KR102099933B1 - Precast Concrete Modualr Structure And Method for Constructing the Same - Google Patents

Abstract

The present invention relates to a precast concrete (PC) modular structure and a construction method thereof, which uses inexpensive concrete to manufacture an external module structure and allows interior finishing to accommodate a box-shaped infill module consisting of various structures and materials such as metal or plastic, FRP, etc. to increase a pre-manufacture ratio and facilitate manufacture and construction. According to the present invention, the precast concrete modular structure comprises: at least one external module which includes a flat slab structure part made of precast concrete to form a bottom surface and a sidewall structure part vertically formed on both ends of the slab structure part, and can be vertically stacked; an infill module having a size corresponding to a space formed by the slab structure part and the sidewall structure part of the external module to be inserted into the space to be installed; and a plurality of module joining units to connect the upper end of the sidewall structure part of the external module and the lower ends of both ends of other external modules stacked above to be fixed on each other when a plurality of the external modules are vertically stacked.

Description

Precast Concrete Modular Structure and Method for Constructing the Same}

The present invention relates to a modular structure for construction, and more specifically, a U-shaped outer module made of precast concrete (PC) is stacked up and down and / or right and left, and is built in the inner space of the PC outer module. The present invention relates to a precast concrete modular structure and a construction method capable of producing a structure having a desired structure by inserting a box-type infill box module forming an interior structure of the interior.

Domestic construction sites need to respond to changes in the construction industry, such as shortage of skilled workers and shorter working hours. These changes require the development of technologies such as modular structures and the development of technologies in response to social changes.

Korea has excellent production capacity and technology for concrete, but it has almost never been used since 2000. In addition, the standard for accreditation of industrialized housing was originally established as a concrete system, but as of 30 years later, the number of accredited cases was zero and the related industry declined.

Currently, the modular apartment houses are supplied with a steel structure, and a total of 70 housing units are provided in two complexes. However, the cost of construction is about 130% compared to the existing apartments, and the pre-fabrication rate is still at 50%, which is a obstacle to modular advantages and supply expansion. In other words, steel materials have advantages such as module-to-module bonding and ease of fabrication, but the cost aspect and the low pre-production ratio are problematic.

Republic of Korea Registered Patent No. 10-1520732 (2015.05.11. Registration) Republic of Korea Registered Patent No. 10-1679666 (Registration on November 21, 2016) Republic of Korea Registered Patent No. 10-0646263 (Registered on November 8, 2006)

The present invention is to solve the above-described conventional problems, the present invention is to manufacture an external module structure using inexpensive concrete, and the interior finish is a box-shaped infill of various materials and structures such as metal, plastic, or FRP. ) It is possible to increase the pre-production ratio by allowing the module to be accommodated, and to provide a precast concrete (PC) modular structure and a construction method that are easy to manufacture and construct.

The precast concrete modular structure according to the present invention for achieving the above object comprises a precast concrete plate-shaped slab structure and a side wall structure formed perpendicularly to both ends of the slab structure, At least one external module stackable up and down; An in-fill module having a size corresponding to the space formed by the slab structure portion and the side wall structure portion of the external module and being inserted and installed inside the space; And, when the plurality of the external module is stacked up and down, a plurality of module bonding unit for connecting the upper end of the side wall structure portion of the external module, and the lower ends of both ends of the other external modules stacked on the upper side to each other; do.

A joint portion in which a pair of installation grooves spaced apart from each other by a predetermined distance from each other at the lower end portion of the side wall structure portion of the external module or the slab structure portion may be provided upward may be provided.

The module joining unit includes a first fixing plate having an upper end buried and installed in the joining portion, and a first joining plate fixed to a lower portion of the first fixing portion and formed through a plurality of bolt holes. Bonding brackets; The first fixing plate and the superimposing plate of the first bonding bracket of the other external module stacked on the upper side while being fixed to the upper end of the second fixing portion and the second fixing portion installed at the lower end of the outer side of the side wall structure portion of the external module. The paper is a second joint plate and a second bolt plate including a plurality of bolt shafts formed to extend upward on the second joint plate and penetrated through the bolt holes of the first joint bracket of another external module and inserted into the installation groove of the joint. Bonding brackets; And, while being fastened to the bolt shaft through the installation groove, a nut for fixing the bolt shaft to the first joint bracket; may include.

When two different external modules are stacked side by side, the bolt shafts of the second joint brackets of one external module and the second joint brackets of the other external module are penetrated at the same time so that a plurality of bolt holes to be joined are penetrated. Two external modules can be connected laterally by the formed plate-shaped connecting bracket.

The central portion of the first joint bracket and the second joint bracket may be overlapped while being engaged with each other in a concave / convex shape on the upper side or the lower side.

The module joining unit may be in the form of a flat plate having a plurality of bolt holes through which the bolt shaft passes, and may further include a height adjustment bracket installed between the first joining bracket and the second joining bracket.

The module joining unit according to another aspect of the present invention includes a coupling groove and a coupling protrusion that are engaged while being engaged in an uneven shape corresponding to each other at an upper end portion of a sidewall structure portion of an external module disposed on the lower side and a lower portion of another external module stacked on the upper side; And, when the engaging projection is inserted into the engaging groove, a metal-made joint bracket inserted between one inner side of the engaging groove and one outer side of the engaging projection; Including, the coupling groove and the coupling protrusion and the joint bracket is formed so that a plurality of bolt fastening holes are penetrated to the side, the bolt is fastened through the bolt fastening holes on the side of the side wall structure portion of the external module to be stacked up and down different Two external modules can be combined with each other.

The joining bracket is formed in a 'U' or a reverse 'U' shape, and is simultaneously inserted between coupling grooves and coupling protrusions of two different external modules stacked sideways, so that the sidewall structures of the two external modules can be integrally connected.

The module joining unit according to another aspect of the present invention is formed in an 'a'-shaped uneven shape corresponding to each other at the upper end of the sidewall structure portion of the external module disposed on the lower side and the lower portion of the other external module stacked on the upper side, and is engaged while engaging with each other Combined grooves and engaging projections; And, the 'a' shaped when the coupling projection is inserted into the coupling groove inside the coupling groove of a metal material that is inserted between one side of the coupling groove and one side of the coupling projection; includes, the coupling groove and A plurality of bolt fastening holes are formed through the coupling protrusion and the joining bracket to the side, and two different external modules stacked up and down by fastening bolts through the bolt fastening holes on the side of the side wall structure portion of the external module may be coupled to each other. You can.

The horizontal portion of the joining bracket may be formed with a fixed protrusion that is embedded and fixed to the upper end of the external module disposed on the lower side and the lower portion of the external module stacked on the upper side while extending up and down.

The engaging groove and the engaging protrusion may be inclined at a predetermined angle with respect to the vertical axis and in contact with each other at the lower end and the upper end of the surface in contact with each other.

The side wall structure portion may be formed of a wall of precast concrete formed to extend upwardly and downwardly over the entire length direction of both ends of the slab structure portion.

In addition, the wall may be vertically extended vertically at regular intervals along the longitudinal direction of the slab structure, and a pillar portion in which reinforcing materials made of steel or rebar are embedded may be integrally formed.

According to another aspect of the present invention, the side wall structure portion has a plurality of pillar bodies arranged at regular intervals along the longitudinal direction at both ends of the slab structure portion, and the upper ends of the plurality of pillar bodies are transverse to the longitudinal direction of the slab structure portion. It can include beams that connect while screaming.

Here, the side wall structure portion may further include a simple wall installed to fill the space between the pillar and the beam.

The lower end portion of the side wall structure portion is formed to extend a certain distance from both end portions of the slab structure portion to the lower side, and may be coupled by a module bonding unit and an upper end portion of the side wall structure portion of another external module stacked on the lower side.

Method for constructing a precast concrete modular structure according to the present invention,

(S1) seating the other external module on the upper side of one external module;

(S2) fastening the module bonding unit of the two external modules stacked up and down to fix the external module; And,

(S3) inserting and installing an in-fill module inside the external module;

It may include.

According to the present invention, a plurality of external modules made of pre-cast concrete can be easily and firmly connected by a module joining unit while being stacked up and down and left and right, and an infill module forming a housing structure is made of pre-cast concrete outside It can be supported by being inserted inside the module.

Therefore, a sturdy modular structure can be easily constructed with a desired design.

1 is a perspective view showing the overall configuration of a precast concrete modular structure according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the outer module of the precast concrete modular structure according to an embodiment of the present invention is stacked up and down.
3 is a perspective view showing a state in which the outer modules of the precast concrete modular structure according to an embodiment of the present invention are stacked left and right.
4 is a perspective view showing another embodiment of the external module of the precast concrete modular structure according to the present invention.
5 is a perspective view showing another embodiment of the external module of the precast concrete modular structure according to the present invention.
6 is a perspective view showing a state in which the external modules illustrated in FIG. 5 are stacked left and right.
7 is a perspective view showing an embodiment of a module joining unit of a precast concrete modular structure according to the present invention.
8 is an enlarged perspective view of part A of FIG. 7.
9 is a cross-sectional view showing a state before and after assembly of the module bonding unit shown in FIG.
10 is a cross-sectional view showing a state in which the external module is connected to the side by the module bonding unit shown in FIG.
11 is a perspective view showing a modification of the module bonding unit shown in FIG. 7.
12 is a cross-sectional view showing another embodiment of the module bonding unit of the precast concrete modular structure according to the present invention.
13 is a cross-sectional view showing a state in which the external module is connected laterally by the module bonding unit shown in FIG. 12.
14 is a perspective view showing another embodiment of a module joining unit of a precast concrete modular structure according to the present invention.
15 is a cross-sectional view showing a state before assembly and a state after assembly of the module bonding unit shown in FIG. 14.
16 is a cross-sectional view showing a state in which the external module is connected to the side by the module bonding unit shown in FIG.

The configuration shown in the embodiments and drawings described in this specification is only a preferred example of the disclosed invention, and at the time of filing the present application, there may be various modifications that can replace the embodiments and drawings of the present specification.

Hereinafter, a precast concrete modular structure and a construction method thereof will be described in detail with reference to embodiments described below with reference to the accompanying drawings.

1 to 3, the precast concrete modular structure according to an embodiment of the present invention is precast concrete (Precast Concrete) external module 100, which is inserted into the inner space of the external module 100 The in-fill module 200 includes a plurality of module bonding units installed at each of the upper and lower parts of the external module 100 to connect the plurality of external modules 100 to each other.

The external module 100 is made of precast concrete, and generally includes a plate-shaped slab structure 110 and a plurality of side wall structures 120 vertically formed at both ends of the slab structure 110. U-shaped box.

And the infill module 200 is to have a box shape and size of a rectangular parallelepiped corresponding to the space formed by the slab structure 110 and the side wall structure 120 of the external module 100, the external module 100 It is inserted and installed into the space inward. When the modular structure of the present invention is used as a house, the infill module 200 may be provided with structures necessary for life, such as a storage structure, a partition wall, a door, a chassis, and the like, to function as a residential space of a person, and a wall surface Insulating material or a ventilation hole may be provided. The infill module 200 is easy to manufacture and can be made of various materials having excellent mechanical strength and durability.

The external module 100 is a support structure for receiving and supporting the infill module 200, as described above, the slab structure 110 and the side wall structure 120 formed vertically at both ends of the slab structure 110. It includes.

The slab structure 110 has a rectangular flat plate shape and is made of precast concrete in a factory. Reinforcing bars may be embedded in the slab structure 110 to increase strength. In addition, a plurality of hollows 111 may be formed in the slab structure 110 to reduce the load when lifting the external module 100 with a crane.

The side wall structure 120 may be made of a wall of precast concrete that is formed to extend upwardly and downwardly over the entire longitudinal direction of both ends of the slab structure 110, as shown in the embodiments shown in FIGS. 2 and 3. have. When the slab structure 110 is formed of a square plate-shaped wall, a plurality of pillar parts 121 may be installed at regular intervals in the slab structure 110 as illustrated in FIG. 4. The pillar portion 121 has a slightly larger thickness than the wall, and a steel beam such as an H beam or a reinforcement material such as a reinforcing bar may be embedded therein.

5 and 6, the side wall structure 120 includes a plurality of pillar bodies 126 arranged at regular intervals along the longitudinal direction at both ends of the slab structure 110, and the plurality of pillar bodies ( 126) may be made of a configuration including a beam 127 that connects while traversing the upper end of the slab structure 110 in the longitudinal direction. Inside the pillar body 126, a steel beam such as an H beam or a reinforcing material such as a reinforcing bar may be embedded and manufactured.

When the side wall structure 120 is composed of a plurality of pillar bodies 126 and beams 127, a simple wall 128 filling the space between the pillar bodies 126 and the beams 127 may be additionally configured. You can. The simple wall 128 forms a partition wall separating the spaces of the two external modules 100 when the external modules 100 are stacked and connected to the side, and when the simple wall 128 is removed, the two external modules ( It is intended to provide an advantage to expand the size of the external module 100 by using the space of 100) open. The simple wall 128 may be constructed by applying precast concrete or gypsum board, FRP, or the like.

2 to 6, the lower end of the side wall structure 120 is formed to extend a certain distance from both ends of the slab structure 110 to a lower side, and the side wall structure of another external module 100 stacked on the lower side ( 120) and the module is joined by a module bonding unit.

7 to 9, in order to facilitate the bonding operation of the external module 100 by the module bonding unit, a pair of spaced apart distances from each other at a lower end of the side wall structure 120 of the external module 100 The installation groove 123 is provided with a bonding portion 122, which is formed concave upward. A plurality of the junction portions 122 are disposed at regular intervals along the longitudinal direction at a lower end of the side wall structure 120 extending downwardly of the slab structure 110.

The module joining unit is for firmly connecting the plurality of external modules 100 stacked when the plurality of external modules 100 are stacked vertically or horizontally, and is joined to the sidewall structure 120 of the external module 100. It includes a first bonding bracket 310 of a metal material installed on the 122, and a second bonding bracket 320 of a metal material installed on the upper end of the side wall structure 120 of the external module 100.

The first bonding bracket 310 is fixed to the lower end of the first fixing part 311 and the first fixing part 311 in which the upper end is buried and installed inside the bonding part 122, and a plurality of bolt holes 313 ) Includes a first bonding plate 312 formed to penetrate.

In addition, the second bonding bracket 320 has a second fixing plate 321, which is installed by being embedded in the upper portion of the side wall structure 120, and a second bonding plate fixed to the upper portion of the second fixing portion 321. (322), the second joining plate 322 is formed to extend upwardly through the bolt hole 313 of the first joining bracket 310 of the other external module 100, the installation groove of the joint 122 (123) includes a plurality of bolt shafts 323 that are inserted inward.

Since the first fixing portion 311 of the first bonding bracket 310 and the second fixing portion 321 of the second bonding bracket 320 are buried to a certain depth inside the side wall structure 120 and are integrated, the first When the joining bracket 310 and the second joining bracket 320 are connected to each other, it is possible to maintain a rigid fixing state.

The bolt shaft 323 of the second joining bracket 320 is formed of a bolt structure having a thread formed on an outer circumferential surface, and when the outer module 100 is stacked, the first joining bracket 310 of the other outer module 100 After passing through the bolt hole 313 formed in the installation groove 123 of the junction 122, it is fastened by a nut 325. Thus, the second bonding bracket 320 is fixed to the first bonding bracket 310.

In this embodiment, the first bonding bracket 310 is installed at the lower end of the side wall structure 120, and the second bonding bracket 320 is installed at the upper end of the side wall structure 120, but on the contrary, the second bonding bracket 320 ) Is installed at the lower end of the side wall structure 120, and the first bonding bracket 310 may be installed at the upper end of the side wall structure 120. Of course, in this case, the junction portion 122 on which the installation groove 123 is formed will be provided at the upper end of the side wall structure 120.

When the installation grooves 123 are concavely formed on both sides of the joint 122 where the first joint bracket 310 is installed as described above, the bolt shaft 323 of the second joint bracket 320 is attached to the first joint bracket ( After inserting through the bolt hole 313 of 310), an operator can insert a tool or a hand into the installation groove 123 and easily fasten the nut 325, so there is an advantage that the joining operation can be very easily performed. .

When it is desired to connect the external modules 100 side by side using the module bonding unit, as shown in FIG. 10, the second bonding bracket 320 of one of the external modules 100 and the other external module ( The second joint bracket 320 of 100) may be connected using a connection bracket 330. The connection bracket 330 is a plurality of bolts through which the second joint bracket 320 of one external module and the bolt shaft 323 of the second joint bracket 320 of the other external module 100 penetrate through at the same time. The hole 331 is formed of a plate-shaped metal sphere formed to penetrate.

When a plurality of external modules 100 are connected to the side by using the connection bracket 330, sidewall structures of one side of the external module 100 that are not connected to the other external modules 100 but are connected to the upper and lower sides ( A height difference occurs between the first joining bracket 310 and the second joining bracket 320 of 120), and the first joining bracket 310 and the second joining bracket 320 in which the connecting bracket 330 is interposed. Therefore, as shown in Figure 9, between the first joining bracket 310 and the second joining bracket 320, which do not require the connecting bracket 330, have the same thickness as the connecting bracket 330, and have a plurality It is preferable to install the plate through the height adjustment bracket 340, which is formed so that the bolt hole 341 is penetrated.

11 shows a modified example of the module joining unit according to the first embodiment described above. In this embodiment, the upper and lower parts of the side wall structure 120 of the external module 100 are made in the form of an uneven shear key. In correspondence with the shape of the shear key, the central portions of the first joining bracket 310 and the second joining bracket 320 of the module joining unit are concave and convex in the upper or lower side, and have a shape that can be overlapped while being engaged with each other.

12 and 13 show another embodiment of the module bonding unit of the modular structure according to the present invention, the module bonding unit of this embodiment, and the upper end of the side wall structure 120 of the external module 100 disposed on the lower side Coupling grooves 351, coupling protrusions 352, and coupling protrusions 352 inserted into engagement grooves 351, which are engaged with each other in an uneven shape corresponding to each other at the lower end of the other external module 100 stacked on the upper side, are inserted into the coupling groove 351. When it includes a metal joint bracket 353 is inserted between the inner side of one side of the coupling groove 351 and one side of the outer surface of the engaging projection (352).

A plurality of bolt fastening holes 351a, 352a, and 353a are formed to penetrate sideways in the coupling groove 351, the coupling protrusion 352, and the joint bracket 353, so that the side wall structure 120 of the external module 100 is formed. ), The bolts 354 are fastened through the bolt fastening holes 351a, 352a, and 353a, so that the two external modules 100 are stacked up and down.

The coupling groove 351 is made of a substantially 'U' shaped groove, and the coupling protrusion 352 is coupled while the central portion protrudes downward and is inserted into the coupling groove 351.

The joining bracket 353 is formed in an approximately 'a' shape as shown in FIG. 9 and is supported while the upper end is seated on the upper surface of the coupling groove 351.

This module joining unit is not simply joined by a combination of only the engaging groove 351 and the engaging projection 352, and is provided by sandwiching a bonding bracket 353 made of steel between the engaging groove 351 and the engaging projection 352. Coupling force and durability between the two external modules 100 may be significantly increased.

When two external modules 100 are to be connected to each other side by side by using the module bonding unit, a bonding bracket 353 in the form of 'U' or reverse 'U' is used as shown in FIG. The sidewall structure of the two external modules 100 is performed by simultaneously inserting and joining both side surfaces of the bonding bracket 353 between the coupling grooves 351 and the coupling protrusions 352 of two different external modules 100. The upper end of 120 may be integrally connected.

14 to 16 show another embodiment of the module bonding unit, the module bonding unit of this embodiment is the other side of the external module 100 stacked on the upper side and the side wall structure 120 of the external module 100 disposed on the lower side ( The coupling grooves 361 and coupling protrusions 362 which are formed in the shape of an 'a'-shaped irregularity corresponding to each other at the lower end of the side wall structure portion 120 of the 100 and are engaged with each other, and the shape of an' a'-shaped coupling protrusion ( When the 362 is inserted into the coupling groove, it includes a bonding bracket 363 made of a metal material inserted between one side of the coupling groove 361 and one side of the coupling protrusion 362.

A plurality of bolt fastening holes 361a, 362a, and 363a are formed in the coupling groove 361 and the coupling protrusion 362 and the joining bracket 363 to pass laterally, so that the side wall structure 120 of the external module 100 ), The bolts 365 are fastened through the bolt fastening holes 361a, 362a, and 363a, so that the two external modules 100 can be combined while being stacked up and down.

In the horizontal portion of the joining bracket 363, fixed protrusions 364 are formed to be fixed by being buried in the upper portion of the external module disposed on the lower side and the lower portion of the external module stacked on the upper side while extending up and down. The fixing protrusion 364 may also serve as a sealing function that prevents rainwater from entering through the bonding bracket 363 as well as allowing the bonding bracket 363 to be more firmly coupled to the side wall structure 120.

In addition, inclined surfaces 361b and 362b, which are inclined at a predetermined angle with respect to the vertical axis, are in contact with each other at the lower and upper ends of the surfaces where the engaging groove 361 and the engaging projection 362 are in contact with each other. The inclined surfaces 361b and 362b are damaged during construction by increasing the cross-section of the coupling portion together with a role of guiding the coupling groove 361 and the coupling protrusion 362 to be accurately coupled when the external modules 100 are stacked and connected. It can also play a role in suppressing this from occurring.

Even when two external modules 100 are to be connected to each other side by side using the module bonding unit of this embodiment, a bonding bracket 363 in the form of 'U' or reverse 'U' as shown in FIG. ) By inserting and coupling both side surfaces between the coupling grooves 361 and coupling protrusions 362 of two different external modules 100 at the same time, the upper ends of the side wall structures 120 of the two external modules 100 are integrated I can connect.

On the other hand, although not shown in the drawing, a hook that can be hooked by a hook of a crane may be installed at the upper end of the side wall structure 120 of the external module 100.

The method for constructing the precast concrete modular structure of the present invention is as follows.

One external module 100 is lifted by a crane and seated on the upper side of the other external module 100. At this time, the module bonding units installed on the upper and lower sides of the side wall structure 120 of the external module 100 are aligned to match each other to stack the external modules 100.

Subsequently, the module bonding units of the two external modules 100 stacked up and down are fastened to fix the external module 100.

When a plurality of external modules 100 are stacked up and down and left and right to have a desired structure shape, an infill module 200 designated as a space inside the external module 100 is inserted and installed. At this time, the in-fill module 200 may be inserted into the outer module 100 in a sliding manner from the front or rear, or may be inserted through the upper opening surface of the outer module 100.

As described above, when the infill module 200 is inserted and installed in the inner space of the external module 100, the construction of the modular structure is completed.

As described above, the modular structure of the present invention can be easily and firmly connected by a module joining unit while a plurality of external modules 100 made of pre-cast concrete are stacked up and down and left and right, and infill forming a housing structure. The module 200 may be inserted and supported inside the external module 100 made of pre-cask concrete.

Therefore, a sturdy modular structure can be easily constructed with a desired design.

In the above, the present invention has been described in detail with reference to examples, but those of ordinary skill in the art to which the present invention pertains will be capable of various substitutions, additions, and modifications without departing from the technical spirit described above. Of course, it is to be understood that such modified embodiments also belong to the protection scope of the present invention as defined by the appended claims.

100: external module 110: slab structure
120: side wall structure 121: pillar
122: joint 123: installation groove
126: pillar 127: beam
128: simple wall 200: in-fill module
310: first bonding bracket 311: first fixing
312: first bonding plate 313: bolt hole
320: second bonding bracket 321: second fixing
322: second joint plate 323: bolt shaft
330: connecting bracket 340: height adjustment bracket
351: engaging groove 352: engaging projection
353: Joint bracket 361: Coupling groove
362: engaging projection 363: joint bracket
364: fixed projection

Claims (16)

At least one external module including a plate-shaped slab structure formed of precast concrete and forming a bottom surface, and sidewall structures formed vertically at both ends of the slab structure;
An in-fill module having a size corresponding to the space formed by the slab structure portion and the side wall structure portion of the external module and being inserted and installed inside the space; And,
When a plurality of the external modules are stacked up and down, a plurality of module joining units for fixedly connecting the upper end of the side wall structure portion of the external module and the lower ends of both ends of other external modules stacked on the upper side;
Including,
At the lower end portion of the side wall structure portion of the external module or the both side ends of the slab structure portion, a pair of installation grooves spaced apart from each other by a predetermined distance are provided with a concave portion formed concave upward,
The module bonding unit,
A first joining bracket including a first fixing portion on which an upper end portion is buried and installed in the joining portion, and a first joining plate fixed to a lower portion of the first fixing portion and formed through a plurality of bolt holes;
The first fixing plate and the superimposing plate of the first bonding bracket of the other external module stacked on the upper side while being fixed to the upper end of the second fixing portion and the second fixing portion installed at the lower end of the outer side of the side wall structure portion of the external module. The paper is a second joint plate and a second bolt plate including a plurality of bolt shafts formed to extend upward on the second joint plate and penetrating through the bolt holes of the first joint bracket of another external module and inserted into the installation groove of the joint. Bonding brackets; And,
A nut fastening the bolt shaft to the first joint bracket while being fastened to the bolt shaft through the installation groove;
Precast concrete modular structure comprising a. delete According to claim 1, When two different external modules are stacked side by side, a plurality of bolt shafts of the second joint bracket of one external module and the second joint bracket of the other external module are simultaneously penetrated and coupled. A precast concrete modular structure in which two external modules are connected laterally by a plate-shaped connecting bracket through which a bolt hole of the is formed. The precast concrete modular structure according to claim 1, wherein the central portions of the first and second joining brackets are concave and convex in an upper or lower concave shape and overlap each other. The method of claim 1, wherein the module jointing unit is in the form of a plate with a plurality of bolt holes through which the bolt shaft passes, and further includes a height adjustment bracket installed between the first joint bracket and the second joint bracket. Precast concrete modular structure. delete delete delete delete delete The precast concrete modular structure of claim 1, wherein the side wall structure is formed to extend upward and downward across the entire length direction of both ends of the slab structure. 12. The method of claim 11, wherein the wall is vertically spaced at regular intervals along the longitudinal direction of the slab structure and vertically extending, and a reinforcement made of steel or reinforcing steel is embedded in the column to form an integrally formed precast concrete wall. Precast concrete modular structure. According to claim 1, The side wall structure is connected to the plurality of pillars arranged at regular intervals along the longitudinal direction at both ends of the slab structure, and the upper end of the plurality of pillars crossing in the longitudinal direction of the slab structure Precast concrete modular structure comprising a beam. The precast concrete modular structure of claim 13, wherein the side wall structure part further comprises a simple wall installed to fill a space between the pillar and the beam. The precast concrete modulator according to claim 1, wherein the lower end portion of the side wall structure portion is formed to extend a certain distance from both end portions of the slab structure portion to the lower side, and is coupled by a module bonding unit and an upper portion of the side wall structure portion of another external module stacked on the lower side. structure. A method for constructing a precast concrete modular structure according to any one of claims 1 and 3 to 5 and 11 to 15,
(S1) seating the other external module on the upper side of one external module;
(S2) fastening the module bonding unit of the two external modules stacked up and down to fix the external module; And,
(S3) inserting and installing an in-fill module inside the external module;
Construction method of a precast concrete modular structure comprising a.

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