A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses H-shaped steel with a height adjusting function and relates to the technical field of H-shaped steel. The H-shaped steel aims at solving the problem that the overall structureheight fails to be adjusted. The H-shaped steel specifically comprises two girder plates. Connecting plates are welded to the outer walls of the tops and bottoms of the two girder plates correspondingly, and two fixing frames are welded to the outer walls of the side, close to the two connecting plates, of each of the two girder plates. An adjusting hole is formed in the outer wall of one side ofeach fixing frame. Limit grooves are formed in the outer walls of the sides, close to the adjusting holes, of the two girder plates correspondingly. Fixing holes distributed at equal intervals are formed in the inner wall of each limit groove. A same clamping mechanism is arranged on the inner walls of every four fixing holes. Secondary H-shaped steel is welded to the outer wall of one side of oneclamping structure. Triangular connecting plates are welded to the outer walls of the opposite sides of the two girder plates, and a same connecting column is welded to the outer walls of the opposite sides of the two triangular connecting plates. The H-shaped steel provided by the invention has an overall mechanism height adjusting effect, and also a traditional H-shaped steel fixed connecting mode is overcome.
本发明公开了一种具有高度调节功能的H型钢,涉及H型钢技术领域;为了解决整体结构不能调节高度的问题;具体包括两个主梁板,两个所述主梁板顶部和底部外壁均焊接有衔接板,且两个主梁板靠近两个衔接板的一侧外壁均焊接有两个固定架,每个固定架的一侧外壁均开有调节孔,两个主梁板靠近每个调节孔的一侧外壁均开有限位槽,每个限位槽的内壁均开有等距离分布的固定孔,每四个固定孔内壁均设置有同一个卡接机构,卡接结构的一侧外壁焊接有次级H型钢,两个所述主梁板相对一侧外壁均通过焊接有三角连接板,且两个三角连接板相对一侧外壁均焊接有同一个连接柱。本发明起到了整体机构的高度调节作用,也克服了传统的H型钢固定连接方式。
The invention discloses H-shaped steel with a height adjusting function and relates to the technical field of H-shaped steel. The H-shaped steel aims at solving the problem that the overall structureheight fails to be adjusted. The H-shaped steel specifically comprises two girder plates. Connecting plates are welded to the outer walls of the tops and bottoms of the two girder plates correspondingly, and two fixing frames are welded to the outer walls of the side, close to the two connecting plates, of each of the two girder plates. An adjusting hole is formed in the outer wall of one side ofeach fixing frame. Limit grooves are formed in the outer walls of the sides, close to the adjusting holes, of the two girder plates correspondingly. Fixing holes distributed at equal intervals are formed in the inner wall of each limit groove. A same clamping mechanism is arranged on the inner walls of every four fixing holes. Secondary H-shaped steel is welded to the outer wall of one side of oneclamping structure. Triangular connecting plates are welded to the outer walls of the opposite sides of the two girder plates, and a same connecting column is welded to the outer walls of the opposite sides of the two triangular connecting plates. The H-shaped steel provided by the invention has an overall mechanism height adjusting effect, and also a traditional H-shaped steel fixed connecting mode is overcome.
本发明公开了一种具有高度调节功能的H型钢,涉及H型钢技术领域;为了解决整体结构不能调节高度的问题;具体包括两个主梁板,两个所述主梁板顶部和底部外壁均焊接有衔接板,且两个主梁板靠近两个衔接板的一侧外壁均焊接有两个固定架,每个固定架的一侧外壁均开有调节孔,两个主梁板靠近每个调节孔的一侧外壁均开有限位槽,每个限位槽的内壁均开有等距离分布的固定孔,每四个固定孔内壁均设置有同一个卡接机构,卡接结构的一侧外壁焊接有次级H型钢,两个所述主梁板相对一侧外壁均通过焊接有三角连接板,且两个三角连接板相对一侧外壁均焊接有同一个连接柱。本发明起到了整体机构的高度调节作用,也克服了传统的H型钢固定连接方式。
Engineering aluminum guardrail with height adjusting function
| European Patent Office | 2024