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 building equipment, and discloses an automatic glass door for an energy-saving building. The automatic glass door for the energy-saving building comprises a fixing frame, a servo motor energy supply device, a driving wheel, a controller, a belt, a sliding buckle, a glass door body and a driven wheel, wherein the right side of the top of the fixing frame is fixedly mounted on the servo motor energy supply device, the driving wheel is movably connected with the top of the fixing frame and is located on the left side of the servo motor energy supplydevice, and the controller is fixedly mounted on the fixing frame and is located on the left side of the driving wheel. A fixing device and an anti-shaking device are arranged at the bottom to support and fix the bottom of the glass door, so that the number of fixing points of the glass door is increased, and the anti-disturbance performance of the glass door is improved; meanwhile, inflated cylinders are used to fixing the two sides of the bottom of the glass door, so that shaking of the bottom of the glass door is further reduced, and shock absorption is realized to improve the safety of the device; and through the arrangement of an anti-collision device, the glass door can be well buffered, vibrations caused by collisions are reduced, and the safety of the device is further improved.
本发明涉及建筑设备技术领域,且公开了一种节能建筑用自动玻璃门,包括固定架、伺服电机供能装置、主动轮、控制器、皮带、滑扣、玻璃门和从动轮,所述固定架顶部右侧与伺服电机供能装置固定安装,所述主动轮与固定架的顶部活动连接且位于伺服电机供能装置左侧,所述控制器固定安装在固定架上且位于主动轮的左侧。通过底部固定装置与防晃装置的设置,使得对玻璃门的底部进行支撑与固定,增加其固定点,增加抗干扰性,同时利用充气筒为玻璃门底部的两侧进行固定,进一步减少玻璃门底部的晃动,并进行减震,提高装置安全性,通过防撞装置的设置,使得玻璃门得到一个较大的缓冲,减少撞击所带来的震动,进一步增加装置的安全性。
The invention relates to the technical field of building equipment, and discloses an automatic glass door for an energy-saving building. The automatic glass door for the energy-saving building comprises a fixing frame, a servo motor energy supply device, a driving wheel, a controller, a belt, a sliding buckle, a glass door body and a driven wheel, wherein the right side of the top of the fixing frame is fixedly mounted on the servo motor energy supply device, the driving wheel is movably connected with the top of the fixing frame and is located on the left side of the servo motor energy supplydevice, and the controller is fixedly mounted on the fixing frame and is located on the left side of the driving wheel. A fixing device and an anti-shaking device are arranged at the bottom to support and fix the bottom of the glass door, so that the number of fixing points of the glass door is increased, and the anti-disturbance performance of the glass door is improved; meanwhile, inflated cylinders are used to fixing the two sides of the bottom of the glass door, so that shaking of the bottom of the glass door is further reduced, and shock absorption is realized to improve the safety of the device; and through the arrangement of an anti-collision device, the glass door can be well buffered, vibrations caused by collisions are reduced, and the safety of the device is further improved.
本发明涉及建筑设备技术领域,且公开了一种节能建筑用自动玻璃门,包括固定架、伺服电机供能装置、主动轮、控制器、皮带、滑扣、玻璃门和从动轮,所述固定架顶部右侧与伺服电机供能装置固定安装,所述主动轮与固定架的顶部活动连接且位于伺服电机供能装置左侧,所述控制器固定安装在固定架上且位于主动轮的左侧。通过底部固定装置与防晃装置的设置,使得对玻璃门的底部进行支撑与固定,增加其固定点,增加抗干扰性,同时利用充气筒为玻璃门底部的两侧进行固定,进一步减少玻璃门底部的晃动,并进行减震,提高装置安全性,通过防撞装置的设置,使得玻璃门得到一个较大的缓冲,减少撞击所带来的震动,进一步增加装置的安全性。
Automatic glass door for energy-saving building
一种节能建筑用自动玻璃门
SHEN CHAO (author)
2020-10-20
Patent
Electronic Resource
Chinese