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A platform for research: civil engineering, architecture and urbanism
Internal-circulation heat-absorbing heat-insulating glass curtain wall
The invention relates to an internal-circulation heat-absorbing heat-insulating glass curtain wall, comprising an alloy positioning keel, outer curtain glass, inner curtain wall glass, a seal strip and an air guide pipe. The alloy positioning keel covers the outer surface of a building. The outer curtain wall glass is disposed on the outer surface of the alloy positioning keel. The inner curtain wall glass is disposed on the inner surface of the alloy positioning keel. The outer curtain glass and the inner curtain wall glass form at least one temperature control cavity; the edges of the outer curtain wall glass and inner curtain wall glass are connected via the seal strip. One end of the air guide pipe is connected with the temperature control cavities through the seal strip, and the other end thereof is communicated with the inside of the building. The seal strip corresponding to the top of the temperature control cavities is provided with at least one air outlet. On one hand, the internal-circulation heat-absorbing heat-insulating glass curtain wall is capable of well isolating the external high-temperature environment and well receiving sunlight; on the other hand, the internal-circulation heat-absorbing heat-insulating glass curtain wall allows air in the building to be automatically heated via sunlight continuously in a long term and allows free exchange between indoor air and external ambient air.
Internal-circulation heat-absorbing heat-insulating glass curtain wall
The invention relates to an internal-circulation heat-absorbing heat-insulating glass curtain wall, comprising an alloy positioning keel, outer curtain glass, inner curtain wall glass, a seal strip and an air guide pipe. The alloy positioning keel covers the outer surface of a building. The outer curtain wall glass is disposed on the outer surface of the alloy positioning keel. The inner curtain wall glass is disposed on the inner surface of the alloy positioning keel. The outer curtain glass and the inner curtain wall glass form at least one temperature control cavity; the edges of the outer curtain wall glass and inner curtain wall glass are connected via the seal strip. One end of the air guide pipe is connected with the temperature control cavities through the seal strip, and the other end thereof is communicated with the inside of the building. The seal strip corresponding to the top of the temperature control cavities is provided with at least one air outlet. On one hand, the internal-circulation heat-absorbing heat-insulating glass curtain wall is capable of well isolating the external high-temperature environment and well receiving sunlight; on the other hand, the internal-circulation heat-absorbing heat-insulating glass curtain wall allows air in the building to be automatically heated via sunlight continuously in a long term and allows free exchange between indoor air and external ambient air.
Internal-circulation heat-absorbing heat-insulating glass curtain wall
MA JIANWEN (author)
2015-12-02
Patent
Electronic Resource
English
IPC:
E04B
Allgemeine Baukonstruktionen
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GENERAL BUILDING CONSTRUCTIONS
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