KR102082481B1 - Continuous construction type pc wall and construction method thereof - Google Patents

Abstract

The present invention includes: main body parts having a plurality of connecting groove parts and forming a wall; a connecting part inserted into the plurality of adjacently arranged connecting groove parts to connect the main body parts adjacently arranged when the main body part is constructed to be continued; a connection reinforcing part integrally connecting the connecting part to the connecting groove part and connecting the adjacently arranged main body parts to each other; and a slip preventing part preventing the connecting part and the connection reinforcing part from being separated from the connecting groove part. Therefore, seismic performance can be improved.

Description

Continuous construction type PC wall and its construction method {CONTINUOUS CONSTRUCTION TYPE PC WALL AND CONSTRUCTION METHOD THEREOF}

The present invention relates to a continuous construction type PC wall and a construction method thereof, more specifically, when the plurality of PC walls are continuously constructed in one direction, it is possible to improve the strength of the connection between each PC wall, PC wall The present invention relates to a continuous construction type PC wall and a construction method capable of improving a seismic performance by reinforcing a tensile region in which a tensile force is generated when an external force is applied in the transverse direction.

In general, a building is constructed with PC products, or is constructed with cast-in-place using a formwork, or it is constructed with pillars, walls, beams, and slabs.

In such a structure made of pillars, walls, beams, and slabs, when the column bears the upper load, it is possible to construct the wall as a non-bearing wall, so that the economics of the wall can be secured. It is true that the thickness of the slab can be made thin, so that the economy of the slab can be secured.

However, there is a problem in that space utilization is poor because a pillar, a wall, a beam, and a slab are installed, so that the pillars are protruded inside the building to occupy space. , There was a problem that the labor force is increased.

In order to compensate for the above-mentioned problems, recent structures are constructed as load-bearing walls that perform the role of pillars without installing pillars and beams, and also as slabs are constructed of weightless slabs that perform even the role of beams to directly load the load. By adopting a construction method that allows the transmission to be made, the floor height can be lowered while increasing the space utilization.

In addition, the above-mentioned prior art has a mechanical joint using a coupler because structural integration can be achieved only by continuous sequential reinforcing of the reinforcing bar when connecting the slab and the bearing wall.

However, in the case of implementing a mechanical joint using such a coupler, in order to achieve structural integration, in the process of sequential vertical rebar, the work efficiency is deteriorated, and there is a problem that a considerable amount of time and a worker's labor force are additionally required.

In order to solve the above problems, an integral structure of a slab and a PC wall has been developed, and the PC wall according to the prior art includes a base portion including a concrete base and a slab located on the top of the concrete base, and a top portion of the slab. It includes a PC wall part and a height adjustment part that connects the base part and the PC wall part as it is fixed to the slab and partially protrudes into the upper part of the concrete base and is inserted into the PC wall part.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1828358 (February 14, 2018, name of the invention: integral structure of the slab and the PC wall portion).

When the PC wall according to the prior art is installed with a plurality of PC walls continuously, a separate technical configuration for connecting each PC wall is not provided. There is a problem in that the PC wall can be easily collapsed by lateral external forces such as earthquakes.

In addition, when constructing a building or structure constructed using a PC wall, if only the building corresponding to the core is constructed by the RC method, a separate formwork is required, and the process of injecting concrete mortar to cure is required. Resistance can be improved, but there is a problem in that the air is increased.

Therefore, there is a need to improve this.

The present invention can improve the strength of the connection between each PC wall when constructing a plurality of PC walls continuously in one direction, and reinforce the tensile region that generates tensile force when an external force is applied to the PC wall in the lateral direction. It is an object to provide a continuous construction type PC wall that can improve performance and a construction method thereof.

The present invention, a plurality of connecting grooves are provided, the main body portion forming a wall; A connecting portion inserted into a plurality of the connecting groove portions disposed adjacently when the body portion is continuously constructed to connect the body portions disposed adjacent to each other; A connection reinforcing part that integrally connects the connection parts to the connection groove parts and connects the main body parts disposed adjacent to each other; And a slip prevention portion preventing the connection portion and the connection reinforcement portion from being separated from the connection groove portion.

In addition, the connecting portion of the present invention, the vertical connecting reinforcing part is protruding in the lower portion of the main body portion; And it is inserted into the connection groove, characterized in that it comprises an iron plate member extending to the other connection grooves are disposed adjacent to be inserted into the plurality of connection grooves.

In addition, the connection reinforcing part of the present invention, a plurality of horizontal connecting rebar disposed to protrude from the main body portion in the direction of the connecting groove; A mold member installed in the connecting groove and preventing the loss of concrete mortar injected into the connecting groove; And a pouring wall that injects and hardens concrete mortar into the connecting groove and the space formed in the mold member to integrate the iron plate member and the horizontal connecting rebar into the connecting groove.

In addition, the slip prevention portion of the present invention, it characterized in that it comprises a plurality of irregularities formed in the connecting groove.

In addition, the present invention, (a) a plurality of connecting grooves are provided, the step of manufacturing a body portion to be impregnated with a plurality of vertical connecting reinforcing bars; (B) a step of continuously placing a plurality of the main body portion by inserting the vertical connecting reinforcing bar provided with a portion protruding to one side of the main body portion in the insertion groove of the other body portion disposed adjacent; And (c) inserting a steel plate member into the connection grooves that are continuously arranged with each other, and installing a formwork member in the connection groove to close the end of the space portion into which the steel plate member is inserted; (d) it characterized in that it comprises the step of curing by injecting concrete mortar at the same time to the plurality of connection holes.

In addition, in the step (a) of the present invention, when the main body portion is manufactured, the concave-convex frame is disposed on both ends of the main body portion to form the connecting groove, and after the main body portion is cured, the concave-convex frame is removed from the main body portion. It is characterized in that it is sliding and separated.

The continuous construction type PC wall according to the present invention and a construction method therefor are provided with connecting portions extending into other PC walls disposed adjacent to each other so as to connect the continuously placed PC walls to each other, so that the connecting portions are integrally coupled to the main body portion. Since it has a pour wall that is injected and cured in the body, it improves the connection strength between PC walls placed adjacent to each other, and improves the resistance of the tensile region when lateral external force is applied to the body. There is an advantage that can improve the strength.

In addition, the continuous construction type PC wall according to the present invention and a construction method therefor, a steel plate member passing through a plurality of body parts is impregnated in a connection groove formed at both ends of the body part, and a concrete mortar is injected into a plurality of body part connection grooves Since it is cured and has a cast-in wall that integrally connects the iron plate member and the plurality of connecting grooves, both ends of the main body are integrally connected to other body portions disposed adjacent to each other, so that the resistance force of the region tensioned by the lateral lateral force is remarkably It has the advantage of being improved and improving the seismic performance of the PC wall.

In addition, since the continuous construction type PC wall according to the present invention and its construction method are provided with a slip prevention portion for preventing the connection reinforcement portion and the connection portion from slipping in the connection groove formed at both ends of the main body portion so that the connection portion and the connection reinforcement portion are installed. After mortar is cured to form a pour wall, there is an advantage that the pour wall can be prevented from being separated outside the connecting groove.

1 is an exploded perspective view showing a continuous construction type PC wall according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a connecting portion of the continuous construction type PC wall according to an embodiment of the present invention.
Figure 3 is an exploded perspective view showing the connecting groove and the uneven mold of the continuous construction type PC wall according to an embodiment of the present invention.
Figure 4 is an exploded perspective view showing the connecting groove and the iron plate member of the continuous construction type PC wall according to an embodiment of the present invention.
5 is a perspective view showing a corner portion of a continuous construction type PC wall according to an embodiment of the present invention.
6 is a cross-sectional view showing a main body of a continuous construction type PC wall according to an embodiment of the present invention.
7 is a cross-sectional view illustrating a state in which a steel plate member is inserted in a continuous construction type PC wall according to an embodiment of the present invention.
8 is a cross-sectional view showing the installation state of the pour wall of the continuous construction type PC wall according to an embodiment of the present invention.
9 is a side cross-sectional view showing the installation state of the iron plate member of the continuous construction type PC wall according to an embodiment of the present invention.
10 is a cross-sectional view showing a vertical connection reinforcing bar installation state of a continuous construction type PC wall according to an embodiment of the present invention.
11 is a view showing a corner portion of a continuous construction type PC wall according to another embodiment of the present invention.

Hereinafter, an embodiment of a continuous construction type PC wall and a construction method thereof according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice.

Therefore, the definition of these terms should be made based on the contents throughout the present specification.

1 is an exploded perspective view showing a continuous construction type PC wall according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view showing a connection portion of a continuous construction type PC wall according to an embodiment of the present invention, and FIG. 3 Is an exploded perspective view showing a connecting groove and an uneven mold of a continuous construction type PC wall according to an embodiment of the present invention.

In addition, Figure 4 is an exploded perspective view showing the connecting groove portion and the iron plate member of the continuous construction type PC wall according to an embodiment of the present invention, Figure 5 is a corner portion of the continuous construction type PC wall according to an embodiment of the present invention 6 is a sectional view of a main body of a continuous construction type PC wall according to an embodiment of the present invention.

In addition, FIG. 7 is a cross-sectional view showing a state in which a steel plate member is inserted in a continuous construction type PC wall according to an embodiment of the present invention, and FIG. 8 is an installation state of a pour wall of a continuous construction type PC wall according to an embodiment of the present invention. Is a cross-sectional view, Figure 9 is a side cross-sectional view showing the installation state of the iron plate member of the continuous construction type PC wall according to an embodiment of the present invention, Figure 10 is a continuous construction type PC wall according to an embodiment of the present invention It is a cross-sectional view showing the installation state of the vertical connecting rebar.

1 to 10, the continuous construction type PC wall according to an embodiment of the present invention is provided with a plurality of connecting grooves 12, the main body 10 and the main body 10 constituting the wall When the construction is continuously constructed, the connection portion 30 is inserted into a plurality of connection groove portions 12 disposed adjacent to connect the main body portion 10 adjacently disposed, and the connection portion 30 is integral to the connection groove portion 12 The connection reinforcement 50 connecting the main body parts 10 adjacent to each other and connecting to each other, and the slip prevention to prevent the connection part 30 and the connection reinforcement part 50 from being separated from the connection groove part 12 Includes part 70.

Therefore, when the construction of the PC wall connecting the plurality of main body parts 10 adjacent to each other is started, the main body part 10 is installed upright on the ground, and the other main body part 10 is placed on the top of the main body part 10. By stacking and inserting the connection portion 30 into the connection groove portion 12 provided in each main body portion 10, it is disposed to be simultaneously inserted into the connection groove portion 12 disposed adjacent to each other, and to each connection portion 30 By constructing the connection reinforcing portion 50, the connecting groove portions 12 disposed adjacent to each other are integrally connected, and at the same time, the body portions 10 disposed adjacent to each other are integrally connected.

As described above, in the present embodiment, since the connection grooves 12 provided in each body part 10 are integrally connected by the connection part 30 and the connection reinforcement part 50, the connection strength of the PC wall is improved. The effect appears.

In addition, when connecting the body portion 10, the connecting portion 30 connecting the connecting groove portions 12 provided in each body portion 10 to each other is inserted, and then the connecting portion 30 is integrally connected to the connecting groove portion 12. Since the connecting reinforcing part 50 to be connected is constructed, if a lateral external force such as an earthquake occurs after the construction of the PC wall is completed, the upper part of the PC wall may flow from side to side, in this embodiment, the connecting portion 30 and The reinforcement of the tensile region is made by the connection reinforcement 50 to prevent the PC wall from being deformed or damaged.

The connecting portion 30 of the present embodiment is impregnated into the main body portion 10 and the vertical connecting reinforcing rod 32 protruding in a downward direction, and the other connecting groove portion 12 inserted into the connecting groove portion 12 and disposed adjacently ) Extends up to) and includes a steel plate member 34 inserted into a plurality of connection grooves 12.

When manufacturing the main body 10, a plurality of vertical connecting reinforcing bars 32 maintain a constant distance and are made to be impregnated inside the main body 10, and the lower end of the vertical connecting reinforcing bars 32 is outside the main body 10. It is arranged to protrude, and an insertion groove portion 14 into which a vertical connecting reinforcing bar 32 extending from another body portion 10 is inserted is formed on the upper surface of the body portion 10.

Therefore, when constructing the PC wall by stacking the main body portion 10 in the vertical direction, the vertical connecting reinforcing bar 32 extending downward from the bottom surface of the upper wall disposed on the upper side is formed on the upper surface of the lower wall disposed on the lower side. It is possible to construct the PC wall while inserting the insertion groove 14 to stack the main body 10 in the vertical direction.

In addition, the connecting groove portion 12 is formed on both ends of the main body portion 10, the upper surface, the bottom surface and the side end is opened, the main body portion 10 is arranged adjacent to the vertical or horizontal direction is arranged adjacently The portion 10 is disposed such that the connecting groove portions 12 disposed to face each other are connected and communicate.

Accordingly, the iron plate member 34 constituting the connection portion 30 is simultaneously inserted into a pair of connection groove portions 12 disposed to face each other, and the connection reinforcement portion 50 is installed in the connection groove portion 12 to construct the iron plate member 34 ) And the connecting groove portion 12 is cured integrally, the iron plate member 34 forms a state impregnated in the connecting portion between the body portions 10 to connect the body portions 10 adjacent to each other.

In addition, since a plurality of stud bolts 36 are installed to protrude on the front and rear surfaces of the iron plate member 34, when the connection reinforcement portion 50 is installed and hardened in the connection groove 12, the stud protrudes from the iron plate member 34. Since the bolt 36 is impregnated in the direction perpendicular to the iron plate member 34 in the connection reinforcement portion 50, the iron plate member 34 is connected to the connection groove portion 12 as the connection reinforcement portion 50 and the iron plate member 34 slip against each other. ).

The connection reinforcing part 50 of the present embodiment is installed in the plurality of horizontal connecting reinforcing bars 52 and the connecting grooves 12, which are disposed to protrude from the main body 10 toward the inside of the connecting grooves 12, and the connecting grooves The mold member 54 to prevent the loss of concrete mortar injected into the 12, and the concrete mortar is injected into the space formed in the connecting groove 12 and the mold member 54 and hardened to make the iron plate member 34 And a pour wall 56 that integrates the horizontal connecting reinforcing bar 52 into the connecting groove 12.

The body part 10 is impregnated with a plurality of horizontal connecting reinforcing bars 52 arranged in the left and right directions, and the horizontal connecting reinforcing bar 52 is disposed to protrude inwardly from the main body to the connecting groove 12 and connected to the connecting groove 12 As it is impregnated into the filled pour wall 56, the pour wall 56 and the main body 10 are integrally connected.

Since the open side end portion of the connection groove portion 12 is closed by a mold member 54 installed at the side end portion of the connection groove portion 12, the connection groove portion 12 forms a passage with an open top and bottom, adjacent to each other. The steel plate members 34 having the same or similar length as the pair of main body portions 10 are inserted to penetrate the two or more connection groove portions 12 so as to penetrate the connection portions 30 disposed at the same time.

After the iron plate member 34 is inserted into the connecting groove portion 12, a concrete mortar is injected into the connecting groove portion 12 to harden and form a pour wall 56 impregnated into the connecting groove portion 12, and the pouring wall 56 is formed. Inside, the iron plate member 34 and the horizontal connecting reinforcing bar 52 are impregnated to integrally connect the connecting grooves 12 provided at both ends of the upper wall and the connecting grooves 12 provided at both ends of the lower wall. .

In addition, since the slip preventing portion 70 of the present embodiment includes a plurality of uneven projections 72 formed in the connecting groove portion 12, the pouring wall 56 provided inside the connecting groove portion 12 is connected to the connecting groove portion ( 12) It is possible to prevent the separation between the connecting grooves 12 and the outside while slipping, so that the connection strength of the connecting grooves 12 disposed adjacent to each other can be more effectively improved.

Looking at the construction method of the continuous construction type PC wall according to an embodiment of the present invention configured as described above are as follows.

Continuous construction type PC wall construction method according to an embodiment of the present invention, a plurality of connecting grooves 12 are provided, a plurality of vertical connecting reinforcing bar 32 is impregnated with manufacturing the main body portion 10, A plurality of main body parts 10 are continuously inserted by inserting a vertical connecting reinforcing bar 32, which is partially protruding to one side of the main body part 10, into the insertion grooves 14 of other body parts 10 adjacent to each other. Step of placing, inserting the iron plate member 34 into the connecting groove portion 12 which is continuously arranged with each other, and installing the mold member 54 in the connecting groove portion 12 to end the space portion into which the iron plate member 34 is inserted And finishing and curing the concrete mortar by simultaneously injecting it into a plurality of connection holes.

First, when manufacturing the concave-convex protrusion 72, the concave-convex frame 74 is disposed at both ends of the mold, and a plurality of vertical connecting rebars 32 are positioned in the vertical direction in the center, and a plurality of horizontal connecting rebars in both directions from the center. After locating (52), the concrete mortar is injected into the mold and hardened to produce a body portion 10 having connection grooves 12 at both ends.

Here, the vertical connecting reinforcing bar 32 is manufactured to protrude partially from the lower end of the main body part 10, and the insertion groove part 14 into which the vertical connecting reinforcing bar 32 of the other main body part 10 is inserted in the upper surface of the main body part 10 ) Is formed.

The step of manufacturing the main body part 10 of the present embodiment, when the main body part 10 is manufactured, arranges the concave-convex frame 74 at both ends of the main body part 10 to form the connecting grooves 12, and the main body part After the (10) is cured, the concave-convex frame 74 is made to be separated from the main body 10 by sliding.

Therefore, by sliding the concave-convex frame 74 from both ends of the body portion 10 in both directions, separating them from the body portion 10 so that both ends of the body portion 10 are concave inwardly to form the connecting groove 12 Then, the concave-convex protrusion 72 is formed in the lateral direction on the inner wall of the connecting groove part 12 by a plurality of protrusions provided in the concave-convex frame 74.

As described above, after manufacturing a body portion 10 having a pair of connecting groove portions 12 provided at both ends, a plurality of body portions 10 are continuously arranged in an upward direction or both directions from the ground, and face each other. Construction of the iron plate member 34 and the pouring wall 56 in the connecting groove portion 12 to be disposed is performed to integrally connect the body portions 10 disposed adjacent to each other.

11 is a view showing a corner portion of a continuous construction type PC wall according to another embodiment of the present invention.

Referring to Figure 11, the main body portion 10 of the present embodiment, a pair of body portions 10 may be connected to form a corner at a right angle and continuously arranged, at this time, both ends of the connecting groove portion 12 Made of different lengths, the short ends form the inside of the corners, and the long ends form a pair of main body parts 10 orthogonally so as to form the outside of the corners, and a pair of connecting grooves curved in an 'a' shape ( After inserting the iron plate member 34 bent in the shape of 'a' into 12), the concrete mortar is injected and cured, so that it is possible to construct the pour wall 56 that is bent in the shape of 'a'.

Of course, a pair of iron plate members 34 formed in a straight line may be orthogonally inserted into the connecting groove portion 12 bent in the shape of 'a' to construct the pouring wall 56.

Thus, when a plurality of PC walls are continuously constructed in one direction, it is possible to improve the strength of the connection between each PC wall, and reinforce the tensile region where the tensile force is generated when an external force is applied in the transverse direction to the PC wall to seismic performance. It is possible to provide a continuous construction type PC wall that can improve the and the construction method thereof.

The present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art to which the art pertains may have various modifications and other equivalent embodiments. Will understand

In addition, the continuous construction-type PC wall and the construction method thereof have been described as an example, but this is only an example, and the continuous construction-type PC wall and the construction method of the PC wall and the construction method thereof may be used for products other than the construction method. have.

Therefore, the true technical protection scope of the present invention should be defined by the following claims.

10: main body 12: connecting groove
14: insertion groove 30: connection
32: vertical connecting reinforcing bar 34: steel plate member
36: stud bolt 50: connection reinforcement
52: horizontal connecting bar 54: frame member
56: pouring wall 70: slip prevention
72: Uneven projection 74: Uneven mold

Claims (6)

A plurality of connection grooves are provided, the main body forming a wall;
A connecting portion inserted into a plurality of the connecting groove portions disposed adjacently when the body portion is continuously constructed to connect the body portions disposed adjacent to each other;
A connection reinforcing part that integrally connects the connection parts to the connection groove parts and connects the main body parts disposed adjacent to each other; And
It includes a slip preventing portion for preventing the connection portion and the connection reinforcement portion is separated from the connection groove portion,
The connecting portion,
A vertical reinforcing bar impregnated into the main body and protruding a part in a downward direction; And
And a steel plate member inserted into the connection groove and extending to the other connection grooves disposed adjacent to each other to be inserted into a plurality of the connection grooves.
delete According to claim 1, wherein the connection reinforcement,
A plurality of horizontal connecting rebars protruding from the main body portion toward the inside of the connecting groove;
A mold member installed in the connecting groove and preventing the loss of concrete mortar injected into the connecting groove; And
A continuous construction type PC wall comprising a concrete wall mortar formed in the connecting groove portion and the molded member, and cured, thereby integrating the iron plate member and the horizontal connecting rebar into the connecting groove portion.
According to claim 1,
The slip preventing portion, a continuous construction type PC wall, characterized in that it comprises a plurality of irregularities formed in the connecting groove.
(A) a plurality of connecting grooves are provided, the step of manufacturing the main body to be impregnated with a plurality of vertical connecting reinforcing bars;
(B) a step of continuously placing a plurality of the main body portion by inserting the vertical connecting reinforcing bar provided with a portion protruding to one side of the main body portion in the insertion groove of the other body portion disposed adjacent; And
(c) inserting an iron plate member into the connection grooves that are continuously arranged to each other, and installing a mold member in the connection groove to close ends of the space portion into which the iron plate members are inserted;
(d) Continuous construction type PC wall construction method comprising injecting and curing concrete mortar at the same time to a plurality of connection grooves.
The method of claim 5,
In the step (a), when the main body is manufactured, the concave-convex mold is disposed on both ends of the main body to form the connecting groove, and after the main body is cured, the concave-convex mold is separated from the main body by sliding. Continuous construction type PC wall construction method, characterized in that.

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