Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses an anti-fatigue combined steel structure, which belongs to the field of infrastructure construction and comprises a beam plate, an I-shaped beam is fixedly mounted in the middle of the lower end face of the beam plate, fixing blocks are arranged on the left side and the rear side of the I-shaped beam, the fixing blocks are fixedly connected with the beam plate, and a transmission mechanism is arranged between the I-shaped beam and the beam plate. A supporting mechanism is arranged on the lower side of the transmission mechanism, and an alarm mechanism is arranged in the supporting mechanism. According to the scheme, the transmission mechanism is arranged, deflection force and vertical acting force are generated between an I-shaped beam and a beam plate when the I-shaped beam is bent, so that a threaded rod slides upwards or downwards in a sliding rail, transverse acting force enables the threaded rod to move towards the left side or the right side, and then the threaded rod carries a gear to move on the upper side of a rack; furthermore, a threaded rod is rotated, so that the force generated when the I-shaped beam is bent is converted into the force which can be used by the supporting mechanism and the alarm mechanism, and the practicability of the equipment is relatively improved.
本发明公开了一种抗疲劳组合的钢结构,属于基础建设领域,包括梁板,梁板的下端面中部固定安装有工字梁,所工字梁的左侧与后侧均设置有固定块,固定块梁板固定连接,工字梁与梁板之间设置有传动机构,传动机构的下侧设置有支撑机构,支撑机构的内部设置有警报机构。本方案通过设置传动机构,利用工字梁产生弯曲时与梁板之间产生偏转力,竖向作用力使得螺纹杆在滑轨内部进行上滑或下滑,而横向作用力则会使螺纹杆向左侧或右侧进行位移,进而使得螺纹杆携带齿轮在齿条的上侧进行位移,进一步的使螺纹杆进行转动,达到将工字梁弯曲时产生的力转换成可供支撑机构与警报机构使用的力,相对提升了设备的实用性。
The invention discloses an anti-fatigue combined steel structure, which belongs to the field of infrastructure construction and comprises a beam plate, an I-shaped beam is fixedly mounted in the middle of the lower end face of the beam plate, fixing blocks are arranged on the left side and the rear side of the I-shaped beam, the fixing blocks are fixedly connected with the beam plate, and a transmission mechanism is arranged between the I-shaped beam and the beam plate. A supporting mechanism is arranged on the lower side of the transmission mechanism, and an alarm mechanism is arranged in the supporting mechanism. According to the scheme, the transmission mechanism is arranged, deflection force and vertical acting force are generated between an I-shaped beam and a beam plate when the I-shaped beam is bent, so that a threaded rod slides upwards or downwards in a sliding rail, transverse acting force enables the threaded rod to move towards the left side or the right side, and then the threaded rod carries a gear to move on the upper side of a rack; furthermore, a threaded rod is rotated, so that the force generated when the I-shaped beam is bent is converted into the force which can be used by the supporting mechanism and the alarm mechanism, and the practicability of the equipment is relatively improved.
本发明公开了一种抗疲劳组合的钢结构,属于基础建设领域,包括梁板,梁板的下端面中部固定安装有工字梁,所工字梁的左侧与后侧均设置有固定块,固定块梁板固定连接,工字梁与梁板之间设置有传动机构,传动机构的下侧设置有支撑机构,支撑机构的内部设置有警报机构。本方案通过设置传动机构,利用工字梁产生弯曲时与梁板之间产生偏转力,竖向作用力使得螺纹杆在滑轨内部进行上滑或下滑,而横向作用力则会使螺纹杆向左侧或右侧进行位移,进而使得螺纹杆携带齿轮在齿条的上侧进行位移,进一步的使螺纹杆进行转动,达到将工字梁弯曲时产生的力转换成可供支撑机构与警报机构使用的力,相对提升了设备的实用性。
Anti-fatigue combined steel structure
一种抗疲劳组合的钢结构
CUI WENBIN (Autor:in)
23.06.2023
Patent
Elektronische Ressource
Chinesisch
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