TWI659145B - Factory heat dissipation structure - Google Patents

Abstract

一種廠房散熱結構，係在一具有出氣口的屋頂下方設有四個側牆，並將第一、第二平台設置於廠房內，其中，四個側牆之第一、第二側牆相互平行，第一、第二側牆之下半部分別設有進氣口；第一平台之第一端連接第一側牆，以上、下區隔成第一上迴流區域及第一下工作區；第二平台之第一端連接第二側牆，以上、下區隔成第二上迴流區域及第二下工作區；且第一平台之第二端與第二平台之第二端之間形成一間隔。藉此，即可讓廠房外之空氣分別由進氣口進入第一、第二下工作區之中，再經由間隔使熱氣向上流動，而由出氣口向外排出以進行散熱。 A heat dissipation structure of a factory building is provided with four side walls under a roof having an air outlet, and first and second platforms are arranged in the factory building, wherein the first and second side walls of the four side walls are parallel to each other The lower half of the first and second side walls are respectively provided with air inlets; the first end of the first platform is connected to the first side wall, and the upper and lower areas are separated into a first upper return area and a first lower working area; The first end of the second platform is connected to the second side wall, and the upper and lower areas are separated into a second upper recirculation area and a second lower working area; and a second end of the first platform and a second end of the second platform are formed One interval. In this way, the air outside the plant can enter the first and second lower working areas through the air inlet, and then the hot air flows upward through the interval, and is discharged outward from the air outlet for heat dissipation.

Description

廠房散熱結構 Plant cooling structure

本發明係有關一種廠房散熱結構，尤指一種可有效排除工廠廠房內之熱氣者。 The invention relates to a heat dissipation structure of a factory building, particularly to a person who can effectively remove heat from the factory building.

對於大型廠房，例如高15m、寬50m、長200m的廠房而言，為了讓廠房內作業人員能舒適以有效率的作業，其所採用的自然通風，通常是以傳統思維方式進行設計。如第9圖所示，此種廠房a之上方具有加高之太子樓a1，太子樓a1之兩側分別具有開啟之側窗a2，廠房a之下方係為工作區a3，工作區a3具有側窗a4以進氣，且特別將廠房a之屋頂拉高，以減小屋頂輻射熱的影響。而為了加強散熱效果，亦有在廠房a之屋頂設有多個自旋扇，以排出熱氣並擋雨；或是在廠房a內工作區a3作業人員的上方懸掛一系列風扇，或在低於人身高度處擺放一系列風扇，以期望能排出熱氣並吹拂人身以進行散熱。 For large factories, such as 15m high, 50m wide, and 200m long, natural ventilation is usually designed in a traditional way of thinking in order to allow the workers in the factory to work comfortably and efficiently. As shown in Figure 9, there is a heightened prince building a1 above the factory building a. Both sides of the prince building a1 have open side windows a2. Below the factory building a is a work area a3, and the work area a3 has a side. The window a4 is provided with air intake, and the roof of the factory building a is particularly raised to reduce the influence of the radiant heat on the roof. In order to enhance the heat dissipation effect, there are also a plurality of spin fans on the roof of the factory building a to exhaust heat and rain; or a series of fans are hung above the operating personnel of the working area a3 in the factory building a, or A series of fans are placed at the height of the human body in order to discharge the heat and blow the human body for heat dissipation.

然而，由於太子樓a1側窗a2或屋頂自旋扇的開口面積不足或分佈不佳，廠房a內之大部份熱氣並無法有效排除，而會在廠房a內部形成如第9圖所示之大迴流泡a5，將上方熱氣捲至下方工作區a3，造成工作區a3之溫度上升。此時，廠房a外部空氣受到廠房a內部熱氣之浮力牽引，在進入廠房a下方兩邊側窗a4之後，由於大迴流泡a5之影響，即會很快的就轉折向上。因此，除了兩側窗a4附近短短的距離內，作業人員有一些涼爽感覺之外，廠房a內部的大部份區域都是悶熱的。縱然是使用大量的風扇吹拂，也祇是將熱氣從風扇背面吸入，再從風扇前面吹出，仍無法解決因為下方大部份工作區溫度上升，造成作業人員之不舒適感，從而使工作效率下降，甚至產生職業傷害之問題。 However, because the opening area of the side window a2 of the Prince's Building a or the spin fan on the roof is insufficient or poorly distributed, most of the heat in the factory building a cannot be effectively removed, but will form inside the factory building as shown in Figure 9 The large recirculation bubble a5 winds the upper hot air to the lower working area a3, causing the temperature of the working area a3 to rise. At this time, the outside air of the factory building a is pulled by the buoyancy of the hot air inside the factory building a. After entering the side windows a4 on the lower side of the factory building a, due to the influence of the large recirculation bubble a5, it will quickly turn upward. Therefore, in addition to the short distance near the window a4 on both sides, the operator has some cool feeling, most of the area inside the factory building a is stuffy. Even if a large number of fans are used to blow, only the hot air is sucked in from the back of the fan and then blown out from the front of the fan. It still cannot be solved because the temperature in most of the working area below has increased, causing uncomfortable feelings for the workers, which reduces the work efficiency. There is even a problem of occupational injury.

有鑑於此，為了提供一種有別於習用技術之結構，並改善上述之缺點，發明人積多年的經驗及不斷的研發改進，遂有本發明之產生。 In view of this, in order to provide a structure different from the conventional technology and improve the above-mentioned disadvantages, the inventor has accumulated many years of experience and continuous research and development to produce the present invention.

本發明之一目的在提供一種廠房散熱結構，俾能解決習用廠房內大部份工作區之溫度上升，造成作業人員之不舒適感，從而使工作效率下降，甚至產生職業傷害之問題，而能提供一種有效之散熱結構，使工作區之溫度大幅下降，讓工作區內之作業人員能在涼爽舒適的環境中作業，從而提高工作效率，並避免因高溫環境所產生之職業傷害。 An object of the present invention is to provide a heat dissipation structure of a factory building, which can solve the problem of temperature rise in most working areas in a conventional factory building, causing discomfort to operators, thereby reducing work efficiency and even causing occupational injury. Provide an effective heat dissipation structure to greatly reduce the temperature in the work area, so that workers in the work area can work in a cool and comfortable environment, thereby improving work efficiency and avoiding occupational injuries caused by high temperature environments.

為達上述之目的，本發明所設之廠房散熱結構之該廠房係包括一屋頂及設於屋頂下方且連續設置之一第一側牆、一第三側牆、一第二側牆及一第四側牆，屋頂、第一側牆、第三側牆、第二側牆及第四側牆共同框圍一室內空間；屋頂設有複數個出氣口，第一側牆平行第二側牆，且第一側牆之下半部設有複數個第一進氣口，第二側牆之下半部設有複數個第二進氣口；其主要之技術特點在於：該廠房散熱結構包括一第一平台及一第二平台，第一平台及第二平台位於廠房之室內空間中；第一平台具有一第一端及反向於第一端之一第二端，第一平台之第一端連接於第一側牆之內牆面，供上、下區隔成一第一上迴流區域及一第一下工作區；第二平 台具有一第一端及反向於第一端之一第二端，第二平台之第一端連接於第二側牆之內牆面，供上、下區隔成一第二上迴流區域及一第二下工作區；且第一平台之第二端與第二平台之第二端之間形成一間隔，供熱氣向上流動。 In order to achieve the above-mentioned object, the heat dissipation structure of the factory building provided by the present invention includes a roof and a first side wall, a third side wall, a second side wall, and a first side wall which are continuously arranged below the roof. The four side walls, the roof, the first side wall, the third side wall, the second side wall and the fourth side wall frame an indoor space together; the roof is provided with a plurality of air outlets, and the first side wall is parallel to the second side wall. The first half of the first side wall is provided with a plurality of first air inlets, and the lower half of the second side wall is provided with a plurality of second air inlets. The main technical feature is that the heat dissipation structure of the plant includes a The first platform and a second platform, the first platform and the second platform are located in the indoor space of the plant; the first platform has a first end and a second end opposite to the first end, and the first of the first platform The end is connected to the inner wall surface of the first side wall for the upper and lower sections to be divided into a first upper reflow area and a first lower working area; the second platform has a first end and a first opposite to the first end. Two ends, the first end of the second platform is connected to the inner wall surface of the second side wall for the upper and lower partitions to form a second upper A return area and a second lower working area; and a gap is formed between the second end of the first platform and the second end of the second platform, so that the heating gas flows upward.

實施時，第一平台及第二平台位於同一水平面上。 During implementation, the first platform and the second platform are located on the same horizontal plane.

實施時，第一平台之第二端與第二平台之第二端之間的間隔係為長條形。 During implementation, the interval between the second end of the first platform and the second end of the second platform is a long bar.

實施時，第一平台更具有一第三端及反向於第三端之一第四端，第三端連接於第三側牆之內牆面，第四端連接於第四側牆之內牆面。 During implementation, the first platform further has a third end and a fourth end opposite to the third end. The third end is connected to the inner wall surface of the third side wall, and the fourth end is connected to the fourth side wall. The wall.

實施時，第二平台更具有一第三端及反向於第三端之一第四端，第三端連接於第三側牆之內牆面，第四端連接於第四側牆之內牆面。 During implementation, the second platform has a third end and a fourth end opposite to the third end. The third end is connected to the inner wall surface of the third side wall, and the fourth end is connected to the fourth side wall. The wall.

實施時，本發明更包括複數個第一降溫單元，第一降溫單元位於複數個第一進氣口之一側，供降低進入廠房室內空間之空氣溫度。 When implemented, the present invention further includes a plurality of first temperature reduction units, and the first temperature reduction unit is located on one side of the plurality of first air inlets for reducing the temperature of the air entering the indoor space of the factory building.

實施時，本發明更包括複數個第二降溫單元，第二降溫單元位於複數個第二進氣口之一側，供降低進入廠房室內空間之空氣溫度。 In practice, the present invention further includes a plurality of second temperature reduction units, and the second temperature reduction unit is located on one side of the plurality of second air inlets for reducing the temperature of the air entering the indoor space of the factory building.

實施時，本發明更包括複數個自旋扇，複數個自旋扇位於屋頂之複數個出氣口上。 In practice, the present invention further includes a plurality of spin fans, and the plurality of spin fans are located on the plurality of air outlets on the roof.

為進一步了解本發明，以下舉較佳之實施例，配合圖式、圖號，將本發明之具體構成內容及其所達成的功效詳細說明如下。 In order to further understand the present invention, the preferred embodiments will be described in detail below with reference to the drawings and figures, and the specific constitutional content of the present invention and its achieved effects will be described in detail as follows.

1‧‧‧廠房散熱結構 1‧‧‧Factory cooling structure

2‧‧‧廠房 2‧‧‧factory

21‧‧‧屋頂 21‧‧‧ roof

211‧‧‧出氣口 211‧‧‧Air outlet

22‧‧‧第一側牆 22‧‧‧First side wall

221‧‧‧第一進氣口 221‧‧‧first air inlet

222‧‧‧第一降溫單元 222‧‧‧First cooling unit

23‧‧‧第三側牆 23‧‧‧ Third side wall

24‧‧‧第二側牆 24‧‧‧Second Side Wall

241‧‧‧第二進氣口 241‧‧‧Second air inlet

242‧‧‧第二降溫單元 242‧‧‧Second cooling unit

25‧‧‧第四側牆 25‧‧‧ Fourth side wall

26‧‧‧室內空間 26‧‧‧Interior space

3‧‧‧第一平台 3‧‧‧First Platform

31、41‧‧‧第一端 31, 41‧‧‧ first end

32、42‧‧‧第二端 32, 42‧‧‧ second end

33、43‧‧‧第三端 33, 43‧‧‧ third end

34、44‧‧‧第四端 34, 44‧‧‧ fourth end

35‧‧‧第一上迴流區域 35‧‧‧First upper reflow area

36‧‧‧第一下工作區 36‧‧‧First Work Area

4‧‧‧第二平台 4‧‧‧Second Platform

45‧‧‧第二上迴流區域 45‧‧‧Second upper reflow zone

46‧‧‧第二下工作區 46‧‧‧Second Work Area

S‧‧‧間隔 S‧‧‧ interval

9‧‧‧倉儲設施 9‧‧‧Warehouse

a‧‧‧廠房 a‧‧‧factory

a1‧‧‧太子樓 a1‧‧‧Prince's House

a2‧‧‧側窗 a2‧‧‧side window

a3‧‧‧工作區 a3‧‧‧Working area

a4‧‧‧側窗 a4‧‧‧side window

a5‧‧‧大迴流泡 a5‧‧‧Large reflux bubble

第1圖係為本發明之較佳實施例之立體外觀示意圖。 FIG. 1 is a schematic diagram of a three-dimensional appearance of a preferred embodiment of the present invention.

第2圖係為第1圖之a-a’剖面圖。 Fig. 2 is a sectional view taken along the line a-a 'in Fig. 1.

第3圖係為第1圖之b-b’剖面圖。 Fig. 3 is a sectional view taken along the line b-b 'in Fig. 1.

第4圖係為本發明之較佳實施例之使用狀態圖。 FIG. 4 is a state diagram of a preferred embodiment of the present invention.

第5圖係為本發明之較佳實施例增設第一降溫單元及第二降溫單元之剖面示意圖。 FIG. 5 is a schematic cross-sectional view of adding a first cooling unit and a second cooling unit according to a preferred embodiment of the present invention.

第6圖係為本發明之較佳實施例以CFD電腦程式分析計算結果，在截面X=0之溫度分佈與流線圖。 FIG. 6 is a calculation and analysis result of a CFD computer program according to a preferred embodiment of the present invention. The temperature distribution and streamline diagram at the cross section X = 0.

第7圖係為本發明之較佳實施例以CFD電腦程式分析計算結果，在截面Y=1.5m之溫度分佈與流線圖。 Fig. 7 is a calculation and analysis result of a CFD computer program according to a preferred embodiment of the present invention. The temperature distribution and streamline diagram at the cross section Y = 1.5m.

第8圖係為本發明之較佳實施例以CFD電腦程式分析計算結果，在截面Z=0之溫度分佈與流線圖。 FIG. 8 is a temperature distribution and streamline diagram at a cross section Z = 0 by analyzing and calculating the results of a CFD computer program in a preferred embodiment of the present invention.

第9圖係為習用廠房內之熱氣流動狀態示意圖。 Figure 9 is a schematic diagram of the flow of hot gas in a conventional factory building.

請參閱第1~3圖所示，其為本發明廠房散熱結構1之較佳實施例，係包括一廠房2、一第一平台3及一第二平台4。該廠房2包括一屋頂21及設於屋頂21下方且連續環繞設置之一第一側牆22、一第三側牆23、一第二側牆24及一第四側牆25，四個側牆框圍成長方形，並與屋頂21共同框圍成一室內空間26。其中，屋頂21上設有複數個出氣口211，出氣口211係為可開啟之窗，實施時，出氣口211上亦可為組裝自旋扇之通孔，或是為窗與自旋扇之分散組合，以排出熱氣。而第一側牆22係與第二側牆24相互平行，第一側牆22之下半部設有複數個第一進氣口221，第二側牆24之下半部設有複數個第二進氣口241，第一進氣口221及第二進氣口241係為可開啟之窗，以使廠 房2外之空氣進入廠房2的室內空間26。 Please refer to FIG. 1 to FIG. 3, which are a preferred embodiment of the heat dissipation structure 1 of a factory building of the present invention, which includes a factory building 2, a first platform 3 and a second platform 4. The factory building 2 includes a roof 21 and a first side wall 22, a third side wall 23, a second side wall 24, and a fourth side wall 25, and four side walls. The frame is enclosed in a rectangle, and forms an indoor space 26 together with the roof 21. The roof 21 is provided with a plurality of air outlets 211. The air outlets 211 are openable windows. During implementation, the air outlets 211 may also be through holes for assembling spin fans, or windows and spin fans. Disperse the combination to remove hot air. The first side wall 22 is parallel to the second side wall 24. A plurality of first air inlets 221 are provided in the lower half of the first side wall 22, and a plurality of first air inlets are provided in the lower half of the second side wall 24. The two air inlets 241, the first air inlet 221 and the second air inlet 241 are windows that can be opened to allow air outside the factory building 2 to enter the indoor space 26 of the factory building 2.

該第一平台3係平放於廠房2之室內空間26中，第一平台3具有一第一端31、反向於第一端31之一第二端32、一第三端33及反向於第三端33之一第四端34，第一平台3之第一端31連接於第一側牆22之內牆面，第三端33連接於第三側牆23之內牆面，第四端34連接於第四側牆25之內牆面。以將部份室內空間26上、下區隔成一第一上迴流區域35及一第一下工作區36。 The first platform 3 is placed flat in the indoor space 26 of the factory building 2. The first platform 3 has a first end 31, a second end 32 opposite to the first end 31, a third end 33, and a reverse At one of the third end 33 and the fourth end 34, the first end 31 of the first platform 3 is connected to the inner wall surface of the first side wall 22, and the third end 33 is connected to the inner wall surface of the third side wall 23, the first The four ends 34 are connected to the inner wall surface of the fourth side wall 25. Part of the indoor space 26 is divided into a first upper reflow area 35 and a first lower working area 36.

而該第二平台4同樣係平放於廠房2之室內空間26中，且第二平台4與第一平台3位於同一水平面上。第二平台4具有一第一端41、反向於第一端41之一第二端42、一第三端43及反向於第三端43之一第四端44，第二平台4之第一端41連接於第二側牆24之內牆面，第三端43連接於第三側牆23之內牆面，第四端44連接於第四側牆25之內牆面。以將部份室內空間26上、下區隔成一第二上迴流區域45及一第二下工作區46。另，第二平台4之第二端42與第一平台3之第二端32之間形成一長條形之間隔S。 The second platform 4 is also placed in the indoor space 26 of the factory building 2, and the second platform 4 and the first platform 3 are located on the same horizontal plane. The second platform 4 has a first end 41, a second end 42 opposite to the first end 41, a third end 43, and a fourth end 44 opposite to the third end 43. The first end 41 is connected to the inner wall surface of the second side wall 24, the third end 43 is connected to the inner wall surface of the third side wall 23, and the fourth end 44 is connected to the inner wall surface of the fourth side wall 25. Part of the indoor space 26 is divided into a second upper reflow area 45 and a second lower working area 46. In addition, a long space S is formed between the second end 42 of the second platform 4 and the second end 32 of the first platform 3.

藉此，如第4圖所示，當作業人員及會發熱之機器分佈於第一下工作區36及第二下工作區46，而廠房2室內空間26上方之熱氣從屋頂21出氣口211排出時，將會拉動第一下工作區36及第二下工作區46之氣流，從第一平台3與第二平台4之間的間隔S往上流動。同時，廠房2外之空氣分別從複數個第一進氣口221及複數個第二進氣口241自然補入，並往間隔S處流動，逐步因吸收人體及機器熱量而稍微增加一些溫度，至接近間隔S處時轉折向上，從間隔S處流往第一平台3與第二平台4之上方。而由於第一平台3與第二平台4之阻隔，熱氣流所形成的大迴流泡與熱氣將被隔離在第一平台3與第二平台4上方的第一上迴流區域35及第二上迴流區域45之中，並由出氣 口211向外排出以進行散熱。此時，當機器與人體的發熱率越大時，其所引致的往上熱浮力就越強，第一進氣口221及第二進氣口241的入氣速度也就會越大，以快速降低第一下工作區36及第二下工作區46之溫度。另，由於大部份之熱氣會聚集在廠房2室內空間26之上方，第一平台3與第二平台4之正上方可以增設倉儲設施9，以充分利用空間。 Thereby, as shown in FIG. 4, when workers and heat-generating machines are distributed in the first lower working area 36 and the second lower working area 46, the hot air above the indoor space 26 of the factory building 2 is exhausted from the air outlet 211 on the roof 21 At this time, the air flow in the first lower working area 36 and the second lower working area 46 will be pulled upward from the interval S between the first platform 3 and the second platform 4. At the same time, the air outside the plant 2 is naturally replenished from the plurality of first air inlets 221 and the plurality of second air inlets 241, respectively, and flows to the interval S, gradually increasing the temperature by absorbing the heat of the human body and the machine. When it approaches the interval S, it turns upward and flows from the interval S to above the first platform 3 and the second platform 4. Due to the barrier between the first platform 3 and the second platform 4, the large recirculation bubbles and hot gas formed by the hot air flow will be isolated in the first upper reflow area 35 and the second upper reflow area above the first platform 3 and the second platform 4. In the area 45, it is discharged outward from the air outlet 211 for heat dissipation. At this time, when the heating rate of the machine and the human body is larger, the upward thermal buoyancy caused by it is stronger, and the air intake speeds of the first air inlet 221 and the second air inlet 241 are also larger. The temperatures of the first lower working area 36 and the second lower working area 46 are quickly reduced. In addition, since most of the heat will be collected above the indoor space 26 of the factory building 2, storage facilities 9 can be added directly above the first platform 3 and the second platform 4 to make full use of the space.

實施時，本發明亦可如第5圖所示，在複數個第一進氣口221之一側分別安裝第一降溫單元222，並在複數個第二進氣口241之一側分別安裝第二降溫單元242，以降低進入廠房2室內空間26之空氣溫度。而第一降溫單元222及第二降溫單元242係為水霧噴射器，亦可為水濂冷卻器。 During implementation, as shown in FIG. 5, the present invention may also include a first cooling unit 222 on one side of the plurality of first air inlets 221 and one side of the plurality of second air inlets 241. Two cooling units 242 to reduce the temperature of the air entering the indoor space 26 of the factory building 2. The first temperature reduction unit 222 and the second temperature reduction unit 242 are water mist sprayers, and they may also be leech coolers.

基於上述較佳實施例之結構，當本發明在高15m、寬50m、長200m之大型廠房內實際測試，並在地板上設置300W/m²之發熱源，將第一平台與第二平台之離地面高度設為6m，而間隔S設為10m時，使用Computational Fluid Dynamics(CFD)的電腦程式分析計算結果，溫度分佈與流線圖係如第6、7、8圖在截面X=0、截面Y=1.5m及截面Z=0所示，其中，紅色為最高溫，依次為棕、黃、淺綠、艷綠、淺藍、深藍；深藍色為外氣溫度。黑色箭頭為速度向量，黑色曲線為流線。顯示確實可以有效降低第一下工作區及第二下工作區之溫度。 Based on the structure of the above preferred embodiment, when the present invention is actually tested in a large factory building with a height of 15m, a width of 50m, and a length of 200m, and a heat source of 300W / m ² is set on the floor, When the height from the ground is set to 6m and the interval S is set to 10m, the calculation results are analyzed using a computer program of Computational Fluid Dynamics (CFD). Section Y = 1.5m and section Z = 0, where red is the highest temperature, followed by brown, yellow, light green, brilliant green, light blue, and dark blue; dark blue is the outside air temperature. The black arrow is the velocity vector and the black curve is the streamline. The display can effectively reduce the temperature of the first lower working area and the second lower working area.

因此，本發明具有以下之優點： Therefore, the present invention has the following advantages:

1、本發明可讓廠房內第一下工作區及第二下工作區之溫度大幅下降，因此，能使工作區內之作業人員在涼爽舒適的環境中作業，以提高工作效率，並避免因高溫環境所產生之職業傷害。 1. The invention can greatly reduce the temperature of the first lower working area and the second lower working area in the factory building. Therefore, the workers in the working area can work in a cool and comfortable environment to improve work efficiency and avoid Occupational injury caused by high temperature environment.

2、本發明可在機器與人體的發熱率越大時，產生更好之散熱效果，並 可讓廠房內大部份之熱氣聚集在廠房室內空間之上方，因此，能在保留第一上迴流區域及第二上迴流區域的前題下，於第一平台與第二平台之正上方增設倉儲設施，以充分利用空間。 2. The invention can produce better heat dissipation effect when the heating rate of the machine and the human body is greater, and allows most of the heat in the factory building to collect above the indoor space of the factory building. Under the previous topic of the zone and the second upper reflow zone, storage facilities were added directly above the first and second platforms to make full use of the space.

綜上所述，依上文所揭示之內容，本發明確可達到預期之目的，提供一種可有效降低機器與人員作業之工作區溫度之廠房散熱結構，極具產業上利用之價值，爰依法提出發明專利申請。 In summary, according to the content disclosed above, the present invention can indeed achieve the intended purpose, and provide a plant heat dissipation structure that can effectively reduce the temperature of the work area in which machines and personnel operate, which has great industrial use value. File an invention patent application.

Claims (8)

一種廠房散熱結構，該廠房係包括一屋頂及設於屋頂下方且連續設置之一第一側牆、一第三側牆、一第二側牆及一第四側牆，該屋頂、該第一側牆、該第三側牆、該第二側牆及該第四側牆共同框圍一室內空間；該屋頂設有複數個出氣口，該第一側牆平行該第二側牆，且該第一側牆之下半部設有複數個第一進氣口，該第二側牆之下半部設有複數個第二進氣口；其特徵在於：該廠房散熱結構包括一第一平台及一第二平台，該第一平台及該第二平台位於該廠房之室內空間中；該第一平台具有一第一端及反向於該第一端之一第二端，該第一平台之該第一端連接於該第一側牆之內牆面，供上、下區隔成一第一上迴流區域及一第一下工作區；該第二平台具有一第一端及反向於該第一端之一第二端，該第二平台之該第一端連接於該第二側牆之內牆面，供上、下區隔成一第二上迴流區域及一第二下工作區；且該第一平台之該第二端與該第二平台之該第二端之間形成一間隔，供熱氣向上流動。A heat dissipation structure for a factory building includes a roof and a first side wall, a third side wall, a second side wall, and a fourth side wall which are continuously arranged under the roof. The roof, the first The side wall, the third side wall, the second side wall and the fourth side wall collectively frame an indoor space; the roof is provided with a plurality of air outlets, the first side wall is parallel to the second side wall, and the The first half of the first side wall is provided with a plurality of first air inlets, and the lower half of the second side wall is provided with a plurality of second air inlets; characterized in that the heat dissipation structure of the plant includes a first platform And a second platform, the first platform and the second platform are located in the indoor space of the plant; the first platform has a first end and a second end opposite to the first end, the first platform The first end is connected to the inner wall surface of the first side wall, and the upper and lower sections are separated into a first upper return area and a first lower working area; the second platform has a first end and is opposite to One of the first end and the second end, the first end of the second platform is connected to the inner wall surface of the second side wall for upper and lower areas Reflux into a second upper and a second lower region of the working area; and the second end of the first platform of a space is formed between the second end of the second platform and, heating the gas flows upward. 如申請專利範圍第1項所述之廠房散熱結構，其中，該第一平台及該第二平台位於同一水平面上。The heat dissipation structure of a factory building as described in item 1 of the scope of patent application, wherein the first platform and the second platform are located on the same horizontal plane. 如申請專利範圍第1項所述之廠房散熱結構，其中，該第一平台之該第二端與第二平台之該第二端之間的該間隔係為長條形。The heat dissipation structure of a factory building as described in item 1 of the scope of patent application, wherein the interval between the second end of the first platform and the second end of the second platform is a long bar. 如申請專利範圍第1項所述之廠房散熱結構，其中，該第一平台更具有一第三端及反向於該第三端之一第四端，該第三端連接於該第三側牆之內牆面，該第四端連接於該第四側牆之內牆面。The heat dissipation structure of a factory building according to item 1 of the scope of patent application, wherein the first platform further has a third end and a fourth end opposite to the third end, and the third end is connected to the third side The inner wall surface of the wall, the fourth end is connected to the inner wall surface of the fourth side wall. 如申請專利範圍第1項所述之廠房散熱結構，其中，該第二平台更具有一第三端及反向於該第三端之一第四端，該第三端連接於該第三側牆之內牆面，該第四端連接於該第四側牆之內牆面。The heat dissipation structure of a factory building as described in item 1 of the scope of patent application, wherein the second platform further has a third end and a fourth end opposite to the third end, and the third end is connected to the third side The inner wall surface of the wall, the fourth end is connected to the inner wall surface of the fourth side wall. 如申請專利範圍第1項所述之廠房散熱結構，其更包括複數個第一降溫單元，該第一降溫單元位於該複數個第一進氣口之一側，供降低進入該廠房室內空間之空氣溫度。The heat dissipation structure of the factory building as described in item 1 of the scope of the patent application, further includes a plurality of first cooling units, which are located on one side of the plurality of first air inlets for reducing the entrance into the indoor space of the factory building. Air temperature. 如申請專利範圍第1項所述之廠房散熱結構，其更包括複數個第二降溫單元，該第二降溫單元位於該複數個第二進氣口之一側，供降低進入該廠房室內空間之空氣溫度。The heat dissipation structure of the factory building as described in item 1 of the scope of the patent application, further includes a plurality of second cooling units, which are located on one side of the plurality of second air inlets for reducing the entrance into the indoor space of the factory building. Air temperature. 如申請專利範圍第1項所述之廠房散熱結構，其更包括複數個自旋扇，該複數個自旋扇位於該屋頂之該複數個出氣口上。The heat dissipation structure of the factory building as described in item 1 of the scope of patent application, further includes a plurality of spin fans, and the plurality of spin fans are located on the plurality of air outlets on the roof.