KR101545936B1 - Precast wall structure construction - Google Patents

Abstract

The present invention relates to a construction method for a precast wall structure capable of economically and efficiently assembling and constructing a precast wall structure. The construction method for a wall structure comprises: (a) a step of separating upward both bottom plate wall parts integrated with a bottom plate from the ground to prevent the bottom plate wall parts connected to wall parts from not being positioned in a lower right corner part of a box structure; (b) a step of longitudinally installing the wall parts, formed into a vertical wall type while having a lower part on which a central bottom part of the wall parts is formed to face an inner blockout part (S1) and an outer blockout part (S2) to each other and an upper part in which an outer vertical part is formed and an inner holding groove is formed on the top inside the outer vertical part, on the top of both bottom plate wall parts; and (c) a step of finishing the inner blockout part (S1) and the outer blockout part (S2) by connecting a connection steel reinforcement of the wall parts drawn out from the inner blockout part (S1) and the outer blockout part (S2) to a connection steel reinforcement of the bottom plate wall parts (110) using fastening units in the inner blockout part (S1) and the outer blockout part (S2) in a state where the wall part central bottom part of the wall parts is supported on the top of the bottom plate wall parts.

Description

[0001] PRECAST WALL STRUCTURE CONSTRUCTION [0002]

The present invention relates to a method of constructing precast wall structures. More specifically, the present invention relates to a method of constructing a precast wall structure that can assemble and construct precast wall structures more economically and efficiently.

FIGS. 1A, 1B, and 1C illustrate a conventional method of constructing a wall structure using a precast front wall and a rear wall.

The final constructed wall structure is constructed as a box-like structure comprising a bottom plate, a wall structure and a top plate.

The precast front wall 12 and the precast back wall 11 connected to each other are vertically raised to connect the precast front wall 12 and the precast back wall 11 connected to each other as shown in FIG. .

At this time, the pre-cast rear wall and the front walls 11 and 12 are likely to be conducted by the applied pressure when laid-in-place inner wall concrete is laid, and the bent end blocks 14 facing each other are connected by splice And the wall connection reinforcing bars 13 are connected to each other by a coupler so that they can be restrained with each other to more effectively support the installation pressure. At this time, an opening S is formed in the lower part of the precast back wall 12.

1a, the cast steel rods 15 of the precast front and back wall 11, 12 are horizontally bent downward and laid so as to extend toward the bottom plate 20, so that a bottom plate (not shown) The bottom plate concrete 21 is installed to the bottom of the precast front wall 11 and the bottom wall 12 so that the cast iron 15 extending toward the bottom plate So as to be buried.

Next, as shown in FIG. 1B, after the bottom plate concrete is cured, the inner wall concrete 16 is poured so that the wall connecting reinforcing bars 13 are buried, thereby completing the final wall structure construction.

Next, as shown in FIG. 1C, the final upper plate 30 is installed between the tops of the two wall structures by using the upper plate concrete or the like, so that the box structure (A) can be constructed.

In this way, the wall structure A can be formed such that the walls 11 and 12 are integrated with each other in the longitudinal direction while being strong against the bottom plate 20 and the top plate 30 is also integrated with the walls 11 and 12 .

However, the wall structure A must be manufactured separately from the precast front wall 11 and the back wall 12, and the shape is not simple and may not be efficient. In the case where the wall height becomes large, the precast front wall 11 And the height of the back wall 12 must be increased to be applied to the construction of a limited wall structure.

Accordingly, in the construction of the precast wall structure, when the bottom plate portion of the precast wall structure is constructed, the lower portion of the wall portion can be formed (bottom plate portion) together with the wall portion, It is possible to integrate the wall portion and the bottom plate portion constructed beforehand by stable self-reliance while preventing the connection portion of the bottom plate portion from being positioned, and to allow the upper portion of the wall portion and both ends of the girder to be stably mounted, The present invention provides a method of constructing a precast wall structure.

In order to achieve the above technical object

First, the bottom plate portion of the wall structure according to the present invention is installed with the cast concrete in place, and the lower ridge portion of the wall structure is formed before the bottom plate portion is formed, so that the lower portion of the wall portion is formed together with the bottom plate portion .

At this time, the connecting reinforcing bars drawn on the upper surface of the bottom plate wall portion and the connecting reinforcing bars drawn out from the bottom of the wall portion are connected to each other by fasteners such as couplers, and the connecting reinforcing bars are positioned on the inside of the wall portion and the block- And the wall bottom part between the connecting bars is horizontally interposed on the upper surface of the bottom plate wall part so that the wall part can be stably installed independently.

Second, the connecting portion between the upper portion of the bottom plate wall portion and the upper plate forms an upper ridge portion of the wall structure. Both ends of the girder are inserted into the inner side groove formed on the upper surface of the wall portion, a slab is formed on the upper surface of the girder, The upper and lower right corner concrete are laid in the outer vertical part of the inner side and the upper side space of the inner side to integrally integrate the girder and the wall part in the longitudinal direction while integrating the upper plate and the wall part.

Third, the connecting reinforcing bars of the wall portion and the bottom plate wall portion can be stably self-supported by fasteners. However, in order to prevent the wall portion from falling, a bottom wall portion and a vertical steel bar preventing member .

In addition, a support groove is formed in the bottom surface of the central bottom portion of the wall portion, and the support groove reinforcement extended from the central upper surface of the bottom plate wall portion is extended to the support groove in the support groove, so that the initialization of the wall portion and the low- .

Fourth, the wall structure according to the present invention further forms an intermediate pillar portion when the lateral width becomes larger. To this end, the present invention is characterized in that both ends of the girder are fitted in the upper and lower outer side engagement grooves on the upper part of the intermediate pillar, the horizontal connection reinforcing bars pulled out from the end face of the girder are connected to each other using fasteners such as couplers, And the end portion concrete is inserted and cured in the longitudinal direction between the end portions of the girders and the end portions of the girders so that the intermediate columns and the girders are integrated with each other.

At this time, the lower part of the intermediate pillar part is also connected to the bottom plate part and the connecting reinforcing bars by a fastener and then closed.

Fifth, in order to accurately set the position of the connecting reinforcing bars of the intermediate column portion and the bottom plate wall portion, the upper ends of the connecting reinforcing bars are constrained by the connecting reinforcing bars so that the spacing distance of the plurality of connecting reinforcing bars does not change during the fitting process . The connection reinforcing bar may be formed as a steel plate so as to have a built-in cap into which the upper end of the connecting reinforcing bar can be inserted, and a lower portion of the built- Thereby setting the position of the connecting reinforcing bar.

At this time, the connecting reinforcing bars can be easily fastened to each other in the inner block out part S1 and the outer block out part S2 by using fasteners, and the inner block out part S1 And the outer block-out portion S2 are filled with the filling material.

According to the present invention, the wall structure minimizes the size of the wall portion, thereby improving the workability in the manufacture, transportation and construction. The wall portion and the bottom wall portion are stably assembled and then connected to each other by a fastener, And the wall portions are integrated with each other in the longitudinal direction through the block out portion.

According to the present invention, the bottom plate portion and the wall portion can avoid the connection positions of the upper and lower right leg portions, in which the bending moment is large, so that structural safety can be ensured.

According to the present invention, in the wall structure having a large transverse width, the intermediate pillar portion can be integrated with both girders, thereby making it possible to construct a precast wall structure more efficiently.

FIGS. 1A, 1B and 1C are flow charts showing a construction procedure of a conventional precast concrete mixed concrete type wall structure,
FIGS. 2A, 2B and 2C are a bottom plan view and a wall section of the precast wall structure of the present invention,
FIG. 3A is a perspective view of the connection structure of the precast wall structure bottom plate portion, the wall portion, and the top plate portion of the present invention,
FIG. 3B is a view showing the construction of the precast wall structure upper plate of the present invention,
Fig. 3C is a view showing the installation of the wall portion, the connecting reinforcing bar of the bottom plate, and the connecting reinforcing bar setting member of the present invention,
FIG. 3D is a view showing the installation of the vertical steel bar preventing member of the present invention,
4A and 4B are a detailed view of the connection structure between the bottom plate portion and the intermediate column portion of the present invention and the installation view of the connecting reinforcing bar setting member of the intermediate column portion,
5A, 5B and 5C are flowcharts of a method of constructing a precast wall structure according to Embodiment 1 of the present invention,
6A, 6B and 6C are flowcharts of a method of constructing a precast wall structure according to a second embodiment of the present invention,
Figs. 7A, 7B and 7C show a flowchart of a method of constructing a precast wall structure according to a third embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[The bottom plate portion 100 and the wall portion 200 of the precast wall structure]

FIGS. 2A, 2B and 2C show construction cross sections of the precast wall structure bottom plate part 100 and the wall part 200 of the present invention.

The precast wall structure of the present invention includes a bottom plate portion 100, a wall portion 200, and an upper plate portion 300, and the construction of the bottom plate portion 100 will be described.

That is, when the bottom plate portion 100 is constructed, the bottom plate wall portion 110 is integrally formed to form the lower right corner A1.

The bottom plate wall part 110 forms a lower part of the wall part 200 in the form of a curved shape in which the vertical wall part 112 is formed from the ends of the horizontal bottom plate part 111 and the horizontal bottom plate part 111. The bottom plate wall portion 110 is formed together with the bottom plate portion 100 and the bottom plate wall portion 110 constitutes the lower portion of the wall portion 200 to reduce the height of the wall portion 200, The connection portion between the bottom plate portion 100 and the wall portion 200 is located on the upper side of the lower right corner portion A1 in the lower right corner portion A1 so that the connection portion is not located at the portion where the bending moment is largely generated .

2A, the bottom plate portion 110 is formed integrally with the cast-in-place concrete when the bottom plate portion 100 is formed, and the wall portion 200 is formed on the top side of the bottom plate portion 110, And the like.

The inner reinforcing bar passing through the bottom plate portion 100 and the bottom plate wall portion 110 is bent horizontally to the upper surface of the bottom plate portion 110 and extended upward to be exposed to the connecting reinforcing bar 120 .

In the case of FIG. 2B, first, the bottom plate wall portion 110 manufactured in a precast method is first set, and the bottom plate portion 100 is formed of a cast concrete to construct a bottom plate wall portion and a bottom plate portion integrally.

At this time, the inner reinforcing bars drawn from the end face of the bottom plate portion 100 are connected to the inner reinforcing bars of the bottom plate wall portion 110 to pour the bottom plate concrete, and the inner reinforcing bars of the bottom plate wall portion 110 also extend upward So that it is exposed to the connection reinforcing bars 120.

2C, the bottom plate 100 is formed of a cast concrete, but the precast bottom plate portion 110 is separately constructed. The difference from FIG. 2B is that the bottom plate portion 100 110 " is formed in a " shape " in which the outer horseshoe portion 113 is formed instead of the " a-shape ".

The bottom plate wall portion 110 formed in the above-mentioned " shape " reinforces the lower right corner portion to form a more stable bottom plate portion 100 and serves to prevent floating of the bottom plate portion and the bottom plate wall portion against buoyancy do.

The inner reinforcing bar drawn from the end face of the bottom plate portion 100 is connected to the inner reinforcing bars of the bottom plate wall portion 110 and the inner reinforcing bar of the bottom plate wall portion 110 also extends upward from the top face, As shown in FIG.

[Connection of precast wall structure bottom plate part 100, wall part 200, and top plate part 300]

Fig. 3B is a perspective view of the precast wall structure upper plate portion of the present invention, Fig. 3C is a side view of the wall portion of the present invention, And FIG. 3D is a view showing an installation view of the vertical steel bar preventing member of the present invention.

First, the bottom plate 100 is formed to have a "b" shape as shown in FIG. 2C although the bottom plate 100 and the bottom plate wall portion 110 are formed as a "b" shape as shown in FIGS. 2A and 2B Do.

As shown in FIG. 3A, the wall part 200 is a vertical wall structure having a predetermined thickness. The lower part of the wall part 200 is formed so that the inner block out part S1 and the outer block out part S2 are opposed to each other, It can be seen that the second electrode 210 is formed naturally.

At this time, it can be seen that the inner reinforcing bar of the wall part is extended to the inner reinforcing bar 220 and the inner reinforcing bar 220 at the inner block out part S1 and the outer block out part S2.

As shown in FIG. 3B, the wall portions 200 are formed such that a plurality of the wall portions 200 are laterally coupled to each other. In the side walls, the coupling grooves 260 are vertically formed over the entire length of the side walls, The connecting reinforcing bars 270 are drawn out into the coupling grooves and are coupled to each other by the filler material 500 such as non-shrinkable mortar and the sealant is used to finish the coupling grooves 280 at the outer side.

At this time, it can be seen that the connection reinforcing bars 270 allow the two folding ends to be pulled out to the two coupling grooves merged with each other by the U-shaped reinforcing bars, thereby ensuring the easiness of the laying.

Further, the upper portion is formed to have a constant height with the outer vertical portion 230 as shown in FIG. 3A, and the upper inner surface of the wall portion is formed with the inner engagement groove 240 inside the outer vertical portion.

The slabs 320 are formed on the upper surface of the girder so that both ends of the girders 310 are fitted into the inner engaging grooves and the thickness of the girders and the slabs is adjusted to coincide with the upper surface of the outer vertical portion 230 The upper plate 300 including the slab and the girder by placing the upper right corner concrete C2 on the end surface of the slab 320 and the girder 310, the outer vertical part 230 and the upper space of the inner latching groove 240, And the wall part 200 can be strongly coupled with each other in the longitudinal direction.

At this time, it is assumed that the girders 310 are vertically bent so that their side surfaces are in contact with each other, and that both ends of the horizontal plate 311 are formed as downward bent portions 312 so as to be fitted in the inner side engagement grooves 240 .

The lower end of the horizontal plate 311 is supported by the step 241 of the inner latching groove 240 so that the lower bent portion 312 is inserted into the inner latching groove 240 so that the lower bent portion 312 Is formed to protrude downward from the bottom surface of the horizontal plate 311.

As shown in FIG. 3C, when the wall part 200 and the top plate 300 are coupled in detail,

First, the connecting reinforcing bars extending from the girder 310 and the slab 320 to the upper space of the inner engaging groove 240 and bent upward are engaged with the connecting reinforcing bars extending vertically from the wall portion to the upper space of the inner engaging groove 240 The top plate 300 and the wall 200 including the slab and the girder are laid in the longitudinal direction by placing a topping concrete (not shown) between the upper space of the inner latching groove 240 and the upper surface of the slab, May be mutually strong,

The connecting reinforcing bars extending from the girder 310 and the slab 320 to the upper space of the inner engaging groove 240 are joined to the connecting reinforcing bars extending vertically to the upper space of the inner engaging groove 240, 230 are connected to each other by a fastener including a coupler and the upper right corner concrete (C2) is placed on the upper space of the inner latching groove (240) and the upper surface of the slab to form the upper plate portion including the slab and the girder 300 and the wall portion 200 can be made stronger in the longitudinal direction.

As shown in FIG. 3B, the lower part of the wall part 200 is supported on the upper surface of the lower part of the wall part 110 so that the wall part 200 can be stably installed. However,

At this time, depending on the thickness of the wall part, there is a risk of conduction when the wall part 110 is installed in the bottom wall part 110, so that the present invention is further provided with the conduction preventing member.

Such a deterioration preventing member is usually a STRUT member extending obliquely to both sides of the wall portion 200. Such a strut member has a problem of occupying a large amount of peripheral space, and thus deteriorating workability.

As shown in FIG. 3D, the bottom plate wall portion 110 and the bottom plate wall portion 200 are coupled to the bottom plate wall portion and the wall portion, respectively, so that the connecting reinforcing bars of the wall portion and the bottom plate wall portion can be secured The vertical steel bar preventing member 400 is installed.

That is, a vertical steel bar 410 passing through the inner block out portion S1 and the outer block out portion S2 is disposed in the bottom plate wall portion and the wall portion, Are fixed to the outer surface of the wall unit 200 and the outer surface of the bottom plate wall unit 110 with the fixture 420, respectively.

The fixture 420 is fixed to the outer surface of the bottom plate wall portion and the wall portion by a temporary fixture such as an anchor bolt so that the fixture 420 can be detached from the fixture 420. Both ends of the vertical steel bar 420 penetrate through the fixture 420, It is possible to prevent the wall part 200 from being conducted by fixing the end part of the wall part 200 to the fixing part 420 by the fastening nut.

3B, the bottom of the wall bottom part 210 may be formed in the support groove 211 to prevent the wall part 200 from being tilted, and the support groove 211 may be formed in the bottom wall part 110 The supporting groove reinforcing bars 111 drawn out from the central upper surface extend into the supporting grooves 211 so that the filling member 500 is injected in a state where stable initial self-standing of the wall portion and the bottom plate wall portion is possible, .

3B, the bottom plate wall part 110 and the wall part 200 of the bottom plate part are connected to each other by connecting reinforcing bars 120 and 220. The connecting reinforcing bars 120 and 220 are connected to the inside and outside blocks of the wall part 200, And the bottom plate wall portion 110 of the bottom plate portion is horizontally in contact with the wall bottom central portion 210 so that the wall portion 200 can be stably assembled .

The connection reinforcing bars 220 of the wall part 200 drawn out to the inner block out part S1 and the outer block out part S2 are connected to the connection reinforcing bars 120 and the inner block out part 120 of the lower plate wall part 110 S1 and the outer block-out portion S2 are connected to each other by fasteners 250 including couplers.

The connection reinforcing bar 220 of the wall part 200 and the connecting reinforcing bar 120 of the bottom plate wall part 110 are connected to each other so that the center axes of the connection reinforcing bars 220 are aligned with each other . To this end, the present invention utilizes a connecting reinforcing bar 700.

As shown in FIG. 3B, the connecting reinforcing bar 120 of the bottom wall portion 110 can be precisely set so that the spacing distance of the plurality of connecting reinforcing bars in the grounding state is not changed during the construction process, Thereby restricting the upper ends of the connecting bars 120.

The connecting reinforcing bar 700 may be formed of a steel plate and may include a built-in cap 710 through which the upper end of the connecting reinforcing bar 120 may be inserted, So that the upper end of the connection reinforcing bar 120 is inserted to set the position of the connecting reinforcing bar 120.

3A and 3B, the connection reinforcing bar 700 is formed to extend in correspondence with the longitudinal extension length of the bottom plate portion 110,

Accordingly, the connection reinforcing bar 120 and the connecting reinforcing bar 220 of the wall portion can be connected to each other on the same center axis by fastening means.

The connection reinforcing bars 120 and 220 connected by the fastening tool 250 are buried by the filler 500 filled in the inner block out portion S1 and the outer block out portion S2, (200) are integrated with each other.

At this time, the filling material 500 is filled in the inner block out portion S1 and the outer block out portion S2 by using the temporary wall part plate form 910 as shown in FIGS. 3A and 3B.

The temporary wall part plate formwork 910 may be a kind of form consisting of a vertical plate 911 and a lower horizontal plate 912 so that they can be connected to each other in the longitudinal direction and the edge plates 913 at both ends are connected to each other by anchor bolts 914 So that they can be continuously installed in the longitudinal direction.

The filling material 500 may be connected to the inner block out portion S1 and the outer block out portion S2 to use the injection hole B exposed on the outer surface of the wall portion 200. [

As shown in FIG. 3A, it can be seen that the wall part 200 is vertically penetrated through the wall part 200 using a fixing device such as a stranded wire so that the wall part 200 can be pressed and connected in the longitudinal direction.

It can be seen that a plurality of the bottom plate wall body 110, the wall portion 200 and the girders 300 except for the bottom plate 100 are installed in the longitudinal direction so that their side surfaces are in contact with each other and are stronger than each other.

[Connecting arrangement of the middle post 800]

4A and 4B are perspective views illustrating the connection structure of the intermediate pillar 800 of the present invention.

The wall structure of the present invention further forms the intermediate pillar 800 when the lateral width becomes larger.

That is, when the transverse width of the upper plate 300 is increased, the extension length of the girders 310 constituting the upper plate 300 becomes longer and the width of the girders 310 becomes larger, (800) is supported.

The upper part of the intermediate column part 800 should be installed so that the ends of both girders 310 are supported and the lower part is integrated with the bottom plate part 100. [

The upper portion of the intermediate columnar portion 800 has a rectangular cross section or the like and an enlarged flange is formed at the upper end of the columnar portion 830 and the columnar portion 830 such that the upper surface of the enlarged flange 840 has an inner engaging groove 860 are formed so that both end portions of the girders are fitted in the same manner as the wall portion 200.

The horizontal connection reinforcing bar 330 drawn out from the end face of the girder is also fastened to the fastening hole 350 like the coupler between the end faces of the adjacent two girders 310 with respect to the inner fastening groove 860 of the extension flange 840, And the reinforcing members 500 such as non-shrinkage concrete are used to integrate the horizontal connection reinforcing bars with each other.

The lower portion of the intermediate column portion 800 is connected to the connection reinforcing bar 120 which is drawn upward from the bottom plate portion 100 and the lower central portion of the intermediate column portion 800, And the connection reinforcing bars 820 extending to the block out portion are connected to each other by using a fastener 850 such as a coupler and are finished with the filling material 500. [

The bottom of the sleeve 870 is opened so that the connecting reinforcing bar 120 of the bottom plate 100 is inserted into the inside of the sleeve 870 And the filler grooves 811 are formed on the bottom surface so as to communicate with the block-out portion S3. It is preferable that the filling material is injected into the filler grooves 811 so that the integrated performance of the intermediate column portion and the bottom plate portion can be ensured more reliably.

The filler 500 is finished in the block out part S3 by using the temporary intermediate post part assembly mold 920 installed to surround the lower part of the column part 830, .

It can be seen that the assembly mold 920 for the temporary middle post part is constructed such that a pair of assembly molds 921 are assembled to each other by wrapping the lower part of the intermediate column part 800 so as to be connected to each other, .

Also, the connecting reinforcing bars 820 of the intermediate column portion 800 and the connecting reinforcing bars 120 of the bottom plate portion 100 should be precisely positioned so that the central axes thereof are not inferior to each other do.

To this end, the present invention utilizes the connecting reinforcing bar 700 as well.

In order to accurately set the position of the connecting reinforcing bar 120 of the bottom plate wall portion 110, the connecting reinforcing bar 700 is connected to the connecting reinforcing bars 700 so that the spacing distance of the plurality of connecting reinforcing bars is not changed during the installation process 120, respectively.

The connecting reinforcing bar 700 may be formed of a steel plate and may include a built-in cap 710 through which the upper end of the connecting reinforcing bar 120 may be inserted, So that the upper end of the connection reinforcing bar 120 is inserted to set the position of the connecting reinforcing bar 120.

The upper end of the connection reinforcing bar 120 may extend through the upper surface of the connecting cap 710 and upwardly of the connecting reinforcing bar 700.

At this time, the connection reinforcing bar 700 may be formed according to the cross-sectional size of the intermediate pillar 800.

Accordingly, the connection reinforcing bars 120 and the connecting reinforcing bars 820 of the intermediate columns can be connected to each other on the same central axis by fastening means.

Further, the connecting reinforcing bar 820 of the intermediate column can be inserted accurately into the sleeve 870.

[Construction method of precast wall structure]

A method of constructing a precast wall structure of the present invention will now be described with reference to Examples 1, 2, and 3.

[Example 1]

5A, 5B, and 5C are flowcharts of a method of constructing a precast wall structure A according to the first embodiment of the present invention. As shown in FIG. 2A, the bottom plate 100 and the bottom plate wall portion 110 are put into place It can be said that it is formed by concrete.

The precast wall structure A is constructed in the form of a rectangular box body, and the bottom plate portion 100, the intermediate column portion 800, and the both wall portions 110, 200 and an upper plate 300.

That is, first, the bottom plate portion 110 and the "B " bottom plate wall portion 110 are formed integrally using a casting (not shown) by using the cast concrete as shown in FIG. 5A.

At this time, the connection reinforcing bars 120 are installed on the upper surface of the bottom plate portion 110 to be drawn out.

Also, the connection reinforcing bar 820 is installed so that the intermediate pillar 800 can be formed in the middle of the bottom plate 100.

Next, as shown in FIG. 5B, a vertical steel bar preventive member 400 for restricting the bottom plate wall portion and the wall portion, which are previously described in the bottom plate wall portion 110, The support groove reinforcement 111 extended from the central upper surface of the part 110 extends into the support groove 211 to stably initialize the wall part 200. [

The connection reinforcing bars 220 of the two wall portions 200 are connected to the connecting reinforcing bars 120 of the bottom plate wall portion 110 by using fasteners 250 including couplers.

The intermediate pillar 800 also connects the lower connecting reinforcing bars 820 and the connecting reinforcing bars 120 of the bottom plate 100 with each other using the fastening holes 850 as shown in FIG.

At this time, the connection reinforcing bars 120 and 220 of the bottom plate 100 and the wall part 200 are respectively connected to the inner block out part S1 and the outer block out part S2 by using the temporary wall part plate form 910 The filling material 500 is filled and finished,

The connection reinforcing bars 120 and 820 of the bottom plate portion 100 and the intermediate column portion 800 are respectively fixed to the inner block out portion S1 and the outer block out portion S2 by using the temporary intermediate post assembly mold 920, (500) is filled and closed.

At this time, the bottom plate portion 100 and the wall portion 200 will be constructed according to the number of installation in accordance with the longitudinal extension length that can be applied once.

5C, both ends of the girder 310 are inserted between the wall portion 200 and the intermediate column portion 800. The girder 310 is formed by a pre-casting method By constructing in the way that they are built, they can be quickly installed and locked so that they can be tangent to each other in the longitudinal direction.

A slab 320 is formed on the upper surface of the girder 310 and a filling material 500 is placed on the upper and lower right corners of the girder 310 to form a final slab, And the intermediate pillar are integrated with each other to complete the precast wall structure (A).

[Example 2]

6A, 6B and 6C are flowcharts of a method of constructing a precast wall structure (A) according to a second embodiment of the present invention. After the precast bottom wall portion 110 is set as shown in FIG. 2B, 100) is formed by cast concrete.

The precast wall structure A is also constructed in the form of a rectangular box body, and the bottom plate portion 100, the intermediate column portion 800, and the both wall portions 110, (200) and an upper plate part (300) are the same as those in the first embodiment.

[Example 3]

7A, 7B, and 7C are flowcharts of a method of constructing a precast wall structure (A) according to a third embodiment of the present invention. As shown in FIG. 2C, the bottom horseshoe- The case where the bottom plate portion 100 is formed of the cast-in-place concrete after the wall portion 110 is set.

The precast wall structure A is also constructed in the form of a rectangular box body, and the bottom plate portion 100, the intermediate column portion 800, and the both wall portions 110, (200) and an upper plate part (300) are the same as those of the first and second embodiments.

The precast wall structure (A) according to the present invention is constructed such that the bottom plate portion 100 is constructed by installing the bottom plate wall portion 110 in combination with the cast concrete method, and the wall portion 200, the upper plate portion 300, The part 800 is quickly installed in a pre-casting manner, and is integrated with the filler 500 to strengthen it. In addition, the part 800 is advantageous in prevention of falling when the wall part is initially set, By using the inner block-out part S1 and the outer block-out part S2 which are continuously connected to each other in the longitudinal direction so that the connection reinforcing bars of the column part and the bottom part are easily connected up and down using a coupler and finished with a filling material, Directional integrity can be sufficiently secured.

In addition, the connection portion of the connecting reinforcing bars is not located at the lower right corner portion A1, so that structural safety can be ensured.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100:
110: bottom plate wall portion
111: horizontal bottom plate portion 112: vertical wall portion
113: outer horseshoe part 120: connection reinforcing bar
200: wall part
210: wall portion central bottom portion 211: support groove
220: connecting reinforcing bar 230: outer vertical part
240; Inner engaging groove 250: fastener
300: top plate
310: girder 320: slab
330: horizontal connection reinforcing bar 400: vertical steel bar preventing member
410: Vertical steel bar 420: Fixing bracket
500: filler
600: Tension material 610: Fixing device
700: connecting reinforcement setting member 710: built-in cap
800: intermediate pillar portion 810: middle pillar portion central bottom portion
820: connecting reinforcing bar 830:
840: Expansion flange 850: Coupler
860: Inner engaging groove 870: Sleeve
910: Temporary wall part plate formwork
911: Horizontal plate 912: Lower horizontal plate
913: Angry plate 914: Anchor bolt
920: Assembly mold for temporary intermediate posts
921: a pair of assembly dies

Claims (14)

(a) the bottom plate portion 110 is formed so as to be spaced apart from the ground so as to be integrally formed with the bottom plate portion so that the connection portion between the bottom plate portion 110 and the wall portion 200 is formed To form at the top;
(b) In the form of a vertical wall, the lower part is formed with a wall bottom central part 210 formed at the bottom so that the inner block out part S1 and the outer block out part S2 are opposed to each other, (230); forming a wall part (200) having an inner side latching groove (240) on an upper side inwardly of the outer side vertical part, on the upper surface of the both side plate wall part;
(c) The wall portion central bottom portion 210 of the wall portion is supported on the upper surface of the bottom plate portion 110. The inner block out portion S1 and the outer block out portion S2, The connecting reinforcing bar 220 of the part 200 is connected to the connecting reinforcing bar 120 of the bottom plate wall part 110 by the fastener 250 at the inner block out part S1 and the outer block out part S2 Closing the inner block out portion (S1) and the outer block out portion (S2); And
(d) integrating the upper plate part 300 including the girder 310 and the slab 320 on the upper surface of the wall part,
In the step (b)
The connecting reinforcing bars 220 of the wall part 200 and the connecting reinforcing bars 120 of the bottom wall part 110 are connected to each other using a connecting reinforcing bar 700,
The connection reinforcing bar 700 may be formed of a steel plate so as to have a built-in cap 710 into which the upper end of the connection reinforcing bar 120 can be inserted, So as to insert the upper end of the connecting reinforcing bar 120, thereby setting the position of the connecting reinforcing bar 120,
Wherein the connecting reinforcing bar (700) is formed to extend in correspondence with a longitudinal extension length of the bottom plate wall portion (110). The method according to claim 1,
The both bottom plate wall portions 110 integrally formed with the bottom plate portion of the step (a)
The bottom wall portion 110 is formed integrally with the bottom plate portion 100 and the cast-in-place concrete, the wall portion 200 is connected to the top surface of the bottom plate portion 110,
After setting the precast bottom plate portion 110 in the form of a letter, the bottom plate portion 100 and the cast-in-place concrete are integrally formed, and the wall portion 200 is connected to the top surface of the bottom plate portion 110 ,
The precast bottom plate wall portion 110 of the "ㅗ" shape in which the outer horseshoe portion 113 is further formed is set and then integrally formed by the bottom plate portion 100 and the spotted concrete, And connecting the wall part (200) to an upper surface of the wall part (200). The method according to claim 1,
In the step (b), the wall portion 200 has a plurality of longitudinally coupled lateral grooves 260, and a lateral groove 260 is formed vertically over the entire length of the lateral side of the wall portion 200, The connecting reinforcing bars 270 are pulled out into the coupling grooves to be coupled to each other by the filler material 500. The connecting reinforcing bars 270 are formed so as to allow the two folding ends to be pulled out to the two coupling grooves adjacent to each other with the C- Construction method of precast wall structure. The method according to claim 1,
The bottom plate wall portion 110 of the step (b) is horizontally placed in contact with the wall bottom central portion 210 to enable stable assembly of the wall portion 200. The bottom plate wall portion 110 and the wall portion 200 further comprises a vertical steel bar preventing member 400 for restraining the bottom plate wall portion and the wall portion from each other up and down,
The vertical steel bar preventing member 400 includes a bottom plate wall portion and a vertical steel bar 410 passing through the inner block out portion S1 and the outer block out portion S2 upward and downward in the wall portion, And the upper end and the lower end of the steel bar 410 are fixed to the outer surface of the wall part 200 and the outer surface of the bottom plate wall part 110 with fixing members 420. The method according to claim 1,
In step (b), the filling material is filled in the inner block out part S1 and the outer block out part S2 by using the temporary wall part plate form 910. The temporary wall part form mold 910 The end plates 913 of the end plates 911 are connected to each other by the anchor bolts 914 so that they can be connected to each other in the longitudinal direction A method of constructing a precast wall structure. The method according to claim 1,
In the step (d), the wall part 200 and the upper plate part 300
The connecting reinforcing bars extending from the girder 310 and the slab 320 to the upper space of the inner engaging groove 240 and bounded upward are bound to the connecting reinforcing bars extending vertically to the upper space of the wall inner rotor engaging groove 240, The top portion concrete C2 is placed in the upper space of the inner latching groove 240 and the upper surface of the slab so that the upper plate portion 300 including the slab and the girder portion and the wall portion 200 can be tightened in the longitudinal direction Construction method of precast wall structure. The method according to claim 1,
In the step (d), the wall part 200 and the upper plate part 300
The connecting reinforcing bars extending from the girder 310 and the slab 320 to the upper space of the inner engaging groove 240 are joined to the connecting reinforcing bars extending vertically to the upper space of the inner engaging groove 240 and the outer vertical portions 230 And a top plate portion 300 including the slab and the girder is formed by placing the upper right corner concrete C2 on the upper space of the inner side latching groove 240 and the upper surface of the slab 300 ) And the wall part (200) can be tightened to each other in the longitudinal direction. The method according to claim 1,
Between the step (c) and the step (d)
The upper part of the girder 310 is supported and the lower part of the girder 310 is integrally formed with the lower plate part 100,
An upper portion of the intermediate column portion 800 has a rectangular cross section and an upper end of the column portion 830 and an upper end of the column portion 830 form an enlarged flange. 860) so that the ends of both girders (310) are fitted together in the same manner as the wall part (200). 9. The method of claim 8,
The horizontal connection reinforcing bar 330 drawn out from the end face of the girder is connected between the end faces of the adjacent both girders 310 with reference to the inner engaging groove 860 of the expansion flange 840 And integrating the horizontally connecting reinforcing bars with each other using the filler material (500) so that the horizontal connecting reinforcing bars are embedded. 10. The method of claim 9,
The lower part of the intermediate column part 800 is formed of a connection reinforcing bar 120 which is drawn upward from the bottom plate part 100 and a block-out part which is formed to surround the middle column part central bottom part 810 of the lower part of the intermediate column part 800. [ S3, < / RTI >
A method of constructing a precast wall structure to connect the connecting reinforcing bar 820 extended to the block out portion and the connecting reinforcing bar 120 by using a fastener 850 such as a coupler and finishing with the filling material 500 . 10. The method of claim 9,
The sleeve 870 is further inserted into the intermediate bottom portion 810 and the bottom of the sleeve 870 is opened so that the connecting reinforcing bar 120 of the bottom plate 100 is inserted into the sleeve 870 And the filler grooves 811 are formed to communicate with the block-out portion S3. The filler material is injected into the filler grooves 811 to form the intermediate column portion and the bottom plate Wherein the method comprises the steps of: 12. The method of claim 11,
The filling out material 500 is filled in the block out part S3 by using the temporary intermediate post part assembly mold 920 installed to surround the column part 830. [ The assembly molds 920 for temporary intermediate posts partly surround the lower part of the middle column part 800 and are connected to each other so that a pair of assembly molds 921 and 922 are assembled to each other in a box- A method of constructing a precast wall structure. 13. The method of claim 12,
The connecting reinforcing bar 820 of the intermediate pillar 800 and the connecting reinforcing bar 120 of the bottom plate 100 also use the connecting reinforcing bar 700 so that the center axes thereof coincide with each other,
The connection reinforcing bar 700 may be formed of a steel plate so as to have a built-in cap 710 into which the upper end of the connection reinforcing bar 120 can be inserted, So as to insert the upper end of the connecting reinforcing bar (120), thereby setting the position of the connecting reinforcing bar (120). delete

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