Capillary network temperature adjusting bionic plate and indoor heating and cooling system

Abstract

The invention discloses a capillary network temperature adjusting bionic plate and an indoor heating and cooling system. The bionic plate comprises an inner layer panel, an outer layer panel and a capillary network clamped between the inner layer panel and the outer layer panel, wherein the capillary network is provided with an inner layer and an outer layer; a heat insulating material is filled between the inner layer panel and the outer layer panel; the inner layer capillary network is positioned between the heat insulating material and the inner layer panel and is tightly attached to the inner layer panel; and the outer layer capillary network is positioned in the heat insulating material. The capillary network temperature adjusting bionic plate has the advantages of capabilities of adjusting indoor temperature and reducing the loss of indoor heat energy or cold energy, wall body heat preserving function, suitability for an outer maintenance wall body of a building, energy conservation and emission reduction. The indoor heating and cooling system provided by the invention directly applies heat energy or cold energy of reproducible natural resources, does not increase carbon emission, is consistent with the current low-carbon and environmental-friendly concept, and has very high popularization and application values.

Description

technical field [0001] The invention belongs to the technical field of building materials, and relates to a building wall board, in particular to a capillary network temperature-regulating bionic board that can regulate temperature and make the wall reach a relatively constant temperature, and to an indoor heating and cooling system. Background technique [0002] The earliest building boards commonly used in buildings include decorative boards and insulation boards. These building boards usually only play the role of isolating space and supplemented with decoration or insulation effects, and do not have the function of adjusting indoor temperature according to the external environment. [0003] At present, the technology adopted in the international advanced radiant heating and cooling system is to directly lay the plastic pipes for heat exchange on the surface of the building, and then use building leveling filling materials to bury the heat exchange materials on the inner s...

AI Technical Summary

Problems solved by technology

However, laying surface radiation materials of plastic pipes on the site, and then fixing and covering them, has some disadvantages: the on-site construction procedures are complicated, the construction efficiency is low; the site management is difficult; the capillary net is easily damaged

However, in actual use, it was found that first of all, factory production cannot be achieved, and gypsum is easy to absorb moisture, resulting in material instability, which in turn causes instability of the temperature control board, and cannot be used in practical applications; secondly, the use of gypsum board for building boards has poor strength, A series of shortcomings such as water resistance, easy damage, and the thermal conductivity of the material cannot be adjusted according to needs, which makes this technology only in the theoretical stage and cannot be used in practical applications.

[0005] Secondly, the current building energy conservation adopts the direct addition of insulation layer in the maintenance structure, which cannot achieve the relative constant temperature of the wall, which belongs to "passive" and "static" insulation

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