A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Slide rail type non-electromagnetic suspension sliding door system
The invention discloses a sliding rail type non-electromagnetic suspension sliding door system which comprises a hanger rail arranged at the top of a door frame and extending in the width direction of the door frame, and a sliding groove with an opening in the lower end is formed in the hanger rail; the unloading plate is arranged on the inner bottom wall of the sliding groove; the mover is arranged in the sliding groove through a first sliding assembly, the upper end of the door body is connected with the mover through a detachable structure, and the lower end of the door body is slidably connected with the bottom of the door frame through a second sliding assembly; the permanent magnet is arranged at the top of the rotor and can attract the unloading plate so as to unload part of the weight of the door body; a common hanger rail is replaced by the magnetic suspension unloading hanger rail, power supply is not needed, a part of weight of the door body is unloaded through a magnetic field generated by the permanent magnet, friction force in the door pushing and pulling process is reduced, the size is small, pushing and pulling are smooth, cost is low, a brand-new sliding mode is adopted, a sliding mechanism of a traditional push-pull type sliding door is completely overturned, and the structure is simple. And the method has perspectiveness and generalization performance.
本发明公开了一种滑轨式无电磁悬浮推拉门系统,包括吊轨,设置在门框顶部且沿门框的宽度方向延伸,吊轨内设置有下端开口的滑动槽;卸载板,设置在滑动槽的内底壁上;动子,通过第一滑动组件设置在滑动槽内,门体的上端通过可拆卸结构与动子连接,下端通过第二滑动组件与门框的底部滑动连接;永磁体,设置在动子的顶部,可与卸载板吸引,以卸载门体的部分重量;通过磁悬浮卸载吊轨替代普通吊轨,且无需供电,通过永磁体产生磁场卸载门体的部分重量,减小了推拉门过程中的摩擦力,不仅体积小、推拉顺滑、成本低,而且全新的滑动方式,完全颠覆了传统推拉式移门的滑动机构,非常具有前瞻性和推广性。
Slide rail type non-electromagnetic suspension sliding door system
The invention discloses a sliding rail type non-electromagnetic suspension sliding door system which comprises a hanger rail arranged at the top of a door frame and extending in the width direction of the door frame, and a sliding groove with an opening in the lower end is formed in the hanger rail; the unloading plate is arranged on the inner bottom wall of the sliding groove; the mover is arranged in the sliding groove through a first sliding assembly, the upper end of the door body is connected with the mover through a detachable structure, and the lower end of the door body is slidably connected with the bottom of the door frame through a second sliding assembly; the permanent magnet is arranged at the top of the rotor and can attract the unloading plate so as to unload part of the weight of the door body; a common hanger rail is replaced by the magnetic suspension unloading hanger rail, power supply is not needed, a part of weight of the door body is unloaded through a magnetic field generated by the permanent magnet, friction force in the door pushing and pulling process is reduced, the size is small, pushing and pulling are smooth, cost is low, a brand-new sliding mode is adopted, a sliding mechanism of a traditional push-pull type sliding door is completely overturned, and the structure is simple. And the method has perspectiveness and generalization performance.
本发明公开了一种滑轨式无电磁悬浮推拉门系统,包括吊轨,设置在门框顶部且沿门框的宽度方向延伸,吊轨内设置有下端开口的滑动槽;卸载板,设置在滑动槽的内底壁上;动子,通过第一滑动组件设置在滑动槽内,门体的上端通过可拆卸结构与动子连接,下端通过第二滑动组件与门框的底部滑动连接;永磁体,设置在动子的顶部,可与卸载板吸引,以卸载门体的部分重量;通过磁悬浮卸载吊轨替代普通吊轨,且无需供电,通过永磁体产生磁场卸载门体的部分重量,减小了推拉门过程中的摩擦力,不仅体积小、推拉顺滑、成本低,而且全新的滑动方式,完全颠覆了传统推拉式移门的滑动机构,非常具有前瞻性和推广性。
Slide rail type non-electromagnetic suspension sliding door system
一种滑轨式无电磁悬浮推拉门系统
CAO ZHILIANG (author) / LU CHENGXING (author)
2022-12-27
Patent
Electronic Resource
Chinese
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