KR101912308B1 - Construction structure of balcony integral type building structure - Google Patents

Abstract

The present invention relates to a construction structure of a building structure integrally formed with a balcony, which is mounted on a wall or a ceiling so as to form an indoor ceiling or floor of the building structure, A PC deck plate in which a part of the shear connecting member is embedded; A deck plate having a first body formed in the form of a flat plate and a shear connection member partially embedded in an upper surface of the first body to which the concrete is to be inserted; The deck plate is connected to one side of the deck plate so as to define a space for placing the concrete on the deck plate while insulating the building structure from the deck plate, one side being located on the deck plate, The deck plate is coupled to the other side of the deck plate so as to define the pouring space on which the concrete is to be placed, The second form of forming the finish surface And a balcony installation unit which is installed on the upper side of the wall or the beam and is spaced apart from the PC deck plate by a predetermined interval while the other side of the connection members is located above the PC deck plate to be connected to the PC deck plate do.

Description

 [0001] The present invention relates to a construction structure of a balcony,

The present invention relates to a construction structure of a building structure integrally formed with a balcony, and more particularly, to a construction structure of a building which is improved in thermal insulation performance, vertical and horizontal shear performance and adhesion performance with a building structure, The present invention relates to a construction structure of a building structure which can be constructed in advance and which can be installed at a high speed in comparison with a site, and which can integrally form a balcony, a balcony, and a ceiling or floor.

Generally, in the construction of a balcony on a high-rise type structure such as an apartment using a cast concrete (RC method), the balcony has a cantilever structure and serves to connect the inside and the outside. However, in the case of the conventional RC method, there is a problem such as condensation and mold due to deterioration of the heat insulating performance due to the construction condition at the joint portion between the balcony and the structure.

In addition, since the RC method directly places the concrete directly on the site, it is necessary to install a large number of formworks, and when the concrete is completely hardened in the formwork, it is possible to construct a wall for the upper layer. And the air is long. In particular, there is a problem that the environment is polluted due to the occurrence of construction waste used in the field installation.

Meanwhile, the problems that arise in the construction of the above-mentioned buildings are also generated in the construction of the balconies in the structures. This is because the ineffective work to install and dismantle the formwork for the site installation and the noise and dust due to the concrete pouring are generated, And pollute the surrounding air.

Also, during the construction of the structure, the balconies are used as a window to introduce the raw materials from the outside along with the corridors, and in some cases, they are also used as a temporary storage space for the raw materials.

Therefore, the construction quality of the balcony installed by the conventional RC method (field cast concrete) may not be constant depending on the situation of the site, and some defects may occur. Particularly, the corridor and the balcony protrude to the outermost side of the building, The image will be affected.

In addition, the conventional balcony bottom (or ceiling portion) formed by the RC method tends to generate shear cracks at the joint portion due to the cantilever structure and cracks (cracks) as the cured concrete is dried to cause safety problems .

Korean Patent No. 10-0763254

The present invention improves the insulation performance of the joints with the building structure, the vertical and horizontal shear performance and the adhesion performance, and the shear strength of the joints, and can be constructed in advance at the factory, And it is an object of the present invention to provide a construction structure of an architectural structure that integrally forms a balcony that can be installed at the same time.

The present invention relates to a PC deck plate which is mounted on a wall or a ceiling so as to form an indoor ceiling or floor of an architectural structure and is formed as a flat plate and in which a part of a shear connection member is embedded in an upper surface on which concrete is laid; A deck plate having a first body formed in the form of a flat plate and a shear connection member partially embedded in an upper surface of the first body to which the concrete is to be inserted; The deck plate is connected to one side of the deck plate so as to define a space for placing the concrete on the deck plate while insulating the building structure from the deck plate, one side being located on the deck plate, The deck plate is coupled to the other side of the deck plate so as to define the pouring space on which the concrete is to be placed, The second form of forming the finish surface And a balcony installation unit which is installed on the upper side of the wall or the beam and is spaced apart from the PC deck plate by a predetermined interval while the other side of the connection members is located above the PC deck plate to be connected to the PC deck plate And the concrete deck is placed on the upper surface of the PC deck plate, the installation space, and the spaced space between the PC deck plate and the balcony installation unit, the concrete or the concrete, the PC deck plate, The present invention provides a construction structure of an architectural structure that integrally forms a balcony on which a wall, a ceiling, a floor, and a balcony are formed by integrally combining construction units.

The construction structure of the building structure which integrally forms the balcony according to the present invention has the following effects.

First, since the concrete placed on the deck plate and the second formwork plate form a balcony, a step of removing the formwork is unnecessary, so that not only the air is shortened but also the finish quality of the surface of the balcony is improved .

Secondly, since a part of the formwork for constructing the balcony is manufactured by using the first formwork plate, the process for installing a separate heat insulating member is omitted, so that the air can be shortened.

Third, it is possible to construct the building structure simultaneously by installing the wall made of the precast concrete, the PC deck plate and the balcony installation unit for constructing the ceiling or the floor, and then pouring the concrete once into them. Can be improved and the air can be shortened.

1 is a perspective view illustrating a balcony installation unit according to an embodiment of the present invention.
2 and 3 show a deck plate according to an embodiment of the balcony installation unit according to FIG.
Figs. 4 and 5 show a shear connection member installed on the deck plate according to Fig.
Fig. 6 is a perspective view showing another embodiment of the first formwork plate of the balcony installation unit according to Fig. 1;
7 to 10 are perspective views showing another embodiment of the second formwork plate of the balcony installation unit according to FIG.
11 and 12 show a deck plate according to another embodiment of the balcony construction unit according to FIG.
13 to 20 show a process of manufacturing the deck plate of the balcony construction unit according to the present invention.
21 shows a PC deck plate according to the present invention.
22 to 26 show a plate wall for a structure and a manufacturing process thereof according to the present invention.
27 is a perspective view illustrating a construction structure of a building structure integrally forming a balcony according to an embodiment of the present invention.
28 is a perspective view showing a state in which a part of the building structure is constructed by the construction structure of the building structure shown in FIG.

Before the concrete description of the present invention, the balcony installation unit of the present invention is installed in the beam top when a building structure is constructed by a laminated structure composed of beams, columns and slabs. On the other hand, when a building structure is constructed with a wall structure composed of walls and slabs, the balcony construction unit is installed above the walls. In addition, when a building structure is constructed by a PC structure composed of a PC beam, a PC column, a PC slab, and a plate wall for a dual structure, the balcony construction unit is installed on the PC beam or the double wall Respectively. After the balcony installation unit is installed, the concrete is installed on the site and integrated with other members.

In the following description, when an architectural structure is constructed with a PC structure, the balcony installation unit is installed on an upper part of a plate wall for a structure.

First, a balcony installation unit 1000 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 10. FIG. The balcony installation unit 1000 includes a deck plate 200, a second formwork plate 700a, and a first formwork plate 810.

2 and 3, the deck plate 200 includes a rectangular parallelepiped having a front surface (unrepresented), a rear surface (untrained surface), a bottom surface 210a, an upper surface 210b, a left side surface 210c and a right side surface 210d. The first body 210 is formed in the shape of a flat plate having a rectangular cross section.

The wire mesh 211 and 213 composed of the skeleton of the first body 210 reinforce the strength of the first body 210 in the first body 210 of the deck plate 200, And is buried. Although not shown in the drawing, pretension (stranded wire, not shown) may be embedded in addition to the wire meshes 211 and 213. However, the pre-tension (not shown) is not an essential component and may be omitted.

The first body 210 has a first body 210 and a second body 210. The first body 210 increases the contact area with concrete (not shown) placed in the spacing space 400 and reduces the weight of the deck plate 200, And first grooves 230 are formed on the upper surface 210b of the first body 210 so as to extend along the longitudinal direction of the first body 210. [ The first grooves 230 are concave toward the lower surface 210a from the upper surface 210b of the first body 210. The length of the first grooves 230 in the width direction is larger than the length of the upper surface 210b. The lower surface 210a is shorter.

Referring to FIGS. 2 and 3, the deck plate 200 has three first grooves 230 formed therein. The length E between the three first trenches 230 is equally spaced. The first grooves 230 are symmetrical with respect to the first grooves 230 formed at the center of the first body 210 in the width direction. However, since the above-described structure is limited to one embodiment of the present invention, it may vary depending on the nature of the concrete (not shown) placed in the spacing space 400.

The length A of the upper surface of the first body 210 between the neighboring first trench 230 and the first trench 230 is greater than the length B in the upper side width direction of the first trench 230 ). Illustratively, the upper contrast of the length B in the upper widthwise direction of the groove 130 with respect to the length A of the upper surface of the first body 210 is greater than 0 and smaller than 0.4. Preferably, the relative ratio of the length A in the upper widthwise direction of the groove 130 to the length A of the upper surface of the first body 210 is 0.2 and the length A of the upper surface of the body 110 is 500 mm The length B in the upper width direction of the groove 130 is 100 mm.

The height of the depth D of the first groove 230 with respect to the height C of the first body 210 is greater than zero and less than 0.5. The first body 210 has a height C of 80 mm and the depth D of the first groove 230 is 30 mm so that the height C of the first body 210 The relative ratio of the depth D of the first groove portion 230 is 0.375.

That is, the length A of the upper surface of the first body 210 between the neighboring first trenches 230 and the first trenches 230 is greater than the upper side widthwise length of the first trenches 230 B, and the length D of the first groove 230 is not determined, but is determined according to the set contrast, thereby forming the first groove 230.

Even if the first grooves 230 are formed in the first body 210 because the first grooves 230 are formed in the first body 210 according to the contrast of the deck plate 200, The deck plate 200 generally has the shape of a flat plate.

The first trench 230 is formed in an inverted triangular shape in vertical section parallel to the width direction of the first body 210. The first trench 230 includes a first inner inclined surface 231 inclined downward from the tip of the upper surface 210b and a second inclined inner surface 233 symmetrical to the first inner inclined surface 231 do. At this time, the end portion of the first inside slope 231 and the end portion of the second inside slope 233 are in contact with each other.

The first inner sloping surface 231 and the second inner sloping surface 233 of the first trench 230 may be formed with a plurality of second inner sloping surfaces 231, A plurality of first shear keys 250 spaced at predetermined intervals along the longitudinal direction of the first shear keys 230 are formed.

The first shear keys 250 are formed from the upper ends of the first inner inclined surface 231 and the second inner inclined surface 233 to the upper surface 210b of the first body 210 And is formed in the shape of a polygonal groove having a cross section parallel to the first inner inclined surface 231 and the second inner inclined surface 233. In this embodiment, as shown in the drawing, the cross section of the first inner inclined surface 231 and the second inner inclined surface 233 is formed in the shape of a rectangular groove, but the present invention is not limited thereto.

The shear connection member 300 is installed to resist a horizontal shear stress and a vertical shear stress applied to the pouring space (unrepresented) formed on the deck plate 200 by being partially embedded in the deck plate 200 .

In the present embodiment, the shear connection member 300 is formed in the form of a truss girder. The shear connection member 300 may be formed between the first groove 230 and the side surfaces 210c and 210d of the first body 210 and between the first groove 230 and the first groove 230, And the second body 210 of the second body 210 is installed. However, only the later-described lattice bar 310 is installed in the first body 210 between the first groove part 230 and the first groove part 230, not the shear connection member 300 in the form of a truss girder It is possible. That is, the shear connection member 300 in the form of a truss girder is installed between the side surfaces 210c and 210d of the first body 210 and the adjacent first groove portions 230, Only the lattice bar 310 may be installed in the first body 210 between the first groove 230 and the first groove 230 to reduce the amount of reinforcing bars used.

4 and 5, the shear connection member 300 includes the upper portion 330, the lower portions 320a and 320b, and the lattice bar 310, And is formed in a girder shape. The upper portion 330 is a reinforcing bar extending along the longitudinal direction of the deck plate 200. The lower portions 320a and 320b are reinforcing bars extending along the longitudinal direction of the deck plate 200 in the same manner as the upper portion 330 and spaced apart from the upper portion 330 by a predetermined interval, Symmetrically with respect to the reference plane 330.

One side of the lattice bar 310 is in contact with the top surface 330 and the other side of the lattice bar 310 is fixed while connecting the top side 330 and the bottom side 320a and 320b with the bottom side 320a and 320b.

5, the lattice bar 310 includes a plurality of vertical reinforcing bars 311, an upper portion of one vertical reinforcing bar 311, An upper bending portion 313 connecting the upper side of one vertical reinforcing bar 311 and the upper side of one of the inclined roots 312 adjacent to the vertical reinforcing bars 311, And a lower bent portion 314 connecting the lower side of one of the inclined roots 312 and the lower side of the adjacent one of the vertical reinforcing ribs 311. With such a configuration, the lattice bar 310 is formed in a continuous 'N' shape.

The upper bending portion 313 of the lattice bar 310 is in contact with the upper vicinity 330 and the lower bending portion 314 is in contact with the lower vicinity portions 320a and 320b, Connects the upper vicinity (330) and the lower vicinity (320a, 320b).

A plurality of the shear connection members 300 are provided along the longitudinal direction of the deck plate 200. In the present embodiment, two shear connection members 300 are provided along the longitudinal direction of the deck plate 200. However, when a plurality of the shear connecting members 300 are provided along the longitudinal direction of the deck plate 200 as in the present embodiment, as shown in FIGS. 2 and 6, the length of the deck plate 200 N 'shapes of the lattice bar 310 are arranged to be mutually symmetrical with respect to the center of the direction.

Conventionally, a lattice bar is formed in a 'W' shape. The conventional `W` shaped lattice bar is a prefabricated product that is automatically produced, and is bent in the same direction as the direction in which the shear crack occurs and in the direction resistant to the shear crack. However, since the direction in the same direction as the direction in which the shear cracks occur has no meaning to the shear resistance, it is inevitably limited to a spacing distance of 200 mm when installed in the deck plate 200, A problem of reinforcement occurred.

However, when the lattice bar 310 is formed in the shape of `N` as in the present invention, it is possible to set the spacing of the lattice bar 310 to 200 mm or more when installed on the deck plate 200. This reduces the amount of rebar, Not only can it improve performance, but it can also have economic savings.

The second formwork plates 700a and 700b are coupled to the sides of the deck plate 200 to define the paved space in which the concrete is placed on the deck plate 200. Further, the deck plate 200 is combined with the concrete placed on the deck plate 200 to form an outer finished surface. The second mold plates 700a and 700b are formed in the form of a flat plate. In the present embodiment, as shown in the drawing, the second die plates 700a and 700b are formed in the shape of a plate having a rectangular plane.

6 shows another embodiment of the second die plate 700a '. 6, the second formwork plate 700a 'is joined to the deck plate 200 and the concrete placed on the deck plate 200 to fix the second formwork plate 700a' A fixing protrusion 710a 'is formed.

The fixing protrusions 710a` protrude from the inner side of the second mold plate 700a` and more specifically toward the concrete piling on the deck plate 200 and the deck plate 200 And extends along the longitudinal direction of the second die plate 700a '.

The fixing protrusion 710a` is formed on the second die plate 700a so that the area of the deck plate 200 bonded to the first body 210 increases and the second die plate 700a ' The coupling force with the deck plate 200 is improved. Also, the area of contact with the concrete laid on the deck plate 200 is increased by the fixing protrusion 710a ', so that the coupling force between the second die plate 700a and the concrete to be laid is improved. Therefore, it is possible to prevent the second formwork plate 700a 'from being separated and separated from the concrete laid on the deck plate 200 and the deck plate 200.

As described above, the deck plate 200 is formed in the shape of a rectangular plate, and the second die plates 700a and 700b are disposed on both sides of the first side of the deck plate 200, The second side and the third side facing each other. The second mold plates 700a and 700b are disposed in a direction intersecting with the deck plate 200 and are coupled to the deck plate 200.

The second mold plates 700a and 700b and the first mold plate 810 provided with the connecting member 820 are coupled to the deck plate 200 so that the concrete can be poured on the deck plate 200 (Not shown) is limited. Particularly, the second mold plates 700a and 700b are combined with the concrete laid on the deck plate 200 to form the outer finish surface of the balcony installed by the balcony installation unit 1000. Therefore, it is not necessary to remove the second mold plates 700a and 700b.

The first mold plate 810 defines the pouring space in which the concrete is to be placed on the upper surface of the deck plate 200 while inserting the building structure in the inside. The first die plate 810 is also formed in the form of a flat plate like the second die plates 700a and 700b. The first mold plate 810 may be formed by, for example, extrusion heat insulation material, foamed concrete, or the like. The first die plate 810 surrounds the remainder of the deck plate 200 that is not surrounded by the second die plates 700a and 700b. The first die plate 810 is also disposed in a direction intersecting the deck plate 200 and coupled to the deck plate 200.

Meanwhile, a connecting member 820 is installed in the first die plate 810 through the first die plate 810. More specifically, one side of the connecting member 820 is positioned on the deck plate 200, and the other side is installed through the first formwork plate 810 so as to be positioned outside the balcony installation unit 1000. The first mold plate 810 and the connecting member 820 may be supplied to the molding module 800.

7 to 10 show another embodiment of the first form plate 810 'and the connecting member 820'. 7, an exploded perspective view of the first mold plate 810` is shown. As shown in FIG. 7, the first mold plate 810` includes a heat insulating material 811`, a heat insulating material 811`, And a lower plate 815 'coupled to the lower side of the heat insulating material 811'.

Like the first mold plate 810, the heat insulating material 811 'is formed by extrusion heat insulation material, foamed concrete, or the like. However, as shown in FIG. 7, the heat insulating material 811 'is formed with a connecting member engaging groove 811a` so that the connecting member 820` can be engaged. The connecting member engaging grooves 811a 'are formed at a plurality of spaced intervals along the longitudinal direction of the heat insulating material 811'. The connecting member engaging groove 811a 'is recessed in the direction from the front surface facing the deck plate 200 toward the rear surface. The connecting member 820 'is partially inserted into the connecting member engaging groove 811a` and is coupled with the heat insulating material 811`.

The upper plate 813` is coupled to the upper side of the heat insulating material 811` to fix the connecting member 820` coupled with the heat insulating material 811` as described above. A pair of first fixing members 813a 'protruding from the lower surface of the upper plate 813' and extending toward the rear surface of the upper plate 813 'are spaced apart from each other and facing each other. A plurality of first fixing members 813a` are formed at predetermined intervals along the longitudinal direction of the upper plate 813`. The connection member coupling grooves 811a` formed on the heat insulating material 811` Is formed to be equal to the number formed.

The first fixing member 813a` of the upper plate 813` is inserted into the heat insulating member 811` above the heat insulating member 811` so that the upper plate 813` can be coupled and fixed thereto. The first fixing member engagement groove 811b 'is formed. That is, the upper plate 813 'is coupled to the heat insulating material 811' while the first fixing member 813a` is inserted into the first fixing member coupling groove 811b`. At this time, the connecting member 820 'is inserted into the spacing space 813b` between the first fixing members 813a`, and the connecting member 820` is fixed by the upper plate 813`.

The lower plate 815 'is coupled to the lower side of the heat insulating material 811' as described above. Accordingly, a pair of second fixing members 815a 'protruding from the upper surface of the lower plate 815' are formed to extend from the front surface toward the rear surface by a predetermined length and face each other. A plurality of the second fixing members 815a` are formed at predetermined intervals along the longitudinal direction of the lower plate 815` and are the same as the number of the coupling member coupling grooves 811a`.

A second fixing member coupling groove 811c` is formed on the lower side of the heat insulating material 811` so that the lower plate 815` can be coupled and fixed. That is, the second fixing member 815a` is inserted into the second fixing member coupling groove 811c`, and the lower plate 815` is coupled to the heat insulating material 811`. Even when the lower plate 815` is coupled to the heat insulating material 811`, the connecting member 820` is inserted into the spacing space 815b` between the second fixing members 815a ' 815 'fix the connecting member 820'.

The connecting member, which is coupled with the first die plate 810 'according to the present embodiment, is formed into two embodiments as shown in FIGS. 10 and 11. FIG. Referring to FIG. 10, the connecting member 820 'extends in the vertical direction in a central region of the first transverse bar 821' and a first transverse bar 821 'extending in the horizontal direction, A plurality of longitudinal roots 822 spaced along a direction of extension of the first transverse bar 821 and a free end of the longitudinal bar 822 and the first transverse bar 821 ' And a second transverse rope 824 connecting the inclined roots 823 and the free ends of the longitudinal roots 822 and extending in parallel to the first transverse roots 821 ' .

11 shows another embodiment of the connecting member 820 ". The connecting member 820 " according to the present embodiment includes a plurality of vertical roots 821 " extending in the vertical direction and spaced apart from each other by a predetermined interval, a lower one of the vertical roots 821 " A first ramp 822 "which is arranged to be inclined so as to connect the upper end of the ramp 821" and a second ramp 822 "which is connected to the lower end of the other ramp 821" (824 ") extending in the horizontal direction and connected to the upper end of one of the longitudinal roots (821 ") and the second oblique root (824 " And a rear transverse rope 825 " that extends in a direction parallel to the forward transverse root 824 ".

When the connecting members 820 'and 820' 'formed as described above are coupled to the first mold plate 810', the inclined roots 823 'and the second inclined roots 823' Is inserted into the connecting member engaging groove 811a` of the heat insulating member 811` and the spacing space 815b` of the lower plate 815` and the first transverse member 821 ' Are inserted into the spaced spaces 813b ' of the upper plate 813 '. That is, the inclined roots 823 ', the first inclined roots 822', and the second inclined roots 823 'located at the center of the entire length of the connecting members 820' and 820 ' Is simultaneously placed on the form plate 810 'and the deck plate 200.

Cantilever-type balconies can cause cracks due to shear stress at the joints of the balconies and the walls of the building because the load acts more on the free end away from the walls of the building structure. However, by using the connecting members 820 ', 820 " as in the embodiment shown in FIGS. 10 and 11, the inclined root 823', the first inclined root 822 ' 823 " are simultaneously placed on the first formwork plate 810 ' and the deck plate 200 to resist the shear stress at the site where the balcony and the wall of the building structure are joined, .

11 and 12 show another embodiment of the deck plate 200 '. The deck plate 200 'shown in FIGS. 11 and 12 is different from the first embodiment only in the first shear key 250'. Therefore, only the first shear key 250 'will be described below.

As described above, the first shear key 250 'is formed to resist the vertical shear stress and the horizontal shear stress applied by the concrete placed in the pouring space on the deck plate 200'.

The first shear key 250 'has a first groove 241 extending from an inclined direction setting position of the first inner inclined surface 231 and the second inner inclined surface 233 to an upper surface 210b of the first body 210, And a second groove 253` extending from the tip of the first groove 251` to the upper surface 210b of the first body 210 along the width direction. As described above, the first shear key 250 'according to the present embodiment is formed to have a wider area than the first shear key 250 according to the above-described embodiment, and is inserted by the concrete inserted in the above- Can resist the vertical shear stress and horizontal shear stress more strongly.

A process of manufacturing the balcony installation unit 1000 as described above will be described with reference to FIGS. 13 to 28. FIG.

In order to manufacture the balcony installation unit 1000, the deck plate 200 must be manufactured first. As shown in FIG. 13, a mold 10 for manufacturing the first body 210 of the deck plate 200 is prepared. Referring to FIG. The mold 10 comprises a lower surface 11 and a front surface 12, a rear surface 13 and side surfaces 14 and 15 extending upward from the respective ends of the lower surface 11. The mold 10 has an open top surface, and concrete is poured through the top surface (not illustrated).

When the dies 10 are prepared, the shear connection members 300 are installed in the dies 10 as shown in Fig. At this time, wire meshes 211 and 213 for reinforcing the rigidity of the deck plate 200 are formed in the mold 10 before the shear connection members 300 are installed. Although not shown in the drawing, a pre-tension (strand) may be laid along with the wire meshes 211 and 213. When the strength of the first body 210 is required to be further increased, the pre-tension (strand) is disposed.

The wire meshes 211 and 213 are arranged in the mold 10 while being spaced apart from each other by a predetermined distance along the longitudinal direction and the width direction of the mold 10. The shear connection members 300 are installed on the wire meshes 211 and 213.

When the wire meshes 211 and 213 and the shear connection members 300 are installed on the mold 10 as described above, the first grooves of the deck plate 200 The mold blocks 30 and 30 'are formed. When the first groove part 230 is formed, the first shear key 250 formed in the first groove part 230 is formed simultaneously with the first groove part 230.

Referring to FIG. 15, a mold block 30 for forming a first groove 230 and a first shear key 250 of the deck plate 200 according to an embodiment of the present invention is illustrated.

The mold block 30 includes a top surface 31 and sloping side surfaces 32a and 32b extending from both widthwise sides of the top surface 31 and sloping downward. The inclined side surfaces 32a and 32b are symmetrical with respect to each other and have a triangular cross section in parallel with the front surface of the mold 10. Therefore, the width of the mold block 30 is shortened from the upper side toward the lower side. The ends of the inclined side surfaces 32a and 32b, which are mutually symmetrical, are formed in a triangular prism shape having an inverted triangular cross section. The length of the mold block 30 corresponds to the length from the front surface 12 to the rear surface 13 of the mold 10.

Protrusions 35 are formed on the inclined side surfaces 32a and 32b of the mold block 30 so as to form the first shear keys 250 formed on the first grooves 230. The projections 35 extend from the upper surface 31 of the mold block 30 to the set positions along the oblique directions of the oblique side surfaces 32a and 32b and protrude to a set height from the oblique side surfaces 32a and 32b .

In the present embodiment, the projections 35 are formed in a rectangular shape in cross section parallel to the both side surfaces 32a and 32b. The protrusions 35 are provided on the inclined side surfaces 32a and 32b at predetermined intervals along the longitudinal direction of the mold block 30.

The mold block (30) is installed in the mold (10). When the mold blocks 30 are installed in the mold 10, the length A 'between the upper surface of the adjacent mold block 30 and the upper surface of the mold block 30 is smaller than the length A' Is longer than the length (B ').

Illustratively, the phase contrast of the top surface length B 'of the mold block 30 with respect to the length A' between the top surface of the mold block 30 adjacent to the mold block 30 and the top surface of the mold block 30 is greater than zero and less than 0.4. In the present embodiment, the upper surface length B 'of the mold block 30 is 100 mm, and the length A' between the upper surface of the mold block 30 and the upper surface of the mold block 30 is 500 mm. The upper surface length B 'of the mold block 30 with respect to the length A' between the upper surface of the mold block 30 and the upper surface of the mold block 30 is 0.2.

The height contrast D 'of the mold block 30 with respect to the height C' of the mold 10 is greater than 0 and less than 0.5. In this embodiment, the height C 'of the mold 10 is 80 mm and the height D' of the mold block 30 is 30 mm so that the height of the mold 10 relative to the height C ' The relative ratio of the height D 'of the block 30 is 0.375.

The mold block 30 is installed in the mold 10 by a fastening member B. Holes 12a and 13a are formed on the front surface 12 and the rear surface 13 of the mold 10 so that the fastening member B can pass therethrough. The holes 12a and 13a are spaced apart from the front surface 12 and the rear surface 130 by a predetermined distance. That is, the number of the first grooves 230 formed in the first body 210 is equal to the number of the first grooves 230 formed in the first body 210.

Referring to FIG. 16, a fastening hole 32a (not shown) is formed on the front surface 32 and the rear surface (not shown) of the mold block 30 so that the fastening member B can be fastened. That is, the fastening holes 32a (not shown) of the mold block 30 are arranged so as to be coaxially aligned with the holes 12a and 13a of the mold 10, and then fastened with the fastening member B The mold block 30 is fixed to the mold 10 and installed.

When the mold blocks 30 are installed on the mold 10, the upper surface 31 of the mold block 30 is flush with the open top surface of the mold 10, as shown in FIG. It accomplishes. As described above, after the molds 10 are installed up to the mold blocks 30, concrete is poured into the molds 10 to be cured. The concrete is hardened and a body of the deck plate 200 in which a part of the shear connection member 300 is embedded is formed. At this time, the mold block 30, together with the first body 210, The groove portion 230 and the first shear key 250 are simultaneously formed.

18 to 20 show a process of manufacturing the deck plate 200 'according to another embodiment. The deck plate 200 'according to the present embodiment is different from the first shear key 250' formed in the first groove portion 230 as compared with the tech plate 200 of the above-described embodiment. Therefore, only differences will be described below.

The mold block 30 'for forming the first groove portion 230 and the first shear key 250` has an upper surface (unrepresented) and a lower surface Includes inclined sides (32), the inclined sides (32) being mutually symmetric. Therefore, the length of the mold block 30 'in the width direction is shortened from the upper side toward the lower side. Since the ends of the inclined side surfaces 32 are in contact with each other, the cross section of the mold block 30 'parallel to the front surface of the mold 10 is an inverted triangle, and the mold block 30' is formed in a triangular prism shape .

However, the mold block 30 'according to the present embodiment further includes an upper plate 31' provided on the upper surface (not shown). The upper plate 31 'extends longer than the width direction of the upper surface (unrepresented) in the width direction, and is a flat plate.

On the other hand, the inclined side surfaces 32 of the mold block 30 'are formed with protrusions 35' capable of forming the first shear key 250 'formed in the first groove portion 230. The protrusions 35 'have a first protruding surface 35'a extending in the oblique direction at an oblique direction setting position of the oblique side surface 32, and a second protruding surface 35' and a second projection surface 35 'b extending from the front end of the mold block 30' in the width direction of the mold block 30 '. That is, the first projection surface 35 'a is in surface contact with the inclined side surface 32 and the second projection surface 35' b is in surface contact with the upper plate 31 '.

The mold block 30 'is installed in the mold. 19, the fastening holes (not illustrated) are formed on the front surface 32 and the rear surface of the mold block 30 ', and the front surface 12 and the rear surface 13 And the holes 12a and 13a are arranged so as to be coaxially aligned with each other and then the mold block 30 'is assembled by using the fastening member B, The mold block 30 'is installed in the mold.

20, the lower side of the upper plate 31 'of the mold block 30' is opened to open the mold 10, as shown in FIG. 20, It forms the same surface as the top surface (unprinted). After the mold blocks 30 'are installed on the molds, if the concrete is laid and cured into the molds 10, the concrete is hardened and the first bodies 210 of the deck plates 200' And the first groove portion 230 and the first shear key 250 'are simultaneously formed.

When the deck plate 200 having the shear connection member 300 is completed through the manufacturing process described above, the deck plate 200 is provided with the second die plates 700a and 700b, A mold plate 810 is installed. The second mold plates 700a and 700b and the first mold plate 810 may be manufactured together with the deck plate 200 in a factory for manufacturing the deck plate 200, It is possible. Particularly, since the second formwork plates 700a and 700b form the outer finish surface of the balcony to be installed using the balcony construction unit 1000, the second formwork plates 700a and 700b can be separately purchased with high- .

The second mold plates 700a and 700b are disposed on the first side, the second side and the third side of the deck plate 200 in a direction crossing the deck plate 200, Lt; / RTI > The first formwork plate 810 is disposed on a fourth side of the deck plate 200 facing the first side face of the deck plate 200 in a direction crossing the deck plate 200 and is coupled to the deck plate 200 . The second mold plates 700a and 700b and the first mold plate 810 are coupled to the deck plate 200 to allow the concrete to be laid on the deck plate 200, And the balcony construction unit 1000 is formed.

Meanwhile, the construction structure of the building structure that integrally forms the balcony includes the PC deck plate 201. The PC deck plate 201 is formed in the same structure as the deck plate 200 of the balcony installation unit 1000 as shown in FIG. However, the PC deck plate 201 is longer than the deck plate 200.

The PCDeck plate 201 also includes a second body 210 in the form of a flat plate, the second body 210 has the second trenches 230 formed therein, the second trench 230, The second shear key 250 is formed. Since the second body 210, the second groove 230 and the second shear key 250 have only a difference in length and number compared to the deck plate 200 described above, The same reference numerals as those of the first embodiment are used, and a detailed description thereof will be omitted. The manufacturing process of the PC deck plate 201 is also the same as that of the deck plate 200, so a detailed description thereof will be omitted.

The construction structure of the building structure integrally forming the balcony also includes the plate wall body 2000 for the structure forming the wall of the structure. The plate wall 2000 for the structure includes a first wall plate 100, a second wall plate 202 and a shear connection member 300. The first wall plate 100 and the second wall plate 202 are connected by the front end connection member 300 and between the first wall plate 100 and the second wall plate 202 A spacing space 400 in which the concrete is installed is formed.

 The second wall plate 202 is formed in the same structure as the deck plate 200. The second groove plate 230 is formed on the second wall plate 202 and the second plate 250 is formed on the second groove plate 230. Therefore, detailed description of the structure and manufacturing process of the second wall plate 202 will be omitted.

When the manufacture of the second wall plate 202 having the front end connection member 300 is completed, a mold 10a for manufacturing the first wall plate 100 is prepared as shown in FIG. The mold 10a for manufacturing the first wall plate 100 is substantially identical to the mold (not shown) for manufacturing the second wall plate 202. [ However, the height of the mold 10a for manufacturing the first wall plate 100 may be different from the height of the mold (not shown) for manufacturing the second wall plate 202.

When the mold 10a is prepared, concrete is poured into the mold 10a. The wire meshes 111 and 113 forming the framework of the first wall plate 100 are disposed in the mold 10a before the concrete 100a is installed in the mold 10a.

24, before the concrete 100a poured into the mold 10a is cured, the upper and lower portions of the preformed second wall plate 202 are reversed to form the front end connection member 300, And a portion of the shear connecting member 300 protruding from the second wall plate 202 is inserted into the concrete 100a. The shear connection member 300 may be formed in a spaced relation with the width of the spacing space 400 formed between the first wall plate 100 and the second wall plate 202, And is inserted into the concrete 100a.

After the concrete 100a is cured in a state where the shear connection member 300 is inserted and the mold 10a is removed, the first wall plate 100 is completed and the plate wall 2000 for the structure ) Is completed.

22, the balcony installation unit 1000 and the PC deck plate 201 are seated on the upper side of the plate wall structure 2000 for the structure in which the balcony is integrally formed . 27, the balcony installation unit 1000 is mounted on the upper side of the second wall plate 202, and the PCD plate 201 is mounted on the upper side of the first wall plate 100 Lt; / RTI >

At this time, the PC deck plate 201 is disposed on the indoor side of the building structure, and the balcony installation unit 1000 is disposed on the outdoor side of the building structure. The balcony installation unit 1000 is connected to the PC deck plate 201 by the connecting members 820.

That is, one side of the connecting member 820 protruding outside the balcony installation unit 1000 is positioned on the PCD plate 201 so that the balcony installation unit 1000 and the PCDe plate 201 It is connected.

When the balcony installation unit 1000 and the PC deck plate 201 are installed on the structure plate wall 2000, the installation space of the balcony installation unit 1000, the PC deck plate 201, Concrete is poured into the upper surface and the spacing space 400 of the plate wall 2000 for the structure.

28, the concrete placed on the upper surface of the PC deck plate 201 is pushed up to a height that forms the same surface as the upper surface of the balcony installation unit 1000, 201 and the balcony installation unit 1000 up to a height that forms the same surface as the upper surface of the balcony installation unit 1000.

The concrete installation unit 1000 is formed as a balcony while the concrete deck is cured, the PC deck plate 201 is formed as a ceiling or a floor, and the plate wall 2000 for the structure is formed as a wall, , The ceiling, the floor, and the wall are integrally combined to form an architectural structure.

Particularly, since the balcony installation unit 1000 and the PC deck plate 201 are located on the PC deck plate 201 at one side of the connecting member 820, they are connected more organically.

As described above, when the balcony construction unit 1000 according to the present invention is used, the balcony construction is completed together with the building structure only by pouring the concrete into the balcony construction unit 1000 manufactured in the factory, This simplifies the construction and shortens the air of the building structure. Particularly, since the second formwork plates 700a and 700b of the balcony installation unit 1000 are combined with the poured concrete to form an exterior finish surface, the exterior finishing quality of the balcony is improved because air is not separated from the poured concrete, Can be shortened.

In addition, since the balcony construction unit 1000, the PC deck plate 201 and the plate wall structure 2000 are installed, a balcony, a ceiling, a floor, and a wall can be simultaneously formed by only one concrete casting, It has the effect of improving the convenience and drastically shortening the air of the building structure.

Particularly, in the RC method in which the concrete is laid in the field, it is difficult to sufficiently strengthen the insulation due to the construction condition of the balcony in the building structure. Therefore, there is a problem that the insulation performance at the area where the building structure and the balcony are bonded is degraded. In the invention, since the first formwork plate connected to the ceiling or the floor of the indoor structure of the building structure is formed of the heat insulating material or includes the heat insulating material among the balcony construction units, the heat insulating performance at the area where the building structure and the balcony are joined is improved.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1000: Balcony construction unit 200: Deck plate
700a, 700b: second die plate
810: first die plate 820: connecting member
201: PC deck plate
2000: Plate wall for structure 100: 1st wall plate
202: 2nd wall plate
210: first body, second body, third body
230: first groove portion, second groove portion, third groove portion
250: first shear key, second shear key, third shear key

Claims (17)

A PC deck plate which is seated on a wall or on a beam side so as to form an indoor ceiling or floor of an architectural structure and is formed in the form of a flat plate and in which a part of the shear connection member is embedded in an upper surface on which concrete is placed; And
A deck plate including a first body formed in the form of a flat plate and a shear connection member partially embedded in the upper surface of the first body in which the concrete is installed; The deck plate is coupled to one side of the deck plate so as to define a space for placing the concrete on the deck plate while insulating the building structure from the inside, And a second deck plate coupled to the other side of the deck plate to define the pouring space in which the concrete is to be placed on the deck plate, The second die forming the face And a balcony installation unit that is installed on the upper side of the wall or the beam and spaced apart from the PCDeck plate by a predetermined interval while the other side of the connecting members is located above the PCDeck plate to be connected to the PCDeck plate In addition,
When the concrete is poured into the upper surface of the PC deck plate, the installation space, and the spaced space between the PC deck plate and the balcony installation unit, the concrete or the concrete, the PC deck plate and the balcony installation unit The building structure in which the wall, the ceiling or the floor, and the balcony are integrated is formed,
In the first body,
The first and second bodies are spaced apart from each other by a predetermined interval along the width direction of the first body so as to reduce the weight of the first body and extend along the longitudinal direction of the first body to increase the contact area with the concrete, Wherein the first groove portion is formed on the upper surface of the first body and the length of the upper surface of the first body between the adjacent first groove portion and the first groove portion is longer than the widthwise length of the upper side of the first groove portion,
Wherein the first groove portion includes inner inclined surfaces inclined downward from the upper surface of the deck plate and symmetrical to each other,
In the first groove portion,
And a plurality of first shear keys spaced along the longitudinal direction of the first groove so as to resist vertical shear stress and horizontal shear stress applied to the deck plate on the inner inclined surfaces are integrally formed Construction structure of building structure. A PC deck plate which is seated on a wall or on a beam side so as to form an indoor ceiling or floor of an architectural structure and is formed in the form of a flat plate and in which a part of the shear connection member is embedded in an upper surface on which concrete is placed; And
A deck plate including a first body formed in the form of a flat plate and a shear connection member partially embedded in the upper surface of the first body in which the concrete is installed; The deck plate is coupled to one side of the deck plate so as to define a space for placing the concrete on the deck plate while insulating the building structure from the inside, And a second deck plate coupled to the other side of the deck plate to define the pouring space in which the concrete is to be placed on the deck plate, The second die forming the face And a balcony installation unit that is installed on the upper side of the wall or the beam and spaced apart from the PCDeck plate by a predetermined interval while the other side of the connecting members is located above the PCDeck plate to be connected to the PCDeck plate In addition,
When the concrete is poured into the upper surface of the PC deck plate, the installation space, and the spaced space between the PC deck plate and the balcony installation unit, the concrete or the concrete, the PC deck plate and the balcony installation unit The building structure in which the wall, the ceiling or the floor, and the balcony are integrated is formed,
Wherein the PC deck plate includes a second body formed in a flat plate shape,
Second grooves extending in the longitudinal direction of the second body and spaced apart from each other by a predetermined interval along the width direction of the second body so as to increase the contact area with the concrete and reduce the weight of the second body, Wherein a length of the upper surface of the second body between the second groove portion adjacent to the second groove portion is longer than a width direction length of the second groove portion above the second groove portion,
Wherein the second groove portion includes an inner inclined surface formed to be inclined downward from an upper surface of the second body,
In the second groove portion,
And a plurality of second shear keys spaced along the longitudinal direction of the second groove so as to resist vertical shear stress and horizontal shear stress applied to the second body on the inner inclined surfaces are integrally formed Construction structure of building structure. A PC deck plate which is seated on a wall or on a beam side so as to form an indoor ceiling or floor of an architectural structure and is formed in the form of a flat plate and in which a part of the shear connection member is embedded in an upper surface on which concrete is placed; And
A deck plate including a first body formed in the form of a flat plate and a shear connection member partially embedded in the upper surface of the first body in which the concrete is installed; The deck plate is coupled to one side of the deck plate so as to define a space for placing the concrete on the deck plate while insulating the building structure from the inside, And a second deck plate coupled to the other side of the deck plate to define the pouring space in which the concrete is to be placed on the deck plate, The second die forming the face And a balcony installation unit that is installed on the upper side of the wall or the beam and spaced apart from the PCDeck plate by a predetermined interval while the other side of the connecting members is located above the PCDeck plate to be connected to the PCDeck plate In addition,
When the concrete is poured into the upper surface of the PC deck plate, the installation space, and the spaced space between the PC deck plate and the balcony installation unit, the concrete or the concrete, the PC deck plate and the balcony installation unit The building structure in which the wall, the ceiling or the floor, and the balcony are integrated is formed,
Wherein the wall comprises:
A first wall plate formed in the form of a flat plate;
A second wall plate spaced apart from the first wall plate such that a space is formed between the first wall plate and the first wall plate, And
And a shear connection member for partially connecting the first wall plate and the second wall plate, the portion being embedded in the first wall plate and partially embedded in the second wall plate,
Wherein the wall plate of any one of the first wall plate and the second wall plate is provided with:
Wherein the first and second wall plates are spaced apart from each other by a predetermined distance along a width direction of one of the plurality of wall plates so as to reduce the weight of the one wall plate, And third grooves extending in the longitudinal direction are formed on the upper surface of one of the wall plates, and the length of the upper surface of any one of the wall plates between the adjacent third grooves and the third grooves is larger than the length of the upper surface of the third grooves Which is longer than the width direction length,
The third groove portion includes inner inclined surfaces that are inclined downward from the upper surface of one of the wall plates and symmetrical to each other,
In the third groove portion,
And a plurality of third shear keys spaced along the longitudinal direction of the third groove so as to resist vertical shear stress and horizontal shear stress applied to the one wall plate on each of the inner inclined surfaces, Construction structure of building structure. The method according to claim 1,
The first shear-
And a balcony formed in a shape of a groove having a polygonal cross section in parallel with the inner inclined face, the balcony being integrally formed from an upper surface of the deck plate to a predetermined position along an inclined direction of the inner inclined surface. The method according to claim 1,
The first shear-
A first groove formed to be concave and extending along the inclined direction from an inclined direction setting position of the inner inclined surface to an upper surface of the deck plate and a second groove formed on an upper surface of the deck plate from a top of the first groove, And a second groove formed to be concave and extending to a set position. The method according to any one of claims 1 to 3,
The first body is formed in a rectangular plate shape,
The second die plate is formed as a flat plate and arranged in a direction intersecting with the body. The second die plate includes a first side surface of the first body and a pair of second side surfaces facing each other to be connected to both sides of the first side surface. And the balconies disposed on the side surface and the third side are integrally formed. The method of claim 6,
The first formwork plate is formed in the form of a flat plate and arranged in a direction intersecting with the first body, wherein the first formwork plate has a construction structure of a building structure integrally formed with a balcony disposed on a fourth side facing the first side . The method according to any one of claims 1 to 3,
Wherein the PC deck plate includes a second body formed in a flat plate shape,
Second grooves extending in the longitudinal direction of the second body and spaced apart from each other by a predetermined interval along the width direction of the second body so as to increase the contact area with the concrete and reduce the weight of the second body, A balcony formed on an upper surface of the second body and having a length longer than an upper side length of the second body between the adjacent second groove and the second groove, Construction structure of building structure. delete The method of claim 2,
The second shear-
And a balcony formed in a shape of a groove having a polygonal cross-section in parallel with the inner inclined surface, is integrally formed from the upper surface of the second body to the setting position along the inclined direction of the inner inclined surface. The method of claim 2,
The second shear-
A first groove formed to extend from the inclined direction setting position of the inner inclined surface to the upper surface of the second body along the inclined direction and a second groove formed on the upper surface of the second body from the upper end of the first groove, And a second groove formed to be concave so as to extend to a set position along the width direction of the building. The method according to any one of claims 1 to 3,
Wherein the wall comprises:
A first wall plate formed in the form of a flat plate;
A second wall plate spaced apart from the first wall plate such that a space is formed between the first wall plate and the first wall plate, And
And a front wall connecting member for partially connecting the first wall plate and the second wall plate to the first wall plate and partially filling the first wall plate and partially filling the second wall plate, Construction structure of building structure. The method of claim 12,
When the concrete is poured into the upper surface of the PC deck plate, the installation space, and the spaced space between the PC deck plate and the balcony installation unit,
Wherein the concrete integrally forms a balcony that is poured into a spacing space between the first wall plate and the second wall plate. The method of claim 12,
Wherein the wall plate of any one of the first wall plate and the second wall plate is provided with:
Wherein the first and second wall plates are spaced apart from each other by a predetermined distance along a width direction of one of the plurality of wall plates so as to reduce the weight of the one wall plate, And third grooves extending in the longitudinal direction are formed on the upper surface of one of the wall plates, and the length of the upper surface of any one of the wall plates between the adjacent third grooves and the third grooves is larger than the length of the upper surface of the third grooves The length of which is longer than the width direction of the building. delete The method of claim 3,
The third shear-
And a balcony formed in a shape of a groove having a polygonal cross-section in parallel with the inner inclined surface is integrally formed from the upper surface of any one of the wall plates to the set position along the inclined direction of the inner inclined surface. The method of claim 3,
The third shear-
A first groove formed to extend from the inclined direction setting position of the inner inclined surface to an upper surface of the one of the wall plates along the inclined direction and a second groove formed on the upper surface of one of the wall plates from the upper end of the first groove, And a second groove formed to extend to a predetermined position along a width direction of the second wall plate, the second groove being integrally formed with the second groove.

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