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A platform for research: civil engineering, architecture and urbanism
Self-heating composite floor based on solar energy
The invention relates to a self-heating composite floor based on solar energy. The floor comprises a keel frame, a positioning frame, a composite floor body, a solar power generation plate and a solar water heater. The solar power generation plate and the solar water heater are installed on the outer surface of a building through the positioning frame. The composite floor body comprises a bearing bottom layer, edge-covering positioning strips, a heat-preserving layer, a positioning overburden pressure layer, a carbon crystal plate, a heat exchange water pipe, a decorative layer and a hard surface layer. The upper surface is connected with the heat-preserving layer. The lower surface of the positioning overburden pressure layer abuts against the upper surface of the heat-preserving layer. The decorative layer is located on the upper surface of the positioning overburden pressure layer. The hard surface layer wraps the outer surface of the decorative layer. The carbon crystal plate and the heat exchange water pipe are embedded in the contact faces of the heat-preserving layer and the positioning overburden pressure layer respectively. On one hand, the self-heating composite floor can effectively absorb and use heat energy in sunlight for indoor heating; on the other hand, indoor heating can be achieved through solar power generation, so that the requirement of indoor heating is met, energy loss is greatly reduced, and the solar resource utilization rate is greatly increased.
Self-heating composite floor based on solar energy
The invention relates to a self-heating composite floor based on solar energy. The floor comprises a keel frame, a positioning frame, a composite floor body, a solar power generation plate and a solar water heater. The solar power generation plate and the solar water heater are installed on the outer surface of a building through the positioning frame. The composite floor body comprises a bearing bottom layer, edge-covering positioning strips, a heat-preserving layer, a positioning overburden pressure layer, a carbon crystal plate, a heat exchange water pipe, a decorative layer and a hard surface layer. The upper surface is connected with the heat-preserving layer. The lower surface of the positioning overburden pressure layer abuts against the upper surface of the heat-preserving layer. The decorative layer is located on the upper surface of the positioning overburden pressure layer. The hard surface layer wraps the outer surface of the decorative layer. The carbon crystal plate and the heat exchange water pipe are embedded in the contact faces of the heat-preserving layer and the positioning overburden pressure layer respectively. On one hand, the self-heating composite floor can effectively absorb and use heat energy in sunlight for indoor heating; on the other hand, indoor heating can be achieved through solar power generation, so that the requirement of indoor heating is met, energy loss is greatly reduced, and the solar resource utilization rate is greatly increased.
Self-heating composite floor based on solar energy
MA JIANWEN (author)
2015-11-18
Patent
Electronic Resource
English