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CN-224228055-U - Bionic elevation air guide structure and building

CN224228055UCN 224228055 UCN224228055 UCN 224228055UCN-224228055-U

Abstract

The utility model discloses a bionic facade air guide structure and a building, comprising a positioning component, a frame, fixed glass, movable glass, a base, a piston and a connecting rod, wherein the frame is connected with the positioning component, the fixed glass is fixedly connected with the frame, the movable glass is connected with the frame in an openable and closable manner, the base is connected with the frame, a thermal expansion body is filled in the base, the piston is inserted in the base in a sliding manner, the sliding position of the piston is controlled by the volume of the thermal expansion body, and the connecting rod connects the movable glass with the piston. The position of the piston is regulated through the temperature change of the thermal expansion body, so that the position of the movable glass is changed, and the opening or closing function of the movable glass relative to the frame is realized.

Inventors

  • WANG MIAO
  • ZHOU YUJUAN
  • Xu Naigang
  • JIANG JIE
  • QIAN ZESHENG
  • SUN CHAO

Assignees

  • 扬州市建筑设计研究院有限公司

Dates

Publication Date
20260512
Application Date
20250526

Claims (6)

  1. 1. A bionic facade air guide structure, which is characterized by comprising: a positioning assembly; a frame coupled to the positioning assembly; A fixed glass fixedly connected to the frame; a movable glass which is connected with the frame in an openable and closable manner; A base connected to the frame, the base being filled with a thermal expansion body; The piston is inserted into the base in a sliding manner, and the sliding position of the piston is controlled by the volume of the thermal expansion body; And the connecting rod is used for connecting the movable glass with the piston.
  2. 2. The bionic facade air guide structure according to claim 1, wherein the positioning component comprises a steel frame and a three-fork mechanism, the three-fork mechanism is connected with the steel frame, and the frame is mounted on the three-fork mechanism.
  3. 3. The simulated facade air guide structure of claim 1, further comprising a guide mechanism disposed between the frame and the moving glass.
  4. 4. The bionic facade air guide structure according to claim 3, wherein the guide mechanism comprises a guide pillar and a guide sleeve, the guide pillar is connected with the frame, the guide sleeve is connected with the back surface of the movable glass, and the guide sleeve is sleeved on the guide pillar in a sliding manner.
  5. 5. The simulated facade air guide structure of claim 1, further comprising an elastic stop bar connected to the frame and adapted to contact the moving glass outer rim.
  6. 6. A building comprising the biomimetic facade air guiding structure as defined in any one of claims 1 to 5.

Description

Bionic elevation air guide structure and building Technical Field The utility model relates to the technical field of buildings, in particular to a bionic elevation air guide structure. Background Cities and building spaces enhance their own role in the presence of urban public by the interactive nature and meet the media attribute requirements for providing information, communicating. Today's interactivity has become a new city culture phenomenon from which new aesthetics-interactive aesthetics-are derived as well. The complexity of filling interactive properties brings much more fun than the geometric beauty of the building, and more spatial emotion. The future intelligent building skins to accommodate climate face three issues, respectively related to functional optimization, research routes and the comprehensive needs of future city buildings: 1) Regarding the climate adaptation technique itself (functional optimization problem) whether the physical or geometrical adjustability in ideal conditions allows to optimize the climate adaptation problem of the intelligent building skin even more; 2) The need for future building, urban development (development demand problem) whether building skins targeted at climate-adapted features can bring new channels for interactive building and urban space. It is known that the building can generate behavioral response to the stimulus of the outside including people and environment, the interactive response is called dynamic building, based on the concept, the interactive response is extended into the building skin, the micro-dynamics of the internal environment are realized by depending on the micro-motion of the building, and finally, the change of the indoor environment condition and the requirement of the use feeling is finished in a self-regulating mode, so that the interactive response becomes the starting point of the design of the case. Disclosure of utility model The embodiment of the application provides a bionic elevation air guide structure which is used for solving the technical problem of how to automatically open and close a glass curtain wall according to the external environment temperature. The application also discloses a building adopting the bionic elevation air guide structure. The first aspect of the application provides a bionic elevation air guide structure, which comprises: a positioning assembly; a frame coupled to the positioning assembly; A fixed glass fixedly connected to the frame; a movable glass which is connected with the frame in an openable and closable manner; A base connected to the frame, the base being filled with a thermal expansion body; The piston is inserted into the base in a sliding manner, and the sliding position of the piston is controlled by the volume of the thermal expansion body; And the connecting rod is used for connecting the movable glass with the piston. The embodiment has the beneficial effects that the position of the piston is adjusted through the temperature change of the thermal expansion body, so that the position of the movable glass is changed, and the opening or closing function of the movable glass relative to the frame is realized. On the basis of the above embodiment, the embodiment of the present application may be further modified as follows: In one embodiment of the application, the positioning assembly comprises a steel frame and a three-fork mechanism, wherein the three-fork mechanism is connected with the steel frame, and the frame is arranged on the three-fork mechanism. The method has the beneficial effects that the three-fork mechanism is used for fixing the edges of the frame, so that the stability of fixing the frame is improved. In one embodiment of the application, the glass frame further comprises a guide mechanism, wherein the guide mechanism is arranged between the frame and the movable glass. The method has the beneficial effect that the stability of the movement of the movable glass is improved through the guide mechanism. In one embodiment of the application, the guide mechanism comprises a guide post and a guide sleeve, wherein the guide post is connected with the frame, the guide sleeve is connected with the back surface of the movable glass, and the guide sleeve is sleeved on the guide post in a sliding way. In one embodiment of the application, the glass frame further comprises an elastic stop strip, wherein the elastic stop strip is connected with the frame and is used for being contacted with the outer frame of the movable glass. The elastic baffle strip has the beneficial effect that the elastic baffle strip is used for resolving the pressure when the movable glass retracts. The second aspect of the application provides a building, comprising the bionic elevation wind guiding structure. Drawings In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will make brief description of