A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
High-toughness aluminum alloy profile for large wind power tower barrel crawling ladder
The invention discloses a high-toughness aluminum alloy profile for a large wind power tower barrel crawling ladder. The aluminum alloy profile comprises a tower barrel, a stabilizing rod is vertically arranged in the tower, a driving mechanism is arranged at the bottom end of the stabilizing rod, the driving mechanism drives the stabilizing rod to rotate, and a pull-up mechanism is arranged at the top end of the tower barrel; a plurality of limiting rings are vertically arranged on the inner wall of the tower barrel, a climbing mechanism is further arranged in the tower barrel, the climbing mechanism is slidably connected to the limiting rings in a clamped mode, and the climbing mechanism is pulled by the pull-up mechanism. A second motor drives a gear to rotate, the gear is meshed with a gear ring of the second motor, a stabilizing rod of the second motor is forced to rotate in the tower barrel of the second motor, when the stabilizing rod rotates, the connecting rod can be driven to rotate through a lantern ring, and the connecting rod can force the crawling ladder of the second motor to slide in a ring body of the second motor; and a first motor forces a pull rope of the first motor to be wound through rotation of a rotating rod, so that the pull rope can pull the climbing mechanism of the first motor to perform lifting operation in the tower barrel. And the lantern ring vertically slides on the rod body in a limiting manner.
本发明公开了一种高韧性大型风电塔筒爬梯铝合金型材,包括塔筒,所述塔筒内部竖向设置有稳固杆,而稳固杆底端设置有驱动机构,驱动机构带动稳固杆进行转动,塔筒顶端处设置有拉升机构;所述塔筒内壁处垂直设置有若干限位环,塔筒内还设置有攀爬机构,攀爬机构滑动卡接在限位环上,并且拉升机构对其攀爬机构进行拉扯。二号电机将会带动齿轮进行转动,而齿轮将会与其齿环啮合,迫使其稳固杆在其塔筒内进行转动,当稳固杆转动时可通过套环带动连接杆进行转动,而连接杆可迫使其爬梯在其环体内进行滑动。而其一号电机将会通过旋转杆的转动迫使其拉绳进行缠绕,从而拉绳可拉动其攀爬机构在塔筒内进行升降操作。而其套环在杆体上进行垂直限位滑动。
High-toughness aluminum alloy profile for large wind power tower barrel crawling ladder
The invention discloses a high-toughness aluminum alloy profile for a large wind power tower barrel crawling ladder. The aluminum alloy profile comprises a tower barrel, a stabilizing rod is vertically arranged in the tower, a driving mechanism is arranged at the bottom end of the stabilizing rod, the driving mechanism drives the stabilizing rod to rotate, and a pull-up mechanism is arranged at the top end of the tower barrel; a plurality of limiting rings are vertically arranged on the inner wall of the tower barrel, a climbing mechanism is further arranged in the tower barrel, the climbing mechanism is slidably connected to the limiting rings in a clamped mode, and the climbing mechanism is pulled by the pull-up mechanism. A second motor drives a gear to rotate, the gear is meshed with a gear ring of the second motor, a stabilizing rod of the second motor is forced to rotate in the tower barrel of the second motor, when the stabilizing rod rotates, the connecting rod can be driven to rotate through a lantern ring, and the connecting rod can force the crawling ladder of the second motor to slide in a ring body of the second motor; and a first motor forces a pull rope of the first motor to be wound through rotation of a rotating rod, so that the pull rope can pull the climbing mechanism of the first motor to perform lifting operation in the tower barrel. And the lantern ring vertically slides on the rod body in a limiting manner.
本发明公开了一种高韧性大型风电塔筒爬梯铝合金型材,包括塔筒,所述塔筒内部竖向设置有稳固杆,而稳固杆底端设置有驱动机构,驱动机构带动稳固杆进行转动,塔筒顶端处设置有拉升机构;所述塔筒内壁处垂直设置有若干限位环,塔筒内还设置有攀爬机构,攀爬机构滑动卡接在限位环上,并且拉升机构对其攀爬机构进行拉扯。二号电机将会带动齿轮进行转动,而齿轮将会与其齿环啮合,迫使其稳固杆在其塔筒内进行转动,当稳固杆转动时可通过套环带动连接杆进行转动,而连接杆可迫使其爬梯在其环体内进行滑动。而其一号电机将会通过旋转杆的转动迫使其拉绳进行缠绕,从而拉绳可拉动其攀爬机构在塔筒内进行升降操作。而其套环在杆体上进行垂直限位滑动。
High-toughness aluminum alloy profile for large wind power tower barrel crawling ladder
一种高韧性大型风电塔筒爬梯铝合金型材
TANG KAIJIAN (author) / CHEN WEIRONG (author) / WANG CHAO (author) / LI FEIQING (author) / LI HENG (author)
2021-04-30
Patent
Electronic Resource
Chinese
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