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摘要:本发明的目的是提供一种,节省空间,降低能耗,提高转能量换率、能够控温的墙体空调。应用该墙体空调,可以实现对墙体进行温度控制。用墙体空调解决室内外温差的方法,不再依赖于的压缩机空调。应用该可控温墙体空调,可节省建筑空间,没有噪音污染,能量转换率高,在建筑上能得到应用,这样的建筑将真正称谓绿色建筑。理论依据:帕尔帖效应?塞贝克效应结构:1、内、外墙面为导热体,俗称散热体,材料选择热传导较好的材料。2、中间夹层为绝热体,材料选择不导热的绝缘保温材料。3、关键换能源元件是温差制冷元件,在元件上按需求接上直流电源即可工作。4、可以级联工作,模块式组合。
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Abstract: The invention aims to provide a wall-hanged air conditioner capable of saving space, reducing energy consumption, improving the energy conversion efficiency and controlling the temperature. The wall-hanged air conditioner can realize the temperature control on the wall body. The temperature difference indoor and outdoor can be solved by using the wall-hanged air conditioner without depending on a compressor air conditioner. The wall-hanged air conditioner can save the building space, has no noise pollution and high energy conversion rate and can be applied on the building which can be really called as green building. The theory base is Peltier effect and Seebeck effect structure. The invention has the following characteristics that: firstly, an inner wall surface and an outer wall surface are heat transfer bodies generally called as heat radiators and made of a material with better heat transfer performance; secondly, an intermediate interlayer is a heat insulator made of an insulated heat-preservation material without heat transfer; thirdly, a key energy source conversion element is a temperature difference refrigerating element and can work after connecting to a direct current power source according to the requirement; and fourthly, the invention can work in a cascade way and is modularly combined.
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