== the indoor opening interface of the track frame (Fig. 0), the second interface, is Indoor two-stage plug (M2) support heart) Closed-door two-stage fan gate module 2绫T group (Fig. M)—the wind fairy mMi is—the plate is attached with two or two i:V, and the upper and lower ends are The second stage of the door (M4) is matched with the door = (the two fan door latches (L4) above the Li, as the fan door = the shaft. The left and right ends of the wind door are connected to the fan gate pole » Gu Gang n material thief nuclear arm turn _ check and with ear snail wind n material, tighten the ear snail stomach to fix the idle door open X0 first fan door bracket arm end and then set the bracket arm In the second stage, the column (M2) (4) is connected to the second fan shutter bracket buckle ((4), which becomes the support of the fan brake bracket arm and the pivot point. The lower edge of the fan gate is provided with a magnet (10)) When the wind system η is closed, it is fixed and fixed to the interface panel frame. Ml, and ΜΓ is the fan gate (mi) at different opening angles, with reference to 0 μ ' 3 · main frame (Fig. —) - a metal frame as a The backbone of the organization is to structure, support, protect and protect all the main components of the mechanism and to be used for solidification. 13 M314842 This body is to be installed on the object (such as vertical wall opening or louver), and the lower part of the front end is covered with heat. The main frame bottom plate (B1) of the insulating material serves as the bottom of the heating passage. The middle of the bottom plate is provided with a damper gate (B2) for the indoor air discharge/suction double guide channel frame to open and close the passage to the heating passage, and the last end of the bottom plate is provided Several external air introduction openings (B6) for matching Indoor air discharge / suction channel frame downward bidirectionally end opening (P3). The left and right lower ends of the frame are provided with a colorless light-transmitting plate bead fixing button hole (B8) for fixing the metal bead (10) with the rubber ring attached thereto, so that the colorless light-transmitting plate (Fig. G) T·edge is fixed to the frame. The top left and right upper end edges of the frame are provided with an upper cover bead fixing button hole (B9) to fix another metal bead (10) with a rubber climbing to assist the frame. The rear end of the frame is provided with two main body frames _3 and Β4 for each of the fixing holes (β5) for supporting and fixing the main body frame to the mounting object = and the fixed power fan module (Fig. j), and the interface Panel frame (Figure L). The left and right inner hole power supply fan modules are fixed, and the two holes between the left and right sides are used for the main body frame, and the left and right outer holes are used for fixing the interface panel frame. On the rear end of the frame, J is: 四 four horizontal edges and the horizontal edge of the rear end of the main frame bottom plate (B1) with plastic splicing H plate frame and tender air discharge / suction double guide channel frame i into the double guide channel extension frame version α t = (strength p), above which the detachable indoor air discharge/suction strip is applied to the front end opening (5). The upper left and right edges are attached to the rear end of the win frame 7 port, the size and the indoor air discharge/inhalation double guide channel frame The shape and size of the opening σ (Ρ1) are matched to extend the rear end opening to the unloading curve of the frame of M314842 and flow downward to the indoor room and the room, and reduce the fit to the beginning of the eve of the fire, ώ — , frame wood, heating channel heating, two i-: 'this erection before and after the double-pass frame (R2a and R2b) with light, ° t on the window sill installation to provide outward perspective space and outdoor set "ancient iiV /, T has a thread check foot (R4) for adjusting the grounding height and fixing the temple to absorb indoor fumes or dust. τι is the hot gas discharge conduction = ^ to the inner heat secret channel _ the air filter, τ τ ΤΓ f ^ T4 ^ T2 opening, the size of each interface fits the interface panel frame opening (L2 and L3) small, opening up and down The inner edge is provided with a magnetic material (Τ5) for attaching the empty frame to the opening of the interface panel frame. The m mesh is composed of the openings, and the air tumbling frame 5 _ _ net. The T2 can also be installed in the inner working gas. The discharge/intake double-guide channel extends the lower end opening rib of the frame. Embodiments 1 · Female skirts 15
M314842 ^系統可組裝於任何對象物之垂直壁開口,如或窗台的 氣窗。安裝實施程序如下 A·垂直壁鑽孔並置入牆壁螺栓膨脹柱,或氣窗窗框鑽 孔。 ' β•將不含介面面板框及風扇閘門模組之整個主體組入 開口,鎖入螺絲於主體框架之固定用孔洞以固定主 體於垂直壁或氣窗窗框。 c·將介面面板框及風扇閘門模組組入主體,鎖入螺絲 於介面面板框之孔洞以固定介面面板框與主體。 α組入可拆卸室内空氣排放/吸入雙向導通道ς伸框 Ε·組入室内介面開口空氣濾網框。 D·將風扇電纜線插入插座。 2·使用實施方式 (註:in、2、3,及4内,Ml-風扇間門端為室内) A·.詳圖!,降溫時,賴溫熱空氣由㈣扣進入系統, 、’、工至内熱氣排放導通道框架⑼,往下進人空氣導通 道3統底部,再往上進人D卜太陽能加熱板上方(孰 氣¥通這)加熱,使线密度#小社相產生轨虫: 吸,以進續氣排放導通道框軸),再由 H1:開口排出系統,此時配合卜室内空氣㈣吸 向:通,架之P3_開口開啟,室外冷空氣由β6—開 口引入至仏開口進入室内。此熱出冷進循環實施而 16 M314842 達降溫及室内外空氣交換的目的。(註:此時三個導 _ 通道框架N,0,P皆在系統内位置置前)。解決先前 - 技術問題-1及問題-2。 : B•詳圖2,升溫時,室内冷空氣由P-室内空氣排放/吸 入雙向導通道框架之P1-開口進入系統,往上進入D1 -太陽能加熱板上方加熱,使空氣密度變小而上升以產 鲁 生熱虹吸,以進入N-熱氣排放導通道框架,再由其後 方開口(N1)排入空内。此時室内熱氣排放導通道框架 (〇)關閉,即無空氣在此流通。此熱進冷出循環實施 而達升溫的目的。(註:此時N及〇導通道框架皆在 系統内位置置後,而P導通道框架在系統内位置置 中)。 咩圖3,啟動風扇加速降溫及交換空氣時,打開風扇 = ^(M,M’及M”為其不同開啟角度示意),將室外冷 =氣引入室内,室内溫熱空氣除受系統熱虹吸效應由 内更通大 排至室外’另受風扇之 排放々及^向^^出效果。此時顏卜室内空氣 空氣因風^m架之Ε3—間’叫室内較冷 模組將無作用(並:不間時产能調溫 空氣產生風屏以二及),鱗啟動風扇弓丨入室外冷 道由Η1-開口土排至=溫熱空氣由0卜開口經系統通 架皆在系_位置’以上,naq導通道框 置置則,而P導通道框架在系統内位 M314842 後)。或日照不足或夜間時(詳圖4),啟動風扇排 至内/皿熱空氣,使室外冷空氣由H1-開口吸入而由 ^ 口^非至室内。(註··此時N導通道框架在系統内 =、、,置刚’ 〇導通道框架在系統内位置置後,而p導 L道框架在系統内位置置中)。 解決先前技術問題一5。 D· _ 4,啟動風扇加速升溫及交換空氣時,開啟風扇 問門GO,、以將室内冷空氣排至室外,將〇—室内熱氣 排放導通逼框架關閉,室外冷空氣因風扇外吹風壓產 生向内,力由H1 一開口進入系統、加熱、再由P1-開 口 =入至内。(註:此時N導通道框架在系統内位置 置别,0導通道框架在系統内位置置後,而p導通道 框架在系統内位置置中)(雜:在日照不足或夜間無 法k供升溫及交換空氣)。 解決先前技術問題一5。 Ε. §羊圖1及圖以與RB,使用附件-可拆卸室内空氣排 放/吸入雙向導通道延伸框架版本Α或版本β (RA或 RB)使其上方幻—前端開口與P_室内空氣排放/吸入雙 向導通道框架之後端開口 Π接合,以延伸室内空氣 排放/吸入雙向導通道開口至室内較低位置,並二大 進出氣口上下距離以改善室内熱對流、升降溫之效 果、及加速升降溫與空氣交換速度。 解決先前技術問題-3。 18 M314842 F·系統内部主要組件均以熱絕緣材料貼附以阻絕熱消 散至其他區域(含系統外),並以膠條安裝於組件接合 部以防止空氣逸散,使逆向之熱虹吸現象不致發生並 改善正向熱虹吸效果。 角午決先别技術問題—4及先前技術問題一6。 G. -組室内介_ 口空氣翻框,安置於介面面板框之 室内開口介面或可拆卸室内空氣排放/吸入雙向導通 道延伸框架之下端開口,用以過渡室内空氣或在安裝 本系統於油煙或大量縫之縣物場合時吸附室内 油煙或塵埃。 解決先前技術問題一7。 H· t置^空氣濾網於熱氣排放導通道框架⑻及室 内空氣排放/吸入雙向導通道框牟 =蟲,且方便曰後拆:各 == 更新工氣濾網,而不需拆下整個系統。 解決先前技術問題-7。 I·整個系統的外部耕皆以接合方式結合 護’並避免因使㈣絲或“結合所^成 j·於氣窗安裝的場合 本系統亦提供窗台的遮雨/遮陽 19 M314842 功能。 ......».- - Κ·詳圖A本系統之太陽能模組系統參考 ...… 考本圖之右端標示,室内溫熱空氣由 ' 系統主體,經由導通道Α2、A3至Α4,再進入Α5太 陽能加熱板之加熱通道加熱後至Α6位置,而由A?出 口排至室外,f峨錢㈣後,室 龜 入口進入A9導通道,再由A1〇屮口姐 攀 、灯田Λΐυ出口排入室内以達降 溫及室内外空氣交換目的。升溫時,參考本圖之左端 由^入口進入本系統主體,經由導 ϊ A13太陽能加熱板之加熱通 迢加熱後至A14位置,而由A15出口導入至室内以達 升溫度目的。(未使用電力風扇之場合) ♦ , 【圖式簡單說明】 · • =,2 ’ 3,及4-綱魏_(續侧實施方 茨J 0 、 圖5-為先前技術示_(參考新型内容_A屬技術問題)。 圖x~為本系、统之系統爆炸圖(指定代表圖)。 圖a -為本系統之太陽能模組空氣流向參考 M314842 圖^為本系統之主體框架,肋支撐及安裝本機構之 ^里亚固定本機構至應用目標物之垂直壁開σ。圖示B7 ,金屬壓條,上附以橡縣_壓著固定無色透光板 孤於框* ’Β8為無色透光板壓條固定扣孔示意圖及 置,Β9為上蓋壓條固定扣孔示意圖及其位置。 ” =C為本主體之左右織板,_隔絕導通道左右與外部 ,D -為太縣加缝,肋魏编能來加減通過之空 圖=為空氣導通板,用以導通空氣並作為系統 以與至外隔絕。 前方之背板 囷F為上蓋及無色透光板組裝示意圖(内含 光板及圖Η-上蓋)。 圖G-無色透 娜物能加熱 圖Η -上蓋 :二電足力或=援提高― 能,並 M314842 圖K-為風扇濾網,用以在風扇啟用時過濾室外空氣及防上 蚊蟲入侵室内。 圖L -為介面面板框,為本系統之室内介面。M314842^The system can be assembled into the vertical wall opening of any object, such as the louver of a window sill. The installation procedure is as follows: A. Vertical wall drilling and placing into the wall bolt expansion column, or the louver drilling hole. 'β•Incorporate the entire body without the interface panel frame and the fan gate module into the opening, and lock the fixing holes of the screws into the main frame to fix the main body to the vertical wall or the louver. c. The interface panel frame and the fan gate module are assembled into the main body, and the screws are locked into the holes of the interface panel frame to fix the interface panel frame and the main body. α group into the detachable indoor air discharge / suction double guide channel expansion frame Ε · group into the indoor interface open air filter frame. D·Insert the fan cable into the socket. 2. Use the implementation method (Note: In, 2, 3, and 4, Ml-fan door end is indoor) A.. Detail! When the temperature is lowered, the hot air from the warmth will be taken into the system by (4) buckles, and the frame of the heat-conducting guide channel (9) will be lowered into the bottom of the air-conducting channel, and then enter the upper side of the solar heating plate.孰气¥通)) heating, so that the line density #小社 phase produces orbital: suction, to enter the gas discharge guide channel frame axis), and then the H1: opening to discharge the system, at this time with the indoor air (four) suction: Through, the P3_ opening of the rack is opened, and the outdoor cold air is introduced into the chamber through the β6-opening to the opening. This hot outcooling cycle is implemented while 16 M314842 achieves the purpose of cooling and indoor and outdoor air exchange. (Note: At this time, the three guide _ channel frames N, 0, P are placed in front of the system). Solve the previous - Technical Issues -1 and Issues - 2. B. Detail 2. When warming up, the indoor cold air enters the system from the P1-opening of the P-indoor air exhaust/intake double-guide channel frame, and goes up to D1 - heating above the solar heating plate, so that the air density becomes smaller and rises. The Lusheng heat siphon is used to enter the N-hot gas discharge guide frame, and then the rear opening (N1) is discharged into the air. At this time, the indoor hot gas discharge guide frame (〇) is closed, that is, no air flows there. This heat in and out of the cycle is implemented to achieve the purpose of heating up. (Note: At this time, the N and 〇 guide channel frames are placed in the system, and the P-guide channel frame is centered in the system). Figure 3, when starting the fan to accelerate cooling and exchange air, turn on the fan = ^ (M, M' and M" for different opening angles), introduce outdoor cold = gas into the room, indoor warm air in addition to the system thermosiphon The effect is from the inside to the outside to the outside. 'The other is the effect of the fan's discharge and the ^^^^. At this time, the indoor air of the air is not affected by the air-cooling module. (And: time-saving production air temperature to produce the wind screen to the second and), scales start the fan bow into the outdoor cold passage by Η1-open soil discharge to = warm air from the 0 Bu opening through the system through the system _ The position 'above, the naq guide channel frame is placed, and the P guide channel frame is behind the system M314842). Or when the sunshine is insufficient or at night (detailed in Figure 4), start the fan exhaust to the inner/dish hot air to make the outdoor cold air Inhaled by the H1-opening and not by the mouth. (Note: At this time, the N-guide channel frame is in the system =,,,,,,,,,,,,,,,,,,,,,,,,,,,, The frame is centered within the system.) Solve the prior art problem one. 5. D· _ 4, start fan acceleration When the air is gently exchanged, the fan door GO is turned on to discharge the indoor cold air to the outside, and the indoor hot air discharge is forced to close the frame, and the outdoor cold air is inwardly driven by the blow pressure of the fan, and the force is opened by H1. Enter the system, heat, and then enter the inside through the P1-opening. (Note: At this time, the N-channel frame is placed in the system, the 0-channel frame is placed in the system, and the p-guide frame is in the system. Positioning) (Miscellaneous: Insufficient sunshine or nighttime, it is not possible to heat up and exchange air.) Solve the prior art problem one. 5. Ε. § Sheep Figure 1 and Figure with RB, use accessories - detachable indoor air discharge / inhalation The dual-guide channel extension frame version or version β (RA or RB) engages the upper phantom-front opening with the P_ indoor air vent/suction dual guide channel frame rear end Π to extend the indoor air bleed/inhale dual guide channel Open to the lower position of the room, and the upper and lower distances of the two inlet and outlet ports to improve the effect of indoor heat convection, temperature rise and fall, and accelerate the temperature of the temperature rise and fall. Solve the prior art problem -3. 18 M3 The main components of the 14842 F· system are attached with thermal insulation material to prevent heat from dissipating to other areas (including the outside of the system), and are installed on the joint of the assembly with rubber strip to prevent air from escaping, so that the reverse thermal siphon phenomenon does not occur. And improve the positive thermal siphon effect. Noon technical problems - 4 and prior technical problems - 6 G. - Group indoor _ mouth air tumbling, placed in the interface panel of the indoor opening interface or detachable indoor air The lower end opening of the discharge/intake double-guide channel extension frame is used to transfer indoor air or to absorb indoor soot or dust when installing the system in the case of soot or a large number of seams. Solving the prior art problem 7 7. H· t set ^ The air filter is in the hot air discharge guide frame (8) and the indoor air discharge/inhalation double guide channel frame 虫=worm, and it is convenient to disassemble: each == update the gas filter without removing the whole system. Solve the prior art problem-7. I. The external ploughing of the whole system is combined with the protection and avoids the use of the window. The system also provides the rain/sunshade of the window sill. 19 M314842 function is used to make the (four) wire or the combination of the window. ...».- - Κ·Details A The solar module system reference of this system... The right end of the test chart indicates that the indoor warm air is from the 'system main body, through the guide channel Α2, A3 to Α4, and then After entering the heating channel of the Α5 solar heating plate, the heating channel is heated to the Α6 position, and the A? outlet is discharged to the outside. After the 峨(4), the turtle entrance enters the A9 guide channel, and then the A1 〇屮口姐攀, 灯田Λΐυ exit Discharge into the room for cooling and indoor and outdoor air exchange. When warming up, refer to the left end of this figure to enter the main body of the system through the inlet, and heat it through the guide A13 solar heating plate to the A14 position, and exit by A15. It is introduced into the room to raise the temperature. (When no electric fan is used) ♦ , [Simple diagram] · • =, 2 ' 3, and 4-class Wei _ (Continued implementation of the square J 0 , Figure 5 - for the prior art _ (refer to the new content _A is a technical problem Figure x~ is the system explosion diagram of the system and system (designated representative map) Figure a - Air module air flow reference for the system M314842 Figure ^ The main frame of the system, rib support and installation of the mechanism ^ 里亚 fixed the body to the vertical wall of the application target σ. Figure B7, metal bead, attached to the rubber county _ pressing fixed colorless transparent plate orphan frame * 'Β8 for colorless translucent plate bead fixing buckle The hole schematic diagram and the setting, Β9 is the schematic diagram of the fixed cover hole of the upper cover bead and its position. ” =C is the left and right woven board of the main body, _ isolation guide channel left and right and outside, D - is Taixian plus seam, rib Weibian can add and subtract Passing the air map = air conduction plate for conducting air and as a system to be isolated from the outside. The front back plate 囷F is a schematic diagram of the assembly of the upper cover and the colorless transparent plate (including the light plate and the top plate - the upper cover). G-colorless liquid can heat the figure 上 - top cover: two electric foot force or = aid to improve - energy, and M314842 Figure K - is a fan filter to filter outdoor air and prevent mosquitoes from entering the room when the fan is activated. Figure L - is the interface panel frame, which is the interior of the system Surface.
圖Μ -為風顧卩〗模組,用啸制風扇氣流之流向,犯為 風扇閘Η (Ml,及Ml,,為其開啟之不同角度示意)。 γ-為熱氣排放導通道框架,用以引導加熱空氣排入室内 (升^)或排岭外(降溫)、或姐紐㈣將室外 入糸統(升溫)。 Z體為朗減排放導通道框架,用以將室内溫熱空氣導 =氣放/狀料道轉,肋將室外 將加熱空氣ί人室ί内冷空氣導人系統、或在風扇啟用時 板及三階段 之、、且口不思圖,局掀大圖為其截面組裝示意圖。 圖RA及诎—為可拆卸室内空氣排放 框架版本A及财B,㈣改善室㈣空 22 M314842 較RA更多的窗台可視空間及室外光線之投入。 圖S -空氣導通板與左右侧盍板組裝示意圖 圖T-為室内介面開口空氣濾網框,用以過濾室内空氣、灰 塵及油煙。 【主要元件符號說明】 圖1,2,3,及4 系統實施說明圖(註:Ml端為室内) B2:室内空氣排放/吸入雙向導通道框架之前端閘門 B6:主體框架之外部空氣導入開口 D1:太陽能加熱板 D3:熱氣排放導通道框架之閘門 E3:室内,空氣排放/吸入雙向導通道框架之中段閘門 H1:上蓋長方形排氣開口 J1:電力風扇 K:風扇i慮網 . Ml:風扇閘門(ΜΓ及ΜΓ為其開啟之不同角度示意) N:熱氣排放導通道框架 N1:後端斜面開口 0:室内熱氣排放導通道框架 01:後端開口 P:室内空氣排放/吸入雙向導通道框架 P1:後端開口 P3:前端下方開口 M314842 I年月δ二 圖5 先前技術示意圖 '一一…一二' 5a:冷空氣 5b:熱空氣 5c:太陽能加熱板 ; 5d:熱空氣 ' 5e:熱絕緣材料 5f:進出氣口 5g:太陽能加熱板背面 • 5h:上蓋 圖X 本系統之系統爆炸圖(指定代表圖) 註:()内代表圖號,即(A)代表圖A 圖A 主體架構參考圖 A1〜A15為系統各導通道内不同位置,用以標示空氣之 流向參考用。 圖B 主體框架 ' Β1:主體框架底板 # Β2:室内空氣排放/吸入雙向導通道框架之前端閘門 Β3及Β4:主體框架之左右固定板 Β5:固定用孔洞 Β6:外部空氣導入開口 Β7:金屬壓條 Β8:無色透光板壓條固定扣孔 Β9:上蓋壓條固定扣孔 圖C 左右侧蓋板 C1:左侧蓋板 24 M314842 C2:右側蓋板 C3:上蓋框架導緣 C4:加熱板及其後附導板導緣 C5:空氣導通板導緣 圖D 太陽能加熱板 D1:太陽能加熱板本體 D2:太陽能加熱板後附導板 D3:熱氣排放導通道框架之閘門 D4:加熱板三階段支撐栓柱固定孔 圖E 空氣導通板 E1:空氣導通板本體 E2:導通板三階段支撐栓柱固定孔 E3:室内空氣排放/吸入雙向導通道框架之中段閘門 圖F .上蓋及無色透光板組裝示意圖, 圖G 無色透光板 圖Η 上蓋 Η1: 上蓋排氣開口 圖J 電力風扇模組 J1: 電力風扇 J2: 電力風扇面板框 J3: 電力風扇組裝螺絲孔 J4: 風扇濾網固定緣 J5: 組入主體框架螺絲孔 圖Κ 風扇濾、網 Κ1: 附有柵網之風扇濾網 25 M314842 K2:風扇濾網之固定凹點 Κ3:風扇濾網框架 圖L 介面面板框 L1:介面面板框本體 L2:上方排進氣開口介面 L3:下方排進氣開口介面 L4:風扇閘門栓扣或風扇閘門支架扣 L5:固定介面面板框於主體框架螺絲孔 圖Μ 風扇閘門模組 Ml:風扇閘門 ΜΓ及ΜΓ :閘門開啟之不同角度示意 M2:支架臂二階段栓柱 M3:支架臂轉動螺栓及帶耳螺冒 M4:閘門二階段栓柱 , M5:風扇閘門支架臂 M6:磁鐵 圖N 熱氣排放導通道框架 N1:框架後端斜面開口 N2:支撐肋 N3:空氣濾網 N4:導通道框架向内凸點 N5:空氣濾網向外凹點 圖0室内熱氣排放導通道框架 01:室内熱氣排放導通道框架後端開口 02:室内熱氣排放導通道框架前端向下開口 26 M314842 03:支標肋Figure Μ - For the 卩 卩 〗 〖 module, with the flow of the fan airflow, made a fan brake (Ml, and Ml, for different angles of its opening). Γ- is the hot gas discharge guide channel frame to guide the heated air into the room (liter ^) or outside the ridge (cooling), or the sister (new) to enter the outdoor system (heating). The Z body is a frame for the reduction and discharge guide channel, which is used to turn the indoor warm air guide = air discharge / feed channel, the rib will heat the air outside the room, or the air is used to guide the system. And the three stages, and the mouth does not think about it, the big picture is the schematic diagram of its cross-section assembly. Figure RA and 诎—for detachable indoor air emission Frame version A and Cai B, (4) Improvement room (4) Empty 22 M314842 More window sill viewing space and outdoor light input than RA. Figure S - Schematic diagram of assembly of air conduction plate and left and right side slabs Figure T- is an indoor interface open air filter frame for filtering indoor air, dust and soot. [Main component symbol description] Figure 1, 2, 3, and 4 System implementation description (Note: Ml end is indoor) B2: Indoor air discharge/suction double guide channel frame Front end gate B6: External air introduction opening of main frame D1: Solar heating plate D3: Gate of hot gas discharge guide frame E3: indoor, air discharge/suction double guide channel frame middle gate H1: upper cover rectangular exhaust opening J1: electric fan K: fan i care network. Ml: fan Gate (the different angles at which the ΜΓ and ΜΓ are opened) N: Hot air discharge guide channel frame N1: Rear slant opening 0: Indoor hot gas discharge guide channel frame 01: Rear opening P: Indoor air discharge/inhalation double guide channel frame P1: rear end opening P3: front end opening M314842 I year month δ two figure 5 prior art schematic 'one one... one two' 5a: cold air 5b: hot air 5c: solar heating plate; 5d: hot air '5e: heat Insulation material 5f: inlet and outlet port 5g: back of solar heating plate • 5h: upper cover picture X System explosion diagram of this system (designated representative figure) Note: () represents the figure number, ie (A) represents Figure A Figure A Main body structure reference Figure A1 A15 respective guide channels within the system at different positions, as air flows for indicating reference. Figure B Main frame 'Β1: Main frame bottom plate# Β2: Indoor air discharge/suction double guide channel frame Front end gates Β3 and Β4: Left and right fixed plates of the main frame Β5: Fixing holes Β6: External air introduction openingΒ7: Metal beading Β8: Colorless translucent plate bead fixing button hole Β9: upper cover bead fixing button hole C. Left and right side cover C1: left cover plate 24 M314842 C2: right cover C3: upper cover frame guide edge C4: heating plate and its attachment Guide plate guide edge C5: air conduction plate guide edge diagram D Solar heating plate D1: solar heating plate body D2: solar heating plate rear guide plate D3: hot gas discharge guide channel frame gate D4: heating plate three-stage support bolt column fixed Hole diagram E Air conduction plate E1: Air conduction plate body E2: Conduction plate three-stage support bolt column fixing hole E3: Indoor air discharge/suction double guide channel frame middle gate view F. Upper cover and colorless light-transmitting plate assembly schematic, figure G Colorless Translucent Panel Figure 上 Upper Cover : 1: Upper Cover Exhaust Opening Diagram J Power Fan Module J1: Power Fan J2: Power Fan Panel Frame J3: Power Fan Assembly Screw Hole J4: Fan Filter Mounting Edge J5: Screw hole pattern into the main frame Κ Fan filter, mesh 风扇 1: Fan filter with grid 25 M314842 K2: Fixed groove of fan filter Κ3: Fan filter frame L Interface panel L1: Interface panel Frame body L2: upper exhaust air inlet interface L3: lower air inlet opening interface L4: fan gate bolt or fan gate bracket buckle L5: fixed interface panel frame in the main frame screw hole diagram 风扇 fan gate module Ml: fan gate ΜΓ and ΜΓ : Different angles of the gate opening indicate M2: bracket arm two-stage bolt column M3: bracket arm rotating bolt and ear bolt M4: gate two-stage bolt column, M5: fan gate bracket arm M6: magnet figure N hot gas discharge Guide channel frame N1: frame rear end bevel opening N2: support rib N3: air filter N4: guide channel frame inward bump N5: air filter outer pit point Figure 0 indoor hot gas discharge guide channel frame 01: indoor heat exhaust Guide channel frame rear end opening 02: indoor hot gas discharge guide channel frame front end downward opening 26 M314842 03: rib rib
圖P P2 P3 室内空氣排放/吸入雙向導通道框架 P1:室内空氣排放/吸入雙向 ^ ί内空氣排放/吸人雙向導通口 =空氣排放/吸人雙向導通道框Fig. P P2 P3 Indoor air discharge/inhalation double guide channel frame P1: Indoor air discharge/inhalation two-way ^ ί Inner air discharge / suction double-guide port = Air discharge / suction double guide channel frame
P4 P5 P6 外部框道 空氣濾網 室内空氣排放/吸入雙向 點 導通道框架之向内 凸P4 P5 P6 External frame air filter Indoor air discharge / suction two-way point Guide channel frame inward convex
圖Q三階段支撐栓柱組裝示意圖 Q1:無色透光板 Q2:太陽能加熱板 Q3:空氣導通板 Q4:三階段支撐栓柱 Q5:缓衝材料Figure Q Three-stage support bolt assembly diagram Q1: colorless light-transmissive plate Q2: solar heating plate Q3: air conduction plate Q4: three-stage support plug column Q5: cushioning material
圖RA及RBFigure RA and RB
可拆卸室内空氣排放/ 伸框架版本A及版本B 及入雙向導通道延 R1:可拆卸室内空氣排放/吸人雙@ 架之前端開口 R2a及R2b:前後雙通之框道 R3: <拆卸室内空氣排放/吸入雙向 架之下端開口 導通道延伸框 導通道延伸框 R4:嫘栓腳柱 圖S空氣導通板與左右侧蓋板組裝示意圖 27 M314842 圖T室内介面開口空氣濾網框 Τ1:熱氣排放導通道框架及室内熱氣排放導通道 框架之空氣濾網框 Τ2:室内空氣排放/吸入雙向導通道框架之空氣濾 網框 Τ3及Τ4: Τ1及Τ2之開口 Τ5:磁性材料Removable indoor air discharge / extension frame version A and version B and double guide channel extension R1: detachable indoor air discharge / suction double @ frame front end opening R2a and R2b: front and rear double-pass frame R3: <Disassembly Indoor air discharge / suction bi-directional frame lower end guide channel extension frame guide channel extension frame R4: 嫘 bolt column diagram S air conduction plate and left and right side cover assembly diagram 27 M314842 Figure T indoor interface opening air filter frame Τ 1: hot air Air filter frame for the discharge guide channel frame and the indoor hot gas discharge guide frame Τ2: Indoor air discharge/inhalation air guide frame for the double guide channel frame Τ3 and Τ4: Openings for Τ1 and Τ2Τ5: Magnetic material
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TW095218967U TWM314842U (en) | 2006-10-26 | 2006-10-26 | Dualpower temperature regulation system |
US11/739,100 US20080098759A1 (en) | 2006-10-26 | 2007-04-24 | Dualpower temperature regulation system |
Applications Claiming Priority (1)
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TW095218967U TWM314842U (en) | 2006-10-26 | 2006-10-26 | Dualpower temperature regulation system |
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TWM314842U true TWM314842U (en) | 2007-07-01 |
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TW095218967U TWM314842U (en) | 2006-10-26 | 2006-10-26 | Dualpower temperature regulation system |
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TW (1) | TWM314842U (en) |
Families Citing this family (9)
Publication number | Priority date | Publication date | Assignee | Title |
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US8230649B2 (en) | 2009-09-18 | 2012-07-31 | Solarpath, Inc. | Solar wall apparatus and method |
US8046960B1 (en) | 2009-09-18 | 2011-11-01 | Narinder Singh Kapany | Solar window apparatus and method |
US8591299B2 (en) * | 2010-03-31 | 2013-11-26 | Denso International America, Inc. | Windshield de-icing duct system |
US20140034274A1 (en) * | 2010-07-01 | 2014-02-06 | Melvin E. Shaffer | Air Barrier |
CN105953012A (en) * | 2016-06-20 | 2016-09-21 | 合肥卡诺汽车空调有限公司 | Air duct interface device applicable to enthalpy difference testing of various air conditioners for vehicles |
EP3462093A1 (en) * | 2017-09-29 | 2019-04-03 | Vestel Elektronik Sanayi ve Ticaret A.S. | Solar air-heater |
US10684041B2 (en) * | 2017-10-31 | 2020-06-16 | Masoud Valinejadshoubi | Solar window system for heat production and storage and/or air conditioning |
CN108151336A (en) * | 2017-12-31 | 2018-06-12 | 佛山市南海区会斌金属贸易有限公司 | A kind of energy-saving and emission-reducing heat-exchange apparatus |
CN113054042B (en) * | 2021-03-15 | 2022-07-08 | 河南城建学院 | Optoelectronic semiconductor component with substrate structure |
-
2006
- 2006-10-26 TW TW095218967U patent/TWM314842U/en not_active IP Right Cessation
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2007
- 2007-04-24 US US11/739,100 patent/US20080098759A1/en not_active Abandoned
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