CN109514140A - It is a kind of for welding the rotary workbench of wind power foundation tower - Google Patents

Abstract

The present invention relates to a kind of for welding the rotary workbench of wind power foundation tower, mainly by being made up of on pedestal flanged joint center fixed column；At center, fixed column outer wall is equipped at intervals with upper pivoted arm slewing equipment bearing support, upper pivoted arm rotation axis support, lower pivoted arm slewing equipment bearing support and lower pivoted arm rotation axis support from top to bottom, and is rotatablely connected respectively with center fixed column；It is along the circumferential direction laid with 4 upper layer pivoted arms on the upper pivoted arm rotation axis support, is along the circumferential direction laid with 4 lower layer's pivoted arms on the lower pivoted arm rotation axis support；The upper layer pivoted arm and lower layer's pivoted arm bottom are equipped with track, and are equipped with electric block in orbit, and be slidably connected with track by steel wire hang cable unit.By designing this short transverse liftable, circumferencial direction is rotatable, radially movable active operation platform, to reduce auxiliary welding workload, reduces labor intensity, improves welding efficiency.

Description

It is a kind of for welding the rotary workbench of wind power foundation tower

Technical field

It is the present invention relates to offshore wind farm field of engineering technology, in particular to a kind of for welding the rotation of wind power foundation tower Formula workbench.

Background technique

Wind power foundation tower, diameter is big, and height is high, 36 meters of maximum gauge, 12 meters of highest, and have inside tower interior deck board and The hardened structure of subdivision, internal structure are complicated；Entire wind power foundation tower is circumferential, radially, longitudinally weld seam (short transverse) is numerous.At present Using inside and outside wind power foundation tower, according to wind power foundation tower welding procedure sequence, from low to high, it is flat that scaffold is built in layering Platform carries out the welding of wind power foundation tower.After the completion of welding, then it is layered the dismantling landing stage of scaffold.So by build repeatedly, The landing stage of scaffold is disassembled to carry out the welding of wind power foundation tower one by one, auxiliary welding workload is big, and welding efficiency is low, and labor Fatigue resistance is big.

Summary of the invention

To overcome above-mentioned deficiency, the present invention is intended to provide a kind of rotary work for welding wind power foundation tower is flat Platform, structure is simple, and it is convenient to operate.

The technical solution that the present invention solves are as follows: a kind of rotary work for welding wind power foundation tower of the invention is flat Platform, mainly by being made up of on pedestal flanged joint center fixed column；Its innovative point is the center fixed column outer wall from top to bottom Also it is equipped at intervals with pivoted arm slewing equipment bearing support, upper pivoted arm rotation axis support, lower pivoted arm slewing equipment bearing support and lower pivoted arm Rotation axis support, and be rotatablely connected respectively with center fixed column；The upper pivoted arm slewing equipment bearing support and lower pivoted arm slewing equipment Slewing equipment has been respectively fixedly connected on bearing support；It is along the circumferential direction laid on 4 on the upper pivoted arm rotation axis support Layer pivoted arm, is along the circumferential direction laid with 4 lower layer's pivoted arms on the lower pivoted arm rotation axis support；The upper layer pivoted arm and lower layer Pivoted arm bottom is equipped with track, and is equipped with electric block in orbit, and the electric block is slidably connected with track.

Preferably, the upper layer pivoted arm and lower layer's pivoted arm are staggered 45 °.

Preferably, the first connection is additionally provided between the upper pivoted arm slewing equipment bearing support and upper pivoted arm rotation axis support Part, and the upper pivoted arm slewing equipment bearing support is linked by the first connector and upper pivoted arm rotation axis support.

Preferably, the second connection is additionally provided between the lower pivoted arm slewing equipment bearing support and lower pivoted arm rotation axis support Part, and the lower pivoted arm slewing equipment bearing support is linked by the second connector and lower pivoted arm rotation axis support.

Preferably, the track is i-beam track, and is respectively equipped with limit at i-beam track side both ends Block.

Preferably, steel wire hang cable unit, institute are further respectively had on the side wall of the upper layer pivoted arm and lower layer's pivoted arm It states electric block and is slidably connected by steel wire hang cable unit with track.

The present invention has the advantages that

For the present invention by designing a kind of short transverse liftable, circumferencial direction is rotatable, radially movable active operation Platform builds the landing stage of scaffold to substitute, and reduces auxiliary welding workload, reduces labor intensity, improves welding efficiency.

Detailed description of the invention

Fig. 1 is the front view of the upper layer cantilever crane in the present invention.

Fig. 2 is the front view of lower layer's cantilever crane in the present invention.

Fig. 3 is top view of the invention.

In figure: 1- pedestal；The center 2- fixed column；The upper layer 3- pivoted arm；4- lower layer pivoted arm；5- slewing equipment；6- electric block；7- Steel wire hang cable unit；8- cage；The upper pivoted arm rotation axis support of 9-；Pivoted arm rotation axis support under 10-；The upper pivoted arm of 11- returns Rotary device bearing support；Pivoted arm slewing equipment bearing support under 12-；The first connector of 13-；The second connector of 14-；15- bull headction Road.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Of the invention is a kind of for welding the rotary workbench of wind power foundation tower, mainly by passing through method on pedestal 1 Blue connection center fixed column 2 is constituted；As shown in Figure 1, being also equipped at intervals with upper pivoted arm slewing equipment from top to bottom in 2 outer wall of center fixed column Bearing support 11, upper pivoted arm rotation axis support 9, lower pivoted arm slewing equipment bearing support 12 and lower pivoted arm rotation axis support 10, and respectively It is rotatablely connected with center fixed column 2；Slewing equipment 5 is fixedly connected on upper pivoted arm slewing equipment bearing support 11；And upper pivoted arm returns The first connector 13 is additionally provided between rotary device bearing support 11 and upper pivoted arm rotation axis support 9, and upper pivoted arm slewing equipment supports Frame 11 is linked by the first connector 13 with upper pivoted arm rotation axis support 9；Upper pivoted arm slewing equipment branch is driven by slewing equipment 5 Bolster 11 rotates, so that upper pivoted arm rotation axis support 9 be driven to rotate around center fixed column 2, that realizes workbench circumferencial direction can Rotation.And 4 upper layer pivoted arms 3 are along the circumferential direction laid on upper pivoted arm rotation axis support 9；Each 3 bottom of upper layer pivoted arm It is equipped with i-beam track 15, and 15 both ends of i-beam track are symmetrically arranged with limited block；And it is set on i-beam track 15 There is electric block 6, and the steel wire hang cable unit 7 by being set on 3 side wall of upper layer pivoted arm and i-beam track 15 slide Connection, to pass through the lifting of about 7 steel wire hang cable unit and the radial slippage cage 8 on upper layer pivoted arm 3.

As shown in Fig. 2, being fixedly connected with slewing equipment 5 on lower pivoted arm slewing equipment bearing support 12；And lower pivoted arm revolution The second connector 14, and lower pivoted arm slewing equipment bearing support are additionally provided between device bearing support 12 and lower pivoted arm rotation axis support 10 12 are linked by the second connector 14 with lower pivoted arm rotation axis support 10；Lower pivoted arm slewing equipment branch is driven by slewing equipment 5 Bolster 12 rotates, so that lower pivoted arm rotation axis support 10 be driven to rotate around center fixed column 2.And on lower pivoted arm rotation axis support 10 Along the circumferential direction it is laid with 4 lower layer's pivoted arms 4, each 4 bottom of lower layer's pivoted arm is equipped with i-beam track 15, and bull headction 15 side both ends of road are respectively equipped with limited block；And electric block 6 is equipped on i-beam track 15, and by turning set on lower layer Steel wire hang cable unit 7 on 4 side wall of arm is slidably connected with i-beam track 15, to pass through the steel on lower layer's pivoted arm 4 The lifting of about 7 cord suspended cables device and radial slippage cage 8.

The positional relationship of upper layer pivoted arm 3 and lower layer's pivoted arm 4 is as shown in figure 3, upper layer pivoted arm 3 and lower layer's pivoted arm in the present invention 4, which are staggered 45 °, is distributed.

In actual use, operator is workbench with cage 8 to the present embodiment, through control upper layer pivoted arm 3 under Layer pivoted arm 4 rotates in a circumferential direction, the radial slippage of electric block 6 and raising, the decline of cage 8, so that it may complete entire wind-powered electricity generation The welding of basic tower circumferential direction, radially, longitudinally weld seam (short transverse), to improve welding efficiency.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvements and modifications can also be made, above-mentioned hypothesis these Improvement and modification also should be regarded as protection scope of the present invention.

Claims (6)

1. a kind of for welding the rotary workbench of wind power foundation tower, including pedestal and center fixed column, the center is fixed Column is connect by flange with pedestal, it is characterised in that: the center fixed column outer wall is additionally provided with pivoted arm slewing equipment from top to bottom Bearing support, upper pivoted arm rotation axis support, lower pivoted arm slewing equipment bearing support and lower pivoted arm rotation axis support, and it is fixed with center respectively Column rotation connection；Revolution has been respectively fixedly connected on the upper pivoted arm slewing equipment bearing support and lower pivoted arm slewing equipment bearing support Device；4 upper layer pivoted arms, the lower pivoted arm rotation axis support are along the circumferential direction laid on the upper pivoted arm rotation axis support On be along the circumferential direction laid with 4 lower layer's pivoted arms；The upper layer pivoted arm and lower layer's pivoted arm bottom are equipped with track, and in track It is equipped with electric block, the electric block is slidably connected with track.

2. according to claim 1 a kind of for welding the rotary workbench of wind power foundation tower, it is characterised in that: The upper layer pivoted arm and lower layer's pivoted arm are staggered 45 °.

3. according to claim 1 a kind of for welding the rotary workbench of wind power foundation tower, it is characterised in that: The first connector is additionally provided between the upper pivoted arm slewing equipment bearing support and upper pivoted arm rotation axis support, and the upper pivoted arm returns Rotary device bearing support is linked by the first connector and upper pivoted arm rotation axis support.

4. according to claim 1 a kind of for welding the rotary workbench of wind power foundation tower, it is characterised in that: The second connector is additionally provided between the lower pivoted arm slewing equipment bearing support and lower pivoted arm rotation axis support, and the lower pivoted arm returns Rotary device bearing support is linked by the second connector and lower pivoted arm rotation axis support.

5. according to claim 1 a kind of for welding the rotary workbench of wind power foundation tower, it is characterised in that: The track is i-beam track, and is respectively symmetrically equipped with limited block at the i-beam track both ends.

6. according to claim 1 a kind of for welding the rotary workbench of wind power foundation tower, it is characterised in that: Steel wire hang cable unit is further respectively had on the side wall of the upper layer pivoted arm and lower layer's pivoted arm, the electric block passes through steel Cord suspended cables device is slidably connected with track.