KR102584192B1 - Temporary support structure and method for constructing metal plate / concrete composite structure - Google Patents

Abstract

The present invention provides a structure in which, when constructing a metal plate/concrete composite structure with a relatively complex structure, the temporary support column can easily support the contact surface of the inner part of the metal plate combination at a right angle through the horizontal member for supporting the metal plate. This relates to a temporary support with a temporary support and a construction method using the same. The posture and length of the support column are set in a field-customized manner and the posture of the support column is easily fixed with a wire so that the support column of the temporary support has a right angle to the contact surface of the inner part of the metal plate combination. so that it can be easily supported.

Description

Temporary support and construction method of metal plate/concrete composite structure using the same {TEMPORARY SUPPORT STRUCTURE AND METHOD FOR CONSTRUCTING METAL PLATE / CONCRETE COMPOSITE STRUCTURE}

The present invention relates to a temporary support and a method of constructing a metal plate/concrete composite structure using the same. Specifically, a temporary support used to construct a relatively complex structure such as an arch-shaped metal plate/concrete composite structure and the same. It is about the construction method used.

Arch-shaped structures with a convex shape toward the top, such as hangars and military concrete buildings, are known.

One of the construction methods for such a structure includes installing temporary supports; Installing a metal plate combination type inner part formed by connecting metal plates extending in the longitudinal direction to each other in the width direction of the metal plates on the upper part of the temporary support; Placing a rebar reinforcement on an upper part of the metal plate combined inner part and installing an external form covering the rebar reinforcement; pouring concrete between the metal plate combined inner part and the external form; Dismantling the external form and the temporary support after the poured concrete is cured; A method including is known.

Figure 16 is a photograph of the temporary support 100 installed according to the conventional technology, and Figure 17 is a photograph of the metal plate combined inner portion 200 supported by the temporary support according to the conventional technology. Figure 18 shows that after the concrete 400 is cured according to the conventional technology, the external form and the temporary support 100 are dismantled, resulting in a metal plate/concrete composite structure consisting of the concrete 400 and the metal plate combined inner portion 200. This is a photo of the completed construction.

As a prior art regarding such a construction method, Registration Patent No. 10-1189620, “Reinforced Concrete Steel Composite Corrugated Steel Plate Structure” (registered on October 4, 2012) has been proposed.

In this prior art, the temporary support supports the inner part of the metal plate combination, and must also be able to support the weight of the steel reinforcement part and external form to be constructed later, and the weight of the poured concrete.

In order for the temporary support to support the inner part of the metal plate combination type and support this weight, it is preferable that the temporary support supports the inner surface of the metal plate combination type while maintaining a right angle to the contact surface of the inner surface of the metal plate combination type.

However, in most cases, the inner surface of the metal plate combination type is not in the shape of a perfect arc, and its structure is different depending on the site, so it is not easy for the temporary support to support the contact surface of the metal plate combination type inner surface at a right angle.

Registered Patent No. 10-1189620 “Reinforced concrete steel composite corrugated steel plate structure” (registered on October 4, 2012)

The present invention was developed to solve the problems of the prior art as described above. When constructing a metal plate/concrete composite structure with a relatively complex structure, the temporary support pillars connect the metal plates through horizontal members for supporting the metal plates. The purpose is to provide a temporary support having a structure that can easily support the contact surface of the inner part of the mold at a right angle and a construction method using the same.

In order to solve the above problem, the present invention provides a temporary support for constructing a metal plate combined inner part formed by connecting metal plates extending in the longitudinal direction to each other in the width direction of the metal plates, including: a structure for a temporary support and ; It is in the form of a pillar whose length is adjustable, the lower end of which is rotatably coupled to the upper part of the temporary support structure, and a plurality of pillars are arranged in the left and right directions with respect to the temporary support structure to form a set of pillars for the left and right directions, and the pillars for the left and right directions a plurality of sets of supporting pillars arranged in the front and rear directions of the temporary support structure; A plurality of horizontal members for supporting metal plates coupled to the upper end of the supporting column and extending in the front and rear direction of the temporary support structure to support the lower surface of the metal plate combined inner portion; a wire arranged to penetrate a plurality of pillars forming the pillar set for the left and right directions; A wire attachment/detachment coupler provided at the support pillar and detachably coupled to the wire; It is characterized by including.

In the above: the wire attachment/detachment coupler is fixed to the support pillar, has a through hole formed inside for penetration of the wire, and has a male thread formed on the outside, and has an elastic deformation by an external force and an elastic restoration by releasing the external force. a side pressing tool including a plurality of pressing pieces provided on one side of the male screw portion to press and release the wire; A female thread portion formed with a female thread screwed to the male thread of the male thread portion, and formed on one side of the female thread portion, advance or retreat toward the compression piece according to the screw connection of the female thread portion and the male thread portion, thereby elastically deforming the compression piece. A rotating coupler including a pressing part that can elastically restore the pressing piece or press the pressing piece; may include.

In the above: the wire attachment/detachment coupler is fixed to the support pillar, has a through hole formed inside for penetration of the wire, and has a male thread formed on the outside, and has an elastic deformation by an external force and an elastic restoration by releasing the external force. a side pressing tool including a plurality of pressing pieces provided on one side of the male screw portion to press and release the wire; A female thread portion formed with a female thread screwed to the male thread of the male thread portion, and formed on one side of the female thread portion, advance or retreat toward the compression piece according to the screw connection of the female thread portion and the male thread portion, thereby elastically deforming the compression piece. a rotary coupler including a pressing piece pressing part capable of elastically restoring the pressing piece, and a pinion gear formed along the outer peripheral surface of the female thread part; a linear moving body formed with a rack gear portion coupled to a pinion gear portion of the rotary coupler and a rack and pinion; a one-touch operation unit that linearly moves the linear moving object between a first position and a second position by operating a lever; may include.

According to another aspect of the present invention, a method of constructing a metal plate/concrete composite structure includes the steps of installing the temporary support; Installing a metal plate combined inner portion formed by connecting a plurality of metal plates extending in the longitudinal direction to each other in the width direction of the metal plates on the upper part of the temporary support; Placing a rebar reinforcement on an upper part of the metal plate combined inner part and installing an external form covering the rebar reinforcement; pouring concrete between the metal plate combined inner part and the external form; It is characterized by including.

In the above, the step of dismantling the external form and the temporary support may be further included after the poured concrete is cured.

As described above, in the present invention, when constructing a metal plate/concrete composite structure of a relatively complex structure, the temporary support column can easily support the contact surface of the metal plate combined inner portion at a right angle by mediating the horizontal member for supporting the metal plate. You can.

In particular, the present invention sets the posture and length of the support column in a field-customized manner and easily fixes the posture of the support column with a wire, so that the support column of the temporary support can easily support the contact surface of the metal plate combined inner part at a right angle.

1 is a front view of a temporary support stand according to the first embodiment of the present invention;
Figure 2 is a conceptual perspective view of Figure 1;
Figure 3 is a cross-sectional view of the AA standard of Figure 1;
Figure 4 is a cross-sectional view based on the BB of Figure 3;
Figure 5 is a perspective view of the pillar and wire of Figure 4;
Figure 6 is an exploded perspective view of Figure 5;
Figure 7 is a cross-sectional conceptual diagram showing a state in which a wire attachment/detachment coupler is coupled to or uncoupled from a wire;
Figure 8 is a conceptual perspective view of a state in which a metal plate combined inner part is constructed on the temporary support of Figure 1;
Figure 9 is a conceptual cross-sectional view of the state in which concrete is poured between the inner part of the metal plate combined type and the external form after Figure 8;
Figure 10 is a conceptual cross-sectional view with the external form and temporary supports dismantled after Figure 9;
Figure 11 is a perspective view of the support pillar and wire of the second embodiment according to the present invention;
Figure 12 is an exploded perspective view of Figure 11;
Figures 13 to 15 are views for explaining the state in which the wire attachment/detachment coupler is coupled to or uncoupled from the wire in Figure 11;
Figure 16 is a photograph of a temporary support using conventional technology;
Figure 17 is a photograph of a state in which a metal plate combined inner part supported by a temporary support is installed according to a conventional technique;
Figure 18 is an example photo of a metal plate/concrete composite structure.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

Throughout the specification, when a part is said to “include” a certain element, this means that it may further include other elements rather than excluding other elements, unless specifically stated to the contrary.

First, the temporary support 100 according to the first embodiment of the present invention will be described.

Figure 1 is a front view of a temporary support, which is the first embodiment according to the present invention, Figure 2 is a conceptual perspective view of Figure 1, Figure 3 is a conceptual cross-sectional view based on A-A of Figure 1, and Figure 4 is a conceptual cross-sectional view based on B-B of Figure 3. , FIG. 5 is a perspective view of the support pillar and wire of FIG. 4, FIG. 6 is an exploded perspective view of FIG. 5, and FIG. 7 is a cross-sectional conceptual diagram showing a state in which the wire attachment/detachment coupler is coupled to or uncoupled from the wire.

The temporary support stand 100 of the present invention includes a temporary support structure 110, a plurality of support pillars 120, a plurality of wires 140, and a horizontal member 150 for supporting a metal plate.

The temporary support structure 110 forms the framework of the temporary support 100, and the form presented in this embodiment is only an example.

In this embodiment, the temporary support structure 110 includes a plurality of arch-shaped frames 111 extending in the left and right directions of the temporary support structure 110, supported in the vertical direction by a vertical support frame 112. , the plurality of arched frames 111 and the vertical support frames 112 are arranged at intervals from each other in the front and rear directions of the temporary support structure 110, and the plurality of vertical support frames 112 are connected by the horizontal connection frame 113. It is a structure that is connected to each other.

This temporary support structure 110 can be implemented in many different forms, and various technologies have already been known in the past.

A plurality of support pillars 120 are coupled to the upper part of the temporary support structure 110.

The support pillar 120 is in the form of a pillar whose length is adjustable, and its lower end is rotatably coupled to the upper part of the temporary support structure 110.

In this embodiment, the round pillar 120 includes a lower pillar 121, an intermediate fine length adjuster 122, and an upper pillar 123.

The lower pillar 121 is in the form of a pipe, and its lower end is rotatably coupled to a rotating support piece 111a provided on the upper part of the arched frame 111, and a male screw 121b for length adjustment is formed on the outer peripheral surface of the upper end.

The lower end of the lower pillar 121 is rotatably coupled to the rotation support piece 111a by the rotation support pin 121a.

The intermediate fine length adjuster 122 is formed on its inner peripheral surface with a female screw 122a for length adjustment that is screwed to the male screw 121b for length adjustment of the lower pillar 121, and has a handle 122b for length adjustment on its outer peripheral surface. It is prepared.

Therefore, when the length adjustment handle 122b of the intermediate fine length adjuster 122 is rotated, the height at which the intermediate fine length adjuster 122 protrudes from the lower pillar 121 changes.

The upper pillar 123 has a plurality of height adjustment holes 123a formed along the longitudinal direction, and the lower part is inserted into the interior of the intermediate fine length adjustment tool 122 and the interior of the lower pillar 121, and at the upper end. A horizontal material coupling port (123c) is provided.

In addition, when the height adjustment horizontal bar (123b) is inserted into any one of the plurality of height adjustment holes (123a), both ends of the height adjustment horizontal bar (123b) hang over the top of the intermediate fine length adjustment hole (122), and the upper The height at which the pillar 123 protrudes from the intermediate fine length adjustment tool 122 is changed.

That is, after first adjusting the approximate height (length) of the support pillar 120 by the height adjustment horizontal bar 123b, the support pillar ( 120), the overall height (length) can be finely adjusted.

Meanwhile, a plurality of supporting pillars 120 are arranged in the left and right directions with respect to the temporary support structure 110 to form a set of pillars for the left and right directions.

That is, a plurality of pillars 120 are arranged in one arch-shaped frame 111 to form one pillar set for the left and right directions.

In this embodiment, a plurality of arched frames 111 are arranged in the front and rear directions of the temporary support structure 110, and a set of pillars for the left and right directions is provided for each arched frame 111, so the set of pillars for the left and right directions is a temporary support. A plurality of them are arranged in the front and rear directions of the substitute structure 110.

A plurality of horizontal members 150 for supporting metal plates are coupled to the upper ends of the plurality of support pillars 120 and extend in the front and rear direction of the temporary support structure 110.

Specifically, the horizontal member 150 for supporting the metal plate is coupled to the horizontal member coupler 123c of the plurality of pillars 120 arranged in the front and rear directions of the temporary support structure 110, and the horizontal member 150 for supporting the metal plate is ) extends in the front and rear direction of the temporary support structure 110.

As the horizontal member coupling pin 151 is coupled to the hole formed in the horizontal member 123c of the support pillar 120 and the horizontal member 150 for supporting the metal plate, the horizontal member coupling port 123c of the support pillar 120 and the metal plate are connected. The horizontal member 150 for support is coupled.

The horizontal member 150 for supporting a metal plate is for supporting the lower surface of the metal plate combined inner portion 200, which will be described later.

A plurality of pillars 120 forming a pillar set for the left and right directions are connected to each other by a wire 140.

In this embodiment, four arch-shaped frames 111 are provided, and four sets of pillars for the left and right directions are provided, so four wires 140 are also provided.

The wire 140 is arranged to penetrate the plurality of pillars 120. For this purpose, a cable penetration hole is formed in each of the side pillars 120, specifically, each upper pillar 123.

In addition, each support pillar 120 is provided with a wire attachment/detachment coupler 130 that is detachably coupled to the wire 140.

That is, the support pillar 120 can be coupled to the wire 140 or the coupling can be released by the wire attachment/detachment coupler 130.

The structure of the wire attachment/detachment coupler 130 will be described.

In this embodiment, the wire attachment/detachment coupler 130 is composed of a side press member 131 and a rotary coupler 132.

The side pressing tool 131 includes a male thread portion 131a and a plurality of pressing pieces 131b.

The male thread portion 131a is fixed to the support pillar 120, has a through hole formed inside for penetration of the wire 140, and has a male thread formed on the outside.

The compression piece 131b is used to compress and release the wire 140 by elastic deformation by external force and elastic restoration by releasing the external force, and is provided on one side of the male thread portion 131a.

The rotary coupler 132 consists of a female thread portion 132a, a pressing piece pressing portion 132b, and a rotary handle 132c.

The female thread portion 132a is formed with a female thread screwed to the male thread of the male thread portion 131a.

The compression piece pressing portion 132b is formed on one side of the female thread portion 132a, and advances or retreats toward the compression piece 131b according to the screw connection of the female thread portion 132a and the male thread portion 131a to produce a compression piece ( 131b) can be elastically deformed or the pressed piece 131b can be elastically restored.

The rotation handle 132c is for rotating the rotary coupler 132.

A method of constructing a metal plate/concrete composite structure using the temporary support 100 described above will be described.

The temporary support 100 is first installed in the area where the structure is to be installed.

At this time, the wire 140 penetrating the supporting pillar 120 of the temporary support structure 110 is not coupled by the wire attachment/detachment coupler 130.

Therefore, the posture of each pillar 120 is not fixed.

In this state, the support pillar 120 is set in an appropriate posture (i.e., an attitude forming a right angle to the contact surface with the metal plate 210) and the support pillar 120 is set to an appropriate length (the horizontal member 150 for supporting the metal plate is After adjusting the length to the length in contact with (210), the wire 140 is fixedly coupled to the support pillar 120 by the wire attachment/detachment coupler 130.

The operating method of the wire attachment/detachment coupler 130 is that, when the rotary coupler 132 is rotated, the female thread portion 132a moves forward while being screwed to the male thread portion 131a of the side compression hole 131, thereby The compression piece pressing portion 132b compresses the plurality of compression pieces 131b of the side compression port 131, and the plurality of compression pieces 131b fix the wire 140 while being compressed.

That is, the wire 140 is fixed to the support pillar 120 by the wire attachment/detachment coupler 130, and thereby the overall posture of the support pillar 120 is fixed.

When the posture of the support pillar 120 is fixed, the horizontal member 150 for supporting the metal plate is coupled to the support pillar 120.

In this process, for convenience of installation work, a portion of the metal plate 210 forming the metal plate combined inner portion 200 may be installed in advance.

Through this operation, the horizontal member 150 for supporting the metal plate is in a state in which it can be in surface contact with the metal plate 210, and the support pillar 120 is in a state in which it can form a right angle with respect to the contact surface with the metal plate 210. It becomes.

After the installation of the temporary support 100 is completed, the metal plate combined inner part 200 is installed on the upper part, as shown in FIG. 8.

The metal plate combined inner portion 200 consists of a plurality of metal plates 210 extending in the longitudinal direction connected to each other in the width direction of the metal plates 210.

As a method of connecting the metal plates 210 in the width direction, they can be connected by bending them together or by bolting, etc. Various conventional technologies can be applied to the method of connecting the metal plates 210 in the width direction.

After the metal plate-combined inner part 200 is installed, a rebar reinforcement (not shown) is placed on the upper part of the metal plate-combined inner part 200, and an external form 300 covering the rebar reinforcement (not shown) is installed. . Various technologies may also be applied to the installation method of the rebar reinforcement and the external formwork 300.

When the external form 300 is installed, a concrete pouring space is formed between the external form 300 and the metal plate combined inner part 200.

Of course, the steel reinforcement section (not shown) is placed inside the concrete pouring space.

Thereafter, concrete 400 is poured between the metal plate combined inner part 200 and the external form 300, specifically in the concrete pouring space.

Figure 9 is an example cross-sectional view of a state in which concrete 400 is placed between the metal plate combined inner part 200 and the external form 300.

After the poured concrete (400) is cured, the external form (300) and temporary support (100) are dismantled.

As a result, a metal plate/concrete composite structure in which the metal plate combined inner portion 200 and the concrete 400 are integrated is constructed.

Depending on the embodiment, the metal plate-coupled inner portion 200 may be removed. In this case, a structure made of concrete (400) is constructed.

Hereinafter, a second embodiment according to the present invention will be described.

Figure 11 is a perspective view of the support pillar and wire of the second embodiment according to the present invention, and Figure 12 is an exploded perspective view of Figure 11.

FIGS. 13 to 15 are views for explaining the state in which the wire attachment/detachment coupler is coupled to or uncoupled from the wire in FIG. 11. FIG. 13 is based on a cross-sectional view, FIG. 14 is based on a side view, and FIG. 15 is a line C-C of FIG. 13. This is a standard cross section.

In this embodiment, compared to the first embodiment, the wire attachment/detachment coupler 130 is different.

In this embodiment, the wire attachment/detachment coupler 130 is comprised of a side pressing tool 131, a rotary coupler 132, a linear moving body 133, and a one-touch type operation unit 134.

The side pressing tool 131 includes a male screw portion 131a, a plurality of pressing pieces 131b, and a moving body guide ledge 131c.

The external thread portion 131a and the plurality of pressing pieces 131b provided on one side of the external thread portion 131a are the same as those in the first embodiment.

The multiple embodiment further includes a movable guide ledge 131c forming a gap between the upper pillar 123 on the other side of the male screw portion 131a.

The rotary coupler 132 of this embodiment consists of a female thread portion 132a, a compression piece pressing portion 132b, and a pinion gear portion 132d.

The female thread portion 132a and the compression piece pressing portion 132b are the same as those in the first embodiment.

The pinion gear portion 132d is formed along the outer peripheral surface of the female thread portion 132a.

The linear moving body 133 consists of a pinion receiving portion 133a, a rack gear portion 133b, and a separation barrier 133c.

The pinion receiving portion 133a is opened in the longitudinal direction to accommodate the pinion gear portion 132d of the rotary coupler 132 even when the linear moving body 133 moves between the first position and the second position, and also accommodates the pinion gear portion 132d. This is a part to stably allow rotation of the gear portion 132d.

The rack gear portion 133b is a portion that is coupled to the pinion gear portion 132d of the rotary coupler 132 and the rack and pinion.

Therefore, the pinion gear part 132d of the rotary coupler 132 is rotated by the movement of the rack gear part 133b.

The one-touch operation unit 134 linearly moves the linear moving body 133 between the first and second positions by operating a lever.

Therefore, the one-touch operation unit 134 is operated to move the linear moving body 133 between the first and second positions, whereby the departure prevention bump 133c of the linear moving body 133 is connected to the side pressing hole 131. It moves linearly while being guided by the moving body guide ledge 131c, and the rack gear part 133b rotates the pinion gear part 132d of the rotary coupler 132 due to the linear movement of the linear moving body 133. When the typical coupler 132 is rotated, the female thread portion 132a moves forward while being screwed to the male thread portion 131a of the side compression hole 131, and as a result, the compression piece pressing portion 132b is connected to the side compression hole (132b). The plurality of compression pieces 131b of 131 are compressed, and the plurality of compression pieces 131b fix the wire 140 while being compressed.

The description of the present invention described above is for illustrative purposes, and those skilled in the art will understand that the present invention can be easily modified into other specific forms without changing the technical idea or essential features of the present invention. will be. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive. For example, each component described as unitary may be implemented in a distributed manner, and similarly, components described as distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms 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 invention. do.

100: Temporary support
110: Structure for temporary support
111: arched frame 111a: rotating support piece
112: vertical support frame 113: horizontal connection frame
120: Copper pillar
121: lower pillar
121a: Rotation support pin 121b: Male screw for length adjustment
122: Medium fine length adjuster
122a: female screw for length adjustment 122b: handle for length adjustment
123: upper pillar
123a: Hole for height adjustment 123b: Horizontal bar for height adjustment
123c: Horizontal material coupling hole
130: Wire detachable coupler
131: Bracing side compression hole
131a: Male thread 131b: Compression piece
131c: Moving body guide jaw
132: Rotating coupler
132a: Female thread portion 132b: Compression piece pressing portion
132c: Rotation handle 132d: Pinion gear unit
133: linear moving body
133a: Pinion receiving part 133b: Rack gear part
133c: Breakaway bump
134: One-touch control panel
140: wire
150: Horizontal member for supporting metal plates
200: Metal plate combined inner part
210: metal plate
300: external formwork
400: concrete

Claims (5)

In the temporary support for constructing the metal plate combined inner part formed by connecting metal plates extending long in the longitudinal direction to each other in the width direction of the metal plates:
Structure for temporary support;
It is in the form of a pillar whose length is adjustable, the lower end of which is rotatably coupled to the upper part of the temporary support structure, and a plurality of pillars are arranged in the left and right directions with respect to the temporary support structure to form a set of pillars for the left and right directions, and the pillars for the left and right directions a plurality of sets of supporting pillars arranged in the front and rear directions of the temporary support structure;
A plurality of horizontal members for supporting metal plates coupled to the upper end of the supporting column and extending in the front and rear direction of the temporary support structure to support the lower surface of the metal plate combined inner portion;
a wire arranged to penetrate a plurality of pillars forming the pillar set for the left and right directions;
A wire attachment/detachment coupler provided at the support pillar and detachably coupled to the wire;
Hypothetical support comprising a.
According to clause 1:
The wire attachment/detachment connector is:
It is fixed to the support pillar, has a through hole formed inside for penetration of the wire, and has a male screw formed on the outside, and is used to compress and release the wire by elastic deformation by external force and elastic restoration by external force release. A side pressing tool including a plurality of pressing pieces provided on one side of the male thread portion;
A female thread portion formed with a female thread screwed to the male thread of the male thread portion, and formed on one side of the female thread portion, advance or retreat toward the compression piece according to the screw connection of the female thread portion and the male thread portion, thereby elastically deforming the compression piece. A rotating coupler including a pressing part that can elastically restore the pressing piece or press the pressing piece;
Hypothetical support comprising a.
According to clause 1:
The wire attachment/detachment connector is:
It is fixed to the support pillar, has a through hole formed inside for penetration of the wire, and has a male screw formed on the outside, and is used to compress and release the wire by elastic deformation by external force and elastic restoration by external force release. A side pressing tool including a plurality of pressing pieces provided on one side of the male thread portion;
A female thread portion formed with a female thread screwed to the male thread of the male thread portion, and formed on one side of the female thread portion, advance or retreat toward the compression piece according to the screw connection of the female thread portion and the male thread portion, thereby elastically deforming the compression piece. a rotary coupler including a pressing piece pressing part capable of elastically restoring the pressing piece, and a pinion gear formed along the outer peripheral surface of the female thread part;
a linear moving body formed with a rack gear portion coupled to a pinion gear portion of the rotary coupler and a rack and pinion;
a one-touch operation unit that linearly moves the linear moving object between a first position and a second position by operating a lever;
Hypothetical support comprising a.
In the construction method of metal plate/concrete composite structure:
Installing the temporary support according to any one of claims 1 to 3;
Installing a metal plate combined inner portion formed by connecting a plurality of metal plates extending in the longitudinal direction to each other in the width direction of the metal plates on the upper part of the temporary support;
Placing a rebar reinforcement on an upper part of the metal plate combined inner part and installing an external form covering the rebar reinforcement;
pouring concrete between the metal plate combined inner part and the external form;
A construction method for a metal plate/concrete composite structure comprising:
According to claim 4,
A method of constructing a metal plate/concrete composite structure, further comprising the step of dismantling the external form and the temporary support after the poured concrete is cured.