Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Splicing method of multi-section latticed shell structure
The invention relates to an assembling method of a multi-section latticed shell structure. The assembling method comprises the following steps that S10, a scaffold operation platform is erected; s20, assembling a starting span keel net rack on the ground and hoisting the starting span keel net rack; s30, the keel net rack is folded and installed; s40, a first section of latticed shell structure is assembled and completed; s50, mounting and connecting a positioning device; s60, a second-section starting keel net rack is installed; s70, the connection positioning device is disassembled; s80, a second section of latticed shell structure is assembled and completed; and S90, splicing of the multiple sections of latticed shell structures is completed according to the methods from the step S50 to the step S80. According to the method, the mounting frequency of the starting cross-keel net rack can be reduced, the multi-section latticed shell structure only needs to be spliced once, the splicing time of the multi-section latticed shell structure is shortened, the bolt balls of the last section of latticed shell structure are directly used as reference points of the connecting and positioning devices, the splicing precision of the follow-up latticed shell structure can also be guaranteed, and the production efficiency is improved. And accurate butt joint of multiple sections of latticed shells is ensured.
本发明涉及一种多段网壳结构的拼装方法,包括以下步骤:S10、搭设脚手架操作平台;S20、地面拼装起步跨龙筋网架并吊装;S30、龙筋网架合拢安装;S40、拼装完成第一段网壳结构;S50、安装连接定位装置;S60、安装第二段起步龙筋网架;S70、拆卸连接定位装置;S80、拼装完成第二段网壳结构;S90、按照步骤S50至S80的方法完成多段网壳结构的拼装。本发明可以减少起步跨龙筋网架的安装次数,使多段网壳结构只需拼装一次起步跨龙筋网架即可,从而缩短多段网壳结构的拼装时间,而连接定位装置直接利用上一段网壳结构的螺栓球作为参考点,也能保证后续网壳结构的拼装精度,保证多段网壳之间精准对接。
Splicing method of multi-section latticed shell structure
The invention relates to an assembling method of a multi-section latticed shell structure. The assembling method comprises the following steps that S10, a scaffold operation platform is erected; s20, assembling a starting span keel net rack on the ground and hoisting the starting span keel net rack; s30, the keel net rack is folded and installed; s40, a first section of latticed shell structure is assembled and completed; s50, mounting and connecting a positioning device; s60, a second-section starting keel net rack is installed; s70, the connection positioning device is disassembled; s80, a second section of latticed shell structure is assembled and completed; and S90, splicing of the multiple sections of latticed shell structures is completed according to the methods from the step S50 to the step S80. According to the method, the mounting frequency of the starting cross-keel net rack can be reduced, the multi-section latticed shell structure only needs to be spliced once, the splicing time of the multi-section latticed shell structure is shortened, the bolt balls of the last section of latticed shell structure are directly used as reference points of the connecting and positioning devices, the splicing precision of the follow-up latticed shell structure can also be guaranteed, and the production efficiency is improved. And accurate butt joint of multiple sections of latticed shells is ensured.
本发明涉及一种多段网壳结构的拼装方法,包括以下步骤:S10、搭设脚手架操作平台;S20、地面拼装起步跨龙筋网架并吊装;S30、龙筋网架合拢安装;S40、拼装完成第一段网壳结构;S50、安装连接定位装置;S60、安装第二段起步龙筋网架;S70、拆卸连接定位装置;S80、拼装完成第二段网壳结构;S90、按照步骤S50至S80的方法完成多段网壳结构的拼装。本发明可以减少起步跨龙筋网架的安装次数,使多段网壳结构只需拼装一次起步跨龙筋网架即可,从而缩短多段网壳结构的拼装时间,而连接定位装置直接利用上一段网壳结构的螺栓球作为参考点,也能保证后续网壳结构的拼装精度,保证多段网壳之间精准对接。
Splicing method of multi-section latticed shell structure
一种多段网壳结构的拼装方法
QIN CHUAN (Autor:in) / LI ZEYING (Autor:in) / WEI YUANBO (Autor:in) / LU TENGFEI (Autor:in) / ZHAO PENG (Autor:in)
20.10.2023
Patent
Elektronische Ressource
Chinesisch
Auxiliary clamping mechanism for split latticed shell splicing
| Europäisches Patentamt | 2024
Single-layer latticed shell structure formed by hinging and splicing module units
| Europäisches Patentamt | 2023
Double-layered diagonal inclined truncated joint latticed shell unit splicing method
| Europäisches Patentamt | 2020