Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Tensile shock insulation device
The invention provides a tensile shock isolation device, and relates to the technical field of shock isolation, the tensile shock isolation device comprises a first connecting structure and a second connecting structure which are oppositely arranged; the elastic supporting structure is arranged between the first connecting structure and the second connecting structure; the self-adaptive tensile mechanism comprises a first sliding structure, a second sliding structure and a plurality of tensile connecting pieces, the first sliding structure is annularly arranged on the first connecting structure in the circumferential direction of the elastic supporting structure, and the second sliding structure is annularly arranged on the second connecting structure in the circumferential direction of the elastic supporting structure; the multiple tensile connecting pieces are slidably arranged between the first sliding structure and the second sliding structure. According to the self-adaptive tensile mechanism, self-adaptive stepless adjustment can be carried out under the vibration condition, so that the tensile failure force of vibration can be better resisted, and the elastic supporting structure is prevented from being affected by vibration and being subjected to tensile failure.
本发明提供了一种抗拉隔震装置,涉及隔震技术领域,该抗拉隔震装置包括:相对设置的第一连接结构和第二连接结构;弹性支撑结构,设置在第一连接结构和第二连接结构之间;以及自适应抗拉机构,自适应抗拉机构包括第一滑移结构、第二滑移结构以及多个抗拉连接件,第一滑移结构沿弹性支撑结构的周向环设在第一连接结构上,第二滑移结构沿弹性支撑结构的周向环设在第二连接结构上,多个抗拉连接件可滑动地设置第一滑移结构和第二滑移结构之间。本发明的自适应抗拉机构能够在震动情况下进行自适应无极调节,从而能够更好地抵抗震动的拉伸破坏力,避免弹性支撑结构受震动影响而被拉伸破坏。
Tensile shock insulation device
The invention provides a tensile shock isolation device, and relates to the technical field of shock isolation, the tensile shock isolation device comprises a first connecting structure and a second connecting structure which are oppositely arranged; the elastic supporting structure is arranged between the first connecting structure and the second connecting structure; the self-adaptive tensile mechanism comprises a first sliding structure, a second sliding structure and a plurality of tensile connecting pieces, the first sliding structure is annularly arranged on the first connecting structure in the circumferential direction of the elastic supporting structure, and the second sliding structure is annularly arranged on the second connecting structure in the circumferential direction of the elastic supporting structure; the multiple tensile connecting pieces are slidably arranged between the first sliding structure and the second sliding structure. According to the self-adaptive tensile mechanism, self-adaptive stepless adjustment can be carried out under the vibration condition, so that the tensile failure force of vibration can be better resisted, and the elastic supporting structure is prevented from being affected by vibration and being subjected to tensile failure.
本发明提供了一种抗拉隔震装置,涉及隔震技术领域,该抗拉隔震装置包括:相对设置的第一连接结构和第二连接结构;弹性支撑结构,设置在第一连接结构和第二连接结构之间;以及自适应抗拉机构,自适应抗拉机构包括第一滑移结构、第二滑移结构以及多个抗拉连接件,第一滑移结构沿弹性支撑结构的周向环设在第一连接结构上,第二滑移结构沿弹性支撑结构的周向环设在第二连接结构上,多个抗拉连接件可滑动地设置第一滑移结构和第二滑移结构之间。本发明的自适应抗拉机构能够在震动情况下进行自适应无极调节,从而能够更好地抵抗震动的拉伸破坏力,避免弹性支撑结构受震动影响而被拉伸破坏。
Tensile shock insulation device
抗拉隔震装置
YAN SIFENG (Autor:in) / YUE WENYAN (Autor:in) / SUN XIAOCHEN (Autor:in) / XING JINQUAN (Autor:in)
04.07.2023
Patent
Elektronische Ressource
Chinesisch
Shock insulation support tensile device and shock insulation system
| Europäisches Patentamt | 2023