Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Lossless tower column climbing operation platform for inclined variable-cross-section tower body
The invention relates to a lossless tower column climbing operation platform for an inclined variable-cross-section tower body, which comprises an upper platform and a lower platform, wherein the upper platform is arranged on a tower column in a sleeving manner; the upper platform comprises an upper telescopic ring, a plurality of bottom beams fixed to the outer side of the upper telescopic ring and extending outwards, and a plurality of first electromagnetic foot plugs used for abutting against the tower column and fixed to the inner side of the upper telescopic ring at intervals. The lower supporting frame is used for being arranged on the tower column in a sleeving mode and comprises a lower telescopic ring and a plurality of second electromagnetic foot plugs used for abutting against the tower column and fixed to the inner side of the lower telescopic ring at intervals. The inclined rod is hinged between the upper telescopic ring and the lower telescopic ring, the inclined rod is a telescopic rod, and the length direction of the inclined rod is consistent with the axial direction of the tower column. Through the combination of the lower supporting frame with the adjustable diameter and the upper platform, the technical problem that in the prior art, no appropriate climbing platform exists for bridge inclined variable cross-section main tower construction is solved.
本发明涉及一种倾斜变截面塔身无损塔柱爬升作业平台,包括:用于套设在塔柱上的上部平台,该上部平台包括上伸缩圈、固定于该上伸缩圈外侧并向外延伸的多根底梁、以及用于顶紧至该塔柱并间隔固定于该上伸缩圈内侧的多个第一电磁脚塞;用于套设在塔柱上的下支撑架,该下支撑架包括下伸缩圈、以及用于顶紧至该塔柱并间隔固定于该下伸缩圈内侧的多个第二电磁脚塞;铰接于该上伸缩圈与该下伸缩圈之间的斜杆,该斜杆为伸缩杆且长度方向与该塔柱的轴向一致。本发明通过可调节直径大小的下支撑架与上部平台的结合,解决了现有技术中并没有合适的爬升平台进行桥梁倾斜变截面的主塔施工的技术问题。
Lossless tower column climbing operation platform for inclined variable-cross-section tower body
The invention relates to a lossless tower column climbing operation platform for an inclined variable-cross-section tower body, which comprises an upper platform and a lower platform, wherein the upper platform is arranged on a tower column in a sleeving manner; the upper platform comprises an upper telescopic ring, a plurality of bottom beams fixed to the outer side of the upper telescopic ring and extending outwards, and a plurality of first electromagnetic foot plugs used for abutting against the tower column and fixed to the inner side of the upper telescopic ring at intervals. The lower supporting frame is used for being arranged on the tower column in a sleeving mode and comprises a lower telescopic ring and a plurality of second electromagnetic foot plugs used for abutting against the tower column and fixed to the inner side of the lower telescopic ring at intervals. The inclined rod is hinged between the upper telescopic ring and the lower telescopic ring, the inclined rod is a telescopic rod, and the length direction of the inclined rod is consistent with the axial direction of the tower column. Through the combination of the lower supporting frame with the adjustable diameter and the upper platform, the technical problem that in the prior art, no appropriate climbing platform exists for bridge inclined variable cross-section main tower construction is solved.
本发明涉及一种倾斜变截面塔身无损塔柱爬升作业平台,包括:用于套设在塔柱上的上部平台,该上部平台包括上伸缩圈、固定于该上伸缩圈外侧并向外延伸的多根底梁、以及用于顶紧至该塔柱并间隔固定于该上伸缩圈内侧的多个第一电磁脚塞;用于套设在塔柱上的下支撑架,该下支撑架包括下伸缩圈、以及用于顶紧至该塔柱并间隔固定于该下伸缩圈内侧的多个第二电磁脚塞;铰接于该上伸缩圈与该下伸缩圈之间的斜杆,该斜杆为伸缩杆且长度方向与该塔柱的轴向一致。本发明通过可调节直径大小的下支撑架与上部平台的结合,解决了现有技术中并没有合适的爬升平台进行桥梁倾斜变截面的主塔施工的技术问题。
Lossless tower column climbing operation platform for inclined variable-cross-section tower body
倾斜变截面塔身无损塔柱爬升作业平台
XI JIALONG (Autor:in) / CAI TIECHEN (Autor:in) / CHO MIN-WOOK (Autor:in) / HOU LONG (Autor:in) / HAN MING (Autor:in) / NING XIAODONG (Autor:in) / HAN XUBO (Autor:in)
31.03.2023
Patent
Elektronische Ressource
Chinesisch
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