Radiating air-conditioner terminal self-adaptive to heat damping

Abstract

The invention discloses a radiating air-conditioner terminal self-adaptive to heat damping. The terminal comprises a heat insulating layer, an energy conversion layer, a heat damping layer and a radiating panel which are arranged sequentially. The heat damping layer is an air layer formed between the energy conversion layer and the radiating panel. A self-adjusting supporting part used for adjusting the thickness of the air layer is arranged between the energy conversion layer and the radiating panel. Heat resistance of the heat insulating layer is larger than that of the heat damping layer. According to the terminal, a heat damping value of the heat damping layer can be adjusted dynamically, thus the panel face temperature of the radiating panel is adjusted dynamically, the panel face temperature of the radiating panel is lowered to the greatest extent to be always approximate to indoor temperature, and thus the radiating heat transfer ability is improved while the radiating panel iscontrolled not to condense.

Description

technical field [0001] The invention relates to the field of radiation air conditioners, and more specifically, the invention relates to a radiation air conditioner terminal with self-adaptive thermal damping. Background technique [0002] Radiant air-conditioning terminal, as a new type of energy-saving air-conditioning terminal, has a wide range of applications and a large project laying area. [0003] In the end of traditional radiant air conditioners, the heat transfer structural parts used to transport cold water and hot water, such as the energy transfer layer composed of heat transfer pipes and heat conduction aluminum plates, are directly attached to the metal radiant panel, or through a layer of thickness <1mm The sound-absorbing film is attached to the metal radiant panel. Due to the different density of the contact between the coil and the radiant panel, the radiant panel forms a low-temperature strip area in the area close to the heat transfer pipe. The temper...

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Problems solved by technology

[0009] In order to solve the problems of poor heat transfer effect, easy condensation, difficult installation, and high energy consumption of the existing radiant air conditioner terminal, the present invention innovatively provides an adaptive thermal damping radiant air conditioner terminal, which can dynamically adjust heat The thermal damping value of the damping layer, so as to dynamically adjust the surface temperature of the radiant panel, so that the surface temperature of the radiant panel can be reduced to the maximum to always be close to the indoor temperature, thereby improving the radiation heat transfer capacity while controlling the radiant panel from condensation, and The energy transfer layer adopts the form of parallel fluid channels for heat transfer, which radiates heat more uniformly, improves heat transfer efficiency, and prevents condensation on the radiation panel

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