JP3732414B2 - Method and apparatus for constructing tower structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and apparatus for constructing a tower-like structure, and more particularly to a method and apparatus for constructing a tower for wind power generation with blades attached thereto.
[0002]
[Prior art]
In general, a high steel tower is constructed by connecting a plurality of blocked structures, and when building, the bottom blocked structure is erected on the foundation and then blocked. These structures are lifted with a truck crane and a climbing crane and stacked in order to build a tall steel tower.
[0003]
[Problems to be solved by the invention]
In the construction method in which the block-structured structure of the prior art is lifted by a truck crane and a climbing crane and sequentially stacked, the construction work tends to be affected by the wind and the construction work is often stopped.
In particular, wind power towers are built in places with many wind days and very strong winds, and heavy objects such as generators and blades must be placed on top of the tower. Due to the influence of the wind, construction work was often stopped.
Moreover, since the generator and blades of a wind power generator are heavy, a large truck crane is required to lift them. Wind generators are often built on mountains and coasts where roads are not maintained, and there is also a problem of securing a loading path for carrying large truck cranes and a place for installation.
In view of such circumstances, the present invention provides a method and apparatus for building a tower-like structure that is less affected by wind and that uses less cranes.
[0004]
[Means for Solving the Problems]
The present invention relates to a method for constructing a tower structure by connecting a plurality of blocked tower structures.
A step of erecting the first block tower structure on the foundation,
Assembling the guide tower so as to surround the first block tower structure, and providing a support member between the first block tower structure and the guide tower, so as to surround the first block tower structure The assembled guide tower is composed of a first guide tower provided on the lower side and substantially the same height as the first block tower structure, and a second guide tower provided on the upper side, and a second guide provided on the upper side. The tower has an open surface to move the lifted block structure laterally and carry it in,
A step of attaching a lift-up device having a telescopic mechanism and a block tower structure and a lateral movement mechanism to the guide tower,
The horizontal movement mechanism of the lift-up device holds the block tower structure and lifts it along the guide tower by the intermittent intermittent operation of the telescopic mechanism. The lifted block tower structure is laterally moved by the horizontal movement mechanism. Connecting to the first block tower structure,
It is a method for constructing a tower-like structure by connecting a plurality of blocked tower-body structures characterized by comprising:
[0005]
Further, the present invention relates to a method for constructing a tower structure by connecting a plurality of blocked tower structures.
A step of erecting the first block tower structure on the foundation,
Assembling the guide tower so as to surround the first block tower structure, and providing a support member between the first block tower structure and the guide tower, so as to surround the first block tower structure The assembled guide tower is composed of a first guide tower provided on the lower side and substantially the same height as the first block tower structure, and a second guide tower provided on the upper side, and a second guide provided on the upper side. The tower has an open surface to move the lifted block structure laterally and carry it in,
A step of attaching a lift-up device having a telescopic mechanism and a block tower structure and a lateral movement mechanism to the guide tower,
The second block tower structure is held in the lateral movement mechanism of the lift-up device, lifted along the guide tower by the intermittent insecticidal operation of the telescopic mechanism, and the lifted second block tower structure is moved laterally. Moving laterally by the mechanism and connecting on the first block tower structure;
The lift-up device is placed on a temporary base so as to surround the guide tower and fixed on a table having an open surface, and the guide tower is lifted by the intermittent intermittent operation of the telescopic mechanism;
Inserting and attaching an additional frame from the open surface of the platform under the raised guide tower;
A third block tower structure lifted by holding the third block tower structure on the lift-up device and lifting it by intermittent intermittent operation of the telescopic mechanism along the guide tower which is raised by attaching the extension frame. Moving the object laterally by a lateral movement mechanism and connecting the object onto the second block tower structure;
It is a method for constructing a tower-like structure by connecting a plurality of blocked tower-body structures characterized by comprising:
[0006]
In addition, the method of connecting a plurality of blocked tower structures of the present invention to construct a tower structure has a structure in which the blocked tower structure at the top of the tower structure has blades. And a generator equipped with a wind power generation tower.
[0007]
Furthermore, the lift-up device of the present invention is configured to surround the guide tower with the upper horizontal member, the lower horizontal member, and the vertical horizontal member provided with the overhanging portion, and is provided with a roller in contact with the pillar of the guide tower. comprising a carriage that moves laterally, and is intended to lift up includes a telescopic mechanism having an engagement pin and the piston side of the engaging pin of the cylinder and the piston and cylinder side, a pillar of the guide tower of the telescopic mechanism In the state where the engagement pin is repeatedly engaged and disengaged in the provided engagement hole and lifted up and down along the guide tower by an intermittent insecticidal operation, and placed and fixed on the stand provided on the temporary foundation , The tower-like structure according to claim 1 , wherein the guide tower is lifted by an intermittent intermittent operation by repeatedly engaging and releasing the engagement pin in the engagement hole provided in the pillar of the guide tower . Build It is intended to be used in the practice of that method.
[0008]
[Action]
The present invention relates to a method for constructing a tower-like structure by connecting a plurality of blocked tower structures so that the guide tower surrounds the first block tower structure firmly installed on the foundation. Since the support member is provided between the first block tower structure and the guide tower during assembly, the guide tower is stable and lifts up along the guide tower supported by the first block tower structure. Since the apparatus lifts the first block tower structure onto the first block tower structure, the block tower structure can be lifted without stopping the work with some wind.
When the guide tower is raised, the lift-up device used for lifting the block tower structure is placed and fixed on the stand, the guide tower is raised by this lift-up device, and an additional frame is provided below it. The guide tower can be easily raised, and a higher tower structure can be easily constructed.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
In the present invention, the blocked tower structure includes a part of the tower, blades, and a generator, and the like, and the blades and the generator are arranged at the top like a wind power generator. The steel tower which attaches the tower structure which was equipped is constructed.
As shown in FIG. 1, the first block tower structure (1a) is erected on the foundation (10), and the guide tower is assembled so as to surround the first block tower structure (1a). As for the guide tower, an extension frame (3a) (3b) (3c) is combined under the first guide tower (2a) and the second guide tower (2b).
The height H1 of the second guide tower (2a) is substantially equal to the height of the first block tower structure (1a). The height H2 of the second guide tower (2b) is preferably substantially equal to the height of the blocked tower structure connected thereto.
The height H3 of the extension frames (3a) (3b) (3c) is set to a height at which the guide tower can be raised by the lift-up device (4).
[0010]
The second block structure (1b) is hung on the carriage (8) of the lift-up device (4) and lifted as indicated by the arrow A, and the carriage (8) is moved sideways as indicated by the arrow B to thereby form the first block structure. Connect on the object (1a). After that, the first guide tower (2a) and the second guide tower (2b) are raised, and the additional frames (3a) (3b) (3c) are combined under them.
Next, the third block structure (1c) having the generator (1d) and the blades (1e) is placed on the carriage (8a), and the first guide tower (2a) and the second guide tower ( 2b) along the extension frames (3a), (3b) and (3c), the lift-up device (4) is lifted as indicated by arrow F, and the carriage (8a) is moved sideways as indicated by arrow G to It connects on the block structure (1b), and thus constructs a tower for wind power generation with blades and a generator at the top.
After the construction of the steel tower is completed, the lift-up device (4) is used to remove the add-on frames (3c) (3b) (3a), the lift-up device (4) is removed, and the first guide tower (2a ), Dismantle the second guide tower (2b).
[0011]
FIG. 2 shows an outline of the guide tower, and the first guide tower (2a) has four sides reinforced with a transverse member. The second guide tower (2b) reinforces three surfaces with a horizontal member, and one surface is open for moving the block structure in the horizontal direction and carrying it in. The extension frames (3a), (3b), and (3c) have a height that allows the guide tower to be lifted by the lift-up device, and are inserted from the side, and then attached with a horizontal member (31) indicated by a chain line to reinforce.
The stand (5) is a stand on which the lift-up device is placed when the guide tower is raised, and is larger than the first guide tower and straddles the first guide tower from the direction of the release surface (5c) having no side wall. And put under the lift-up device. The base (5) is formed in a U shape at the side walls (5a) and (5b) so as to support a large load when the guide tower is raised.
[0012]
【Example】
An embodiment of the present invention will be described with reference to FIGS.
3 (a) (b) (c), FIG. 4 (d) (e) (f), FIG. 5 (g) (h) (i), FIG. 6 (j) (k), FIG. (M), FIG. 8 is a figure which shows the process about construction of the steel tower of the wind power generation of an Example. FIGS. 9A, 9B, 10 and 11 are views showing a part of the embodiment in detail, and FIGS. 12 to 15 are views for explaining the operation of the lift-up device.
[0013]
First, as shown to Fig.3 (a), the 1st block structure (1a) which comprises a steel tower is erected in the foundation part (10). The first block structure (1a) is the lowermost part of the steel tower, and since it will be stacked on the structure sequentially blocked on it, it will also support the guide tower, Stand firmly on the foundation (10) in the normal position, not temporarily.
[0014]
Next, as shown in FIG. 3B, the first guide tower (2a) and the second guide tower (2b) are assembled.
The first guide tower (2a) is provided in a removable state on the temporary foundation (11) so as to surround the first block structure (1a). A support member (6) is provided between the first block structure (1a) and the first guide tower (2a), and the first guide tower (2a) is supported by the first block structure (1a). To do. The support member (6) is provided with a roller (7) so that the roller (7) can be smoothly raised and lowered when the first guide tower (2a) is raised and lowered.
On the 1st guide tower (2a), the 2nd guide tower (2b) is connected and connected by a connection part (25).
[0015]
The first guide tower (2a) has four pillars (21) coupled to each other by a transverse member (22), as shown in the sectional view of X1-X1. In addition, in the guide tower of FIGS. 3-7, a horizontal member is abbreviate | omitted and illustrated.
As shown in the sectional view of X2-X2, the second guide tower (2b) has four pillars (23) and three places connected by a transverse member (24). One side is an open surface with no cross member attached. This open surface is a carry-in entrance surface when the lifted block structure is moved laterally.
[0016]
Further, the guide tower, the support member (6), and the roller (7) provided so as to surround the first block structure (1a) will be described in detail. As shown in FIGS. The roller (7) of the support member (6) is in contact with the tower pillars (21) and (23), and the guide towers (2a) and (2b) are lifted to attach the additional frame under the guide tower (2a). The guide tower can be moved up and down smoothly when it is moved or when it is lowered to remove the extension frame. Further, it is preferable that the support member (6) is connected by a member (6 ′) and pressed to the first block structure (1a) side.
In addition, the engagement holes (20) are provided in the pillars (21) and (23) of the guide tower. In the guide towers of FIGS. 3 to 7, the engagement holes are omitted.
[0017]
Next, as shown in FIG. 3C, a lift-up device (4) that moves up and down along the first guide tower (2a) and the second guide tower (2b) is attached.
And the 2nd block structure (1b) mounted in the stand (12) is attached to the suspension tool (9) of the trolley | bogie (8) of a lift-up apparatus (4).
The details of the lift-up device (4) will be described with reference to FIGS.
9A is a side view (state of FIG. 3C), and FIG. 9B is a view of FIG. 9A as viewed from above. The lift-up device (4) includes an upper horizontal member (4a), a lower horizontal member (4b), an intermediate horizontal member (4c), and a vertical and horizontal member (4d). The upper lateral member (4a) includes an overhang portion. The lower lateral member (4b) is preferably provided with an overhanging portion for holding the suspended block structure (1b) (provided as the overhanging portion (4e) in FIG. 3C).
[0018]
The lift-up device (4) is attached so as to surround the outer periphery of the guide tower (2a) (2b), and is smoothly raised and lowered by the rollers (41) and (42) on the pillars (21) and (23) of the guide tower. Be able to. The upper horizontal member (4a) having the overhanging portion is provided with a rail (4f) so that the carriage (8) can easily move in the horizontal direction.
Further, the lift-up device (4) is provided with a cylinder (43), a piston (44), and engagement pins (46) (47), which are expansion and contraction mechanisms, in the intermediate lateral member (4c). As shown in FIG. 10, the engagement pin is engaged with the engagement hole (20) of the column (21) of the guide tower.
[0019]
With the engagement pin (46) engaged with the engagement hole (20) of the guide tower column (21) and the engagement pin (47) released from the engagement hole (20), the cylinder (43) is moved. The lift-up device (4) is lifted by operating and extending the piston (44), and the lift-up device (4) is lifted by repeated intermittent action. Details of the lifting mechanism of the lift-up device (4) will be described later.
[0020]
Next, as shown in FIG. 4 (d), the lift-up device (4) is raised as indicated by arrow A, and the second block structure (1b) attached to the carriage (8) is indicated as indicated by arrow A. Then, it is lifted to the position of the second guide tower (2b) that can be connected to the first block structure (1a).
Next, as shown in FIG. 4E, the carriage (8) of the upper lateral member (4a) of the lift-up device (4) is moved in the lateral direction (arrow B).
Since the second guide tower (2b) has an open surface so that it can be carried in, the suspended second block structure (1b) moves to a position above the first block structure (1a). Connect a little lower.
After the second block structure (1b) is connected on the first block structure (1a) in this way, the carriage (8) is moved to the overhanging portion of the upper lateral member (4a), The lift-up device (4) is lowered as shown by an arrow C as shown in FIG.
[0021]
The first guide tower (2a) and the second guide tower (2b) have a height that allows the second block structure (1b) to be lifted and connected to the first block structure (1a). In order to connect the block structure, an additional frame is attached between the first guide tower (2a) and the temporary foundation (11).
As shown in FIG.5 (g), a stand (5) is put between the lower horizontal member (4b) of the lift-up device (4) and the temporary foundation (11), and the lift-up device (4) is placed on the stand. Place on (5). The base (5) has a U-shaped side wall (5a) (5b) as shown in FIG. 2, and is larger than the first guide tower (2a). The stand (5) is inserted so as to straddle the first guide tower (2a) from the direction of the release surface (5c) having no side wall. The base has a U-shape, and it is sufficient that the additional frame can be inserted from the direction of the release surface without the side wall.
Here, the first guide tower (2a) is removed from the temporary foundation (11).
[0022]
Then, as shown in FIG. 5 (h), more telescopic mechanism of the lift-up device (4) placed on the platform (5), the first guide tower (2a) and the second guide tower (2b) In the direction of arrow D, the height is raised to the height required to attach the extension frame by intermittent insect movement. When the guide tower (2a) (2b) is raised, the guide tower (2a) (2b) is raised smoothly by the roller (7) of the support member (6).
Details of the lift of the guide tower by the lift-up device (4) will be described later.
[0023]
Next, as shown in FIG. 5 (i), an additional frame (3a) is inserted between the raised first guide tower (2a) and the temporary foundation (11) from the surface without the side wall of the base (5). Then, the lower part of the first guide tower (2a) and the additional frame (3a) are joined. The steps shown in FIGS. 5 (h) and 5 (i) are repeated to join the additional frames (3a), (3b), and (3c) under the first guide tower (2a).
The height of the extension frames (3a), (3b), and (3c) is a height necessary for connecting the third block structure. In view of the height of the lift-up device (4) and the operating length of the expansion / contraction mechanism, the length of the first guide tower (2a) and the second guide tower (2b) is about three. It is preferable to inherit.
[0024]
As shown in FIG. 6 (j), an additional frame (3c), a connecting portion (28), an additional frame (3b), a connecting portion (27), an additional frame (3a), a connection on the temporary base portion (11). The guide tower is assembled like the part (26), the first guide tower (2a), the connection part (25), and the second guide tower (2b), and the blade (1e) and the generator (1d) are attached. The third block structure (1c) is lifted.
The state where the third block structure (1c) is placed will be described with reference to FIG. 11 showing details. The lift-up device (4) composed of the upper horizontal member (4a), the lower horizontal member (4b), the intermediate horizontal member (4c), and the vertical and horizontal members (4d) is provided with a roller (41 ) (42), and the carriage (8a) can be easily moved in the lateral direction by the rail (4f) of the upper lateral member (4a) having an overhanging portion. Further, a cylinder (43), a piston (44), and engagement pins (46) (47) are provided on the intermediate lateral member (4c), and the engagement pin is engaged with the engagement hole (20) of the column (21) of the guide tower. It comes to match.
[0025]
On the carriage (8a), the lower part of the generator (1d) is sandwiched, and the base part of the blade (1e) is placed on the stage (8b).
Next, as shown in FIG. 6 (k), the lift-up device is raised, and the third block structure (1c) attached to the carriage (8a) is moved to the second block structure (1b ) To the position of the second guide tower (2b) that can be connected to.
Next, as shown in FIG. 7L, the carriage (8a) of the upper lateral member (4a) of the lift-up device (4) is moved in the lateral direction (arrow G). Since the second guide tower (2b) has an open surface so that it can be carried in, the second block structure is adjusted by aligning the blade (1e) of the lifted third block structure (1c) with the position of the open surface. Move to the position above the object (1c) and connect.
[0026]
Next, as shown in FIG. 7 (m), the carriage (8a) of the upper lateral member (4a) of the lift-up device (4) is moved to the overhanging portion, and the lift-up device (4) is lowered.
And a base (5) is put between the lower horizontal member (4b) of a lift-up apparatus (4), and a temporary foundation part (11), and a lift-up apparatus (4) is mounted in a base (5).
Remove the connection between the temporary foundation (11) and the extension frame (3c), and the connection (28) between the extension frame (3b) and loosen it by raising the extension mechanism of the lift-up device (4). Remove the base (5) from the side without the side wall as shown by arrow J. In this way, the extension frame (3b) and the extension frame (3a) are removed in this order, the lift-up device (4) is removed, and the first guide tower (2a) and the second guide tower (2b) are disassembled.
In this way, the first block structure (1a), the connection portion (15), the second block structure (1b), the connection portion (16), the blade (1e) are added to the base portion (10) as shown in FIG. ) And a third block structure (1c) equipped with a generator (1d).
[0027]
The lifting mechanism of the lift-up device (4) will be described with reference to FIGS. 12 (a), (b), (c) and FIGS. 13 (d), (e), and (f).
12 (a), (b), (c) and FIGS. 13 (d), (e), and (f) are provided on the intermediate lateral member (4c) of the lift-up device (4) shown in FIG. 9 (a). It is the figure which expanded and showed the part of the engagement hole (20) of the cylinder (43) and its piston (44), engagement pin (46) (47), and the pillar (21) of a guide tower.
12 (a), 12 (b), 12 (c), 13 (d), 13 (e), and 13 (f), the guide tower column 21 has an engagement hole 20 and holes 20a and 20b. , (20c), (20d), and (20e). The interval between the holes is P.
Moreover, the cylinder (43) is provided with the supporting member (4g) in the intermediate horizontal member (4c) of the lift-up apparatus (4). An upper pin (47) is provided on the member (45) fixed to the cylinder (43). A lower pin (46) is provided on the member (48) of the piston (44) operated by the cylinder (43).
[0028]
First, as shown in FIG. 12 (a), the lower pin (46) is advanced in the K1 direction and engaged with the hole (20a) of the guide tower column (21). The upper pin (47) is retreated in the L1 direction to be released.
Next, as shown in FIG. 12B, when the piston (44) is extended in the M direction, the lift-up device (4) is raised in the A direction.
Next, as shown in FIG. 12C, the upper pin (47) is advanced in the L2 direction and engaged with the hole (20d). Thereafter, the lower pin (46) is retracted from the hole (20a) in the K2 direction to be released.
[0029]
Next, as shown in FIG. 13D, the piston (44) is contracted in the N direction. Here, the lift-up device (4) does not move.
Next, as shown in FIG. 13E, after the lower pin (46) is engaged with the hole (20b) in the K1 direction, the upper pin (47) is retracted from the hole (20d) in the L1 direction. Set to the release state.
Next, as shown in FIG. 13 (f), when the piston (44) is extended in the M direction, the lift-up device (4) rises in the A direction.
Repeat this operation, it is Rukoto by elevating lift up device (4) in inchworm intermittent operation.
[0030]
A mechanism for raising and lowering the guide tower by the lift-up device (4) will be described with reference to FIGS. 14 (a), (b), (c) and FIGS. 15 (d), (e), and (f).
14 (a) (b) (c) and FIGS. 15 (d) (e) (f) are provided on the intermediate lateral member (4c) of the lift-up device (4) in the same manner as FIGS. FIG. 4 is a detailed enlarged view of the cylinder (43) and its piston (44), the engagement pins (46) and (47), and the engagement hole (20) of the column (21) of the guide tower. ,
In the state where the lift-up device (4) shown in FIG. 5 (g) described above is placed on the table (5), the lift-up device (4) takes the scale insect in the direction of arrow D as shown in FIG. 5 (h). The mechanism which raises by a typical intermittent operation will be described.
[0031]
First, as shown in FIG. 14 (a), the lower pin (46) is advanced in the K1 direction and engaged with the hole (20r) of the guide tower column (21). The upper pin (47) is retreated in the L1 direction to be released.
Next, as shown in FIG. 14B, the piston (44) is contracted in the N direction, and the first guide tower (1a) is raised in the D direction.
Next, as shown in FIG. 14C, the upper pin (47) is advanced in the L2 direction and engaged with the hole (20t). Thereafter, the lower pin (46) is retracted from the hole (20r) in the K2 direction so as to be released.
[0032]
Next, as shown in FIG. 15D, the piston (44) is extended in the M direction. Here, the first guide tower (1a) does not move.
Next, as shown in FIG. 15E, the lower pin (46) is advanced in the K1 direction and engaged with the hole (20g), and then the upper pin (47) is retracted from the hole (20t) in the L1 direction. Set to the release state.
Next, as shown in FIG. 15F, the piston (44) is contracted in the N direction, and the first guide tower (1a) is raised in the D direction.
Such an operation is repeated, and the first guide tower (1a) is raised by the intermittent insecticidal action.
[0033]
【The invention's effect】
As described above, according to the present invention, the guide tower is assembled so as to surround the first block tower structure firmly erected on the foundation, and the support member is provided between the first block tower structure and the guide tower. Since the guide tower is stable, it is lifted on the first block tower structure by the lift-up device along the guide tower supported by the first block tower structure. In the wind, there is an effect that the tower structure can be constructed by lifting the block tower structure without stopping the work.
[Brief description of the drawings]
FIG. 1 illustrates an embodiment of the present invention. FIG. 2 illustrates an embodiment of the present invention. FIG. 3 illustrates an embodiment of the present invention. FIG. 4 illustrates an embodiment of the present invention. FIG. 5 illustrates an embodiment of the present invention. FIG. 6 illustrates an embodiment of the present invention. FIG. 7 illustrates an embodiment of the present invention. FIG. 8 illustrates an embodiment of the present invention. FIG. 9 is a diagram illustrating an embodiment of the present invention. FIG. 10 is a diagram illustrating an embodiment of the present invention. FIG. 11 is a diagram illustrating an embodiment of the present invention. FIG. 13 illustrates the operation of the lift-up device according to the embodiment of the present invention. FIG. 14 illustrates the operation of the lift-up device according to the embodiment of the present invention. Diagram for explaining the operation of the lift-up device of the embodiment [Explanation of symbols]
1a first block tower structure 1b second block tower structure 1c third block tower structure 1d generator 1e blade 2a first guide tower 2b second guide towers 3a, 3b, 3c additional frame 4 lift-up device 5 units 6 support members 8, 8a

Claims (4)

In a method for constructing a tower structure by connecting a plurality of blocked tower structures,
A step of erecting the first block tower structure on the foundation,
Assembling the guide tower so as to surround the first block tower structure, and providing a support member between the first block tower structure and the guide tower, so as to surround the first block tower structure The assembled guide tower is composed of a first guide tower provided on the lower side and substantially the same height as the first block tower structure, and a second guide tower provided on the upper side, and a second guide provided on the upper side. The tower has an open surface to move the lifted block structure laterally and carry it in,
A step of attaching a lift-up device having a telescopic mechanism and a block tower structure and a lateral movement mechanism to the guide tower,
The horizontal movement mechanism of the lift-up device holds the block tower structure and lifts it along the guide tower by the intermittent intermittent operation of the telescopic mechanism. The lifted block tower structure is laterally moved by the horizontal movement mechanism. Connecting to the first block tower structure,
A method for constructing a tower-like structure by connecting a plurality of blocked tower-like structures. In a method for constructing a tower structure by connecting a plurality of blocked tower structures,
A step of erecting the first block tower structure on the foundation,
Assembling the guide tower so as to surround the first block tower structure, and providing a support member between the first block tower structure and the guide tower, so as to surround the first block tower structure The assembled guide tower is composed of a first guide tower provided on the lower side and substantially the same height as the first block tower structure, and a second guide tower provided on the upper side, and a second guide provided on the upper side. The tower has an open surface to move the lifted block structure laterally and carry it in,
A step of attaching a lift-up device having a telescopic mechanism and a block tower structure and a lateral movement mechanism to the guide tower,
The second block tower structure is held in the lateral movement mechanism of the lift-up device, lifted along the guide tower by the intermittent insecticidal operation of the telescopic mechanism, and the lifted second block tower structure is moved laterally. Moving laterally by the mechanism and connecting on the first block tower structure;
The lift-up device is placed on a temporary base so as to surround the guide tower and fixed on a table having an open surface, and the guide tower is lifted by the intermittent intermittent operation of the telescopic mechanism;
Inserting and attaching an additional frame from the open surface of the platform under the raised guide tower;
A third block tower structure lifted by holding the third block tower structure on the lift-up device and lifting it by intermittent intermittent operation of the telescopic mechanism along the guide tower which is raised by attaching the extension frame. Moving the object laterally by a lateral movement mechanism and connecting the object onto the second block tower structure;
A method for constructing a tower-like structure by connecting a plurality of blocked tower-like structures. Tower body structure is blocked becomes the top of the tower body structure is, in claim 1 or 2, characterized in that to construct a tower for wind power generation which is provided with a blade and a generator A method of constructing a tower-like structure by connecting a plurality of the blocked tower structures described above. It is configured to surround the guide tower with the upper horizontal member, the lower horizontal member and the vertical horizontal member provided with the overhanging portion, provided with a roller in contact with the pillar of the guide tower, and provided with a carriage that moves in the horizontal direction on the upper horizontal member, And a lift mechanism that includes a cylinder, a piston, a cylinder-side engagement pin, and a piston-side engagement pin, and lifts up the engagement pin. Engagement holes provided in the pillars of the guide tower of the telescopic mechanism in a state where it is lifted and lowered along the guide tower by intermittent insecticidal action with repeated engagement and disengagement, and placed on a stand provided on the temporary foundation The lift used for carrying out the method for constructing a tower-like structure according to any one of claims 1 to 3 , wherein the guide tower is lifted by intermittent intermittent operation by repeatedly engaging and releasing the engaging pin. up Location.

Images