TWM406062U - Ventilation and energy conservation equipment for green building - Google Patents

Ventilation and energy conservation equipment for green building Download PDF

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Publication number
TWM406062U
TWM406062U TW99222918U TW99222918U TWM406062U TW M406062 U TWM406062 U TW M406062U TW 99222918 U TW99222918 U TW 99222918U TW 99222918 U TW99222918 U TW 99222918U TW M406062 U TWM406062 U TW M406062U
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Taiwan
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air
underground
duct
air supply
air duct
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TW99222918U
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Chinese (zh)
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Zhan-Wen Liao
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Zhan-Wen Liao
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Priority to TW99222918U priority Critical patent/TWM406062U/en
Publication of TWM406062U publication Critical patent/TWM406062U/en

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M406062 m. 4. 1 砍:-·:Ί 年月日 五、新型說明: --- 【新型所屬之技術領域】 本創作係有關於一種綠建築通氣節能設備,尤指一種專供綠 建築樓層室内空間使用之通氣節能設備。 【先前技術】 由於台灣地處亞熱帶且屬於海島型氣候的緣故,所以日光照 射量非常充足,以致建築物造成熱島效應的現象非常普遍。追究 其原因,主要為長時間受到曰照所致,況且太陽光中之紅外線光 波會穿入建築物之樓板或是外牆上的混凝土結構層,致使混凝土 L構層產生熱輻射現象,並且熱輻射會不斷的對混凝土結構層做 持續的加溫作用’因而使得建築物產生熱島效應現象。 為了營造室内涼爽舒適環境,目前常設置有空調設備冷氣 機’以藉由冷氣機作熱冷交換動作降低室内溫度,但相對會大幅 度耗費電能,增加排碳量。一般安置冷氣機時,主要係配合室内 空間選擇適當輸出功率之冷氣機,使得室内空間具有涼爽效果。 惟現今空調設備主要在室内的空氣循環下供給冷氣,但未包括在 室内和室外之間進行自動定時換氣,且隨著住宅之高氣密化結 構,變成更難進行自然換氣。又,因完全關閉窗戶的時間亦變長, 更造成未充分換氣狀態,而無法供應新鮮清淨空氣,影響居家生 活的空氣品質。 目前在夏季使用換氣裝置進行換氣時,即使空調裝置將室内 之溫度冷卻至約28ΐ,冷氣亦时換氣而由室内排出並且相對 3 oo. ; ^ ;.:! - I入約35 C之外界空氣。因為外界空氣和室内之溫度的溫差大, 在=季進行換氣時,必定造成室⑽溫度上升;*魏時若要利 用空調襄置保持-定之冷卻溫度,則會發生空調負載增大,而更 加耗費電能,增加碳排放量。 【新型内容】 本創作之主要目的暨使用功效在於,綠建築利用地下導風管 輸送外界空氣,並且配合地底土層進行熱交換作用,使室内全天 候自然保持冬暖夏涼的適當溫度,確保新鮮空氣清淨流通,能夠· 減少使用冷暖空調電^設備及電力,降低碳職量,達到節能環 保功效’並且提升居家生活品質。 為達上揭目的’本創作綠建築通氣節能設備係於地底土層中 埋置厂地下導風管’於地下導風管—端連接—戶外進風機,其另 一&連接至建難之送風管’以及由送崎連接多數送風口丨藉 此戶外進風機強·人外界空氣送進地下導風管,外界空氣沿著 地下導風管内配合外周地底土層進行熱交換作用,再使外界空氣# 經由地下導風管、送風管及其多數送風口送人建築_。 . 一^較佳實施例中’該送風管立設於建築物内,該地下導風管 另-端由下往上連觀崎,於送崎周繼灿含有末端送 口之送風歧管。 於較佳實施例中,該送風管與地下導風管之間連接相通一献 交換器’於細H喊嫩齡f,㈣通過熱交換 器進行熱交換側。進—步,該熱交換介f為選自於海鹽冰晶 '¥ M EC; : ' i 片、鹽水、冷媒等之其中之—種。 —_ *門之’風管之多數送風σ分佈於建築物室内 ΙΓΓ二物室内”之域位*設有多數出風 ^機進-步’_風口設有_受控開閉之活動蓋,或者連接抑 【實施方式】 ^本=作為達成上述目的,所_之技術手段 兹舉出可行實_,並絲合圖歧邮下. 效 首先,請參閱第-圖,本創作綠建築 於 第一樓層12與第三樓層13,以共同設置 :::一送風管5, 一-: 4-端伸出地面h ±置地下導風管4’於地下導風管 2以連接—太陽能型式戶外進風機3,其另 一端則連接至建築⑴内部之送風管5,以及 、另 數送風歧管51及其送風口 5 2。本創作藉此戶外進顺= ^入外界空氣,如第二财之箭頭方向所示送進地 内’同時外界空氣沿著地下導風管4内配合外周地底二二 仃熱交換侧,再使外界空氣經由地下導風管4 多數送風口㈣赠心蝴内,賴㈣= 且提升居家生活品質 繼續說明本創作通氣節能設備之乡且合設計,如第一及二圖所 1戶外進風機3與地下導崎4之間可連接1風管3 2,並 集^管32及/或地下導風管4沿著外界空氣流向可設有漸縮管 :又3、41,以增加空氣壓力與空氣流動,而且戶外進風機 3可設有空氣過絲置3丄,以清淨空氣。於較佳實施結構中, 送風管5可立設於建築物χ内,將地下導風管4另—端由下往上 7送風管5之底端π,而送珊5關連接出含有末端送風口 52之送風歧管5!,以分別伸進第一、二、三樓層η、12、 13送入外界空氣。 明再參閱第-及二圖,本創作通氣節能設備將送風管$之多 數送風口5 2分佈於建築物χ之第—、二、三樓層u、12、 13室内空間之下段位置,而義物1室内空間之上段位置則設 有多數出風口14 ’使室内熱空氣可經由各出風口丄4往外排 出。於較佳實施結構中,各出風σi4可設有—受控開閉之活動 蓋15 ’以調整控制排氣量。除此之外,各出風口14亦可連接 一排風機8,以強制提高排氣量。 〜於第三及四圖所示之另—較佳實施例中,本創作綠建築通氣 節能設備主要在送風管5與地下導風管4之間連接相通—熱交換 器6’於熱交換器6内設有熱交換介質61,使外界空氣通過熱 M406062 交換器6紐肢換侧。於祕魏結^丄 可選自於海鹽、冰晶片、鹽水、冷媒等之其中之—種,使外界空 氣通過熱交換ϋ 6以降低溫度,並且熱交換器6可設有送風機7 及其空氣過遽裝置71,以提高送風量。 、M406062 m. 4. 1 Cut:-·:Ί Year, month, day 5, new description: --- [New technology field] This creation department is about a green building ventilation energy-saving equipment, especially one for green building floor Ventilation energy-saving equipment for indoor space use. [Prior Art] Because Taiwan is located in the subtropical zone and belongs to the island-type climate, the daily light dose is very sufficient, so that the phenomenon of heat island effect caused by buildings is very common. The reason for the investigation is mainly caused by long-term exposure. Moreover, the infrared light waves in the sunlight will penetrate into the floor of the building or the concrete structure layer on the outer wall, causing the heat radiation phenomenon of the concrete L layer and the heat. Radiation will continue to enhance the heating of the concrete structural layer', thus causing the building to produce a heat island effect. In order to create a cool and comfortable environment in the room, air-conditioner air-conditioners are often installed to reduce the indoor temperature by the air-cooling exchange operation of the air conditioner, but the power consumption is greatly increased, and the carbon discharge amount is increased. When air conditioners are generally installed, the air conditioners that select the appropriate output power are mainly used in conjunction with the indoor space, so that the indoor space has a cool effect. However, today's air-conditioning equipment mainly supplies air-conditioning under indoor air circulation, but does not include automatic timed air exchange between indoors and outdoors, and with the high airtight structure of the house, it becomes more difficult to perform natural ventilation. Moreover, the time for completely closing the window is also lengthened, resulting in insufficient ventilation, and it is impossible to supply fresh and clean air, which affects the air quality of living at home. At present, when using a ventilator for ventilation in the summer, even if the air conditioner cools the temperature in the room to about 28 ΐ, the air conditioner is ventilated and discharged from the room and is relatively 3 oo. ; ^ ;.:! - I into about 35 C The outside air. Because the temperature difference between the outside air and the indoor temperature is large, the temperature of the chamber (10) must rise when the air is exchanged in the season; * If the air conditioner is used to maintain the cooling temperature, the air conditioning load will increase and the cost will be more expensive. Electricity, increasing carbon emissions. [New content] The main purpose and use effect of this creation is that the green building uses the underground air duct to transport the outside air, and cooperates with the underground soil layer to exchange heat, so that the indoor temperature can be naturally maintained in winter, warm and cool at the appropriate temperature to ensure freshness. The air is clean and circulated, and it is possible to reduce the use of heating and cooling air-conditioning equipment and electricity, reduce the carbon capacity, and achieve energy-saving and environmental protection effects' and improve the quality of life at home. In order to achieve the goal of 'creating the green building ventilation and energy-saving equipment in the underground soil layer buried in the underground air duct' in the underground air duct - end connection - outdoor inlet fan, the other & connected to the difficult to build The air supply ducts and the majority of the air supply ports are connected by the sea, and the outdoor air intake is forced into the underground air duct, and the outside air is heat-exchanged along the underground air duct to cooperate with the outer ground soil layer, and then the outside air is exchanged. Air # is delivered to the building via the underground air duct, air duct and most of the air outlets. In a preferred embodiment, the air supply duct is erected in a building, and the other end of the underground air duct is connected to the sky from the bottom to the top, and the air supply manifold of the end feeder is sent to the company. In a preferred embodiment, the air supply duct and the underground air duct are connected to each other via an exchanger, and the heat exchange side is performed through the heat exchanger. Further, the heat exchange medium f is selected from the group consisting of sea salt ice crystal '¥ M EC; : ' i slice, brine, refrigerant, and the like. —_ * The door of the 'air duct's most of the air supply σ is distributed in the indoors of the building. The location of the door* has a large number of outlets. The machine has a _ controlled opening and closing activity cover, or Connection [Implementation] ^本= As a result of achieving the above objectives, the technical means of _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Floor 12 and third floor 13 are arranged together::: a supply duct 5, a -: 4-end extended out of the ground h ± placed underground air duct 4' in the underground air duct 2 to connect - solar type outdoor The fan 3 has the other end connected to the air supply duct 5 inside the building (1), and the other air supply manifold 51 and its air supply port 52. The creation of the outdoor air inlet is used to enter the outside air, such as the second financial The direction of the arrow is sent into the ground. At the same time, the outside air is along the underground air duct 4 to match the heat exchange side of the outer bottom and the second floor. Then the outside air is sent to the heart through the underground air duct 4 (4). = and improve the quality of life at home, continue to explain the design and design of this creative ventilation energy-saving equipment, As shown in the first and second figures, the outdoor air inlet 3 and the underground guide 4 can be connected to the air duct 3 2, and the manifold 32 and/or the underground air duct 4 can be tapered along the outside air flow direction. Tube: 3, 41, in order to increase the air pressure and air flow, and the outdoor inlet fan 3 can be provided with 3 sets of air through the wire to clean the air. In a preferred embodiment, the air supply duct 5 can be set up in the building. In the crucible, the bottom end of the underground air duct 4 is sent from the bottom to the top 7 to the bottom end of the air duct 5, and the bottom 5 is connected to the air supply manifold 5 containing the end air supply port 52 to extend into the first The second, third and third floors η, 12, and 13 are sent to the outside air. Referring to the first and second figures, the creation of the ventilation and energy-saving equipment will distribute the majority of the air supply ducts of the air duct 5 to the first floor of the building. The upper part of the indoor space of the three floors u, 12, 13 is located, and the upper part of the indoor space of the righteous object 1 is provided with a plurality of air outlets 14' so that the indoor hot air can be discharged outside through the respective air outlets 。4. In a preferred embodiment, Each air outlet σi4 may be provided with a controlled opening and closing movable cover 15' to adjust the control of the exhaust volume. 14 can also be connected to a row of fans 8 to force the increase of the amount of exhaust. ~ In the other preferred embodiment shown in Figures 3 and 4, the creative green building ventilation energy-saving equipment is mainly in the air duct 5 and the underground wind guide The tubes 4 are connected to each other - the heat exchanger 6' is provided with a heat exchange medium 61 in the heat exchanger 6, so that the outside air is exchanged through the heat M406062 exchanger 6 to the side of the limb. The ice crystal, the brine, the refrigerant, and the like, the outside air is passed through the heat exchange crucible 6 to lower the temperature, and the heat exchanger 6 may be provided with the blower 7 and its air passing device 71 to increase the air supply amount.

是以,本創作可解決習知技術之不足與缺失,其關鍵技術為 綠建築湘地下導風管4輸送外界m絲合地底土層2丄 進行熱交換作用,再經由送風管5送人建築物Μ,使室二全天 候自然保持冬暖夏涼的射溫度,確簡鮮空氣清淨流通,=咸 少使用冷暖空調fn設備及電力,降低碳排放量,制節能環保 功效,並且提升居家生活品質,絲法提騎型專利申請。 以上所舉倾例義為方便制本創作,而麟加以限制, 在不離本創補神麟,熟悉此—行紐藝人顿可作之各種簡 易變化與修飾’均仍應含括於以下申請專利範圍中。Therefore, this creation can solve the shortcomings and lacks of the prior art. The key technology is that the green building Xiang underground air duct 4 transports the outer m-mesh subsoil layer 2丄 for heat exchange, and then sends the building through the air duct 5 The material is so that the room temperature can be kept warm in winter and cool in summer. It is clear that the fresh air is clean and circulated. = Use less air conditioning and fn equipment and electricity, reduce carbon emissions, make energy and environmental protection effects, and improve the quality of life at home. , silk law riding type patent application. The above examples are intended to facilitate the creation of this book, and Lin is limited. In the absence of the creation of the gods, it is still familiar with the various simple changes and modifications that can be made in the following applications. In the scope.

【圖式簡單說明】 第一圖係本創作較佳實施例綠建築通氣節能設備之結構圖; 第一圖係第―圖綠建築通氣節能設備之使用狀態圖; 圖係本創作另-較佳實施例綠建築通氣節能設備之結構 第四圖係第二圖綠建築通氣節能設備之使用狀態圖。 【主要元件符號說明】 1建築物 13第三樓層 11第一樓層 1 4出風口 12第二樓層 1 5活動蓋 7 M406062 2地面 21地底土層 3戶外進風機 31空氣過濾裝置 3 2集風管 3 3漸縮管徑段 4地下導風管 41漸縮管徑段 5送風管 51送風歧管 5 2送風 6熱交換器 61熱交換介質 7送風機 71空氣過濾裝置 8排風機BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a structural diagram of a green building ventilation energy-saving device according to a preferred embodiment of the present invention; the first picture is a state diagram of the use of the green building ventilation energy-saving device of the first figure; The structure of the green building ventilation energy-saving equipment of the fourth embodiment is the second state diagram of the use state of the green building ventilation energy-saving equipment. [Main component symbol description] 1 Building 13 Third floor 11 First floor 1 4 Air outlet 12 Second floor 1 5 Mobile cover 7 M406062 2 Ground 21 Ground floor 3 Outdoor inlet fan 31 Air filter unit 3 2 Air duct 3 3 tapered pipe section 4 underground air duct 41 tapered pipe section 5 air supply pipe 51 air supply manifold 5 2 air supply 6 heat exchanger 61 heat exchange medium 7 blower 71 air filter device 8 exhaust fan

Claims (1)

J:ii 六、申請專利範圍 1.- pi丨.04,15修正替換頁 ;r.i =築通氣節能設備,係於地底土層中埋 ==導風管1連接-戶外進風機,其另—端連接 ::及由送風管連接多數送風口;藉此戶外進風機強制吸 f進地下導風管,外界空氣沿著地下導風管内配合外 Y底土層物熱賴_,再使外界空氣涵地下導風管、送 風官及其多數送風口送入建築物内。 2.如申請專利範㈣i項所述綠賴通氣節能設備,其中該戶外進 風機與地下導風管之間連接一集風管。 3·如申請專利第2項所述綠建築通氣節能設備,其中該集風管 或地下導風管沿著外界空氣流向設有漸縮管徑段。 4.如申請專利範圍第2項所述綠建築通氣節能設備,其中該戶外進 風機設有空氣過濾裝置。 5. 如申請專利範圍第1項所述綠建築通氣節能設備,其中該送風管 立設於建築物内’該地下導風管另一端由下往上連通送風管,於 送風管周側連接出含有末端送風口之送風歧管。 6. 如申請專利範圍第5項所述綠建築通氣節能設備,其中該送風管 與地下導風管之間連接相通一熱交換器,於熱交換器内設有熱交 換介質,使外界空氣通過熱交換器進行熱交換作用。 7.如申請專利範圍第6項所述綠建築通氣節能設備,其中該熱交換 介質為選自於海鹽、冰晶片、鹽水、冷媒等之其中之一種。 8·如申請專利範圍第6項所述綠建築通氣節能設備,其中該熱交換 M406062J: ii Sixth, the scope of application for patents 1.- pi丨.04, 15 correction replacement page; ri = building ventilation energy-saving equipment, buried in the underground soil layer == air duct 1 connection - outdoor inlet fan, its other - End connection:: and the air supply pipe is connected to the majority of the air supply port; thereby the outdoor air intake fan is forced to suck into the underground air duct, and the outside air is along the underground air duct to cooperate with the outer Y layer soil layer to heat the _, and then the outside air culvert The underground air duct, the air supply officer and most of the air supply openings are sent into the building. 2. For example, the Green Lai ventilation energy-saving equipment mentioned in the application patent (4) item i, wherein an air duct is connected between the outdoor inlet fan and the underground air duct. 3. The green building ventilation energy-saving device according to claim 2, wherein the air duct or the underground air duct is provided with a tapered diameter section along the outside air flow direction. 4. The green building ventilation energy-saving device according to item 2 of the patent application scope, wherein the outdoor inlet fan is provided with an air filtering device. 5. For the green building ventilation energy-saving equipment mentioned in the first paragraph of the patent application, wherein the air supply duct is erected in the building, the other end of the underground air duct is connected from the bottom to the top, and is connected to the circumference of the air supply duct. The air supply manifold containing the end air supply port. 6. The green building ventilation energy-saving device according to claim 5, wherein a heat exchanger is connected between the air supply duct and the underground air duct, and a heat exchange medium is disposed in the heat exchanger to pass outside air. The heat exchanger performs heat exchange. 7. The green building ventilation energy-saving device according to claim 6, wherein the heat exchange medium is one selected from the group consisting of sea salt, ice wafer, brine, and refrigerant. 8. The green building ventilation energy-saving equipment as described in claim 6 of the patent scope, wherein the heat exchange M406062 器設有一送風機及一空氣過濾裝置。 9. 如申請專利範圍第1項所述綠建築通氣節能設備,其中該送風管 之多數送風口分佈於建築物室内空間之下段位置,該建築物室内 空間之上段位置設有多數出風口。 10. 如申請專利範圍第9項所述綠建築通氣節能設備,其中該出風口 設有一受控開閉之活動蓋。 11. 如申請專利範圍第9項所述綠建築通氣節能設備,其中該出風口 連接一排風機。 M406062 '^ F, 1 Γ.、 • • '* \ 、指定代表圖: - —— -·- - ' Jj (一)本案指定代表圖為 :第(一)圖 〇 (二)本代表圖之元件符號簡單說明·· 1建築物 11第一樓層 1 2第二樓層 13第三樓層 1 4出風口 1 5活動蓋 2地面 21地底土層 3戶外進風機 31空氣過濾裝置 3 2集風管 3 3漸縮管徑段 4地下導風管 41漸縮管徑段 5送風管 51送風歧管 5 2送風口 8排風機The device is provided with a blower and an air filter device. 9. The green building ventilation energy-saving device according to claim 1, wherein a plurality of air supply ports of the air supply pipe are distributed in a lower portion of the indoor space of the building, and a plurality of air outlets are arranged at an upper portion of the indoor space of the building. 10. The green building ventilation energy-saving device according to claim 9 of the patent application, wherein the air outlet is provided with a controlled opening and closing movable cover. 11. The green building ventilation energy-saving equipment as described in claim 9 of the patent scope, wherein the air outlet is connected to a row of fans. M406062 '^ F, 1 Γ., • • '* \ , Designated representative figure: - —— -·- - ' Jj (1) The representative representative picture of this case is: (1) Figure 〇 (2) Brief description of component symbols · 1 building 11 first floor 1 2 second floor 13 third floor 1 4 air outlet 1 5 movable cover 2 ground 21 underground soil layer 3 outdoor inlet fan 31 air filter device 3 2 air duct 3 3 tapered pipe section 4 underground air duct 41 tapered pipe section 5 air duct 51 air supply manifold 5 2 air outlet 8 exhaust fan
TW99222918U 2010-11-26 2010-11-26 Ventilation and energy conservation equipment for green building TWM406062U (en)

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CN105180340A (en) * 2015-09-30 2015-12-23 于冬才 Energy-saving environment-friendly dedusting ventilating device

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CN103070081A (en) * 2013-01-31 2013-05-01 西南民族大学 Yak house
CN104074385B (en) * 2014-07-14 2016-10-26 四川三阳钢结构有限公司 A kind of Green Architecture System
CN112228999B (en) * 2020-09-22 2022-04-29 盐城市华科电子有限公司 Production system of indicator lamp

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105180340A (en) * 2015-09-30 2015-12-23 于冬才 Energy-saving environment-friendly dedusting ventilating device

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