KR101636057B1 - zig for wind power generator - Google Patents

Abstract

The present invention relates to a jig to install a wind power generator tower with a novel structure to effectively lift a body constituting a tower of a wind power generator using a crane. According to the present invention, the jig to install the wind power generator tower comprises: a jig main body (10) connected to a flange part (2) of a body (1), and connected to a crane; and a fixating pin (20) penetrating a connection hole (3) formed on the flange part (2) to be coupled to the jig main body (10), to fixate the jig main body (10) to the flange part (2) to prevent disconnection. As such, the jig is able to rigidly fixate the jig main body (10) to the flange part (2), with an advantage of preventing dropping the body (1) when lifting the body (1) using the crane.

Description

A zig for wind power generator

The present invention relates to a new structure of a tower for installing a wind turbine generator which can effectively lift a body constituting a tower of a wind turbine using a crane.

2. Description of the Related Art Generally, a wind turbine generator that generates electricity using wind is provided with a tower elongated in a vertical direction, a nacelle provided at an upper end of the tower and having a generator therein, And a rotor for driving the generator.

At this time, the tower of the wind power generator is manufactured to be divided into a plurality of bodies.

 As shown in FIG. 1, the body is formed in a tubular shape, and flanges 2 extending inward are formed at both ends. A plurality of engagement holes 3 are formed in the flange portion 2, The bodies 1 may be connected to each other by using a bolt passing through the coupling hole 3 and a nut coupled to the bolt.

Therefore, when the tower is assembled, each of the bodies 1 is transported to the site, and the lower body 1 is vertically erected and fixed to a fixed stand provided on the floor. Each of the bodies 1 is lifted using a crane And is fixed to the upper end of the lower body 1 to assemble a high tower.

At this time, after the plurality of bodies 1 are assembled on the floor, the assembled body 1 is lifted at the same time.

On the other hand, when the body 1 is lifted using a crane, a hook is hooked to the inner end of the flange portion 2, and a crane is connected to the hook to raise the body 1. [

At this time, when both ends of the body 1 are simultaneously lifted up, the body 1 is lifted and extended horizontally. When a hook is hooked to only one end of the body 1 and lifted upward, And is vertically erected.

However, when lifting the body 1 in this manner, it is difficult to firmly fix the crane to the body 1, and when the body 1 is lifted using the crane, the problem of the body 1 falling .

Therefore, there is a need for a new method to solve such a problem.

≪ RTI ID = 0.0 > 10-1379264,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a jig for installing a tower of a wind power generator which can effectively lift a body constituting a tower of a wind power generator using a crane.

In order to accomplish the above object, the present invention is characterized in that a plurality of bodies (1) are connected in a vertical direction, the body (1) has a tube shape extending in the lateral direction, (2) and a plurality of coupling holes (3) are formed in the flange portion (2), the tower comprises a jig main body (10) coupled to the flange portion And a fixing pin (20) coupled to the jig body (10) to penetrate the hole (3) and fix the jig body (10) so as not to be detached from the flange part (2) Is provided.

According to another aspect of the present invention, the jig body 10 includes a vertically extending portion 11 extending upwardly and downwardly and having a connecting hole 11a to which the crane is connected, (12) extending inwardly from the lower end and an inner extension (13) extending upwardly from an end of the lower extension (12), wherein the inner extension (13) The through holes 11b and 13a through which the fixing pins 20 pass are formed in the upper and lower extended portions 11 and the inner extended portions 13 so as to be shorter than the length of the flange portion 2, The jig body 10 is coupled to the flange portion 2 so that the extension portion 13 is caught by the inner side surface of the flange portion 2 and the fixing pin 20 is engaged with the through holes 11b and 13a And the jig main body 10 can be fixed to the flange portion 2. In this case,

According to still another aspect of the present invention, there is provided a jig for installing a tower for a wind power generator, wherein the upper and lower extension parts (11) are inclined upward upward toward the inside.

According to another aspect of the present invention, the fixing pin 20 is configured to extend inward and outward of the jig main body 10, and a space portion 22b having a front end opened is formed therein, and a head portion 21 A fixed key 23 coupled to the inner circumferential portion of the pin body 22 so as to protrude and retract into the space 22b and a fixed key 23 connected to the fixed key 23, A first elastic member 24 slidably coupled to the inside of the space 22b so as to protrude from the outer end of the pin body 22, Includes a push bar 25 connected to the fixed key 23 and a second elastic member 26 connected to the push bar 25 to elastically press the push bar 25 to advance outward , A long hole (22a) extending inward and outward and into which the fixed key (23) is inserted is formed at the periphery of the pin body (22) The fixed key 23 is formed with a cam hole 23a inclined so that its inner end is located outside the periphery of the pin body 22 as compared with the outer end of the fixed key 23. The inner end of the push bar 25 is provided with the cam hole 23a When the fixing pin 20 is coupled to the through holes 11b and 13a, the fixing key 23 is inserted into the through hole 13a of the inner extending portion 13, When the operator pushes the end portion of the push bar 25 protruded to the outer end of the pin body 22 inward, the push bar 25 is retracted The fixing pin 23 is inserted into the pin body 22 by the action of the cam pin 25a and the cam hole 23a so that the fixing pin 20 can be retracted inward A jig for installing a wind turbine tower is provided.

According to another aspect of the present invention, a support pipe 31, which is connected to the through holes 11b and 13a and is slidably engaged with the fixing pin 20, is formed on the inner side surface of the inner extension portion 13, And a third elastic member 32 elastically pressing the fixing pin 20 to be retracted inward is connected to the fixing pin 20.

The constructed wind turbine tower jig according to the present invention comprises a jig main body 10 coupled to a flange portion 2 of a body 1 to which a crane is connected and a jig body 10 through which a coupling hole 3 formed in the flange portion 2 is inserted And a fixing pin 20 coupled to the jig body 10 to fix the jig body 10 so as not to be detached from the flange 2. [

In particular, the jig body 10 includes upper and lower extension portions 11 extending in the vertical direction and having a connection hole 11a to which the crane is connected at an upper end thereof, And the inner extension portion 13 is formed to have a length smaller than the length of the flange portion 2 and the inner extension portion 13 extending upward from the end portion of the lower extension portion 12, The through holes 11b and 13a through which the fixing pins 20 pass are formed in the upper and lower extended portions 11 and the inner side extended portions 13 so that the inner extended portions 13 and the inner extended portions 13 are formed, The jig body 10 is coupled to the flange portion 2 so that the jig main body 10 is engaged with the inner side surface of the flange portion 2 and the fixing pin 20 is engaged with the through holes 11b and 13a, Can be fixed to the flange portion 2.

Therefore, the jig body 10 can be firmly fixed to the flange portion 2, and the body 1 can be prevented from falling when the body 1 is lifted using a crane .

1 is a side sectional view showing a body of a general wind power generator tower,
FIG. 2 is a side cross-sectional view illustrating a state of engagement of a jig for installing a wind turbine generator according to the present invention,
3 is a side sectional view showing a jig for installing a wind turbine generator according to the present invention,
4 is a reference view for explaining the operation of a jig for installing a wind turbine generator according to the present invention,
5 is a side sectional view showing a second embodiment of a jig for installing a wind turbine generator according to the present invention,
6 is a side sectional view showing a disassembled state of a second embodiment of a jig for mounting a wind turbine generator according to the present invention,
7 to 10 are reference views for explaining the operation of the second embodiment of the jig for installing a wind turbine generator according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 to 4 illustrate a jig for installing a wind turbine tower according to the present invention, wherein the wind turbine tower is constituted by connecting a plurality of bodies 1 in a vertical direction, and the body 1 is extended in the lateral direction And a flange portion 2 extending inward is formed at both ends of the flange portion 2, and a plurality of coupling holes 3 are formed in the flange portion 2, as in the prior art.

The jig for installing a wind turbine generator according to the present invention comprises a jig main body 10 coupled to the flange portion 2 and connected to a crane and coupled to the jig main body 10 through the coupling hole 3 And a fixing pin 20 for fixing the jig main body 10 so as not to be detached from the flange portion 2. [

The jig body 10 includes a vertically extending portion 11 extending vertically and an upper portion formed with a connecting hole 11a to which the crane is connected, And an inner extension 13 extending upward from an end of the lower extension 12 so that the lower extension 12 and the inner extension 13 are connected to each other, Is engaged with the inside and the lower circumferential portion of the flange portion 2.

The inner extension 13 is shorter in length than the flange 2 so that when the jig body 10 is coupled to the flange 2, Is not caught on the inner surface of the body (1).

The upper and lower extended portions 11 are inclined at an upper end in a direction of a central portion of the body 1, that is, a direction in which the lower extended portion 12 extends.

The through holes 11b and 13a through which the fixing pins 20 pass are formed in the upper and lower extension portions 11 and the inner extension portions 13 so that the jig main body 10 is inserted into the flange portion 2 The intermediate portion of the fixing pin 20 passes through the fitting hole 3 so that the jig main body 10 is inserted into the flange portion 2 .

The fixing pin 20 has a head portion 21 at its inner end and is coupled to the jig main body 10 so as to penetrate the through holes 11b and 13a and the coupling hole 3.

The jig main body 10 and the fixing pin 20 are fixedly coupled to the flange portion 2 at both ends of the body 1 and the connecting wire 11a of the jig main body 10 is connected with a wire 4) can be combined to lift the body 1 upward by using a crane.

The wind turbine tower mounting jig having such a structure is provided with a jig main body 10 coupled to a flange portion 2 of the body 1 and connected to a crane, And a fixing pin 20 which is coupled to the jig main body 10 and fixes the jig main body 10 so as not to be detached from the flange portion 2. [

In particular, the jig body 10 includes upper and lower extension portions 11 extending in the vertical direction and having a connection hole 11a to which the crane is connected at an upper end thereof, And the inner extension portion 13 is formed to have a length smaller than the length of the flange portion 2 and the inner extension portion 13 extending upward from the end portion of the lower extension portion 12, The through holes 11b and 13a through which the fixing pins 20 pass are formed in the upper and lower extended portions 11 and the inner side extended portions 13 so that the inner extended portions 13 and the inner extended portions 13 are formed, The jig body 10 is coupled to the flange portion 2 so that the jig main body 10 is engaged with the inner side surface of the flange portion 2 and the fixing pin 20 is engaged with the through holes 11b and 13a, Can be fixed to the flange portion 2.

Therefore, the jig body 10 can be firmly fixed to the flange portion 2, and the body 1 can be prevented from falling when the body 1 is lifted using a crane .

Particularly, the upper and lower extension portions 11 are inclined upward toward the central portion of the body 1, so that when the body 1 is lifted obliquely as shown in FIG. 4, the lower end portion of the body 1 There is an advantage that it can be stably supported so as not to flow.

The fixing pin 20 is simply coupled to the jig main body 10 so as to penetrate through the through holes 11b and 13a and the coupling hole 3. However, It is also possible to form a separate through-hole for coupling the clip to the tip end thereof, and after fixing the fixing pin 20, a clip is coupled to the through hole to fix the fixing pin 20 so as not to be detached.

5 to 10 illustrate another embodiment according to the present invention. In the inner side surface of the inner extension part 13, the fixing pin 20 is connected to the through holes 11b and 13a, A support tube 31 is provided.

The support tube 31 is configured such that its inner diameter has the same inner diameter as the through-holes 11b and 13a.

The outer end of the through hole 13a is formed with a diameter enlarged portion 13b into which a fixed key 23 to be described later is inserted.

A third elastic member 32 connected to the fixing pin 20 and pressing the fixing pin 20 to retract inward is provided at the periphery of the supporting pipe 31.

The third elastic member 32 has both ends pressed against the inner surface of the inner extension portion 13 and the head portion 21 of the fixing pin 20 to push the fixing pin 20 inward. Use a spring.

The fixing pin 20 is configured to extend to the inside and outside of the jig main body 10 and has a space portion 22b having a front end opened therein and a pin body 22 having a head portion 21 formed at an inner end thereof A fixed key 23 coupled to the inner circumference of the pin body 22 so as to protrude and retract into the space 22b and a fixed key 23 connected to the fixed key 23, And an inner end of the first resilient member 24 is slidably coupled to the inside of the space 22b and has an outer end projecting toward the outer end of the pin body 22, And a second elastic member 26 connected to the push bar 25 and elastically biasing the push bar 25 to advance outward.

A longitudinal hole 22a extending in the front-rear direction and inserted into the fixing key 23 is formed to penetrate the inside and the outside of the pin body 22, As shown in Fig.

The pin body 22 and the support pipe 31 are formed with an unillustrated stopping protrusion so that the pin body 22 coupled to the support pipe 31 is not separated from the support pipe 31 do.

The fixed key 23 is formed of a triangle having an increased width in the vertical direction from the outer side to the inner side. The outer side end of the fixed key 23 is hingably coupled to the inside of the pin body 22 so as to be vertically rotatable, And protrudes upward from the pin body 22 through the pin body 22.

At this time, the fixed key 23 is formed with a cam hole 23a inclined so that its inner end is located outside the periphery of the pin main body 22 as compared with the outer end.

The first elastic member 24 is connected to the fixed key 23 and uses a torsion spring for elastically pressing the fixed key 23 to rotate upward.

A cam pin 25a is coupled to the cam hole 23a at an inner end of the push bar 25 so that the push bar 25 pushes the outer end of the push bar 25 inward, The fixed key 23 is pivoted downward by the action of the cam hole 23a and the cam pin 25a to be inserted into the pin main body 22.

At this time, a recess 25b is formed in the push bar 25, and a support bar 25c having the cam pin 25a is provided in the recess 25b.

The outer end of the cam hole 23a is configured to have a wide width in the vertical direction. When the push bar 25 and the cam pin 25a are moved outward, when the fixed key 23 is rotated downward, So that the cam hole 23a does not interfere with the cam pin 25a.

7 and 8, when the operator fixes the jig body 10 to the flange portion 2 in the state in which the fixing pin 20 is retracted inwardly as shown in Fig. 5, The fixing pin 20 is pressed against the through holes 11b and 13a and the engaging hole 3 while the third elastic member 32 is compressed by pushing the fixing pin 20 outwardly, The fixing key 23 is engaged with the outer surface of the through hole 13a of the inner extension portion 13 or the diameter portion 13b so that the fixing pin 20 is fixed so as not to come off.

Therefore, the jig body 10 is fixed to the flange portion 2 of the body 1. [

9, when the operator pushes the end portion of the push bar 25 protruded to the outer end of the pin body 22 inward, the push bar 25 is retracted and the cam pin 25a is pulled back, The fixed key 23 is inserted into the pin body 22 by the action of the cam hole 23a and the fixing pin 20 is released.

10, the entirety of the fixing pin 20 is retracted inward by the elasticity of the third elastic member 32, and when the fixing pin 20 is unlocked as described above, The fixing of the flange portion 2 by the fixing pin 20 is released.

Therefore, the jig can be separated from the flange portion 2. [

When the operator attaches the jig body 10 to the flange portion 2 and then pushes the fixing pin 20 outwardly, the fixing pin 20 is inserted into the through holes 11b and 13a When the end of the push bar 25 protruding outward is pushed in a state where the fixing pin 20 is engaged, the fixing pin 20 is automatically fixed, And at the same time, the fixing pin 20 is slid inward to release the fixing of the jig main body 10.

Therefore, there is an advantage that it is very easy to fix the jig main body 10 to the flange portion 2 or to separate the jig main body 10 fixed to the flange portion 2.

10. Jig body 20. Fixing pin
31. Supporting tube

Claims (5)

A plurality of bodies (1) connected in a vertical direction,
The body 1 has a tubular shape extending in the lateral direction and has flange portions 2 extending inward at both ends thereof and a plurality of coupling holes 3 formed in the flange portion 2, As a result,
A jig main body 10 connected to the flange portion 2 and to which a crane is connected,
And a fixing pin 20 coupled to the jig body 10 to penetrate through the coupling hole 3 and fixing the jig body 10 so as not to be detached from the flange portion 2,
The jig body (10)
(11) having a connection hole (11a) extending in the vertical direction and having an upper end connected to the crane,
A lower extension 12 extending inward from the lower end of the upper and lower extension 11,
And an inner extension (13) extending upwardly from an end of the lower extension (12)
The inner extension (13) has a length shorter than the length of the flange (2)
The upper and lower extension portions 11 and the inner extension portion 13 are formed with through holes 11b and 13a through which the fixing pin 20 passes,
The jig body 10 is coupled to the flange portion 2 so that the inner extension portion 13 is caught by the inner side surface of the flange portion 2 and the fixing pin 20 is attached to the through holes 11b and 13a So that the jig body 10 is fixed to the flange portion 2,
The upper and lower extension portions 11 are formed such that an upper end of the upper and lower extension portions 11 extends inwardly upwardly,
The fixing pin (20)
A pin body 22 formed to extend inward and outward of the jig main body 10 and having a space portion 22b opened at its front end and a head portion 21 at its inner end,
A fixed key 23 which is coupled to the circumference of the pin body 22 so as to protrude and retract into the space 22b,
A first elastic member 24 connected to the fixed key 23 to press the fixed key 23 to protrude to the periphery,
A push bar 25 slidably coupled to the inside of the space 22b and having an outer end protruded from an outer end of the pin body 22 and an inner end connected to the fixed key 23,
And a second elastic member (26) connected to the push bar (25) and elastically biasing the push bar (25) forward to the outside,
A slot 22a is formed in the periphery of the pin body 22 so as to extend inward and outward and into which the fixed key 23 is inserted.
The fixed key 23 is formed with a cam hole 23a inclined so that its inner end is located outside the periphery of the pin main body 22 as compared with the outer end,
At the inner end of the push bar 25, a cam pin 25a coupled to the cam hole 23a is provided,
When the fixing pin 20 is coupled to the through holes 11b and 13a, the fixing key 23 is caught by the outer surface of the through hole 13a of the inner extending portion 13, Fixed,
When the operator pushes the end portion of the push bar 25 projected to the outer end of the pin body 22 inward, the push bar 25 is retracted and the cam pin 25a and the cam hole 23a act Wherein the fixed key (23) is inserted into the pin body (22) so that the fixing pin (20) can be retracted inward.
delete delete delete The method according to claim 1,
The inner extension of the inner extension part 13 is provided with a support pipe 31 connected to the through holes 11b and 13a and to which the fixing pin 20 is slidably coupled,
And a third elastic member (32) elastically pressing the fixing pin (20) so that the fixing pin (20) is retracted inward is connected to the fixing pin (20).

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