KR102637537B1 - Wall structure for its construction method - Google Patents

Abstract

The present invention relates to a wall structure and its construction method. The present invention is applied to the construction of wall structures such as storage tank walls, retaining walls, and building support walls, and provides the foundation of the exterior wall panel by applying an exterior wall panel having a stand-up and gap maintenance zone. When standing and fixing on concrete, it can be stably maintained in an upright state without tipping over without the need for a separate fixing means such as a crane. This allows the construction of a wall structure, unlike in the past, without the use of a separate fixing means such as a crane. While the construction workability of the wall structure can be significantly improved as the project progresses, a coupler joint structure including embedded bolts, coupler nut pipes, connecting bolts, and connecting nuts is applied to the connection between the exterior wall panel and the interior wall panel. After fastening the connecting bolt to the coupler nut pipe, fixing it with a connecting nut through a reinforcing plate and washer on the connecting bolt protruding from the fixing groove of the inner wall panel, and then filling the mortar to complete the fixed installation of the inner wall panel and the outer wall panel. This allows the connection work between the and inner wall panels to be carried out easily and at the same time, a firm holding force can be formed for the connection part.

Description

Wall structure and its construction method {Wall structure for its construction method}

The present invention relates to a wall structure and its construction method. More specifically, it is applied to the construction of wall structures such as water storage tank walls, retaining walls, and building support walls, and is applied to the exterior wall panel having a stand-up and gap maintenance zone, thereby improving the structure of the exterior wall panel. When standing and fixing on foundation concrete, it can be stably maintained in an upright state without tipping over without the need for a separate fixing means such as a crane. Through this, unlike in the past, wall structures can be constructed without the use of a separate fixing means such as a crane. In the process, the construction workability of the wall structure can be significantly improved, while a coupler joint structure including embedded bolts, coupler nut pipes, connection bolts, and connection nuts is installed for the connection between the exterior wall panel and the interior wall panel. By applying it, after fastening the connecting bolt to the coupler nut pipe, fixing it with a connecting nut through a reinforcing plate and washer on the connecting bolt protruding from the fixing groove of the inner wall panel, and then filling the mortar to complete the fixed installation of the inner wall panel while attaching it to the outer wall. It relates to a wall structure and its construction method that enable the connection work between panels and interior wall panels to be carried out easily and at the same time form a strong holding force for the connection part.

In general, storage tanks temporarily store rising rainwater and gradually discharge it to prevent backflow of sewers or river overflows, or gradually discharge water stored in the dry season to prevent river depletion, as well as for use in cities and apartments. It is a well-known fact that it is a facility used for various purposes, such as water for trees for landscaping, cleaning of roads, or fire prevention water.

Recently, as rapid urbanization has occurred, the surface paving rate has increased due to various buildings, roads, sidewalks, etc., so rainwater is not able to seep underground and is discharged into sewers or rivers.

Therefore, during the rainy season, a large amount of rainwater is suddenly discharged into sewers or rivers, causing problems such as sewage backflow or river overflow. In addition, during the dry season, because sufficient moisture is not absorbed into the ground, rivers easily dry up and surrounding plants and trees die.

In particular, during the dry season, water for various purposes such as preventing the withering of trees for apartment complexes or urban landscaping or for road cleaning cannot be supplied from the river, so there is no choice but to use piped water, which is a problem that incurs a lot of costs.

Therefore, in order to solve the above problems, retention tanks that can store and discharge rainwater are being constructed.

However, looking at the method of constructing such a conventional reservoir, the floor is usually dug out and compacted, and then a form for pouring cement concrete is formed on it, and then the cement concrete is poured and cured within the form. In this case, the form is formed on site. Not only is it very cumbersome to do, but it also causes several problems, such as the process of curing cement concrete after pouring it takes a considerable amount of time.

Therefore, recently, a method of manufacturing PC products made of precast concrete in a factory and then assembling them on site has been introduced and implemented.

Referring to Patent Document 1 (Korean Patent No. 10-1083670 registered on November 9, 2011), the conventional storage tank wall is erected based on the foundation to form an inner wall, but the width direction of the panel of the vertically long rectangular side is A first PC wall having a first support portion having a square block shape in cross section to serve as a pillar at both ends, and the overall cross-sectional shape in the transverse direction is formed in a diagonal (ㄷ) shape; After being spaced apart from the first PC wall at a predetermined interval, it stands up symmetrically facing each other to form an outer wall, and a second support part with a square block shape in cross section is installed at both ends in the width direction of the vertically long rectangular panel to serve as pillars. A second PC wall formed so that the overall cross-sectional shape in the transverse direction is in the shape of a diagonal (ㄷ); a plurality of double-threaded bolts that penetrate opposing surfaces of the first PC wall and the second PC wall and are formed to support and secure each other; It is composed of a configuration including in-situ concrete that is poured into spaced apart internal spaces of the first PC wall and the second PC wall supported and fixed by the double screw bolts to form an integrated storage tank wall.

At this time, the first and second PC walls are formed with inlet grooves and through holes to facilitate the insertion and penetration of double-threaded bolts on the surface of the panel and the outer end surfaces of the first and second support parts based on the width direction facing each other.

In other words, the storage tank wall according to the above-mentioned prior art is assembled on the upper surface of the foundation by spaced a plurality of first and second PC walls at predetermined intervals, and the first and second PC walls are arranged in width directions facing each other. After fastening a number of double screw bolts, concrete is poured into the internal space to form a complete PC and RC composite wall structure.

However, the water storage tank wall according to the prior art as described above has a problem in that water leakage occurs due to excessive water pressure as the first and second PC walls are fixedly installed by fastening through double-threaded bolts and through holes.

In other words, the water storage tank wall according to the prior art has a problem of occurrence of waterproofing defects, and furthermore, as waterproofing defects occur, cracks in the first and second PC walls forming the inner and outer walls, and further cracks in the storage tank wall, etc. There was a problem with defects occurring.

Moreover, as the above-mentioned waterproofing defects and cracking defects occur, the period of use after construction of the storage tank wall is shortened, and at the same time, there is a problem of causing frequent maintenance and re-construction of the storage tank wall.

By improving the above-mentioned problems, the fixed installation structure of the inner and outer wall members has been improved to prevent waterproofing defects caused by water leakage due to excessive water pressure, and at the same time, it is possible to prevent cracks in the reservoir wall. With regard to the construction method, Patent Document 2 (Korean Patent No. 10-1281070 registered on June 26, 2013) was developed by the present applicant.

As shown in Patent Document 2 (Korean Patent No. 10-1281070 registered on June 26, 2013), the wall structure for a storage tank has an inner wall panel and an outer wall panel installed in an installation groove recessed in the foundation concrete that forms the bottom of the storage tank. A retention tank wall formed by temporarily fixing each lower part so that it faces each other at intervals, installing formwork on each outer side of the side where the inner wall panel and the outer wall panel face each other, and pouring in-situ concrete in the space where the inner wall panel and the outer wall panel face each other. In the structure, the inner wall panel has reinforcing bars spaced apart in the longitudinal direction on the upper surface and protruding upward, buried on the inside, a filling groove filled with the in-situ concrete at the center of the bottom, recessed upward, and embedded in the foundation concrete to form a foundation that protrudes upward. The reinforcing bars in which the main bars are overlapped project downwardly on the filling groove, and coupling connection grooves into which the basic main bars are inserted are formed on both sides of the filling groove, and the spacing is maintained in a grid arrangement on the side facing the exterior wall panel. A sphere is formed to protrude and is fixed to maintain a certain distance from the exterior wall panel, and the exterior wall panel has reinforcing bars bent and derived from an upper surface embedded in the inside, and a filling groove in which the in-situ concrete is filled is depressed upward at the center of the bottom. The reinforcing bars, which are embedded in the foundation concrete and overlap the upwardly protruding foundation bars, project downwardly on the filling groove, and coupling connection grooves into which the foundation bars are inserted are formed on both sides of the filling groove, and face the inner wall panel. A fixing slot is formed on the surface to correspond to the spacer and secure the end of the spacer in close contact, and is fixed to maintain a constant distance from the inner wall panel.

In other words, the conventional storage tank wall structure with the above configuration improves the fixed installation structure of the inner and outer wall members to prevent waterproofing defects caused by water leakage due to excessive water pressure and at the same time prevents cracks in the storage tank wall. You can do it.

However, the conventional water storage tank wall structure as described above is not maintained in an upright state when fixed on the basic concrete of the inner wall panel, but falls over. Accordingly, the inner wall panel must be maintained in an upright state using a crane, etc. Because this had to be done, there was a problem that constructability was significantly reduced.

Therefore, when standing and fixing an inner wall panel or an outer wall panel on the basic concrete, it can be stably maintained in an upright state without tipping over without a separate fixing means such as a crane, and through this, the constructability of the wall structure can be significantly improved. There is a need for research and development on wall structures and their construction methods.

Korean Patent No. 10-1083670 registered on November 9, 2011. Korean Patent No. 10-1281070 registered on June 26, 2013. Korean Patent Publication No. 10-2022-0091961 published on July 1, 2022. Korean Patent Publication No. 10-2022-0104324 published on July 26, 2022.

In order to solve the above problems, the present invention is applied to the construction of wall structures such as storage tank walls, retaining walls, and building support walls, and by applying an exterior wall panel with a standing maintenance and gap maintenance zone, the present invention can stand on the basic concrete of the exterior wall panel. When fixing, it is possible to stably maintain the wall structure in an upright state without tipping over without the need for a separate fixing means such as a crane. Through this, unlike in the past, the wall structure can be constructed while proceeding without the use of a separate fixing means such as a crane. The purpose is to provide a wall structure and its construction method that can significantly improve construction workability.

Another purpose of the technology according to the present invention is to apply it to the construction of wall structures such as storage tank walls, retaining walls, and building support walls, and to connect the outer wall panel and the inner wall panel with embedded bolts, coupler nut pipes, connection bolts, and connections. By applying a coupler joint structure including a nut, the connection bolt is fastened to the coupler nut pipe, and then a reinforcing plate and washer are placed on the connection bolt protruding from the fixing groove of the inner wall panel to secure it with a connection nut, and then the mortar is filled to secure the inner wall panel. The purpose is to ensure that the fixed installation is completed and that the connection work between the exterior wall panel and the interior wall panel can be carried out easily and at the same time, a firm holding force is formed for the connection part.

The present invention for achieving the above-mentioned object is as follows. That is, in the wall structure according to the present invention, the exterior wall panel and the interior wall panel are erected and installed on the basic concrete forming the floor and are connected and fixed to each other, and a formwork is installed on each outer side of the exterior wall panel and the interior wall panel facing each other. In a wall structure formed by pouring in-situ concrete in a space where an exterior wall panel and an interior wall panel face each other, the exterior wall panel is perpendicular to the front of the panel body so that it is seated in an upright position at right angles to the upper part of the foundation concrete facing the interior wall panel. As a result, a standing maintenance and spacing maintenance area is formed protrudingly, and the transverse and longitudinal bars are arranged at right angles to each other inside the panel body, and there is a certain gap in the longitudinal direction of the lower part of the panel body, and the bottom of the longitudinal muscle and the foundation concrete are inside the panel body. A joint sleeve filled with mortar is buried with the upper ends of the upwardly protruding joint protrusions facing each other, and the inner wall panel has a panel shape with a slanted cross section at both front corners, and has transverse and longitudinal roots inside the panel. They are arranged at right angles to each other, and the rear side is installed standing on the basic concrete in close contact with the front of the standing maintenance and gap maintenance area of the exterior wall panel, and fixed guide holes are penetrated at regular intervals in the longitudinal direction of the area in close contact with the standing maintenance and gap maintenance area. A fixing groove is formed by expanding outward on the front side of the fixing guide hole, and the area where the fixing guide hole and fixing groove are formed is formed at regular intervals in the longitudinal direction of the area in close contact with the standing maintenance and spacing maintenance member by the outer wall panel and the connection means. It is connected and fixed, and consists of forming a wall structure by pouring in-situ concrete between the inner wall panel and the outer wall panel and the outer wall panel while being connected and fixed by the connection means.

At this time, the standing maintenance and spacing maintenance part of the exterior wall panel is formed to protrude at right angles to the front of the panel main body with a length corresponding to the vertical length of the panel main body, and is spaced at a certain distance in the longitudinal direction corresponding to the left and right lengths of the panel main body. It is desirable to protrude in pairs.

In addition, the connecting means is applied as a coupler joint structure to the part for connecting the outer wall panel and the inner wall panel, and includes embedded bolts installed at regular intervals in the longitudinal direction of the outer wall panel to maintain the standing position and gap maintenance, and the rear end is embedded. The tip of the bolt is screwed to a certain length, and the tip coincides with the front end of the stand-up and gap-maintainer, and the coupler nut pipe is buried within the stand-up and gap-maintainer so that the screw hole at the end is exposed, and the back of the inner wall panel is used to maintain the stand-up and space of the exterior wall panel. In a state where it is installed standing on the basic concrete in close contact with the front of the gap maintainer, the connection bolt is connected to the tip of the coupler nut pipe through a screw connection through the fixing guide hole in the inner wall panel, and the connecting bolt protrudes toward the fixing groove from the fixing guide hole in the inner wall panel. It is preferable to include a connection nut that is coupled with a connection bolt and is fixed with a reinforcing plate and a washer interposed therebetween.

At this time, when connecting the outer wall panel and the inner wall panel through the connecting means, a connection bolt and a reinforcing plate protrude from the fixing guide hole of the inner wall panel toward the fixing groove so that a firm holding force is realized for the connection part and a tight seal with the outside is achieved. It is desirable to fill and finish the inside of the fixing groove where the connection nut is coupled and fixed with a washer.

In addition, it is preferable that a plurality of the outer wall panels and the inner wall panels are installed in succession in the horizontal longitudinal direction.

In addition, when the outer wall panel and the inner wall panel are installed in succession in a horizontal longitudinal direction, urethane packing is interposed between the panels facing each other in the horizontal longitudinal direction, and then the externally exposed side of the urethane packing is filled with mortar to finish. It is desirable to be

On the other hand, the construction method of the wall structure according to the present invention involves installing the exterior wall panel and the interior wall panel standing on the basic concrete forming the floor, connecting and fixing them to each other, and forming a formwork on each outside of the facing side of the exterior wall panel and the interior wall panel. In the construction method of a wall structure formed by pouring in-situ concrete in the space where the exterior wall panel and the interior wall panel face each other, a floor of a certain thickness is formed, and the lower part is buried so that the upper part protrudes a certain length from the upper surface. These two rows are arranged in multiple numbers in the longitudinal direction at regular intervals, and the joint protruding bars are placed on each side of one of the two rows of foundation bars, and the foundation concrete is constructed by pouring and curing the concrete. Basic concrete construction stage; An exterior wall panel standing installation step of inserting the joint protrusion of the foundation concrete into the joint sleeve buried in the lower part of the exterior wall panel and then filling the joint sleeve with mortar to install and fix the exterior wall panel in a standing state on the foundation concrete; The rear side of the exterior wall panel is installed standing on the foundation concrete so that two rows of foundation bars are located between the exterior wall panels and is in close contact with the front of the standing maintenance and gap maintenance area of the exterior wall panel. With the interior wall panel standing and installed, the interior wall panel is connected to the exterior wall through the connection means. An inner wall panel connection installation step of connecting and fixing the panel; And after installing the form on each outside of the side where the exterior wall panel and the interior wall panel face each other in a state where the exterior wall panel and the interior wall panel are connected and fixed through the interior wall panel connection installation step, the space between the exterior wall panel and the interior wall panel face each other. It includes the on-site concrete construction stage of pouring and curing concrete.

At this time, in the step of connecting and installing the inner wall panels, the connecting means is applied as a coupler joint structure to the part for connecting the outer wall panel and the inner wall panel, and is installed buried at a certain interval in the longitudinal direction of the standing and spacing maintenance part of the outer wall panel. An embedded bolt, the rear end of which is screwed to the front end of the embedded bolt for a certain length, a coupler nut pipe embedded in the standing maintenance and gap maintenance area so that the tip coincides with the front end of the standing maintenance and gap maintenance area, and the screw hole at the front end is exposed, and the inner wall. Fixation of the connection bolt and inner wall panel connected to the tip of the coupler nut arm through the fixing guide hole of the inner wall panel through a fixing guide hole in the inner wall panel while the rear of the panel is installed upright on the basic concrete in close contact with the front of the standing maintenance and gap maintenance device of the outer wall panel. It is preferably coupled to a connecting bolt protruding from the guide hole toward the fixing groove, and includes a connecting nut that is coupled and fixed with a reinforcing plate and a washer interposed therebetween.

Moreover, between the interior wall panel connection installation step and the on-site concrete construction step, when installing multiple exterior wall panels and interior wall panels in succession in the horizontal longitudinal direction on the basic concrete, urethane is applied between horizontally adjacent exterior wall panels or interior wall panels. The urethane caulking finishing step is done by filling the side exposed to the outside of the urethane packing with the packing interposed and caulking it, and panel to panel is placed on the facing side of the outer wall panel and the inner wall panel in the area where the outer wall panel or inner wall panel is connected. It is better to proceed further in the reinforcing stage where the connecting panel connecting bars are further reinforced.

The effects of the wall structure and its construction method according to the present invention are explained as follows.

First, it is applied to the construction of wall structures such as storage tank walls, retaining walls, and building support walls. As exterior wall panels with stand-up and gap maintenance sections are applied, separate fixing means such as cranes are required when standing and fixing the exterior wall panel on the basic concrete. It can be stably maintained in an upright position without tipping over, and through this, unlike in the past, the workability of the wall structure can be significantly improved while constructing the wall structure without the use of separate fixing means such as a crane. there is.

Second, it is applied to the construction of wall structures such as reservoir walls, retaining walls, and building support walls, and is a coupler joint structure that includes embedded bolts, coupler nut pipes, connection bolts, and connection nuts for the connection between the exterior wall panel and the interior wall panel. is applied, after fastening the connecting bolt to the coupler nut pipe, fixing it with a connecting nut through a reinforcing plate and washer on the connecting bolt protruding from the fixing groove of the inner wall panel, and then filling the mortar to complete the fixed installation of the inner wall panel. The connection work between the exterior wall panel and the interior wall panel can be easily carried out, and at the same time, a strong holding force can be formed at the connection part.

1 and 2 are longitudinal and cross-sectional diagrams showing the construction state of the wall structure according to the present invention.
Figures 3 and 4 are front and rear perspective views showing the inner wall panel, which is the main part of the wall structure according to the present invention.
Figures 5 and 6 are front and rear perspective views showing the inner wall panel, which is the main part of the wall structure according to the present invention.
Figure 7 is a longitudinal cross-sectional view of the main part of the wall structure according to the present invention, showing the part erected upright on the basic concrete.
Figure 8 is a block diagram showing step by step the construction method of a wall structure according to the present invention.

Hereinafter, preferred embodiments of the wall structure and its construction method according to the present invention will be described in detail with reference to the attached drawings.

Figures 1 and 2 are longitudinal and cross-sectional diagrams showing the construction state of the wall structure according to the present invention.

Figures 3 and 4 are front and rear perspective diagrams showing the inner wall panel, which is the main part of the wall structure according to the present invention, and Figures 5 and 6 are front and rear perspective diagrams showing the inner wall panel, which is the main part of the wall structure according to the present invention. am.

Figure 7 is a longitudinal cross-sectional view of the main part of the wall structure according to the present invention, showing the part erected on the basic concrete.

As shown in Figures 1 to 7, the wall structure 1000 according to a preferred embodiment of the present invention has the outer wall panel 100 and the inner wall panel 200 installed standing on the basic concrete 500 forming the floor, so that they are mutually In the connected and fixed state, formwork is installed on each outside of the facing side of the exterior wall panel 100 and the interior wall panel 200, and in-situ concrete (C) is placed in the space where the exterior wall panel 100 and the interior wall panel 200 face each other. It is formed by pouring.

In other words, the wall structure 1000 according to the present invention can be applied to the construction of wall structures in reservoir walls, retaining walls, building support walls, etc., and includes the exterior wall panel 100 and the interior wall prefabricated with precast concrete panels. By applying the panel 200, the constructability of the wall structure is significantly increased.

Moreover, unlike the prior art, the wall structure 1000 according to the present invention allows the construction workability of the wall structure to be significantly improved while constructing the wall structure without the use of a separate fixing means such as a crane, while also allowing the external wall structure to be significantly improved. The connection work between the panel and the inner wall panel can be easily carried out through the connection means, and at the same time, a firm holding force is implemented at the connection part, allowing a close seal with the outside.

Specifically, in the wall structure 1000 according to the present invention as described above, the outer wall panel 100 is perpendicular to the upper part of the foundation concrete 500 facing the inner wall panel 200 and is seated so that the upright state is maintained. A standing maintenance and spacing maintenance area 120 is protruded orthogonal to the front of the main body 110.

In addition, the exterior wall panel 100 has transverse bars 112 and longitudinal bars 111 arranged at right angles to each other inside the panel main body 110, and is arranged at a constant angle in the longitudinal direction of the lower part of the panel main part 110. A joint sleeve (150) filled with mortar (M) is buried inside with an interval between the lower end of the longitudinal bar (111) and the upper end of the joint protruding bar (520), which is buried in the foundation concrete (500) and protrudes upward. do.

At this time, although not specifically shown in the drawings, when explaining the structure in which the mortar (M) is filled inside the joint sleeve 150, two injection ports communicate with the outside of the panel body 110 of the exterior wall panel 100. And an outlet is formed, so that the mortar (M) is charged through the injection port and the air inside the joint sleeve 150 is discharged through the outlet, and then the mortar (M) charged through continuous injection is inside the joint sleeve 150. In a state where charging is completed, it is desirable to apply a charging structure until the mortar (M) begins to be discharged to the outside.

Meanwhile, the inner wall panel 200 has transverse bars 202 and longitudinal bars 201 arranged at right angles to each other inside a panel shape having an inclined cross section at both front corners, and the rear side of the outer wall panel 100. It is installed standing on the foundation concrete (500) in close contact with the front of the standing maintenance and spacing maintenance device (120).

In particular, the inner wall panel 200 is penetrated by the fixing guide hole 230 at regular intervals in the longitudinal direction of the area in close contact with the standing maintenance and spacing maintenance member 120, and faces outward on the front side of the fixing guide hole 230. It is expanded to form a fixing groove 240, and the outer wall is formed in the area where the fixing guide hole 230 and the fixing groove 240 are formed at regular intervals in the longitudinal direction of the area in close contact with the standing maintenance and spacing maintenance member 120. It is connected and fixed to the panel 100 by a connection means.

That is, the outer wall panel 100 and the inner wall panel 200 configured as described above face the outer wall panel 100 in a state in which the inner wall panel 200 is connected and fixed to the outer wall panel 100 by a connecting means. In the meantime, the wall structure 1000 can be formed by pouring and curing the in-situ concrete (C).

In the wall structure 1000 according to the present invention configured as described above, in particular, the standing maintenance and spacing maintenance member 120 of the exterior wall panel 100 is perpendicular to the front of the panel body 110 and is perpendicular to the panel body 110. ), and is preferably formed to protrude in a pair at regular intervals in the longitudinal direction corresponding to the left and right lengths of the panel main body 110.

Moreover, it is important to ensure that the rigidity of the outer wall panel 100 as a wall is increased in the area where concrete is poured and cured between the outer wall panel 100 and the inner wall panel 200.

Accordingly, the outer wall panel 100 is fixed at the rear end to the longitudinal muscle 111 at a certain interval in the longitudinal direction of the longitudinal muscle 111 disposed on the side of the standing maintenance and space maintenance device 120, thereby forming the panel body. It is desirable to further include a protruding reinforcing bar 140, the rear end of which is embedded in the portion 110 for a certain length and protrudes from the front of the panel body 110 by a certain length.

In other words, the protruding reinforcing bar 140 is installed at the beginning and end of the portion where the two rows of basic main bars 510 protrude from the outer wall panel 100 protruding from the basic concrete 500 during construction of the wall structure 1000. It is disposed, and at this time, it is more preferable that the end portion is bent into a hook shape.

In addition, the protruding reinforcing bar 140 is embedded in the panel main body 110 with respect to the rear end portion, and the longitudinal bar 111 embedded in the panel main part 110 of the outer wall panel 100 is shaped like an 'ㄴ'. It is desirable to be embedded in the panel body 110 in a close contact state so as to surround it.

Meanwhile, in the wall structure 1000 according to the present invention configured as described above, the connecting means is applied as a coupler joint structure to the portion for connecting the outer wall panel 100 and the inner wall panel 200, It includes an embedded bolt 131, a coupler nut pipe 132, a connection bolt 310, and a connection nut 330.

In detail, the embedded bolts 131 are embedded and installed at regular intervals in the longitudinal direction of the standing maintenance and spacing maintenance part 120 of the exterior wall panel 100.

In addition, the rear end of the coupler nut pipe 132 is screwed to the tip of the embedded bolt 131 for a certain length, and the tip coincides with the front end of the standing maintenance and spacing maintenance tool 120, so that the screw hole at the tip is exposed. It is buried within the sphere (120).

In addition, the connection bolt 310 is installed standing on the foundation concrete 500 so that the rear of the inner wall panel 200 is in close contact with the front of the standing maintenance and gap maintenance area 120 of the outer wall panel 100. It is connected to the distal end of the coupler nut pipe 132 through a fixed guide hole 230 through screw coupling.

And the connection nut 330 is coupled to the connection bolt 310 protruding from the fixing guide hole 230 of the inner wall panel 200 toward the fixing groove 240, and a reinforcing plate 321 and a washer 322 are interposed. It is combined and fixed.

When connecting the outer wall panel 100 and the inner wall panel 200 through the connecting means applied in the configuration described above, it is important to ensure a firm holding force at the connection portion and ensure tight sealing with the outside.

For this purpose, when connecting the outer wall panel 100 and the inner wall panel 200 through the connecting means, the connection bolt 310 and reinforcement protruding from the fixing guide hole 230 of the inner wall panel 200 toward the fixing groove 240 are used. It is desirable to fill the inside of the fixing groove 240, where the plate 321 and the washer 322 are interposed and the connection nut 330 is fixed, by filling it with mortar (M).

In addition, in the wall structure 1000 according to the present invention configured as described above, a plurality of the outer wall panel 100 and the inner wall panel 200 are installed in succession in the horizontal longitudinal direction.

That is, the outer wall panel 100 and the inner wall panel 200 can each be installed in two pieces in succession in the horizontal longitudinal direction as shown in Figure 2, and considering the length of the wall, they can be installed in three pieces each in succession. It may be possible.

Moreover, when the outer wall panel 100 and the inner wall panel 200 are installed in succession in a horizontal longitudinal direction, urethane packing (P) is interposed between the two facing each other in the horizontal longitudinal direction, and then urethane packing (P) is installed. ) is preferably finished by filling the externally exposed side with mortar (M).

At this time, the outer wall panel 100 and the inner wall panel 200 have caulking grooves 115 and 205 recessed on both sides of the horizontal longitudinal direction so as to partially cover and adhere to the width direction end of the urethane packing (P).

In addition, as shown in the drawing, the urethane packing (P) is preferably applied as a packing that is hollow on the inside and has a plurality of ribs so as to have an expansion/contraction space in the width direction.

Moreover, the inner wall panel 200 is installed on the side facing the outer wall panel 100, considering the rigidity of the concrete structure portion formed through pouring and curing of in-situ concrete (C) in the space facing the outer wall panel 100. The truss girder 210 may be applied as a protruding panel.

At this time, the truss girder 210 is a steel bar structure in which one upper bar and two lower bars are arranged to form a triangle, and the lattice bars on both sides are fixed to repeat peaks and valleys in the longitudinal direction. The upper part is It is partially protruding and embedded in the inner wall panel 200, and is equivalent to a configuration called a truss girder applied to normal precast concrete panels, etc.

Figure 8 is a block diagram showing step by step the construction method of a wall structure according to the present invention.

Referring to Figure 8, but also referring to Figures 1 to 7, the construction method of the wall structure according to the present invention involves installing the outer wall panel 100 and the inner wall panel 200 standing on the foundation concrete 500 forming the floor. In the interconnected and fixed state, formwork is installed on each outside of the facing side of the exterior wall panel 100 and the interior wall panel 200, and in-situ concrete is placed in the space where the exterior wall panel 100 and the interior wall panel 200 face each other. This is a method of constructing a wall structure 1000 formed by pouring C).

The construction method of the wall structure according to the present invention largely includes a basic concrete construction step (S110), an exterior wall panel standing installation step (S120), an interior wall panel connection installation step (S130), and an on-site concrete construction step (S140).

In detail, in the basic concrete construction step (S110), a floor of a certain thickness is formed, and a plurality of foundation bars 510, whose lower part is buried so that the upper part protrudes from the upper surface by a certain length, are arranged in two rows at regular intervals in the longitudinal direction. , The process of constructing the foundation concrete 500 by pouring and curing the concrete, with the joint protruding bars 520 protruding on each side of the foundation bars 510 in any one of the two rows of the foundation main bars 510. It consists of

And in the exterior wall panel standing installation step (S120), the joint protrusion 520 of the foundation concrete 500 is inserted into the joint sleeve 150 buried in the lower part of the exterior wall panel 100, and then the joint sleeve 150 is inserted. It consists of a process of filling the mortar (M) and installing and fixing the exterior wall panel (100) in an upright state on the foundation concrete (500).

In addition, in the inner wall panel connection installation step (S130), the rear side is in close contact with the front of the standing maintenance and gap maintenance portion 120 of the outer wall panel 100 so that two rows of foundation bars 510 are located between the outer wall panel 100. The process consists of connecting and fixing the inner wall panel 200 to the outer wall panel 100 through a connecting means while the inner wall panel 200 is installed standing up on the basic concrete 500.

And in the on-site concrete construction step (S140), the outer wall panel 100 and the inner wall panel 200 are connected and fixed through the inner wall panel connection installation step (S130). After installing the formwork on each outer side of the facing side, the process consists of pouring and curing concrete in the space between the outer wall panel 100 and the inner wall panel 200.

In the construction method of a wall structure according to the present invention consisting of the above-described processes, especially in the inner wall panel connection installation step (S130), the connecting means is used for connecting the outer wall panel 100 and the inner wall panel 200. It is applied as a coupler joint structure to the part and includes an embedded bolt 131, a coupler nut pipe 132, a connection bolt 310, and a connection nut 330.

In detail, the embedded bolts 131 are embedded and installed at regular intervals in the longitudinal direction of the standing maintenance and spacing maintenance part 120 of the exterior wall panel 100.

In addition, the rear end of the coupler nut pipe 132 is screwed to the tip of the embedded bolt 131 for a certain length, and the tip coincides with the front end of the standing maintenance and spacing maintenance tool 120, so that the screw hole at the tip is exposed. It is buried within the sphere (120).

In addition, the connection bolt 310 is installed standing on the foundation concrete 500 so that the rear of the inner wall panel 200 is in close contact with the front of the standing maintenance and gap maintenance area 120 of the outer wall panel 100. It is connected to the distal end of the coupler nut pipe 132 through a fixed guide hole 230 through screw coupling.

And the connection nut 330 is coupled to the connection bolt 310 protruding from the fixing guide hole 230 of the inner wall panel 200 toward the fixing groove 240, and a reinforcing plate 321 and a washer 322 are interposed. It is combined and fixed.

Moreover, when connecting the outer wall panel 100 and the inner wall panel 200 through the connecting means applied in the above configuration, it is important to ensure a firm holding force at the connection portion and to ensure tight sealing with the outside.

To this end, in the inner wall panel connection installation step (S130), when connecting the outer wall panel 100 and the inner wall panel 200 through the connecting means, the fixing groove 240 is formed from the fixing guide hole 230 of the inner wall panel 200. ) It is desirable to fill and finish the interior of the fixing groove 240, where the connection nut 330 is coupled and fixed by the connection bolt 310, reinforcement plate 321, and washer 322 protruding toward the side, by filling it with mortar (M). will be.

In particular, the construction method of the wall structure according to the present invention consisting of the above-described processes includes a urethane caulking finishing step (S131) and a reinforcement reinforcement step ( S132) proceeds further.

At this time, when the urethane caulking finishing step (S131) is installed in succession in the horizontal longitudinal direction on the foundation concrete 500 for the outer wall panel 100 and the inner wall panel 200, the outer wall panel adjacent to the horizontal direction The process involves inserting urethane packing (P) between (100) or the inner wall panel (200) and filling the externally exposed side of the urethane packing (P) with mortar (M) to finish it with caulking.

And the reinforcement reinforcement step (S132) is a panel connection bar connecting the panels on the facing side of the outer wall panel 100 and the inner wall panel 200 in the portion where the outer wall panel 100 or the inner wall panel 200 is connected. (PL) is further distributed.

Moreover, the construction method of the wall structure according to the present invention, which consists of the above-described processes, maintains a horizontal level with respect to the bottom when the outer wall panel 100 and the inner wall panel 200 are erected on the foundation concrete 500. For adjustment, a bearing pad (B) may be provided at the bottom of each panel.

In addition, when the bearing pad (B) for adjusting the horizontal level as described above is applied, the bearing pad (B) is placed on the lower portion of the side opposite to the facing side of the outer wall panel 100 and the inner wall panel 200. It is desirable for an additional blocking plate (S) to be installed.

According to the wall structure and its construction method according to the present invention as described above, it is applied to the construction of wall structures such as storage tank walls, retaining walls, and building support walls, and by applying an exterior wall panel having a stand-up and gap maintenance zone, the exterior wall panel is maintained. When standing and fixing on foundation concrete, it can be stably maintained in an upright state without tipping over without the need for a separate fixing means such as a crane. Through this, unlike in the past, wall structures can be constructed without the use of a separate fixing means such as a crane. As the process progresses, the construction workability of the wall structure can be significantly improved.

Moreover, it is applied to the construction of wall structures such as storage tank walls, retaining walls, and building support walls, and is a coupler joint structure that includes embedded bolts, coupler nut pipes, connecting bolts, and connecting nuts for the connection between the outer wall panel and the inner wall panel. is applied, after fastening the connecting bolt to the coupler nut pipe, fixing it with a connecting nut through a reinforcing plate and washer on the connecting bolt protruding from the fixing groove of the inner wall panel, and then filling the mortar to complete the fixed installation of the inner wall panel. This allows the connection work between the exterior wall panel and the interior wall panel to be carried out easily and at the same time, a firm holding force can be formed at the connection part.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and the present invention can be implemented in various modifications by those skilled in the art in the technical field to which the present invention pertains. is included in the scope of the present invention.

1000: Wall structure
100: Exterior wall panel 110: Panel main body
111: longitudinal muscle 112: transverse muscle
115: Caulking groove 120: Standing maintenance and space maintenance area
131: Embedded bolt 132: Coupler nut pipe
140: Protruding reinforcement 150: Joint sleeve
200: inner wall panel 201: longitudinal muscle
202: transverse muscle 205: caulking groove
210: Truss girder 230: Fixed guide hole
240: Fixing groove 310: Connection bolt
321: reinforcement plate 322: washer
330: Connection nut 500: Basic concrete
510: Basic main root 520: Joint protruding root
PL: Panel connector
P: Urethane packing
M: Mortar
C: In situ concrete
B: Bearing pad
S: stopper

Claims (10)

In a state where the exterior wall panel 100 and the interior wall panel 200 are installed standing on the foundation concrete 500 forming the floor, and are connected and fixed to each other, the angle of the facing side of the exterior wall panel 100 and the interior wall panel 200 In the wall structure 1000, which is formed by installing a formwork on the outside and pouring in-situ concrete in the space where the outer wall panel 100 and the inner wall panel 200 face each other,
The outer wall panel 100 is perpendicular to the upper part of the basic concrete 500 facing the inner wall panel 200, and has a standing maintenance and spacing member 120 orthogonal to the front of the panel body 110 so that it is seated in an upright state. It is formed to protrude, and the transverse bars 112 and longitudinal bars 111 are arranged at right angles to each other inside the panel main body 110, and are placed at regular intervals in the longitudinal direction of the lower part of the panel main part 110. A joint sleeve 150 filled with mortar (M) is buried in a state where the lower end of the longitudinal bar 111 and the upper end of the joint protruding bar 520, which is buried in the foundation concrete 500 and protrudes upward, face each other, and the inner wall panel (200) is a panel shape in which the front two corners have a slanted cross-section, and the transverse muscles 202 and longitudinal muscles 201 are arranged at right angles to each other, and the rear side serves as an upright maintenance and spacing support for the exterior wall panel 100. (120) It is installed standing on the foundation concrete (500) in close contact with the front, and the fixed guide hole (230) is penetrated at regular intervals in the longitudinal direction of the area in close contact with the standing maintenance and gap maintenance device (120) to form a fixed guide hole. A fixing groove 240 is formed by extending outward on the front side of (230), and a fixing guide hole 230 and a fixing groove 240 are formed at regular intervals in the longitudinal direction of the area in close contact with the standing maintenance and spacing maintenance member 120. ) is connected and fixed to the area where the outer wall panel 100 and the connecting means are formed, and the inner wall panel 200 faces the outer wall panel 100 while being connected and fixed to the outer wall panel 100 and the connecting means. It includes forming a wall structure by pouring in-situ concrete (C) in the meantime,
The connecting means is applied as a coupler joint structure to the portion for connecting the outer wall panel 100 and the inner wall panel 200,
Embedded bolts 131 installed at regular intervals in the longitudinal direction of the standing maintenance and spacing maintenance part 120 of the exterior wall panel 100,
A coupler nut whose rear end is screwed to the tip of the embedded bolt (131) for a certain length, and whose tip coincides with the front end of the standing maintenance and spacing maintenance unit (120) and is buried in the standing maintenance and spacing maintenance unit (120) so that the screw hole at the tip is exposed. Tube 132,
The rear of the inner wall panel (200) is installed upright on the foundation concrete (500) in close contact with the front of the standing maintenance and gap maintenance area (120) of the outer wall panel (100) through the fixing guide hole (230) of the inner wall panel (200). A connection bolt (310) connected to the tip of the coupler nut pipe (132) through a screw connection, and
A connection nut 330 is coupled to the connection bolt 310 protruding from the fixation guide hole 230 of the inner wall panel 200 toward the fixation groove 240, and is coupled and fixed with a reinforcement plate 321 and a washer 322 interposed. ) A wall structure comprising:
According to paragraph 1,
The standing maintenance and spacing maintenance member 120 of the outer wall panel 100 is perpendicular to the front of the panel body 110 and protrudes to a length corresponding to the vertical length of the panel body 110. ) A wall structure characterized in that it protrudes in pairs at regular intervals in the longitudinal direction corresponding to the left and right lengths of ).
delete According to paragraph 1,
When connecting the outer wall panel 100 and the inner wall panel 200 through the connecting means, a firm holding force is realized at the connection portion and a tight seal with the outside is achieved,
A connection bolt 310 protruding from the fixing guide hole 230 of the inner wall panel 200 toward the fixing groove 240, a reinforcing plate 321, and a washer 322 are interposed to secure the connection nut 330. A wall structure characterized by filling the inside of the groove 240 with mortar (M) and finishing it.
According to paragraph 1,
A wall structure characterized in that the outer wall panel 100 and the inner wall panel 200 are installed in succession in a horizontal longitudinal direction.
According to paragraph 1,
When the outer wall panel 100 and the inner wall panel 200 are installed in succession in a horizontal longitudinal direction,
A wall structure characterized in that urethane packing (P) is interposed between opposite sides in the horizontal longitudinal direction and then finished by filling the externally exposed side of the urethane packing (P) with mortar (M).
According to paragraph 1,
The outer wall panel 100 is designed so that its rigidity as a wall can be increased in the area where concrete is poured and cured between the inner wall panel 200 and the inner wall panel 200.
The rear end is fixed to the longitudinal muscle 111 at regular intervals in the longitudinal direction of the longitudinal muscle 111 disposed on the side of the standing maintenance and spacing maintenance device 120, and the rear end within the panel body 110 is of a certain length. A wall structure characterized in that it further includes a protruding reinforcing bar (140) that is embedded as much as possible and protrudes from the front of the panel body (110) by a certain length.
In a state where the exterior wall panel 100 and the interior wall panel 200 are installed standing on the foundation concrete 500 forming the floor, and are connected and fixed to each other, the angle of the facing side of the exterior wall panel 100 and the interior wall panel 200 In the construction method of the wall structure 1000, which is formed by installing a formwork on the outside and pouring in-situ concrete (C) in the space where the exterior wall panel 100 and the interior wall panel 200 face each other,
A floor of a certain thickness is formed, and a plurality of basic bars 510, the lower part of which is embedded so that the upper part protrudes from the upper surface by a certain length, are arranged in two rows at regular intervals in the longitudinal direction, and any of the two rows of the basic main bars 510 A foundation concrete construction step (S110) in which the foundation concrete 500 is constructed by pouring and curing the concrete, with the joint protruding bars 520 protruding on each side of the first row of foundation bars 510; After inserting the joint protrusion 520 of the foundation concrete 500 into the joint sleeve 150 buried in the lower part of the exterior wall panel 100, the joint sleeve 150 is filled with mortar (M) to form the exterior wall panel ( 100) standing installation step (S120) of installing and fixing the exterior wall panel in an erect state on the foundation concrete (500); The rear side is installed standing on the foundation concrete 500 in close contact with the front side of the standing maintenance and spacing maintenance area 120 of the exterior wall panel 100 so that two rows of foundation bars 510 are located between the exterior wall panel 100, thereby maintaining the inner wall. An inner wall panel connection installation step (S130) of connecting and fixing the inner wall panel 200 to the outer wall panel 100 through a connection means while the panel 200 is installed standing up; And in a state where the outer wall panel 100 and the inner wall panel 200 are connected and fixed through the inner wall panel connection installation step (S130), a formwork is formed on each outer side of the side where the outer wall panel 100 and the inner wall panel 200 face each other. After installing, it includes an on-site concrete construction step (S140) of pouring and curing concrete in the space between the exterior wall panel 100 and the interior wall panel 200,
In the inner wall panel connection installation step (S130), the connecting means is applied as a coupler joint structure to the portion for connecting the outer wall panel 100 and the inner wall panel 200,
Embedded bolts 131 installed at regular intervals in the longitudinal direction of the standing maintenance and spacing maintenance part 120 of the exterior wall panel 100,
A coupler nut whose rear end is screwed to the tip of the embedded bolt (131) for a certain length, and whose tip coincides with the front end of the standing maintenance and spacing maintenance unit (120) and is buried in the standing maintenance and spacing maintenance unit (120) so that the screw hole at the tip is exposed. Tube 132,
The rear of the inner wall panel (200) is installed upright on the foundation concrete (500) in close contact with the front of the standing maintenance and gap maintenance area (120) of the outer wall panel (100) through the fixing guide hole (230) of the inner wall panel (200). A connection bolt (310) connected to the tip of the coupler nut pipe (132) through a screw connection, and
A connection nut 330 is coupled to the connection bolt 310 protruding from the fixation guide hole 230 of the inner wall panel 200 toward the fixation groove 240, and is coupled and fixed with a reinforcement plate 321 and a washer 322 interposed. ) A construction method of a wall structure comprising:
delete According to clause 8,
Between the interior wall panel connection installation step (S130) and the on-site concrete construction step (S140), when installing a plurality of exterior wall panels 100 and interior wall panels 200 in a horizontal longitudinal direction on the foundation concrete 500, Urethane caulk is finished by filling the externally exposed side of the urethane packing (P) with mortar (M), where urethane packing (P) is interposed between horizontally neighboring outer wall panels (100) or inner wall panels (200). Closing stage (S131) and
Reinforcement in which the panel connecting bars (PL) connecting the panels are further placed on the facing sides of the outer wall panel 100 and the inner wall panel 200 in the area where the outer wall panel 100 or the inner wall panel 200 is connected. A method of constructing a wall structure, characterized in that step (S132) is further progressed.

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