A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to the technical field of constructional engineering, and discloses a building envelope structure with ultra-low energy consumption. A threaded sleeve is driven to slide by rotating a screw rod, so that supporting rods are driven by the threaded sleeve to be mutually staggered to support or pull back a second supporting plate, the second supporting plate is far away from or close to a first supporting plate to support a building, and the effect of conveniently adjusting the thickness of the building envelope structure is achieved; therefore, the mounting and dismounting efficiency is improved, and the practicability of the building envelope structure is improved; a clamping plate is extruded to drive a telescopic rod and a spring to contract inwards when a building is heated and expanded, and the telescopic rod and the spring are reset and rebound to drive the clamping plate to continue to be tightly attached to the building forwards when the building is cooled and contracted, so that the function of self-adaptive adjustment according to thermal expansion and cold contraction of the building is achieved, and the risk of building cracking is reduced; the service life of the building is prolonged.
本发明涉及建筑工程技术领域,且公开了一种超低能耗建筑围护结构;通过转动螺杆带动螺纹套滑动,使支撑杆在螺纹套的带动下相互交错对第二支撑板进行撑起或拉回,使第二支撑板远离或靠近第一支撑板对建筑物支撑的设置,实现了便于对建筑围护结构的厚度进行调节的效果,从而提高安装和拆卸的效率,提高建筑围护结构的实用性;通过建筑物受热膨胀时挤压夹板带动伸缩杆和弹簧向里收缩,而在建筑物受冷收缩时伸缩杆和弹簧复位回弹带动夹板向前继续紧贴建筑物的设置,达到了可以根据建筑物热胀冷缩进行自适应调节的功能,从而降低建筑物开裂的风险,提高建筑物的使用寿命。
The invention relates to the technical field of constructional engineering, and discloses a building envelope structure with ultra-low energy consumption. A threaded sleeve is driven to slide by rotating a screw rod, so that supporting rods are driven by the threaded sleeve to be mutually staggered to support or pull back a second supporting plate, the second supporting plate is far away from or close to a first supporting plate to support a building, and the effect of conveniently adjusting the thickness of the building envelope structure is achieved; therefore, the mounting and dismounting efficiency is improved, and the practicability of the building envelope structure is improved; a clamping plate is extruded to drive a telescopic rod and a spring to contract inwards when a building is heated and expanded, and the telescopic rod and the spring are reset and rebound to drive the clamping plate to continue to be tightly attached to the building forwards when the building is cooled and contracted, so that the function of self-adaptive adjustment according to thermal expansion and cold contraction of the building is achieved, and the risk of building cracking is reduced; the service life of the building is prolonged.
本发明涉及建筑工程技术领域,且公开了一种超低能耗建筑围护结构;通过转动螺杆带动螺纹套滑动,使支撑杆在螺纹套的带动下相互交错对第二支撑板进行撑起或拉回,使第二支撑板远离或靠近第一支撑板对建筑物支撑的设置,实现了便于对建筑围护结构的厚度进行调节的效果,从而提高安装和拆卸的效率,提高建筑围护结构的实用性;通过建筑物受热膨胀时挤压夹板带动伸缩杆和弹簧向里收缩,而在建筑物受冷收缩时伸缩杆和弹簧复位回弹带动夹板向前继续紧贴建筑物的设置,达到了可以根据建筑物热胀冷缩进行自适应调节的功能,从而降低建筑物开裂的风险,提高建筑物的使用寿命。
Ultralow-energy-consumption building envelope structure
一种超低能耗建筑围护结构
LI NA (author)
2024-06-07
Patent
Electronic Resource
Chinese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
Ultralow-energy-consumption building envelope structure and construction method thereof
| European Patent Office | 2024
Ultralow-energy-consumption plate-type building envelope structure and construction method thereof
| European Patent Office | 2024