KR102429154B1 - Precast Concrete Modular And Joint Structure with Core System Wall - Google Patents

Abstract

The present invention is a separate type PC modular structure in which a separately manufactured floor plate is combined with a body part having an inverted U-shaped cross section using a reinforcing bar joint and a cover plate, and a core wall joint angle is configured to facilitate joining with the wall of the building core part. And it relates to a joint structure of a separate PC modular structure and the wall of the building core.
A preferred embodiment of the detachable PC modular structure of the present invention is made of a horizontal plate-shaped ceiling plate, side plates each vertically downward at both ends in the width direction of the ceiling plate, and a metal L-shaped cross-section, the outer side of the ceiling plate a body part made of a core wall joint angle configured at the corner; It comprises a; a bottom plate made to include a plate-shaped bottom of a certain thickness and coupled to the lower portion of the main body.

Description

Separable PC modular structure composed of a core wall joint angle, and a joint structure between a separate PC modular structure and the wall of the building core {Precast Concrete Modular And Joint Structure with Core System Wall}

The present invention relates to a detachable PC modular structure having a core wall joint angle and a joint structure of a detachable PC modular structure and a wall of a building core part, and more particularly, a floor plate separately manufactured in a body part having an inverted U-shaped cross-section is reinforced It relates to a detachable PC modular structure and a joint structure of a separate PC modular structure and a wall of a building core part, which are combined using a joint and a cover plate, and a core wall joint angle is configured to facilitate joining with the wall of the core part of the building.

It started with PC (Precast Concrete) of columns and beams forming the structure of buildings in 1988. Currently, the Singapore government mandates that more than 65% of the structure of buildings be made of PC. Prefabricated Bathroom Unit) is activated, and bathrooms in buildings are currently being constructed with 100% PBU.

Therefore, in recent years, concrete PC units have been manufactured in the form of boxes so that they can be freely inserted or removed into or removed from the frame for wall structures or for ramen structures, as well as for remodeling, new construction, and extension of buildings.

However, the conventional box-shaped PC unit is not only very difficult to demold because it has to install a mold inside and demold when producing a box-shaped closed section, but also increases the lifting load when lifting due to the heavy weight of the PC unit itself, In particular, there was a problem that it was not easy to bond with the core wall of the building core made of PC or cast-in-place concrete.

As the technology that is the background of the present invention, there is Patent Registration No. 0995646 "Unit Building Unit Insertion Type Building" (Patent Document 1). In the background art, 'to be composed of a wall 12 and a slab 14, a frame 10 for a wall-type structure equipped with facilities; and a unit building unit 30 comprising a unit floor slab 32 and a unit wall 34 vertically coupled to an upper portion of the unit floor slab 32; A unit floor slab 32 facing the outside, or a rail wheel 40 coupled to the unit floor slab 32 and the unit wall 34; is included, and the frame 10 for the wall-type structure is a rail wheel 40 ) to correspond to the slab 14, or a guide rail 42 coupled to the slab 14 and the wall 12; is included, and the unit building unit 30 is a rail wheel along the guide rail 42 ( 40) slides into or removes the frame 10 for the wall structure by the movement of the unit building by means of a post 44 that penetrates the unit floor slab 32 and is fixed to the slab 14 of each floor. The unit 30 is fixed to the frame 10 for the wall-type structure, and the guide rail 42 is embedded in the slab 14. A unit building unit 30 insert-type structure is proposed.'

However, in the background art, there is a problem in that it is difficult to remove the form formed therein when manufacturing it with a closed cross-sectional structure, and it is difficult to lift, and in particular, it is difficult to bond between buildings.

Patent Registration No. 0995646 "Unit Building Unit Insertion Type Building"

The present invention is to solve the above problems, and by separately manufacturing the body part and the bottom plate, it is not only advantageous to demold from the form, but also to facilitate transportation, lifting, and construction, as well as to easily combine the body part and the bottom plate. It has an object to provide a separate PC modular structure configured with a core wall bonding angle that facilitates bonding between the PC modular structure and the wall of the building core.

The present invention is composed of a horizontal plate-shaped ceiling plate, a side plate configured vertically downward from both ends in the width direction of the ceiling plate, and a core wall joint angle made of a metal L-shaped cross-section and configured at the outer edge of the ceiling plate a body part; It consists of including a bottom plate having a plate shape of a certain thickness and is coupled to the lower part of the body part;
The body portion is formed with an edge beam so as to protrude inward in the width direction of the ceiling plate from the lower end of the side plate, and the edge beam is formed on the outer periphery of the bottom plate to be higher than the height of the bottom part,
The edge beam of the main body is formed with an end fastening groove, and is composed of a plate-shaped coupling plate of a certain size and a fixing member configured at the bottom of the coupling plate. The hardware is constituted, and the edge beam of the bottom plate is blocked out to a predetermined depth on both end sides in the longitudinal direction to form an end fastening groove. The end coupling hardware is configured to be embedded in the edge beam so that the upper surface of the coupling plate is exposed in the groove, and the end coupling hardware of the main body part and the end coupling hardware of the bottom plate are placed on the same line using a separate cover plate on the top. By welding, the body part and the bottom plate are joined,
At regular intervals in the longitudinal direction of the frame beams of the main body, embedded muscles are embedded in the side plates and edge beams so that one end protrudes from the side of the edge beams and is exposed, and blocks out at regular intervals in the longitudinal direction of the edge beams of the bottom plate The central part fastening groove is formed, the bottom part crosses the bottom part in the width direction, and the bottom part embedding muscle is embedded in the bottom part so that both ends are exposed in the central part fastening groove, respectively. An object of the present invention is to provide a separate PC modular structure composed of a core wall joint angle, characterized in that by connecting the reinforcing bars of the main body and the bottom plate by connecting the reinforcing bars of the main body to resist the moment.

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In addition, the bolts are embedded so as to protrude upward from the position on the same line between the edge beams of the body part and the edge beams of the bottom plate, so that the joint steel plate is simultaneously coupled to the bolts of the body part and the bottom plate, or a plate-shaped coupling plate of a certain size. and a fixing member configured on the lower part of the coupling plate, embedded in the edge beam of the body part and the edge beam of the bottom plate so that the upper surface of the coupling plate is exposed at the top, and bonding the bonding steel plate to the upper surface of the coupling plate, An object of the present invention is to provide a separate PC modular structure comprising a core wall joint angle, characterized in that it is fastened to connect the part and the bottom plate.

In addition, an object of the present invention is to provide a modular PC modular structure comprising a core wall joint angle, characterized in that the lower surface of the ceiling plate protrudes at regular intervals to form ribs.

In addition, a haunchi portion is formed on the inner corners of the ceiling plate and the side plate, and the haunchi portion is to provide a separate PC modular structure composed of a core wall joint angle, characterized in that the prosthetic reinforcement consisting of a main bar and a stirrup is configured.

In addition, the core wall joint angle is to provide a separate PC modular structure composed of the core wall joint angle, characterized in that the reinforcement plate is formed to connect the inner edge.

In addition, it is intended to provide a modular PC modular structure comprising a core wall bonding angle, characterized in that a protruding rib is formed on the upper surface of the bottom plate to protrude upward.

In addition, the protruding ribs are spaced apart a certain distance in the width direction of the bottom plate to provide a separate PC modular structure comprising a core wall bonding angle, characterized in that the first rib and the second rib are respectively formed in the longitudinal direction of the bottom plate.

In addition, in the protruding ribs, the first rib is formed in the entire longitudinal direction of the bottom plate, and the second rib is formed only from a point spaced a certain distance inward from one end of the bottom plate to the other end, and one side of the second rib It is intended to provide a separate type PC modular structure configured with a core wall joint angle, characterized in that reinforcing ribs are formed so that both ends connect the first rib and the edge beam in a right angle direction from the end, respectively.

In addition, at the time of bonding the core wall of the core part of the building and the detachable PC modular structure having the core wall joining angle, it is coupled to the fixing member on one side so that the fixing member is embedded in the core wall and the other side is exposed on the outer surface of the core wall. The junction plate is constituted, and the core wall junction angle on one side of the separate PC modular structure is brought into contact with the junction plate of the core wall, and then a junction member is added to the upper part of the core wall junction angle, and the joint member is connected to the joint plate and the core. An object of the present invention is to provide a joint structure of a separate PC modular structure and a wall of a building core, characterized in that they are welded to each other at a wall joint angle.

In addition, it is an object of the present invention to provide a joint structure between a separate PC modular structure and a wall of a building core, characterized in that the fixing member is formed in an arcuate shape and a joint plate is joined to a convex portion.

The detachable PC modular structure comprising the core wall joining angle of the present invention and the joint structure of the detachable PC modular structure and the wall of the building core part are made by separately manufacturing the inverted U-shaped body part and the bottom plate in which the ceiling plate and two side plates are integrally manufactured. Not only is it advantageous for demolding, but it is possible to produce a box-type PC modular structure by very easily combining the inverted U-shaped body part and the bottom plate using rebar joints and cover plates, which has a very useful effect of easy transport, lifting and construction. In addition, there is an effect of configuring the core wall bonding angle in the main body in advance to make bonding with the core wall of the building core very easy.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view of a detachable PC modular structure comprising a core wall joint angle of the present invention.
2 is an exploded perspective view of a detachable PC modular structure having a core wall joint angle of the present invention.
Fig. 3 is a cross-sectional view of the end side of Fig. 1;
FIG. 4 is a partially enlarged view of FIG. 3 .
5 is a plan cross-sectional view of a detachable PC modular structure having a core wall joint angle of the present invention.
FIG. 6 is a cross-sectional view of the central portion of FIG. 1 .
7 is a partially enlarged view of FIG. 6 .
8 is a cross-sectional view taken along line AA of FIG. 1 .
9 is a view showing the bonding structure of the wall of the detachable PC modular structure and the building core part of the present invention.
FIG. 10 is a partially enlarged view of FIG. 9 .
11 is a view showing another embodiment of the bonding member configured in the bonding plate of the core wall of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a perspective view of a detachable PC modular structure configured with a core wall joint angle of the present invention, FIG. 2 is an exploded perspective view of FIG. 1, and FIG. 3 is a cross-sectional view of the end side of FIG.

As shown in FIGS. 1 and 2, the detachable PC modular structure 1 having the core wall joint angle of the present invention is an inverted U-shaped cross-section in which the ceiling plate 11 and the two side plates 12 are integrally manufactured. The main body portion 10 and the bottom plate 20 are separately manufactured, and then assembled and used.

Conventionally, in the case of a PC modular structure, it was difficult to install and remove the form inside because it was manufactured with a closed cross-section. In addition, it is possible to manufacture the box-type PC modular structure 1 by combining the body portion 10 and the bottom plate 20 using a reinforcing bar joint and a cover plate, so that transportation, lifting and construction are easy.

The main body 10 is composed of a horizontal plate-shaped ceiling plate 11 and a side plate 12 vertically downward from both ends of the ceiling plate 11 in the width direction, and the lower end of the side plate 12 . The edge beam 13 formed to protrude inward in the width direction of the ceiling plate 11 is integrally manufactured and formed to have an inverted U-shaped cross section, and the bottom plate 20 has a plate-shaped bottom part 21 of a certain thickness. ) and may be configured to be coupled to the lower portion of the main body 10 by including a rim beam 23 formed higher than the height of the bottom 21 around the outer periphery of the bottom 21 .

As shown in FIGS. 1 to 3, the lower surface of the ceiling plate 11 protrudes at regular intervals to form ribs 111, so that the strength can be reinforced while the ceiling plate 11 is composed of a thin plate, It can also be made to maintain its shape in response to the deformation of drying shrinkage. At this time, the ribs may also be formed by protruding at regular intervals from the outer surface of the side plate 12 .

In particular, the lower end of the side plate 12 of the present invention is formed so that the edge beam 13 is formed to protrude inward in the horizontal direction to reinforce the end of the side plate 12 and at the same time to reinforce the strength while being composed of a thin plate. make it possible

In addition, by forming a haunchi part 16 on the inner edge of the ceiling plate 11 and the side plate 12, the ceiling plate 11 and the side plate 12 are made of a thin plate, and the open cross-section is inverted U-shaped. When configured, the haunchi portion 16 prevents the narrowing between the lower ends of the pair of side plates 12 in the drying and shrinkage process so that the inverted U-shaped shape can be maintained, and in particular, The haunchi portion 16 may be configured such that the prosthetic reinforcement consisting of the main reinforcing bar 161 and the stirrup 162 is configured so that the haunchi portion 16 may perform a beam behavior.

In addition, as in FIGS. 1, 9 and 10 for bonding the separate PC modular structure 1 and the core wall 8 of the core part of the main body 10, a separate core wall bonding angle 90 is provided is composed

The core wall joint angle 90 is made of a L-shaped cross-section of a metal material and is configured at the outer edge of the ceiling plate 11 in the longitudinal or width direction, and may be configured to the entire length of the main body 10, but As such, one or more may be installed only in a necessary portion, and may be formed only on one edge of the body portion 10 in the width direction or length direction, or may be formed on both edges of the body portion 10 .

Such a core wall joining angle 90 can prevent the core wall joining angle 90 from protruding to the outside by forming a chin on the body portion 10, and this chin includes the joint member 91 and the ceiling plate 11 ) can be formed by adjusting the height so as not to protrude to the upper part, and in particular, the fixing member 96 made of studs, iron wires, reinforcing bars, etc. The joining angle 90 may be fixed to the body portion 10 .

As described above, a separately manufactured bottom plate 20 is coupled to the lower portion of the body portion 10 made of an inverted U shape.

The bottom plate 20 is formed in a plate shape of a predetermined thickness to close the lower portion of the body portion 10 .

To explain in more detail, the bottom plate 20 is formed with a bottom part 21 having a plate shape of a certain thickness, and is formed higher than the height of the bottom part 21 around the outer periphery of the bottom part 21 and consists of a rim beam 23, To be coupled to the lower portion of the inverted U-shaped body portion (10).

The edge beam 23 forms a thin thickness of the bottom part 21 while reinforcing the strength, and is blocked out to a certain depth on both end sides in the longitudinal direction to form an end fastening groove 231 with the body part 10 . To provide a bonding surface for bonding.

The edge beam 23 is to be coupled in contact with the edge beam 13 of the main body 10 , so that the edge beam 23 of the bottom plate 20 is also configured with an end coupling hardware 24 .

4 is a partial enlarged view of FIG. 3, FIG. 5 is a plan sectional view of a detachable PC modular structure configured with a core wall joint of the present invention, and FIG. 6 is a cross-sectional view of the central portion of FIG. 1, FIG. It is a partially enlarged view of FIG. 6 .

Such a body portion 10 and the bottom plate 20 are coupled using a reinforcing bar joint using a coupler 50 and a cover plate 40 .

In particular, in the present invention, the body portion 10 and the bottom plate 20 may have the following joint portion.

First, the main body portion 10 and the bottom plate 20 are coupled using the cover plate 40 at both ends in the longitudinal direction to maintain the shape during lifting and to resist torsion. can be made to form.

In addition, the body part 10 and the bottom plate 20 connect the body part embedded muscle 15 of the body part 10 and the bottom part embedded muscle 25 of the bottom plate 20 at regular intervals in the longitudinal direction to connect the moment It is also possible to configure the joint for moment resistance to resist the

Finally, the body portion 10 and the bottom plate 20 may be combined using one or more bonding steel plates 80 to constitute a joint for preventing floor sagging during lifting to prevent sagging during lifting.

The coupling using the cover plate 40 is, as shown in FIGS. 3 to 5, the edge beam 13 is blocked out to a predetermined depth on both end sides in the longitudinal direction after the end fastening groove 131 is formed and the bottom plate ( 20) to configure the end coupling hardware 14 for coupling with the bottom plate 20, and to configure the end coupling hardware 24 also on the edge beam 23 of the bottom plate 20 to form the end coupling hardware 14 of the main body 10 ) and the end coupling hardware 24 of the bottom plate 20 may be positioned on the same line and coupled to the body portion 10 by fastening the bolt 40 using a separate cover plate 40 on the upper portion.

The end fastening grooves 131 and 231 are configured so that the end coupling hardware 14 and 24 are not exposed to the outside and the cover plate 40 is seated inside and does not protrude to the outside, and its size and shape can be formed in various ways.

As shown in Figure 4, the end coupling hardware 14 is made of a plate-shaped coupling plate 141 of a predetermined size, and the fixing reinforcing bar 142 configured in the lower portion of the coupling plate 141, in the end coupling groove 131. It is configured to be embedded in each of the edge beams 13 so that the upper surface of the coupling plate 141 is exposed.

The anchoring reinforcing bar 142 may be formed of an iron wire, a stud, or the like in addition to the reinforcing bar.

The end coupling hardware 24 configured in the bottom plate 20 has the same configuration as the end coupling hardware 14 embedded in the body portion 10, and a plate-shaped coupling plate 241 of a certain size and a coupling plate ( 241) is made of the anchoring reinforcing bar 242 configured in the lower part, and is embedded in the edge beam 23 so that the upper surface of the coupling plate 241 is exposed in the end fastening groove 231, respectively, in FIGS. 3 and 4 As in Fig., the end coupling hardware 14 of the main body 10 and the end coupling hardware 24 of the bottom plate 20 are placed on the same line and welded using a separate cover plate 40 on the upper part of the body. The part 10 and the bottom plate 20 are coupled to each other.

5 to 7, the reinforcing bar joint using the coupler 50, the body portion 10 and the bottom plate 20 at regular intervals in the longitudinal direction, the body portion embedded muscle 15 of the body portion 10 and By connecting the bottom embedded muscles 25 of the bottom plate 20 to resist the moment.

At regular intervals in the longitudinal direction except for the longitudinal end of the edge beam 13 of the body part 10, one end protrudes from the side of the side plate 12 or the edge beam 13, It is to be embedded in the entire side plate 12 and the edge beam 13 so as to be exposed.

The bottom buried root 25 is blocked out at regular intervals in the longitudinal direction of the edge beams 23 on both sides in the width direction of the bottom plate 20 to form a central part fastening groove 232, and the bottom part 21 in the width direction to form a bottom buried muscle 25 embedded in the bottom 21 so that both ends thereof are exposed in the central fastening groove 232 , respectively.

The main body part buried muscle 15 and the bottom part buried muscle 25 match the positions and are fastened with the coupler 50 to couple the body part 10 and the bottom plate 20 . When coupled in this way, as the body portion 10 and the bottom plate 20 are coupled, the body portion buried muscle 15 and the bottom embedded muscle 25 are connected as one to resist the moment.

When reinforcing the reinforcing bars of the main body part buried reinforcing bar 15 and the bottom buried reinforcing bar 25, all known various reinforcing bar splicing methods such as welding and coupler splicing through thread processing can be used, and as shown, the coupler 50 ) and the threaded joint reinforcing bars 51 at both ends can be used to fasten them.

In the bottom plate 20, a predetermined interval in the longitudinal direction of the edge beams 23 on both sides in the longitudinal direction, that is, the body part embedded muscle 15 is formed at a predetermined size, so that the central part fastening groove 232 is formed.

In the central part fastening groove 232, the bottom part buried muscle 25 is configured so that the end thereof is exposed. The bottom part buried muscle 25 is embedded in the width direction of the bottom plate 20, and both ends are embedded in the central part fastening groove ( 232) is formed to protrude.

In particular, as shown, in order to connect the coupler 50, one end protruding to the outside of the body part buried muscle 15 is threaded to facilitate fastening with the coupler 50, and the bottom part buried muscle 25 ) is formed to be threaded on both ends, respectively, as in FIGS. 6 and 7 , so that the positions of the body part buried muscle 15 and the bottom part buried muscle 25 are matched to be fastened with the coupler 50 .

In this way, the coupling of the body part 10 and the bottom plate 20 is to be coupled by applying the end coupling hardware 14 of the body part 10 and the end coupling hardware 24 of the bottom plate 20, or the end At the same time, both methods are applied by joining using the end coupling hardware 14 and 24, and in the central part, the main body part embedded muscle 15 and the bottom part embedded muscle 25 are combined using a coupler 50. It can also be combined to have a joint structure capable of preventing water leakage.

The protruding ribs 27 are formed on the upper surface of the bottom plate 20 so as to protrude upward, so that the bottom plate 20 can be reinforced, and the protruding ribs 27 are the width of the bottom plate 20 . The first ribs 271 and the second ribs 272 may be respectively formed in the longitudinal direction of the bottom plate 20 by being spaced apart from each other by a predetermined distance in the direction.

In particular, in the protruding ribs 27 , the first ribs 271 are formed in the entire longitudinal direction of the bottom plate 20 , and the second ribs 272 are spaced apart from one end of the bottom plate 20 inward by a predetermined distance. The reinforcing rib 273 is formed so as to be formed only from the point where it is formed to the other end, and to connect the first rib 271 and the edge beam 23 at both ends in a right angle direction from one end of the second rib 272, respectively. , the first rib 271, the reinforcing rib 273, and the space consisting of the edge beam 23 so that the reinforcing rib is not formed, it is possible to facilitate the installation and piping.

In this way, by forming a separate space in which the reinforcing rib is not formed, it is possible to form a separate space, such as a toilet, which requires facilities and piping when forming a unit structure.

8 is a cross-sectional view taken along line A-A of FIG. 1 .

In particular, as shown in Figure 8, the edge beam 13 of the body portion 10 and the edge beam 23 of the bottom plate 20, the bonded steel plate 80 at the position on the same line as the body portion 10 and the floor By attaching the upper part of the joint of the plate 20 to the body part 10 and the bottom plate 20, it is possible to suppress sagging in the central part during lifting of the detachable PC modular structure 1 of the present invention. have.

To this end, the bolts 70 are embedded so as to protrude upward from the position on the same line of the edge beams 13 of the main body 10 and the edge beams 23 of the bottom plate 20, respectively, and a bonded steel plate (80) may be added to the upper portion of the bolt 70 of the body portion 10 and the bottom plate 20 to couple the body portion 10 and the bottom plate 20, and a plate-shaped coupling plate ( 71) and a fixing member 72 configured under the coupling plate 71, so that the upper surface of the coupling plate 71 is exposed at the top, the edge beam 13 and the bottom plate ( 20) buried in the edge beam 23 and bonding the bonding steel sheet 80 to the upper surface of the coupling plate 71 so as to connect the main body 10 and the bottom plate 20 to each other.

In the present invention, the main body 10 and the bottom plate 20 connect the body part embedded muscles 15 of the main body 10 and the bottom embedded muscles 25 of the bottom plate 20 at regular intervals in the longitudinal direction. The junction for moment resistance is configured to resist the moment, but the body part 10 and the bottom plate 20 are combined and blocked out at regular intervals in the longitudinal direction of the edge beam 23 during construction to the central part fastening groove 232. Since the force cannot be received until concrete or mortar is poured, the main body 10 and the bottom plate 20 are coupled using one or more bonded steel plates 80 to prevent sagging during lifting. To prevent sagging of the bottom, or to combine the body portion 10 and the bottom plate 20 using the cover plates 40 at both ends in the longitudinal direction, to maintain the shape during lifting and to resist torsion. And it can be made to form a junction for torsion resistance.

9 is a view showing the joint structure of the wall of the detachable PC modular structure and the building core part of the present invention, and FIG. 10 is a partially enlarged view of FIG. 9 .

9 and 10, in the present invention, for bonding between the core wall 8 and the detachable PC modular structure of the present invention, the core wall 8 of the building core has the other side on the outer surface of the core wall 8 After the bonding plate 82 is configured to be exposed, and the core wall bonding angle 90 of one side of the detachable PC modular structure 1 is brought into contact with the bonding plate 82 of the core wall 8, the core wall bonding A joint member 91 is added to the upper portion of the angle 90, and the joint member 91 is welded to the joint plate 82 and the core wall joint angle 90, respectively, to the core wall 8 and the separate PC modular structure ( 1) to be connected.

The joint member 91 is a plate-shaped plate as shown in FIG. 10A or, as shown in FIG. 10B, by using an angle to weld the joint plate 82 and the core wall joint angle 90 to the core wall ( 8) and the detachable PC modular structure (1) can be joined.

11 is a view showing another embodiment of the bonding member configured in the bonding plate of the core wall of the present invention.

The bonding member 91 may be made of a stud, as in FIG. 11a, and as in FIG. 11b, a reinforcing bar or wire may be used, and although not shown, a plate-shaped plate, an angle, and a stud may all be used.

At this time, the bonding plate 82 is made in the form of a metal plate, and for fixing to the core wall 8, one side of the bonding plate 82 is welded to a fixing member 81 such as a stud. (81) is embedded in the core wall (8).

In particular, the fixing member 81, as shown, by processing the plate or wire rod into an arcuate or trapezoidal shape without a base, and joining the bonding plate 82 to the outer surface of the convex part by welding, etc. As in 10, it is possible to increase the contact area on the inside of the core wall 8 .

The detachable PC modular structure comprising the core wall joining angle of the present invention as described above, and the joint structure of the detachable PC modular structure and the wall of the building core part are the inverted U-shaped body part and the floor plate, which are integrally manufactured with a ceiling plate and two side plates. It is not only advantageous for demolding by manufacturing separately, but also very easily combining the inverted U-shaped body part and the bottom plate using rebar joints and cover plates to produce a box-type PC modular structure, making it very easy to transport, lift and construct. There is a useful effect, and there is also an effect of very easily bonding the core wall of the building to the core wall by configuring the core wall joint angle in advance in the body part.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but only by the claims appended hereto.

1: Separable PC modular structure with core wall joint angle
8: core wall of the building core part
10: body part
11: ceiling plate
12: side plate
13: border beam
131: end fastening groove
140: end coupling hardware
15: body part embedded muscle
20: bottom plate
21: bottom
23: border beam
24: end joint hardware
25: bottom buried muscle
27: protruding ribs
40: cover plate
50: coupler
70: high power bolt
80: bonded steel plate
81: fixing member
82: bonding plate
90: core wall joint angle
91: bonding plate

Claims (15)

The horizontal plate-shaped ceiling plate 11, the side plates 12 each vertically downward from both ends in the width direction of the ceiling plate 11, and the outer edge of the ceiling plate 11 made of a metal L-shaped cross section. A body portion 10 made of a core wall joint angle 90 configured to; The bottom plate 20 is coupled to the lower portion of the body portion 10 made of including a plate-shaped bottom portion 21 of a certain thickness; is made including,
The main body 10 has a frame beam 13 formed so as to protrude inward in the width direction of the ceiling plate 11 from the lower end of the side plate 12 , and the bottom plate 20 is formed on the outer periphery of the bottom part 21 . The edge beam 23 is formed higher than the height of the bottom part 21,
The edge beam 13 of the main body 10 is formed with an end fastening groove 131, and consists of a plate-shaped coupling plate 141 of a predetermined size and a fixing member 142 configured under the coupling plate 141. The edge beams 23 of the bottom plate 20 are respectively embedded in the edge beams 13 so that the upper surfaces of the coupling plates 141 are exposed in the end coupling grooves 131 to constitute the edge coupling hardware 14 , and the edge beams 23 of the bottom plate 20 have a length The end coupling groove 231 is formed by being blocked out to a predetermined depth in the upper portions of both ends in the direction, and the coupling plate 241 having a plate shape of a predetermined size and the fixing member 242 configured in the lower portion of the coupling plate 241 are formed. The end coupling hardware 24 is configured to be embedded in the edge beam 23 so that the upper surface of the coupling plate 241 is exposed in the coupling groove 231 , and the end coupling hardware 14 and the bottom of the main body 10 are By placing the end coupling hardware 24 of the plate 20 on the same line and welding it using a separate cover plate 40 on the upper part, the body part 10 and the bottom plate 20 are joined,
At regular intervals in the longitudinal direction of the frame beam 13 of the body portion 10, one end protrudes from the side of the edge beam 13 and is exposed to the side plate 12 and the edge beam 13. ) is embedded, and is blocked out at regular intervals in the longitudinal direction of the edge beams 23 of the bottom plate 20 to form a central part fastening groove 232 , which crosses the bottom part 21 in the width direction, and both ends are fastened to the central part, respectively. The bottom buried muscle 25 is embedded in the bottom part 21 so as to be exposed in the groove 232 , and the positions of the main body part embedded muscle 15 and the bottom buried muscle 25 are matched to form a coupler 50 . A detachable PC with a core wall joining angle, characterized in that by connecting the reinforcing bars of the main body 10 and the bottom buried reinforcing bars 25 of the bottom plate 20 to resist the moment modular structure. delete delete delete delete The method according to claim 1,
The bolt 70 is embedded so as to protrude upward from the same position of the edge beam 13 of the body part 10 and the edge beam 23 of the bottom plate 20, respectively, so that the body part 10 and the floor At the same time bonding the bonding steel plate 80 to the bolt 70 of the plate 20, or
It consists of a plate-shaped coupling plate 71 of a certain size and a fixing member 72 configured under the coupling plate 71, and the edge beam of the body part 10 so that the upper surface of the coupling plate 71 is exposed at the top. (13) and the edge beam (23) of the bottom plate (20) by embedding the bonding plate (71) to the upper surface of the bonding steel plate (80),
A detachable PC modular structure comprising a core wall joint angle, characterized in that it is fastened to connect the main body 10 and the bottom plate 20. The method according to claim 1,
The lower surface of the ceiling plate 11 protrudes at regular intervals so that ribs 111 are formed. The method according to claim 1,
A heonchi portion 16 is formed at the inner edge of the ceiling plate 11 and the side plate 12,
A detachable PC modular structure configured with a core wall joint angle, characterized in that the haunchi part 16 includes a beam reinforcement consisting of a main bar 161 and a stirrup 162. The method according to claim 1,
A detachable PC modular structure configured with a core wall joint angle, characterized in that a fixing member 96 is configured on the inner surface of the core wall joint angle (90). 10. The method of claim 9,
The core wall joint angle 90 is a separate PC modular structure configured with a core wall joint angle, characterized in that a reinforcing plate 93 is formed to connect the inner corners. The method according to claim 1,
A detachable PC modular structure comprising a core wall bonding angle, characterized in that a protruding rib 27 is formed on the upper surface of the bottom plate 20 to protrude upward. 12. The method of claim 11,
The protruding ribs 27 are spaced apart by a predetermined distance in the width direction of the bottom plate 20 to form a first rib 271 and a second rib 272 in the longitudinal direction of the bottom plate 20, respectively. A separate PC modular structure with a wall joint angle. 13. The method of claim 12,
In the protruding rib 27 , the first rib 271 is formed in the entire longitudinal direction of the bottom plate 20 , and the second rib 272 is a point spaced apart from one end of the bottom plate 20 inward by a predetermined distance. is formed only to the other end of
A separation type with a core wall joining angle, characterized in that the reinforcing ribs 273 are formed to connect the first ribs 271 and the edge beams 23 to both ends in a right angle direction from one end of the second rib 272, respectively. PC modular structure. In the joint structure of the separate PC modular structure comprising the core wall joint angle of claim 1 and the wall of the building core part,
In the core wall 8 of the core part of the building, it is coupled to the fixing member 81 on one side so that the fixing member 81 is embedded in the core wall 8 and the other side is exposed on the outer side of the core wall 8 The bonding plate 82 is configured,
After making the core wall bonding angle 90 of one side of the separated PC modular structure 1 contact the bonding plate 82 of the core wall 8, the bonding member 91 on the upper part of the core wall bonding angle 90 A joint structure of a separate PC modular structure and a wall of a building core part, characterized in that by welding the joint member 91 to the joint plate 82 and the core wall joint angle 90 by adding them. 15. The method of claim 14,
The fixing member 81 is formed in an arcuate shape, and a bonding structure of a separate PC modular structure and a wall of a building core, characterized in that a bonding plate 82 is bonded to the convex portion.

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