A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses a sliding support of a metal roof and a manufacturing method, which can improve the strength of the sliding support while simplifying the process and reducing the cost. The manufacturing method comprises the following steps: a bracket slip sheet manufacturing step: bending the bottom of the vertical surface of the slip sheet upwards to form a first U-shaped groove; the side edge of the first U-shaped groove is bent downwards to form a folded edge; the step of manufacturing the support base specifically comprises the steps that the bottom of the vertical face of the base is bent to form a supporting part; the top of the vertical face of the base is bent downwards to form a second U-shaped groove, the inner width of the second U-shaped groove is matched with the thickness of the folding edge in a sliding mode, and the thickness of the outer side edge of the second U-shaped groove is matched with the inner width of the first U-shaped groove in a sliding mode; the step of manufacturing the back bending piece specifically comprises the following steps: bending the vertical surface of the base to form a left side back bending piece; the right side back bending piece and the left side back bending piece are arranged in parallel; a passage matched with the vertical face of the sliding piece in a sliding mode is formed among the right side back bending piece, the left side back bending piece and the outer side edge of the second U-shaped groove.
本发明公开了一种金属屋面的滑动支架及制造方法,能够在简化工序降低成本的同时,提高滑动支架的强度。本发明制造方法包括:支架滑片制作步骤,具体包括:将滑片立面的底部向上弯折,形成第一U型槽;将第一U型槽的侧边向下弯折形成折叠边;支架底座制作步骤,具体包括:将底座立面的底部弯折形成支撑部;将底座立面的顶部向下弯折形成第二U型槽,第二U型槽的内部宽度与折叠边的厚度滑动匹配,第二U型槽的外侧边厚度与第一U型槽的内部宽度滑动匹配;背弯件制作步骤,具体包括:由底座立面弯折形成左侧背弯件;右侧背弯件与左侧背弯件平行设置;右侧背弯件、左侧背弯件与第二U型槽的外侧边之间形成与滑片立面相滑动匹配的通路。
The invention discloses a sliding support of a metal roof and a manufacturing method, which can improve the strength of the sliding support while simplifying the process and reducing the cost. The manufacturing method comprises the following steps: a bracket slip sheet manufacturing step: bending the bottom of the vertical surface of the slip sheet upwards to form a first U-shaped groove; the side edge of the first U-shaped groove is bent downwards to form a folded edge; the step of manufacturing the support base specifically comprises the steps that the bottom of the vertical face of the base is bent to form a supporting part; the top of the vertical face of the base is bent downwards to form a second U-shaped groove, the inner width of the second U-shaped groove is matched with the thickness of the folding edge in a sliding mode, and the thickness of the outer side edge of the second U-shaped groove is matched with the inner width of the first U-shaped groove in a sliding mode; the step of manufacturing the back bending piece specifically comprises the following steps: bending the vertical surface of the base to form a left side back bending piece; the right side back bending piece and the left side back bending piece are arranged in parallel; a passage matched with the vertical face of the sliding piece in a sliding mode is formed among the right side back bending piece, the left side back bending piece and the outer side edge of the second U-shaped groove.
本发明公开了一种金属屋面的滑动支架及制造方法,能够在简化工序降低成本的同时,提高滑动支架的强度。本发明制造方法包括:支架滑片制作步骤,具体包括:将滑片立面的底部向上弯折,形成第一U型槽;将第一U型槽的侧边向下弯折形成折叠边;支架底座制作步骤,具体包括:将底座立面的底部弯折形成支撑部;将底座立面的顶部向下弯折形成第二U型槽,第二U型槽的内部宽度与折叠边的厚度滑动匹配,第二U型槽的外侧边厚度与第一U型槽的内部宽度滑动匹配;背弯件制作步骤,具体包括:由底座立面弯折形成左侧背弯件;右侧背弯件与左侧背弯件平行设置;右侧背弯件、左侧背弯件与第二U型槽的外侧边之间形成与滑片立面相滑动匹配的通路。
360-degree vertical lockrand metal roof sliding support and base thereof
| European Patent Office | 2024
Metal roof board 360-degree upright lockrand bidirectional sliding anti-seismic support
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