KR102520701B1 - Formwork Structure for Forming Expansion Joints - Google Patents

Abstract

The present invention relates to a formwork structure for forming expansion joints and a construction method thereof. According to the present invention, the formwork structure for forming expansion joints for resisting seismic loads in an opening of a staircase core wall of a high-rise building comprises: a pair of vertical form parts provided to form the opening between wall assembly rebars; a horizontal form part formed on an upper part of the vertical form part; a plurality of braces formed to support a concrete pouring pressure by reinforcing the gap between the vertical form part and the horizontal form part of the vertical form parts; an expansion joint pad which is fixed between the divided horizontal rebars at an upper part of the horizontal form part; and a wall form part formed in front and rear of the wall assembly rebar. Therefore, excellent earthquake resistance can be secured by forming the expansion joints, and the expansion joint pads are fixed and installed at a predetermined distance from the wall assembly rebar, such that when pouring concrete, separation or deformation of the expansion joint pad can be prevented, and complete coverage of the wall assembly rebar can be achieved.

Description

Formwork structure for forming expansion joints and its construction method {Formwork Structure for Forming Expansion Joints}

The present invention relates to a formwork structure for forming an expansion joint and a construction method thereof, and more particularly, the expansion joint can be simply constructed by catching and fixing the expansion joint so as to maintain a constant coating distance from the reinforcing bar, It relates to a formwork structure capable of forming a constant coating thickness without deformation and a construction method thereof.

As shown in FIG. 1A, a concrete load-bearing wall used as a building or civil engineering structure is installed to accommodate lateral displacement by installing a damper 3 at the top of the wall opening 4 as shown in FIG. 1A so that the lateral load is controlled in the event of an earthquake.

In addition, by installing an expansion joint (2) at the bottom of the wall where the damper (3) is installed, to protect the divided section where the wall is sheared, the displacement can be accommodated when a lateral load is generated from the outside. However, as the conventional expansion joint (2) is constructed by forcibly inserting the expansion joint pad between the wall reinforcing bars (1), the expansion joint pad is in contact with the reinforcing bar (1), so that the expansion joint (2) There was a problem with the transformation.

In particular, in the prior art, during concrete pouring, there was a problem that concrete was not filled in the part where the expansion joint 2 was in close contact, so that the coating of the reinforcing bar 1 was incompletely formed, and the reinforcing bar 1 was exposed to cause corrosion. , There was an additional problem that the expansion joint 2 is deformed or separated during concrete pouring due to incomplete fixation of the expansion joint 2.

Meanwhile, Korean Patent Registration No. 10-1798907 (registered on November 13, 2017, hereinafter referred to as 'prior art literature') has been proposed in relation to a damper capable of resisting displacement due to an earthquake. As shown in FIG. It includes a vertical fixing plate 8 formed on the end surface of the steel beam 7 and a primary displacement control slit 9 connected between the vertical fixing plate 8 to absorb displacement and break when an earthquake occurs.

However, in the case of a civil engineering structure formed of a thick wall, such as a stairwell core, the damper in the prior art document does not have a separate lintel 6 that transmits a lateral load, so the installation of the damper 5 is not suitable. There was a limit .

Republic of Korea Patent Publication No. 10-1798907 (2017. 11. 13. Registration) Republic of Korea Patent Publication No. 10-2021-10112568 (published on September 15, 2021)

The present invention has been made to solve the above problems, and by stably installing the expansion joint pad, it is possible to easily form a divided cross-section in the core during earthquake-resistant design of a high-rise building, while effectively controlling the lateral load applied to civil structures in the event of an earthquake has a purpose to

In addition, another object of the present invention is to prevent the separation or deformation of the elastic joint pad during the process of fixing and installing the elastic joint pad or the process of pouring concrete.

Furthermore, the present invention is able to secure the durability of civil engineering structures by engaging and fixing the divided cross-section of the wall so that a certain distance is secured between the expansion joint pad and the wall assembly reinforcing bar, so that the concrete cover thickness of the reinforcing bar is constantly secured during concrete casting. It is an object to provide a formwork structure and its construction method for forming an expansion joint.

Formwork structure for forming an expansion joint according to an embodiment of the present invention, to form an expansion joint (EJ) to control the seismic load applied to the opening (O) of the stairwell core wall (CW) of a high-rise building It relates to a formwork structure for

To this end, the present invention provides a pair of vertical form parts 10 provided to form an opening O between the wall assembly reinforcements WR, a horizontal form part 20 formed on top of the vertical form part 10, A plurality of braces 30 formed to support the concrete placing pressure by reinforcing between the vertical form part 10 and the horizontal form part 20 or the vertical form part 10, and the divided horizontal upper part of the horizontal form part 20 It includes an elastic joint pad 40 that is caught between the reinforcing bars (R1) and a wall form part 50 formed in front and rear of the wall assembly reinforcing bars (WR).

In addition, both ends of the gripper fixing rod 53 are fixed between the front wall form part 51 and the rear wall form part 52 based on the divided horizontal reinforcement R1 of the wall assembly reinforcement (WR), An elastic joint pad 40 may be engaged and fixed to the gripper fixing rod 53 .

In addition, a gripper 60 may be coupled to an upper end of the elastic joint pad 40, and the gripper 60 may be engaged and fixed to the gripper fixing rod 53.

In addition, the gripper 60 has a reverse U-shaped cross-sectional shape as a whole with a pair of fastening pieces 62 formed by extending downward at both ends of the hooking portion 61 formed to be caught on the gripper fixing rod 53 , With the upper end of the elastic joint pad 40 sandwiched between the fastening pieces 62, the fastening piece 62 and the elastic joint pad 40 may be mutually bound by the fastener 63 passing through.

In addition, the horizontal form part 20 includes a first horizontal form part 21 and a second horizontal form part 22 connected to the vertical form part 10 and arranged on the same line, and the first horizontal form part 21 and The lower end of the elastic joint pad 40 may be inserted and fixed between the second horizontal form parts 22.

On the other hand, the present invention is a construction method (M) of a formwork structure for forming an expansion joint (EJ) to resist an earthquake load in the opening (O) of the stairwell core wall (CW) of a high-rise building, the opening (O) An opening formwork forming step (S10) of connecting the upper part of the pair of vertical form parts 10 to the horizontal form part 20 and reinforcing it with a plurality of braces 30 to support the concrete placing pressure, and the horizontal form part 20 In the upper part, a wall assembly reinforcement forming step (S20) of forming a wall assembly reinforcement (WR) by mutually assembling the horizontal reinforcement (R1), the vertical reinforcement (R2), and the connecting reinforcement (R3) so that the horizontal reinforcement (R1) is divided, The wall formwork forming step (S30) of assembling the wall form part 50 in front and rear of the wall assembly reinforcement (WR) and the expansion joint pad (40) between the divided horizontal reinforcement (R1) of the wall assembly reinforcement (WR) ) Includes an elastic joint pad installation step (S40) for fixing the locking.

In addition, the elastic joint pad installation step (S40) includes the gripper fixing step (S41) of engaging and fixing the gripper 60 coupled to the gripper fixing rod 53 at the top of the elastic joint pad 40 and the elastic joint An elastic joint pad fixing step (S42) of inserting and fixing the lower end of the pad 40 between the first horizontal form part 21 and the second horizontal form part 22 of the horizontal form part 20 may be included.

And the opening formwork forming step (S10) is the vertical form part installation step (S11) of spaced apart arrangement of a pair of vertical form parts (10) between the wall assembly reinforcement (WR), horizontally on top of the pair of vertical form parts (10) A horizontal foam part installation step of disposing the form part 20 (S12) and a reinforcement step of reinforcing between the vertical form part 10 and the horizontal form part 20 or the vertical form parts 10 using a plurality of braces 30 (S13) can include

According to one embodiment of the present invention, by catching and fixing the expansion joint pad between the divided horizontal reinforcing bars, the lateral load applied to the divided cross-section of the sheared wall is effectively controlled, and the applied to the stairwell core wall of the high-rise building such as an earthquake It has the advantage of dissipating lateral loads.

In addition, according to one embodiment of the present invention, since the elastic joint pad can be stably hooked and fixed using the gripper fixing rod, both ends of which are fixed to the front and rear wall forms, it can be stretched during the installation process or the process of pouring concrete. Separation or deformation of the joint pad can be prevented.

Furthermore, since the distance between the wall assembly reinforcing bars and the expansion joint pad can be kept constant, the coating thickness of the reinforcing bars can be kept constant during concrete casting, and both the earthquake resistance and durability of the structure can be improved.

In particular, there is an advantage in that the quality of the structure can be improved as the location of the elastic joint pad can be precisely adjusted and installed.

1A is a front view showing the shape of a concrete wall in which a conventional expansion joint and a damping damper are installed.
Figure 1b is a perspective view showing the installation state of the damper capable of controlling the displacement caused by the earthquake according to Prior Art Document 1.
Figure 2 is a perspective view showing the installation state of the formwork structure for forming an expansion joint according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing the shape of the formwork structure for forming an expansion joint according to an embodiment of the present invention from the front.
Figure 4 is a cross-sectional view showing the shape of the formwork structure for forming an expansion joint according to an embodiment of the present invention from the side.
Figure 5 is a perspective view showing a fixed state of engagement of the expansion joint pad of the formwork structure for forming an expansion joint according to an embodiment of the present invention.
6 is a cross-sectional view showing a fixed state of a gripper fixing rod of a formwork structure for forming an expansion joint according to an embodiment of the present invention.
7 is a flowchart illustrating a construction method of a formwork structure for forming an expansion joint according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail based on the matters shown in the drawings.

First, with reference to FIGS. 2 to 4 , a formwork structure for forming an expansion joint according to an embodiment of the present invention will be described. The formwork structure of the present invention is provided with a pair of vertical form parts 10, horizontal form parts 20, braces 30, elastic joint pads 40 and wall form parts 50, so that the stairwell core wall (CW) of a high-rise building It is to form an expansion joint (EJ) to control the seismic load transmitted to the opening (O) of the.

More specifically, the vertical form parts 10 are provided to face each other so that the openings O are formed between the wall assembly reinforcements WR, and the horizontal form part 20 on the upper part between the pair of vertical form parts 10 Is provided, and the horizontal reinforcing bar (R1) is divided into both sides around the divided cross-section at the upper part of the horizontal form part 20, and the technical feature is that the elastic joint pad 40 is caught and fixed therebetween.

At this time, unlike the conventional structure shown in FIG. 1, as the expansion joint pad 40 is caught and fixed to the divided wall section section so as to maintain a constant distance from the divided wall assembly reinforcement (WR), the wall assembly reinforcement (WR) and the expansion joint pad 40 are provided so as not to interview, so that the concrete cover thickness of the wall assembly reinforcement (WR) can be secured constantly during concrete casting.

The wall assembly reinforcing bars (WR) include a plurality of horizontal reinforcing bars (R1) spaced apart from each other in the front-back direction and extending in the horizontal direction, and a plurality of vertical reinforcing bars (R2) spaced apart from each other in the front-back and horizontal directions and extending in the height direction. ), it is spaced apart from each other in the transverse direction and is composed of a plurality of connecting reinforcing bars (R3) extending in the front-back direction.

According to one embodiment, in order to effectively prevent separation and deformation of the elastic joint pad 40, as shown in FIG. 3, the horizontal foam parts 20 are connected to the vertical foam parts 10 and arranged on the same line. It may include a first horizontal form part 21 and a second horizontal form part 22, wherein the lower end of the elastic joint pad 40 is inserted between the first horizontal form part 21 and the second horizontal form part 22. As it is fixed, both the upper and lower positions of the elastic joint pad 40 may be constrained.

In addition, the brace 30 reinforces the rigidity of the vertical form part 10 and the horizontal form part 20 to secure resistance to the concrete placing pressure and concrete load generated during concrete pouring, as shown in FIG. As shown, it is possible to reinforce between the vertical form part 10 and the horizontal form part 20 or the vertical form part 10. According to the embodiment, the brace 30 used for the reinforcement is inserted between the vertical form part 10 or the horizontal form part 20 in order to increase recyclability after concrete pouring and curing are completed, and to easily perform a separation operation. can be combined

According to one embodiment, the brace 30 includes a lower brace 31 connecting the lower ends of the vertical foam parts 10, a middle brace 32 connecting the central parts of the vertical foam parts 10, and a vertical foam part 10. It is preferable to include a yarn 33 connecting between the horizontal form parts 20.

In addition, the wall form part 50 is formed at the front and rear of the wall assembly reinforcement (WR) to form a space for pouring concrete so that the assembly reinforcement (WR) is embedded. According to the formwork structure for forming the expansion joint of the present invention described above, after concrete is poured, the expansion joint is stably formed even between the wall divided cross-sections, as well as the coverage between the expansion joint pad 40 and the wall assembly reinforcement (WR) As the reinforcing force is improved by being made constant, the seismic resistance and durability of the civil engineering structure can be strengthened.

Furthermore, it is preferable that a damper member 70 is additionally installed on the top of the elastic joint pad 40 in order to more effectively control the lateral load applied during an earthquake. Describing this in more detail, the damper member 70 has both ends connected to the horizontal reinforcement R1 between the divided horizontal reinforcement R1, respectively, as shown in FIGS. 3 to 4, and the horizontal reinforcement R1 Both ends connected to are provided to be buried during concrete pouring.

That is, according to the structure described above, when an earthquake occurs, the damper member 70 more effectively controls and dissipates seismic energy acting on the stairwell core wall CW, so that seismic performance can be increased.

On the other hand, the connection reinforcement (R3) of the present invention, as shown in Figs. 2 and 5, the horizontal reinforcement (R1) located in the front is integrally bent to be formed so as to be continuous with the horizontal reinforcement (R1) located in the rear. It can, of course, depending on the embodiment, as shown in Figure 6 may be connected to a separate reinforcing bar (R3).

In addition, referring to FIG. 6, the gripper fixing rod 53 is installed between the front wall form part 51 and the rear wall form part 52 based on the divided horizontal reinforcement R1 of the wall assembly reinforcement (WR). Both ends are fixed, and the elastic joint pad 40 can be engaged and fixed to the gripper fixing rod 53.

Hereinafter, with reference to FIGS. 5 and 6, a method of fixing the elastic joint pad 40 according to an embodiment of the present invention will be described. According to one embodiment, a gripper 60 composed of a hooking part 61, a pair of fastening pieces 62, and a fastener 63 is coupled to the upper end of the elastic joint pad 40, and the gripper 60 ) is caught and fixed to the gripper fixing rod 53, so that the elastic joint pad 40 can be provided more stably.

In more detail, the hooking part 61 may be integrally bent and provided to be caught on the gripper fixing rod 53, and at the same time, both ends of the hooking part 61 extend downward to engage a pair of fastenings. The pieces 62 are formed to face each other so as to have a reverse U-shaped cross-sectional shape as a whole.

At this time, the upper end of the elastic joint pad 40 is provided between the fastening pieces 62 in a state of being inserted, and the fastener 63 is bound so as to penetrate the fastening piece 62 coupled with the elastic joint pad 40. It can be.

On the other hand, hereinafter, the present invention will be described with reference to Figure 7 the construction method (M) of the formwork structure for forming the expansion joint (EJ).

The construction method (M) of the formwork structure for forming the expansion joint (EJ) of the present invention, as shown in the block diagram of FIG. 7, includes the opening formwork forming step (S10), assembly reinforcement step (S20), It is performed including the wall formwork forming step (S30) and the expansion joint pad installation step (S40), and the expansion joint (EJ) is formed on the divided section of the upper part of the opening (O) of the stairwell core wall (CW) of the high-rise building. to secure the seismic performance of civil structures.

In more detail, in the opening formwork forming step (S10), the upper part of the pair of vertical form parts 10 is connected to the horizontal form part 20 so that the opening part O is formed, and a plurality of This is the step of reinforcing with the brace 30.

At this time, the opening formwork forming step (S10) may include a vertical form part installation step (S11), a horizontal form part installation step (S12), and a reinforcement step (S13). More specifically, the vertical form part installation step (S11) is a step of arranging a pair of vertical form parts 10 spaced apart between the wall assembly reinforcement (WR), and the horizontal form part installation step (S12) performed subsequently is a step of It is a step of arranging the horizontal form part 20 on the vertical form part 10, and the reinforcement step (S13) uses a plurality of braces 30 to form the vertical form part 10 and the horizontal form part 20 or the vertical form part 10 As a step of reinforcing between the fields, it is reinforced to resist the concrete pouring load acting on the vertical form part 10 and the horizontal form part 20 during concrete pouring.

On the other hand, in the wall assembly reinforcing bar forming step (S20) performed after the opening formwork forming step (S10), the horizontal reinforcing bar (R1) and the vertical reinforcing bar (R2) are divided so that the horizontal reinforcing bar (R1) is divided on the top of the horizontal form part 20, and This is a step of assembling the connecting reinforcing bars (R3) to form the wall assembly reinforcing bars (WR).

Subsequently, the wall formwork forming step (S30) is a step of assembling the wall form part 50 to the front and rear of the wall assembly reinforcement (WR).

And the expansion joint pad installation step (S40) is a step of engaging and fixing the expansion joint pad 40 between the divided horizontal reinforcing bars (R1) of the wall assembly reinforcement (WR) as a characteristic step of the present invention.

Thus, the construction method (M) of the formwork structure for forming the expansion joint (EJ) of the present invention can prevent the separation and deformation of the expansion joint pad during the installation process and concrete casting process of the expansion joint pad, as well as , Structural stability can be secured by completely covering the wall rebar (WR).

In addition, according to an embodiment of the present invention, the elastic joint pad installation step (S40) may include a gripper fixing step (S41) and an elastic joint pad fixing step (S42). At this time, in the gripper fixing step (S41), the gripper 60 is fixed to the upper end of the elastic joint pad 40, and the elastic joint pad 40 is caught on the gripper fixing rod 53 via the gripper 60. This is the fixing step.

The elastic joint pad fixing step (S42) performed thereafter is a step of inserting and fixing the lower end of the elastic joint pad 40 between the first horizontal form part 21 and the second horizontal form part 22 of the horizontal form part 20 As such, it is possible to precisely control the position of the elastic joint pad 40 and to prevent separation to improve the quality of the structure.

The formwork structure and its construction method (M) for forming an expansion joint according to the present invention described above Those skilled in the art to which the present invention pertains will understand that it can be implemented in other specific forms without changing the technical spirit or essential characteristics of the present invention.

Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting, and the scope of the present invention is indicated by the claims to be described later rather than the foregoing detailed description, and the meaning and meaning of the claims All changes or modified forms derived from the scope and equivalent concept should be construed as being included in the scope of the present invention.

CW: core wall EJ: expansion joint
O: opening WR: wall assembly reinforcement
R1: horizontal bar R2: vertical bar
R3: connecting reinforcing bar 10: vertical form part
20: horizontal form part 21: first horizontal form part
22: second horizontal form part 30: brace
40: expansion joint pad 50: wall foam part
51: front side wall form part 52: rear side wall form part
53: gripper fixing rod 60: gripper
61: hanging part 62: fastening piece
63: fastener 70: damper member

Claims (7)

delete delete delete It relates to a formwork structure for forming an expansion joint (EJ) to control the seismic load applied to the opening (O) of the stairwell core wall (CW) of a high-rise building,
A pair of vertical form parts 10 are provided so that an opening O is formed between the wall assembly reinforcing bars WR, and a horizontal form part 20 is formed on top of the vertical form part 10, and the vertical form part 10 ) And a plurality of braces 30 are formed to support the concrete placing pressure by reinforcing between the horizontal form part 20 or the vertical form part 10, and between the divided horizontal reinforcing bars R1 of the upper part of the horizontal form part 20 The expansion joint pad 40 is fixed to the gripper fixing rod ( Both ends of 53) are fixed, a gripper 60 is coupled to the upper end of the elastic joint pad 40, and the gripper 60 is caught and fixed by the gripper fixing rod 53,
The gripper 60 has a reverse U-shaped cross-sectional shape as a whole with a pair of fastening pieces 62 formed by extending downward at both ends of the hooking portion 61 formed to be caught on the gripper fixing rod 53, An elastic joint characterized in that the upper end of the elastic joint pad 40 is interposed between the fastening piece 62 and the fastener 63 penetrating the elastic joint pad 40 with the fastening piece 62 Formwork structure for forming.
According to claim 4,
The horizontal form part 20 includes a first horizontal form part 21 and a second horizontal form part 22 connected to the vertical form part 10 and arranged on the same line,
Formwork structure for forming an expansion joint, characterized in that the lower end of the expansion joint pad 40 is inserted and fixed between the first horizontal form part 21 and the second horizontal form part 22.
In the construction method (M) of a formwork structure for forming an expansion joint (EJ) to resist an earthquake load in an opening (O) of a stairwell core wall (CW) of a high-rise building,
An opening formwork forming step (S10) of connecting the upper portions of the pair of vertical form parts 10 to the horizontal form part 20 to form the opening part O and reinforcing them with a plurality of braces 30 to support the concrete pouring pressure;
Wall assembly reinforcement forming step of forming wall assembly reinforcement (WR) by mutually assembling horizontal reinforcement (R1), vertical reinforcement (R2) and connection reinforcement (R3) so that the horizontal reinforcement (R1) is divided in the upper part of the horizontal form part (20). (S20);
A wall formwork forming step (S30) of assembling the wall form part 50 to the front and rear of the wall assembly reinforcement (WR); and
A gripper fixing step (S41) of engaging and fixing the gripper 60 of claim 4 coupled to the upper end of the elastic joint pad 40 to the gripper fixing rod 53, and the lower end of the elastic joint pad 40 to the horizontal form part ( 20) between the divided horizontal reinforcement (R1) of the wall assembly reinforcement (WR), including the expansion joint pad fixing step (S42) of inserting and fixing between the first horizontal form part 21 and the second horizontal form part 22 An elastic joint pad installation step of engaging and fixing the elastic joint pad 40 to (S40);
Construction method of the formwork structure for forming an expansion joint, characterized in that it comprises a. delete

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