KR102342016B1 - Connecting structure, slip form structure including the same and gantry house including the slip form structure - Google Patents

Abstract

Disclosed is a connection structure, the connection structure comprising: a base plate provided on an upper side of the yoke leg corresponding to one suspension bar and the other suspension bar corresponding to the pair of suspension bars; one side connection plate disposed on the upper surface of one side of the base plate to which the one side suspension bar is connected; and a second connection plate disposed on the upper surface of the other side portion to which the other side suspension bar is connected in the base plate, wherein an intermediate hole is formed in the one side portion, and in a first direction among the surface directions of the base plate. Holes in the first direction are formed on both sides of the intermediate hole at intervals, and in the one side connection plate, a long hole is formed at a distance from a fixing part to which the lower end of the one suspension bar is fixed, and the long hole is away from the fixing part It is a slot-shaped hole extending long along the direction, and the extension length of the long hole is, when the one side connection plate is overlapped on the one side so that the extension length direction of the long hole faces the first direction, the long hole It may be set to an extended length in which any one of the pair of first direction holes and the intermediate hole can be simultaneously included in the region of .

Description

CONNECTING STRUCTURE, SLIP FORM STRUCTURE INCLUDING THE SAME AND GANTRY HOUSE INCLUDING THE SLIP FORM STRUCTURE}

The present application relates to a connection structure, a slipform structure comprising the same, and a fabrication shop structure comprising the slipform structure.

Referring to Figure 1, the slipform structure for manufacturing the harbor caisson is a truss upper chord, lower chord, inclined member, inter-truss spacer, X-bracing, yoke beam (2), yoke beam (2). It may include a yoke leg (4) connected by a suspension bar (Suspension Bar) (3) and the like.

The yoke leg 4 is a structure supporting the shutter for the caisson wall, and is fixedly mounted on the truss top chord or the yoke beam 2 by the suspension bar 3 . In this regard, in the related art, referring to FIG. 2 , a plate 8 having two holes formed at the upper end of the yoke leg 4 is provided, and the suspension bar 3 may be connected to the plate 8 .

At this time, as described above, since the slip-form structure is a composite consisting of many members such as truss upper chord, lower chord, and inclined material as well as inter-truss spacer, X-bracing, etc., as shown in FIGS. 3a to 3c, the yoke When the legs 4 are installed, inevitably, the suspension bar may interfere with peripheral members such as truss top chords and yoke beams. Accordingly, in the field, in order to change the position of the yoke leg, disassembly and assembly were repeated, or an arbitrary structural change was made, such as arbitrarily drilling a hole or adding a member to the connection plate 8 at the top of the yoke leg by an operator. Accordingly, there was an aspect that the safety of the slip-form system was impaired.

The technology that is the background of the present application is disclosed in Korean Patent Publication No. 10-1854765.

The present application is intended to solve the problems of the prior art described above, and includes a connection structure that can solve the interference problem that occurs frequently in the field during assembly and installation of the slip-form structure, the slip-form structure including the same, and the slip-form structure The purpose is to provide a manufacturing plant structure that

However, the technical problems to be achieved by the embodiment of the present application are not limited to the technical problems as described above, and other technical problems may exist.

As a technical means for achieving the above technical problem, the connection structure according to an aspect of the present application includes: a base plate provided on the upper side of the yoke leg corresponding to one suspension bar and the other suspension bar corresponding to a pair of suspension bars; one side connection plate disposed on the upper surface of one side of the base plate to which the one side suspension bar is connected; and a second connection plate disposed on the upper surface of the other side portion to which the other side suspension bar is connected in the base plate, wherein an intermediate hole is formed in the one side portion, and in a first direction among the surface directions of the base plate. Holes in the first direction are formed on both sides of the intermediate hole at intervals, and in the one side connection plate, a long hole is formed at a distance from a fixing part to which the lower end of the one suspension bar is fixed, and the long hole is away from the fixing part It is a slot-shaped hole extending long along the direction, and the extension length of the long hole is, when the one side connection plate is overlapped on the one side so that the extension length direction of the long hole faces the first direction, the long hole It may be set to an extended length in which any one of the pair of first direction holes and the intermediate hole can be simultaneously included in the region of .

Slip-form structure according to an aspect of the present application, the connection structure according to an aspect of the present application described above; said yoke leg; and a pair of suspension bars connected to the yoke leg by the connection structure.

The manufacturing plant structure according to one aspect of the present application may include the slipform structure according to the one aspect of the present application described above.

The above-described problem solving means are merely exemplary, and should not be construed as limiting the present application. In addition to the exemplary embodiments described above, additional embodiments may exist in the drawings and detailed description.

According to the above-described problem solving means of the present application, the position of the one side connection plate can be relatively changed with respect to the base plate. Accordingly, when member interference and construction/manufacturing errors occur during the assembly of the slip-form structure, the position of the one-side connection plate does not need to be reassembled (remanufactured) on site or high-altitude work to rearrange the suspension bar accessories is required. By changing , the position of the fixing part of the one side connection plate connected to the lower end of the suspension bar is easily changed, so that the connection of the suspension bar and the fixing part can be made.

1 is a schematic perspective view of a part of a slip-form structure for explaining the slip-form structure.
Figure 2 is a schematic perspective view for explaining a method of connecting a conventional suspension bar and yoke leg.
3A to 3C are schematic conceptual views for explaining the interference between the suspension bar and other members occurring according to the conventional method of connecting the suspension bar and the yoke leg.
4 is a schematic perspective view showing that the suspension bar and the yoke leg are connected by the connection structure according to an embodiment of the present application for explaining the connection structure according to an embodiment of the present application.
5 is a schematic plan view of a base plate of a connection structure according to an embodiment of the present application.
6 is a schematic plan view of one side connection plate of the connection structure according to an embodiment of the present application.
7 is a schematic plan view of a connection structure according to an embodiment of the present application.
8 is a schematic plan view for explaining the rotation of the pin unit of the one side connection plate of the connection structure as a rotation axis according to an embodiment of the present application.
9 is a schematic plan view of a connection structure according to an embodiment of the present application, in which one connection plate and the other connection plate are respectively disposed at a position different from that of FIG. 7 with respect to the base plate.
10 is a schematic perspective view of a fabrication shop structure according to an embodiment of the present application.

Hereinafter, embodiments of the present application will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement them. However, the present application may be implemented in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present application in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout this specification, when a part is "connected" with another part, it is not only "directly connected" but also "indirectly connected" or "electrically connected" with another element interposed therebetween. "Including cases where

Throughout this specification, when a member is positioned “on”, “on”, “on”, “on”, “under”, “under”, or “under” another member, this means that a member is positioned on the other member. It includes not only the case where they are in contact, but also the case where another member exists between two members.

Throughout this specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

In addition, terms (upper, upper, upper, lower, lower, lower, etc.) related to the direction or position in the description of the embodiment of the present application are set based on the arrangement state of each component shown in the drawings. For example, when looking at FIG. 4 , the overall 12 o'clock direction is the upper side, the overall 12 o'clock direction is the upper part, the overall 12 o'clock direction is the upper end, the 6 o'clock direction is the lower side, generally The portion facing the 6 o'clock direction may be the lower portion, and the end portion generally facing the 6 o'clock direction may be the lower end.

The present application relates to a connection structure, a slip-form structure including the same, and a fabrication shop structure including the slip-form structure.

First, a connection structure (hereinafter referred to as 'this connection structure') 1 according to an embodiment of the present application will be described.

Referring to FIG. 1 , this connection structure 1 is a yoke beam 2 and a yoke leg 4 connected to the yoke beam 2 by a suspension bar 3 . ) is a connecting structure for connecting a pair of suspension bars 3 to the yoke leg 4 in the slip-form structure 91 including the.

The yoke leg (4) is connected to the wall steel formwork (shutter) to resist the frictional force with the concrete surface due to the concrete lateral pressure and the rise of the slip form, and is an important structure that stably forms a concrete wall. It may be mounted on a truss top chord or a yoke beam 2 by a suspension bar 3 . At this time, the suspension bar 3 may interfere with other members, and in order to avoid such interference, the position of the suspension bar needs to be changed. To this end, the present connection structure 1 may facilitate rotation or position change of the connected portion of the suspension bar 3 .

4 and 5 , the connection structure 1 corresponds to one suspension bar 3a corresponding to a pair of suspension bars 3 and the other suspension bar 3b to the upper side of the yoke leg 4 . It includes a base plate 11 provided in the. For example, the base plate 11 may be connected to one side connection plate 12a and one side suspension bar 3a to be described later located on the one side portion 11a thereof, and located on the other side portion 11b thereof. The other side connection plate 12b and the other side suspension bar 3b, which will be described later, may be arranged to extend in one side and the other side so that they can be connected.

Referring to FIG. 5 , an intermediate hole 111 may be formed in one side 11a of the base plate 11 . In addition, the first direction holes 112 are formed at intervals on both sides of the intermediate hole 111 along the first direction among the plane directions of the base plate 11 . For reference, the first direction may be one of the plane directions of the base plate 11, and in the drawings of the present application, one side and the other side of the base plate 11 among the plane directions of the base plate 11 are set as the first direction. Thus, the first direction hole 112 is shown.

In addition, referring to FIGS. 4 and 6 , the present connection structure 1 has one side connection plate 12a disposed on the upper surface of one side portion 11a to which one side suspension bar 3a is connected in the base plate 11 . includes

Also, referring to FIG. 6 , a long hole 122 is formed in the one side connection plate 12a at a distance from the fixing part 121 to which the lower end of the one side suspension bar 3a is fixed. The long hole 122 is a slot-shaped hole extending long in a direction away from the fixing part 121 . In addition, the lower end of the one-side suspension bar 3a may be fixed to the fixing part 121 in various ways such as welding or screwing.

6 and 7, the extended length of the long hole 122 is when the one side connection plate 12a is overlapped on the one side part 11a so that the extended length direction of the long hole 122 faces the first direction , in the region of the long hole 122, any one of the pair of first direction holes 112 and the middle hole 111 is set to an extended length that can be included at the same time. Accordingly, the pin unit 13 to be described later passes through the long hole 122 of the one side connection plate 12a, and any one of the middle hole 111 of the base plate 11 and the pair of first direction holes 112 . When installed to pass through one hole, the fixing unit 14 to be described later passes through the long hole 122 of the one side connection plate 12a, the middle hole 111 of the base plate 11 and the pair of first It may be fastened to the other one of the direction holes 112 .

Also, referring to FIG. 5 , the second direction holes 113 may be formed in the base plate 11 at intervals on both sides of the intermediate hole 111 in the second direction intersecting the first direction. For reference, although the second direction is illustrated as being orthogonal to the first direction in FIG. 5 , the second direction is not limited thereto, and various directions crossing the first direction may be set as the second direction.

In addition, the extension length of the long hole 122 is the area of the long hole 122 when the one side connection plate 12a is overlapped on the one side part 11a so that the extension length direction of the long hole 122 faces the first direction. Inside, any one of the pair of second direction holes 113 and the intermediate hole 111 may be set to an extended length that can be included at the same time. Accordingly, the pin unit 13 to be described later passes through the long hole 122 of the one side connection plate 12a, the middle hole 111 of the base plate 11, the pair of first direction holes 112 and one When installed to pass through any one of the pair of second direction holes 113 , the fixing unit 14 to be described later passes through the long hole 122 of the one side connection plate 12a and the base plate 11 . It may be fastened to the other one of the middle hole 111 , the pair of first direction holes 112 , and the pair of second direction holes 113 .

In addition, a distance from each of the pair of first direction holes 112 and the intermediate hole 111 of each of the pair of second direction holes 113 may correspond to (equal to) each other.

For reference, in FIG. 5 , a total of four first direction holes 112 and second direction holes 113 are formed at intervals of 90° in a clockwise direction.

In addition, referring to FIGS. 7 and 8 , the connection structure 1 passes through the long hole 122 of the one side connection plate 12a, and the middle hole 111 of the base plate 11, a pair of first It may include a pin unit 13 installed to pass through any one of the direction hole 112 and the pair of second direction holes 113 . For example, it is shown that the pin unit 13 is installed in the middle hole 111 through the long hole 122 in FIGS. 7 to 9 .

Also, referring to FIG. 8 , the pin unit 13 may be installed such that one side connection plate 12a is rotatable with the pin unit 13 as a rotation axis. That is, the pin unit 13 connects the one side connection plate 12a and the base plate 11 so that the one side connection plate 12a is relatively rotatable with respect to the base plate 11 with the pin unit 13 as an axis. can Accordingly, referring to FIG. 8 , the one side connection plate 12a is rotated relative to the base plate 11 and may be disposed at various angles.

In addition, referring to FIG. 8 , the pin unit 13 is movable along the long hole 122 . In other words, the one side connection plate 12a may rotate around the pin unit 13 , and may be moved in the longitudinal direction (long axis direction) of the long hole 122 . Accordingly, according to the present connection structure 1, rotation and position change of the one side connection plate 12a with respect to the base plate 11 can be easily made.

In addition, referring to FIG. 7 , this connection structure 1 passes through the long hole 122 of the one side connection plate 12a, the middle hole 111 of the base plate 11, and a pair of first direction holes ( 112) and a fixing unit 14 that is fastened to the other one of the pair of second direction holes 113 and is provided to fix the one connection plate 12a to the base plate 11. . The fixing unit 14 may fix the one side connection plate 12a to the base plate 11 so that the position or arrangement state of the one side connection plate 12a with respect to the base plate 11 is fixed. That is, the fixing unit 14 may constrain the positional movement or rotation of the one side connection plate 12a. For example, the fixing unit 13 may be screwed to one side of the connection plate 12a or the base plate 11 . For example, a thread is formed on the inner surface of the intermediate hole 111, the pair of first direction holes 112, and the pair of second direction holes 113 of the base plate 11, and the fixing unit 13 is It could be a bolt. In addition, the fixing unit 130 and the base plate 11 or the one side connection plate 12a may be fastened through fastening using bolts/nuts.

In addition, the other hole to which the fixing unit 14 is fastened is the pin unit 13 passing through the long hole 122 when viewed by rotating the one side connection plate 12a as a rotation axis, passing through the long hole 122 It may be any one of the holes that may be included in the area of the long hole 122 together with the pin unit 13 passing through the long hole 122 together with the pin unit 13 .

For example, in FIG. 7 , the fixing unit 13 passes through the long hole 122 and is fastened to a hole located on the other side of the pair of first direction holes 112 , and in FIG. 9 , the fixing unit 13 is shown. It is shown that it passes through the long hole 122 and is fastened to a hole located on one side of the pair of first direction holes 112 .

In addition, the other hole to which the fixing unit 14 is fastened may be selected in consideration of preventing interference of the one-side suspension bar 3a with respect to a member of the manufacturing site in which the slip-form structure 91 is installed.

In addition, when the pin unit 13 is installed with respect to the intermediate hole 111 , the fixing unit 14 is disposed with respect to any one of the pair of first direction holes 112 and the pair of second direction holes 113 . Fastening is possible, and when the pin unit 13 is installed with respect to any one of the pair of first directional holes 112 and the pair of second directional holes 113 , the fixing unit 14 has an intermediate hole 111 . can be concluded for

According to the above bar, when comparing FIGS. 7 and 9, the position of the fixing part 121 is the position of the hole in which the pin unit 13 is disposed, and the one side connection plate 12a having the installed pin unit 13 as an axis. Through the rotation of the one side connection plate 12a, the position movement in the longitudinal direction (long axis direction) of the long hole 122, etc., it may be variable.

Specifically, the fixing part 121 includes a pin unit 13 passing through the long hole of the one side connection plate 12a, a middle hole 111 of the base plate 11, a pair of first direction holes 112 and The position of the installed hole among the pair of second direction holes 113, the rotation of the one-side connection plate 12a with the pin unit 13 as an axis, or the longitudinal direction of the long hole 122 of the one-side connection plate 12a (long axis) direction), the position can be adjusted by moving the position.

In addition, when the arrangement of the one side connection plate 12a (disposition of the fixing part 121) is completed, the one side connection plate 12a is fastened to the other hole by passing the fixing unit 14 through the long hole 122. Thereby, the arrangement state can be fixed.

Accordingly, the fixing part 121 may be easily moved without any structural change of the present connection structure, and may be connected to the extended one-side suspension bar 3a so as not to interfere with the members of the manufacturing plant structure.

Specifically, the one-side suspension bar (3a) should be extended so as not to prevent interference with the members of the production site structure, and the fixing unit 121 is fastened with the lower end of the one-side suspension bar (3a), the production site structure It needs to be positioned corresponding to the position of the lower end of the extended one-side suspension bar 3a so as not to prevent interference with the member. According to the present connection structure 1, as described above, the installation position of the pin unit 13, the rotation of the one side connection plate 12a about the pin unit 13 as an axis, the long hole of the one side connection plate 12a ( Since the position of the fixing part 121 may be variable by at least one of positional movement in the longitudinal direction (long-axis direction) of the 122), the fixing part 121 is a one-sided suspension bar disposed so as not to interfere with the members of the construction site. (3a) may be disposed in a position that can be fastened with the lower end.

In summary, according to the present connection structure 1 , the one side connection plate 12a is rotatable based on the pin unit 13 . In addition, the one side connection plate 12a may move in the first direction or the second direction through the long hole 122 . For example, referring to FIG. 7 , when the one-side connection plate 12a is disposed such that the longitudinal direction (axial direction) of the long hole 122 is the first direction, the one-side connection plate 12a has the long hole 122 . may move in the first direction. In addition, when the one-side connection plate 12a is disposed such that the longitudinal direction of the long hole 122 becomes the second direction, the one-side connection plate 12a may move along the second direction through the long hole 122 . In this way, the one side connection plate 12a may move to one side in the longitudinal direction of the long hole 122 or the other side in the longitudinal direction of the long hole 122 .

As such, the suspension bar 13a installed in the fixing part 121 may rotate based on the pin unit 13 , and the rotation radius may also be adjusted through the long hole 122 .

In addition, the pin unit 13 and the fixing unit 14 may be disposed in the long hole 122 , and the one side connection plate 12a is formed as described above along the longitudinal direction (extension direction) of the long hole 122 . As it moves in the first direction or the second direction, the fixing unit 14 passes through the long hole 122, and a pair of first direction holes 112 and a pair of second direction holes ( 113) can be installed in one of the

For reference, referring to FIG. 4 , the suspension bar 13a is fixedly installed (via screw coupling (screw wire), etc.) to the fixing part 121 of the one side connection plate 12a, but does not penetrate the base plate 11 it may not be However, the form in which the suspension bar 13a is fixedly installed to the fixing part 121 is not limited thereto, and the suspension bar 13a is fixed through various fixing methods known or to be developed in the future that can be applied in the art. It may be fixedly installed in the government 121 .

In addition, referring to FIGS. 4, 7 and 8 , the connection structure 1 is the other side connection plate disposed on the upper surface of the other side part 11b to which the other side suspension bar 3b is connected in the base plate 11 . (12b). The other connection plate 12b is a configuration corresponding to the one connection plate 12a, and the other side part 11b of the base plate 11 is a configuration corresponding to the one side part 11a of the base plate 11, and the other connection plate (12b) shares the same or corresponding technical features and configuration with the one side connection plate (12a), the other side (11b) of the base plate (11) is the same as or corresponding to the one side (11a) of the base plate (11) can share technical features and configurations. Accordingly, detailed descriptions of the other side connection plate 12b and the other side portion 11b of the base plate 11 will be omitted.

Conventionally, when member interference and construction/manufacturing errors occur during the assembly of slip-form structures, the yoke leg 4 and the formwork manufactured and pre-assembled at the factory are reassembled or remanufactured (re-processed) on site, or at least on the ground. In the upper part of the truss located at a height of 2m, a high-altitude work had to be performed in which the operator rearranged the suspension bar (3) accessories to mount the yoke leg (4) to the truss top chord or the yoke beam (2).

However, according to the present connection structure, even if member interference and construction/production errors occur during assembly of the slip-form structure, the position of the connection portion 121 through which the yoke leg 4 and the suspension bar 3 are connected can be adjusted. , it is possible to minimize the problem of reassembling or remanufacturing (reprocessing) the yoke leg (4) and the formwork that were pre-assembled on site, and the high-altitude work that the operator rearranges the suspension bar (3) accessories.

According to the above-mentioned, the present institute manufactures the structural members (truss, yoke leg, yoke beam, etc.) constituting the slip-form system for manufacturing the harbor caisson, and assembles and installs it in the field workshop (Gantry House, the structure of the manufacturing site). It is about solving the construction error and interference problem in the process of installing the yoke leg (4) by hanging it on the truss upper chord or the yoke beam (2). It can be applied or utilized when manufacturing a structure.

Hereinafter, a slip-form structure (hereinafter referred to as 'this slip-form structure') 91 including the connection structure 1 according to an embodiment of the present application will be described. However, the slip-form structure 91 includes the above-described connection structure 1 and shares the same or corresponding technical characteristics and configuration as the connection structure 1 . Accordingly, descriptions overlapping with those described in the present connection structure 1 will be simplified or omitted, and the same reference numerals will be used for the same or similar components.

The present slip-form structure 91 includes the above-described present connection structure 1 .

Also, the slipform structure 91 includes yoke legs 4 .

In addition, the present slip-form structure 91 includes a pair of suspension bars 3 connected to the yoke legs 4 by the present connection structure 1 .

The slipform structure 91 also includes a yoke beam 2 .

In addition, referring to FIG. 4 , the slip-form structure 91 includes an attachment plate 5 . The attachment plate 5 is disposed to cross the yoke beam on the yoke beam 2 , and an upper fastening hole to which the upper end of each of the pair of suspension bars 3 is fastened may be formed on each of both sides thereof.

The upper end of each of the pair of suspension bars 3 may be provided with a screw thread processing so that the position can be adjusted to be fixed with respect to the upper fastening hole. In addition, a thread may be machined on the inner surface of the upper fastening hole. Accordingly, the upper end of each of the pair of suspension bars 3 can be screwed with the upper fastening hole, and accordingly, each of the pair of suspension bars 3 is rotated to facilitate the upper end of the upper fastening hole. Fixed position adjustment is possible. Accordingly, even if a height error occurs in the suspension bar 3 , the fixing position of the upper end of the suspension bar 3 with respect to the attachment plate 5 can be adjusted, so that the generated height error can be resolved.

Also, the present application provides a gantry house according to an embodiment of the present application.

The manufacturing site structure according to an embodiment of the present application may be for manufacturing a harbor caisson.

In addition, referring to FIG. 10 , the fabrication shop structure according to an embodiment of the present application includes the slip-form structure 91 described above. Since the slip-form structure 91 has been described above, a detailed description thereof will be omitted.

In addition, the manufacturing plant structure according to an embodiment of the present application may include an upper workbench (Upper Deck) (92). In addition, the fabrication shop structure according to an embodiment of the present application may include an intermediate workbench (Working Deck) 93 . In addition, the fabrication shop structure according to an embodiment of the present application may include a lower workbench (Hanging Deck). Since the upper workbench, the intermediate workbench, and the lower workbench are obvious to those skilled in the art, detailed descriptions thereof will be omitted.

The foregoing description of the present application is for illustration, and those of ordinary skill in the art to which the present application pertains will understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present application. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope of the present application is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present application.

1: Connection structure
11: base plate
111: middle hole
112: first direction hole
113: second direction hole
12a: one side connection plate
12b: the other side connection plate
121: fixed part
122: long shot
13: pin unit
14: fixed unit
2: yoke beam
3: Suspension bar
3a: one side suspension bar
3b: the other side suspension bar
4: York leg
5: Attachment plate
91: slip-form structure
92: upper workbench
93: lower workbench

Claims (8)

A connecting structure for connecting a pair of suspension bars to the yoke leg in a slip-form structure including a yoke beam and a yoke leg connected to the yoke beam by a suspension bar,
a base plate provided above the yoke leg corresponding to one suspension bar and the other suspension bar corresponding to the pair of suspension bars;
one side connection plate disposed on the upper surface of one side of the base plate to which the one side suspension bar is connected; and
In the base plate, including a second connection plate disposed on the upper surface of the other side portion to which the other suspension bar is connected,
An intermediate hole is formed in the one side portion, and a first direction hole is formed at intervals on both sides of the intermediate hole along a first direction among the plane directions of the base plate,
A long hole is formed in the one side connection plate at an interval from the fixing part to which the lower end of the one side suspension bar is fixed,
The long hole is a slot-shaped hole extending long in a direction away from the fixing part,
The extension length of the long hole is, in the region of the long hole, in the region of the long hole, when the one side connection plate is overlapped on the one side so that the extension length direction of the long hole faces the first direction, of the pair of holes in the first direction Any one and the intermediate hole will be set to an extended length that can be included at the same time, the connection structure. According to claim 1,
In the base plate, in a second direction intersecting the first direction, a hole in a second direction is formed on both sides of the intermediate hole at intervals, respectively,
The connection structure is
a pin unit installed to pass through the long hole of the one side connection plate and pass through any one of the middle hole, a pair of first direction holes, and a pair of second direction holes of the base plate; and
Passing through the long hole of the one side connection plate and fastened to the other one of the middle hole, the pair of first direction holes, and the pair of second direction holes of the base plate, the one side connection plate is connected to the base The connecting structure further comprising a fixing unit provided for fixing with respect to the plate. 3. The method of claim 2,
The pin unit is installed so that the one side connection plate is rotatable with the rotation axis,
The other hole to which the fixing unit is fastened is in the area of the long hole together with the pin unit passing through the long hole when the one side connection plate is rotated with the pin unit passing through the long hole as a rotation axis. Any one of the holes that can be included, the connection structure. 4. The method of claim 3,
The other hole to which the fixing unit is fastened is selected in consideration of the prevention of interference of the one side suspension bar with respect to a member of the manufacturing site in which the slip-form structure is installed. 4. The method of claim 3,
When the pin unit is installed with respect to the intermediate hole, the fixing unit can be fastened with respect to any one of the pair of first direction holes and the pair of second direction holes,
When the pin unit is installed with respect to any one of the pair of first directional holes and the pair of second directional holes, the fixing unit may be fastened to the middle hole, the connection structure. In the slipform structure,
The connection structure according to claim 1 ;
the yoke leg; and
and a pair of suspension bars connected to the yoke leg by the connection structure. 7. The method of claim 6,
the yoke beam; and
Further comprising an attachment plate disposed on the yoke beam to cross the yoke beam, and having an upper fastening hole formed on each of both sides thereof to which an upper end of each of the pair of suspension bars is fastened,
The upper end of each of the pair of suspension bars, the slip-form structure is provided by processing a thread to enable adjustment of the position fixed with respect to the upper fastening hole. In the manufacturing plant structure (gantry house) for manufacturing the harbor caisson,
A factory structure comprising the slipform structure according to claim 6 .

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