CN101402393B

CN101402393B - Special operation platform for mounting wind-driven generator

Info

Publication number: CN101402393B
Application number: CN2008102287443A
Authority: CN
Inventors: 高顺德; 王欣; 解春禹; 游成培; 腾儒民; 曹旭阳
Original assignee: Beijing Keruiyin Construction Machinery Co Ltd; Dalian University of Technology; Dalian Yiliya Construction Machinery Co Ltd
Current assignee: Beijing Keruiyin Construction Machinery Co Ltd; Dalian University of Technology; Dalian Yiliya Construction Machinery Co Ltd
Priority date: 2008-11-13
Filing date: 2008-11-13
Publication date: 2012-11-28
Anticipated expiration: 2028-11-13
Also published as: CN101402393A

Abstract

The invention relates to a work platform special for assembling a wind motor, which is applied to assembly of the wind motor of an intertidal zone. The work platform comprises a barge hull, wherein supporting rods for supporting the barge hull are arranged on both sides of the barge hull; and supporting rod lifting self-locking devices are arranged between the supporting rods and the barge hull. When used, the work platform is towed to the intertidal zone for assembling the wind motor in advance by utilization of an autoboat sideband or by means of ferrying under the tidal condition, and simultaneously the barge hull is utilized to convey wind generating sets and hoisting devices such as fixed slewing cranes, land automobile cranes, track cranes and so on; and the supporting rods are utilized to support the barge hull on the land of the intertidal zone, and the supporting heights of various supporting rods are determined according to the topographic condition. The work platform only needs to guarantee that the upper plane of the barge hull is basically horizontal and the cranes can operate normally, and can be utilized to assemble the wind motor under the tidal condition or tideless condition, so that the problem that the wind motor can not be arranged on the intertidal zone is solved and the wind resources in the area can be fully utilized to generate power.

Description

Special operation platform for mounting wind-driven generator

Technical field

The present invention relates to a kind of job platform, particularly a kind of special operation platform for mounting wind-driven generator is applied to the installation of the aerogenerator of intertidal zone.

Background technology

At present, the area for this tidewater in coastal intertidal zone haunts does not obtain the actv. development and utilization as yet, and most of intertidal zone resource still in the raw.This do not had by water logging at the incoming tide, reveals the intertidal zone on beach during ebb tide, and wind resource is very abundant, is the desirable place of setting up wind energy turbine set.But the such kind of area car can't go, ship can not near, can't install wind power generating set.

Summary of the invention

The purpose of this invention is to provide and a kind ofly convenient in area, coastal intertidal zone aerogenerator is installed, made full use of this area's wind resource and generate electricity, no matter have or not tidewater all can realize the special operation platform for mounting wind-driven generator of installation exercise.

Special operation platform for mounting wind-driven generator of the present invention is characterized in that: it comprises barge body 1, is provided with the cramp bar 2 that is used to support barge body 1 in barge body 1 both sides, is provided with cramp bar up-down self-locking device between cramp bar 2 and the barge body 1.

Special operation platform for mounting wind-driven generator of the present invention, wherein said barge body 1 are that there is the truss that connects deck 22, base plate 21 and side panel its inboard by the deck 22 of top and the base plate 21 of below and the housing that side panel surrounds.

Special operation platform for mounting wind-driven generator of the present invention, wherein said cramp bar up-down self-locking device structure is: comprise and barge body 1 captive joint and slipway 17 that vertically be provided with that described cramp bar 2 matches with slipway 17; Cramp bar 2 is connected to connecting arm 16; On barge body 1, be fixedly connected with supporting base 4; Supporting base 4 is connected with an end axle of pivoted arm 5; The other end of pivoted arm 5 is fixedly connected with the support hydraulic pressure oil cylinder 14 of vertical setting, and the external end head and the described connecting arm 16 of the piston rod 15 that matches with support hydraulic pressure oil cylinder 14 match; The bottom of described cramp bar 2 is connected to rope 9, and the pulley of 22 tops, rope 9 pile warp decks is connected with hydraulic winch 6, hydraulic winch 6, support hydraulic pressure oil cylinder 14 all with deck 22 on Hydraulic Station 11 join.

Special operation platform for mounting wind-driven generator of the present invention, wherein said cramp bar 2 is an even number, is symmetricly set on the both sides of barge body 1 respectively, each cramp bar 2 all is furnished with two groups of cramp bar up-down self-locking devices.

Special operation platform for mounting wind-driven generator of the present invention; The section of wherein said cramp bar 2 and slipway 17 all is square; Wherein four of cramp bar 2 sides all match with slipway 17 through the roller 12 that is installed on the slipway 17, and the connecting arm 16 that is connected with cramp bar 2 matches through the external end head of slotted hole on slipway 17 sides and piston rod 15.

Special operation platform for mounting wind-driven generator of the present invention, the upper fixed of wherein said supporting base 4 is connected with bearing support 10, and described pivoted arm 5 joins through rotating shaft 13 and bearing support 10.

Special operation platform for mounting wind-driven generator of the present invention is provided with the rotation hydraulic ram 20 that joins with Hydraulic Station 11 between wherein said pivoted arm 5 and the bearing support 10.

Special operation platform for mounting wind-driven generator of the present invention because the barge body 1 of hull shape is arranged, is connected with cramp bar 2 in the both sides of barge body 1; Be provided with cramp bar up-down self-locking device between cramp bar 2 and the barge body 1; During use, motorboat sideband capable of using or mortise cross mode is dragged to this job platform preparatory installation aerogenerator when tidewater is arranged intertidal zone area, utilize this barge body 1 to transport wind power generating set and weight-lifting equipment simultaneously; Comprise that fixedly revolving crane or land are with car hosit or crawler crane etc.; Utilize cramp bar 2 that barge body 1 is supported on the intertidal zone on the ground again, the support height of each cramp bar is decided according to topographic features, is in level basically as long as guarantee the last plane of barge body 1; The normal operation of lifting function gets final product; No matter have or not tidewater all can utilize this job platform that aerogenerator is carried out installation exercise, solved the problem that aerogenerator can't be installed in the intertidal zone, the wind resource that can make full use of this area generates electricity.

Description of drawings

Fig. 1 is that the master of the specific embodiment of the invention looks scheme drawing;

Fig. 2 is a schematic top plan view shown in Figure 1;

Fig. 3 is a cramp bar up-down self-locking device enlarged diagram;

Fig. 4 is a schematic top plan view shown in Figure 3.

The specific embodiment

Like Fig. 1,2,3, shown in 4: 1 is the barge body, and barge body 1 is the flat shell shape, and the top is deck 22, and the below is a base plate 21, and there is the side panel that connects deck 22 and base plate 21 side; Have in the enclosure interior that surrounds by deck 22, base plate 21, side panel to be attached thereto the truss that connects, form the skeleton of barge body 1.This barge body 1 utilizes steel plate to adopt the welding manner processing and fabricating.

1 dual-side place is provided with the cramp bar 2 that is used to support barge body 1 at the barge body, is provided with cramp bar up-down self-locking device between cramp bar 2 and the barge body 1.Transport aerogenerator and weight-lifting equipment with barge body 1 during operation; The aerogenerator that when tidewater is arranged, utilizes motorboat sideband or mortise to cross in mode towage to the intertidal zone is installed ground; Through cramp bar up-down self-locking device barge body 1 being bearing in ground again, is that weight-lifting equipment capable of using lifts by crane installation exercise to aerogenerator after the whole levelling.

Wherein cramp bar up-down self-locking device concrete structure is following:

Comprise the slipway 17 that is connected or welds and vertically be provided with barge body 1 bolt, be furnished with cramp bar 2 mutually with slipway 17; The section of cramp bar 2 and slipway 17 all is square, and cramp bar 2 is positioned at the inboard of slipway 17; Four sides of cramp bar 2 all match with slipway 17 through the roller 12 that is installed on the slipway 17, and roller 12 passes through back plate and axle and bearing installation on the medial surface of slipway 17 side plates.Cramp bar 2 can move up and down with respect to slipway 17.

The side of cramp bar 2 is connected with the end welding or the bolt of connecting arm 16, and connecting arm 16 just is positioned at the slotted hole on slipway 17 sides, and the other end extend out to the slotted hole outside.

Bolt connects or is welded with supporting base 4 on deck 22 above the barge body 1; The top bolt of supporting base 4 is connected with bearing support 10; Be connected with rotating shaft 13 between one end of pivoted arm 5 and the bearing support 10, make pivoted arm 5 rotatable with respect to supporting base 4, bearing support 10.The other end below bolt of pivoted arm 5 is connected with the support hydraulic pressure oil cylinder 14 of vertical setting; Match above the other end of the connecting arm 16 that outer (end) termination of the piston rod 15 that matches with support hydraulic pressure oil cylinder 14 is outer with stretching out slipway 17 side slotted holes; Promptly on connecting arm 16, be processed with circular groove; The termination of piston rod 15 is sphere-like and leans in this circular groove, after pivoted arm 5 rotates, can make piston rod 15 leave the circular groove on the connecting arm 16.

3 is leg disc; Leg disc 3 is fixedly connected with back plate 18 and is connected with the bottom of cramp bar 2 through axle; Pulley also is installed on leg disc 3 and is wound with rope 9; Rope 9 pulley 19 of 22 tops, pile warp deck again is connected with hydraulic winch 6, and the Hydraulic Station on hydraulic winch 6 and the deck 22 joins.

Be equipped with between pivoted arm 5 and the bearing support 10 and rotate hydraulic ram 20.

Support hydraulic pressure oil cylinder 14 with rotate hydraulic ram 20 all with deck 22 on Hydraulic Station 11 join.

Hydraulic winch 6, Hydraulic Station 11 are chosen installation as required and are got final product.The pulley set-up mode of 22 tops, deck can arbitrarily be provided with according to concrete layout situation, as long as can rope 9 be wrapped on the cylinder of hydraulic winch 6 smoothly.

In this job platform, cramp bar 2 is four, is symmetricly set on the both sides of barge body 1 respectively, and each cramp bar 2 all is furnished with two groups of symmetrically arranged cramp bar up-down self-locking devices, if more large-scale barge body also can be established six cramp bars or more.

Cramp bar up-down self-locking device working process is following: when barge body 1 carrying wind power generating set reached re-mount get into the area, intertidal zone with equipment after, put down rope 9 through winch 6 earlier, by deadweight cramp bar 2 is moved down with respect to slipway 17; During ground, leg disc 3 contact intertidal zone; Drive 20 actions of rotation hydraulic ram through Hydraulic Station 11, pivoted arm 5 rotates, and the crown, bottom of piston rod 15 is leaned against in the circular groove of top, connecting arm 16 outer ends; 14 actions of support hydraulic pressure oil cylinder; Piston rod 15 promotes connecting arm 16 drive cramp bars 2 and moves down, and makes 2 pairs of barge bodies 1 of cramp bar play supporting role, and the distance that cramp bar 2 moves down is looked the physical features situation and decided; Get up as long as guarantee the supporting of barge body 1 nearly level, utilize 14 self-lockings of support hydraulic pressure oil cylinder after the supporting.Have or not tidewater not influence the supporting to barge body 1 this moment.Utilize the weight-lifting equipment of 22 tops, deck that aerogenerator is lifted by crane installation then.14 actions of support hydraulic pressure oil cylinder in the time of need withdrawing, are being arranged under the situation of tidewater; Hydraulic ram 20 actions are rotated in piston rod 15 withdrawals, make pivoted arm 5 drive support hydraulic pressure oil cylinder 14 and rotate; Piston rod 15 leaves connecting arm 16, winch 6 action rolling ropes 9, and the deadweight that overcomes cramp bar 2 makes on the cramp bar 2 and moves; Last barge body 1 floats on the water surface, drags away from towboat to get final product again.

For make barge body 1 can with other hulls or land near; Two end axles at barge body 1 is connected with rebound 7; And between rebound 7 and barge body 1, be provided with hoisting mechanism 8; Can drive rebound 7 through hoisting mechanism 8 and turn an angle, reach and other hulls or land purpose of connecting with respect to barge body 1.

Claims

1. special operation platform for mounting wind-driven generator, it is characterized in that: it comprises barge body (1), is provided with the cramp bar (2) that is used to support barge body (1) in barge body (1) both sides, is provided with cramp bar up-down self-locking device between cramp bar (2) and the barge body (1); Described barge body (1) is that there is the truss of connection deck (22), base plate (21) and side panel its inboard by the base plate (21) of the deck (22) of top and below and the housing that side panel surrounds; Described cramp bar up-down self-locking device structure is: comprise the slipway (17) of captiveing joint with barge body (1) and vertically be provided with, described cramp bar (2) matches with slipway (17); Cramp bar (2) is connected to connecting arm (16); On barge body (1), be fixedly connected with supporting base (4); Supporting base (4) is connected with an end axle of pivoted arm (5); The other end of pivoted arm (5) is fixedly connected with the support hydraulic pressure oil cylinder (14) of vertical setting, and the external end head and the described connecting arm (16) of the piston rod (15) that matches with support hydraulic pressure oil cylinder (14) match; The bottom of described cramp bar (2) is connected to rope (9), and the pulley of rope (9) pile warp deck (22) top is connected with hydraulic winch (6), hydraulic winch (6), support hydraulic pressure oil cylinder (14) all with deck (22) on Hydraulic Station (11) join.

2. special operation platform for mounting wind-driven generator according to claim 1 is characterized in that: described cramp bar (2) is an even number, is symmetricly set on the both sides of barge body (1) respectively, and each cramp bar (2) all is furnished with two groups of cramp bar up-down self-locking devices.

3. special operation platform for mounting wind-driven generator according to claim 2; It is characterized in that: the section of described cramp bar (2) and slipway (17) all is square; Wherein four sides of cramp bar (2) all match with slipway (17) through the roller (12) that is installed on the slipway (17), and the connecting arm (16) that is connected with cramp bar (2) matches through the external end head of slotted hole on slipway (17) side and piston rod (15).

4. special operation platform for mounting wind-driven generator according to claim 3 is characterized in that: the upper fixed of described supporting base (4) is connected with bearing support (10), and described pivoted arm (5) joins through rotating shaft (13) and bearing support (10).

5. special operation platform for mounting wind-driven generator according to claim 4 is characterized in that: be provided with the rotation hydraulic ram (20) that joins with Hydraulic Station (11) between described pivoted arm (5) and the bearing support (10).