KR101425008B1 - The building slab structure and the constructing method thereof - Google Patents

Abstract

The present invention relates to a base plate having a plurality of forward connection grooves and rear connection grooves formed at horizontally positioned concrete grooves on the upper and lower edges of the front and rear sides, A first lower reinforcing bar provided so as to be exposed at the front and rear outer sides through the front and rear connecting grooves of the base plate at both left and right spaced apart intervals, A plurality of trusses welded along an upper surface portion of each of the second lower reinforcing bars and having a lower portion embedded in the base plate, A plurality of second upper reinforcing bars welded to the upper surface portions of the truss reinforcing bars with a length corresponding to the second lower reinforcing bars, And a first upper reinforcing bar welded to the upper surface portions of the plurality of second upper reinforcing bars at a predetermined interval so as to correspond to the lengths of the upper and lower reinforcing bars, The front and rear ends of the first lower reinforcing bars exposed outward through the front and rear connecting grooves are in contact with each other at the inner side of the connection space And connected to each other through a coupler or welded to each other, and a method of constructing the slab structure.

Description

Technical Field [0001] The present invention relates to a construction slab structure and a construction method thereof,

The present invention relates to a concrete slab structure used in a construction PC (Precast Concrete) method, and more particularly, to a concrete slab structure which is horizontally positioned and which has a plurality of front connection grooves A plurality of front and rear connection grooves are formed in the front and back horizontal grooves so as to be exposed to the outside of the front and back sides through the front and rear connection grooves of the base plate, A second lower reinforcing bar provided in the base plate such that a plurality of right and left side end portions of the base plate are exposed to the outside of the right and left side surfaces of the base plate in a state in which a plurality of the reinforcing bars are horizontally embedded in the base plate, A plurality of truss reinforcing bars welded in right and left horizontal directions along the upper surface of the second lower reinforcing bars, A plurality of second upper reinforcing bars welded to the upper surface portions of the respective truss reinforcing bars with a length corresponding to the second lower reinforcing bars and a plurality of second upper reinforcing bars welded to the upper surface portions of the plurality of second reinforcing bars along a length corresponding to the first lower reinforcing bars, The front and rear connecting grooves are in contact with the front and rear surfaces of the base plate so that the front and rear surfaces of the base plate are in contact with each other while communicating with each other. And the front and rear end portions of the first lower reinforcing bars exposed outward through the front and rear connecting grooves are connected or welded to each other via couplers while being overlapped with each other on the inner side of the connecting space. Structure and method of construction thereof.

In general, the Precast Concrete (PC) method is a method of constructing parts of a building such as pillars, beams, slabs, and walls in a separate place and assembling them in a construction site. It is easy to work with concrete, It can be produced in a place where it is less, thus it is possible to economically obtain a good quality member, and it is possible to mechanically work concrete, thereby reducing the overall construction cost, excellent workability, and greatly shortening the construction period.

However, in the PC method, it is difficult to rigidly connect and connect the respective members. Therefore, when a slab of a building is to be constructed using a PC slab structure of a plate shape, A conventional PC slab structure is required to have a structure in which the front, rear, left and right ends of a PC slab structure are placed on a wall or a wall to be installed so as to surround the front, rear, left, and right sides of the PC slab structure, The reinforcing bars are connected and fixed, and the concrete is laid on the connecting part so that the PC slab structure is integrally joined to the wall or the wall. Thus, the size of the PC slab structure may be enlarged to a size exactly matching the constructed wall or the wall, There is a problem in that the distance between them must be made compact.

As a conventional technique related to a slab construction method using such a PC slab structure, Korean Patent Registration No. 10-1090306 discloses a slab construction method in which a lower PC wall formed so that an upper end of a lower cast iron muscle buried therein is projected upward; A pair of PC slabs having end portions on both side edges of the upper surface of the lower PC wall; An upper PC wall installed on an upper portion of the pair of PC slabs with an upper cast iron root embedded therein; A cast iron muscle connecting member embedded in the upper PC wall such that an upper end thereof is engaged with a lower end of the upper cast iron muscle and a lower end thereof is engaged with an upper end of the lower cast iron muscle; And a topping concrete poured into a space between the top PC wall and the bottom PC wall of the pair of PC slabs, wherein tensile bars are continuously installed on the top of the pair of PC slabs, A plurality of projections are formed on a bottom surface of the upper PC wall, and the plurality of projections are placed on the upper surface of the pair of PC slabs, and the tension reinforcing bars are installed And a protrusion formed at both ends of the upper PC wall among the plurality of protrusions is formed to be spaced inward from both ends of the PC wall-slab coupling structure. In the conventional PC wall-slab coupling structure, The size of the PC slab is set between the lower PC walls in such a way that the PC slab is raised on the upper edge of the lower PC wall. In order to enlarge the size of the PC slab or to make the size of the PC slab small, there is a problem that the space between the lower PC walls must be densely installed. In case of enlarging the PC slab, transportation and installation are very inconvenient. The slab structure itself is low in durability and unstable, various safety accidents occur. In the case where the PC slab is downsized, the space between the lower PC walls must be densely installed, so that the structure is constructed only in a small size.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a slab structure of a concrete material according to a PC method, wherein a plurality of front and rear connecting grooves are formed at left and right spaced- The front and rear ends of the first lower reinforcing bars are exposed through the front and rear connecting grooves of the base plate so as to be exposed to the outside of the front and rear sides while embedding a plurality of first lower reinforcing bars in the front and back horizontal direction in the plate, The front and rear surfaces of the base plate are in contact with the front and rear surfaces of the other base plate and the front and rear connection grooves are communicated with each other while the front and rear sides of the base plate are in contact with each other And both front and rear ends of the first lower reinforcing bar exposed to the outside through the front and rear connecting grooves are connected to the connecting space And a plurality of slab structures, which are small in size and easy to carry and install, can be firmly connected to each other in the front and rear directions.

In order to achieve the above-mentioned object, a base plate having a plurality of forward connection grooves and rear connection grooves formed at horizontally positioned upper and lower edges of the front and rear sides thereof at regular intervals, A first lower reinforcing bar having front and rear opposite end portions exposed through the front and rear connecting grooves of the base plate so as to be exposed to the outside of the front and rear sides in a state in which a plurality of bars are embedded at left and right spaced intervals, A second lower reinforcing bar provided on both sides of the base plate so as to be exposed to the outside of the left and right sides of the base plate with the left and right end portions thereof embedded in the front and back at regular intervals, A plurality of truss reinforcing bars embedded in the plate, and a plurality of truss reinforcing bars welded to the upper surface portions of the truss reinforcing bars at a length corresponding to the second lower reinforcing bars And a first upper reinforcing bar welded to the upper surface portions of the plurality of second upper reinforcing bars with a length corresponding to the first lower reinforcing bars, the plurality of second reinforcing bars being horizontally welded at a predetermined interval, The front and rear connecting grooves are in contact with the front and rear connecting grooves so that the front and rear connecting grooves are in contact with each other while being in contact with the front and rear surfaces of the base plate, And the front and rear end portions of the connecting space are connected to each other via a coupler or welded to each other while being adjacent to each other on the inner side of the connection space.

As described above, according to the present invention, a slab structure of a concrete material according to the PC method is formed, and a plurality of front and rear connecting grooves are formed at upper and lower edges of the front and rear sides of the base plate at left and right predetermined intervals, A plurality of first lower reinforcing bars are horizontally embedded at left and right predetermined intervals and both front and rear ends of the first lower reinforcing bars are exposed through the front and rear connecting grooves of the base plate to the outside of the front and rear sides, The front and rear surfaces of the base plate are brought into contact with the front and rear surfaces of the other base plate in a state in which both left and right ends of the base plate are mounted on one side or both side edges of the upper surface portion, And both front and rear ends of the first lower reinforcing bars exposed outward through the front and rear connecting grooves are adjacent to each other inside the connection space A plurality of slab structures, each of which is manufactured in a small size and can be easily transported and installed, can be easily and firmly connected back and forth.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a construction slab structure according to the present invention;
2 is a perspective view schematically showing a state in which a plurality of construction slab structures according to the present invention are installed to be in contact with each other
3 is a perspective view of a slab structure according to the present invention in a state where a plurality of slab structures are connected to each other via a coupler
FIG. 4 is a schematic cross-sectional view of a construction slab structure according to the present invention,
5 is a view illustrating a state in which a slab structure for building according to the present invention is installed in a connection space formed by a base plate which is brought into contact with both sides of a top surface of a lower layer of a lower wall or a wall, Sectional schematic
FIG. 6 is a schematic cross-sectional view of a slab structure in which left and right slab structures are connected to each other with finishing concrete placed between upper and lower layers of a base plate of a slab structure for building according to the present invention,
FIG. 7 is a schematic cross-sectional view of a construction slab structure according to the present invention in a state in which a slab structure is raised on one side edge of a top surface of a lower layer or a wall,
8 is a view illustrating a state in which a slab structure for construction according to the present invention is laid on an edge of one side of a top surface of a lower layer or a wall of a lower layer and a concrete is placed between upper and lower layers of the base plate, Sectional schematic view of
9 is a perspective view showing another embodiment of a construction slab structure according to the present invention.
FIG. 10 is a schematic cross-sectional view of a construction slab structure according to another embodiment of the present invention in a state in which the slab structure is installed between upper and lower layers,
FIG. 11 is a schematic cross-sectional view of a construction slab structure according to another embodiment of the present invention, in which finishing concrete is installed between upper and lower walls of a base plate,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 to 11, a construction slab structure 1 according to the present invention is a concrete slab structure used in a construction PC (Precast Concrete) construction method. The concrete slab structure is a horizontally positioned concrete material plate, A plurality of front connecting grooves 3 and rear connecting grooves 4 are formed at left and right predetermined intervals on the base plate 2 and a plurality of front and rear connecting grooves 3 and 4 are formed in the base plate 2 A first lower reinforcing bar 6 provided so that both front and rear end portions thereof are exposed outside the front and back surfaces through the front and rear connecting grooves 3 and 4 of the base plate 2 in a buried state; A second lower reinforcing bar 17 provided on both sides of the base plate 2 so as to be exposed to the outside of the left and right sides of the base plate 2 in a state of horizontally embedding therein a plurality of second reinforcing bars 17, 17 in the left and right horizontal directions A plurality of truss reinforcing bars 18 welded and embedded in the base plate 2 and welded in the horizontal direction horizontally on the upper surface portions of the truss reinforcing bars 18 with a length corresponding to the second lower reinforcing bars 17, A plurality of second upper reinforcing bars 19 attached to the first upper reinforcing bars 6 and a plurality of second upper reinforcing bars 19 having a length corresponding to the first lower reinforcing bars 6, And a first upper reinforcing bar 20 attached thereto.

As shown in FIGS. 1 to 8, the base plate 2 is a part for forming a slab for separating a layer and a layer of a building by a PC method. The base plate 2 is made of a concrete plate A plurality of front connection grooves 3 and rear connection grooves 4 are formed at upper and lower rear corner portions at left and right spaced intervals, Each of the front connecting grooves 3 and the rear connecting grooves 4 are connected to each other in a state in which the front and top openings are open and the rear connecting grooves 4 are open rear and top, As shown in FIGS. 2 and 3, the front and rear surfaces of the other base plate 2 are made to abut against the front and rear surfaces of the base plate 2 while being opposed to each other, The connection grooves 3 and 4 are brought into contact with each other so as to communicate with each other, A plurality of base plates 2 positioned so that their front and rear surfaces are in contact with each other as described above are connected to the outside through the front and rear connecting grooves 3, The front and rear ends of the exposed first lower reinforcing bars 6 are connected or welded through the normal coupler 7a while overlapping each other adjacent to each other inside the connection space 5 as shown in Figs. So that the plurality of slab structures 1 are continuously connected in the longitudinal direction.

The connection space 5 is filled with the filled concrete 8 in the connection space 5 as shown in FIG. 5 in the state where both front and rear ends of the first lower reinforcing bar 6 are connected to each other, The lower end portions of the lower reinforcing bars 6 are buried, so that the connection spaces 5 are finished and the plurality of slab structures 1 connected to each other are tightly connected.

4 to 6, the base plate 2 is mounted on the upper part between the left and right side ribs 9a located on the lower layer among the ribs 9a and 9b laminated on the upper and lower layers, The left end portion of the base plate 2 is raised to the right edge of the upper surface portion of the bonnet or wall 9a located on the left side and the right end portion of the base plate 2 is located on the right side of the bonnet wall 9a And the slabs are divided into a plurality of slabs that are separated from each other between a plurality of slabs or walls 9a spaced at right and left predetermined intervals in a manner that they are raised on the left edge of the upper surface.

The right end portion of the base plate 2 of the slab structure 1 installed on the left side is located at the left edge of the upper face portion of the lower wall and the wall body 9a of the upper and lower walls and the wall bodies 9a, A plurality of beams or walls (not shown) are installed at left and right predetermined intervals in such a manner that the left end portion of the base plate 2 of another slab structure 1 installed on the right side is raised on the right side edge of the upper face portion of the lower layer wall 9a The left and right base plates 2 mounted on the lower layer wall 9a as described above are mounted on upper and lower sides of the lower layer wall 9a as shown in FIG. The temporary fixing piece 10 bent in a right angle between the side surfaces of the base plate 2 and the lower surface of the left and right side ends of the base plate 2 is connected through the fixing anchor 11 in a state in which the temporary fixing piece 10 is in contact with the base plate 2, After completion of the construction of the slab structure 1 There is going to be.

On the other hand, as shown in Fig. 4, the upper and lower walls or walls 9a and 9b are vertically fixed to the lower layer, and the central portion of the upper surface of the wall 9a The upper and lower walls 9a and 9b are stacked on top of the supporting stone 12 in a state where the plurality of supporting stones 12 are placed at regular intervals and are embedded in the lower wall or wall 9a A plurality of vertical downward reinforcing bars 14 projecting outward from the lower ends of the vertical lower reinforcing bars 13 embedded in the inner upper and lower walls 9b, Are connected to each other through a normal coupler 7b in a state of being adjacent to each other or welded to each other so as to connect the upper and lower walls or the walls 9a and 9b.

The left and right upper and lower edges of the base plate 2 are formed as inclined faces 15 so that both left and right ends of the base plate 2 are raised on both sides of the upper face of the lower face wall and the wall body 9a It is easy to connect the base plate 2 positioned on the left and right sides through the work space so that a constant working space is formed between the lower surface of the upper layer wall 9b and the left and right side edges of the base plate 2 .

5 and 6, the base plate 2 is formed by laminating a heat insulating material 16 such as foamed styrofoam or urethane foam on the upper surface thereof to reduce the interlayer noise while improving the heat insulating property of the slab structure 1 .

As shown in FIGS. 1 to 8, the first lower reinforcing bar 6 is a portion connecting a plurality of base plates 2 disposed adjacent to each other in the front-rear direction, and a plurality of And the front and rear end portions of the base plate 2 are exposed through the front and rear connection grooves 3 and 4 of the base plate 2 to the outside of the front and rear surfaces, The front and rear ends of the first lower reinforcing bars 6 exposed outward from the inside of the connection space 5 defined by the front and rear connecting grooves 3 and 4 are overlapped with each other So that they are connected or welded through a normal coupler 7a.

As shown in FIGS. 1 to 6, the second lower reinforcing bars 17 are connected to the left and right base plates 2, which are raised at both side edges of the top surface of the lower layer wall 9a, The left and right side end portions of the base plate 2 are exposed to the outside of the left and right side surfaces of the base plate 2 in a state where a plurality of the left and right side surfaces are horizontally embedded in the base plate 2, Of the base plate 2 lifted by the left edge of the upper surface of the base plate 2 raised on the right edge of the second lower reinforcing bar 17 and the upper edge of the upper surface of the lower plate wall 9a, The left end portions of the reinforcing bars 17 are connected or welded through the normal coupler 7c in a state of being adjacent to each other.

The truss reinforcing bars 18 are reinforcing bars bent in a zigzag fashion as shown in Figs. 1 to 6, connecting the second lower reinforcing bars 17 and the second upper reinforcing bars 19, Welded in a horizontal direction horizontally along the longitudinal direction of the second lower reinforcing bar 17 in a state of standing on the upper surface portion of the second lower reinforcing bar 17 and the lower portion is integrally embedded in the base plate 2, 2 of the upper surface portion.

As shown in FIGS. 1 to 6, the second upper reinforcing bars 19 are connected to the left and right base plates 2, which are spaced apart from each other at both side edges of the upper face of the lower face wall 9a, And a base plate welded to the upper surface of each truss reinforcing bar 18 in a horizontal direction in a length corresponding to the second lower reinforcing bar 17 so as to be raised on the left edge of the upper surface of the lower layer wall 9a The left end of the second upper reinforcing bar 19 of the base plate 2 raised on the right edge of the second upper reinforcing bar 19 of the upper layer and the upper edge of the upper surface of the lower layer wall 9a of the lower layer And is connected or welded via a normal coupler 7d.

As shown in FIGS. 1 to 8, the first upper reinforcing bar 20 is a portion that connects a plurality of base plates 2 disposed adjacent to each other in the fore-and-aft direction, A plurality of the base plates 2 are welded to the upper surface portion of the second upper reinforcing bars 19 at a predetermined interval in the front and back horizontal directions so that the base plates 2, 1 The rear end portion of the upper reinforcing bar 20 and the front end portion of the first upper reinforcing bar 20 of the base plate 2 located at the rear side are connected to each other via the normal coupler 7e, .

As shown in FIGS. 5 and 6, the first upper reinforcing bar 20 is provided with a plurality of reinforcing reinforcing bars 21 horizontally disposed on the upper portion thereof, and the reinforcing reinforcing bars 21 are installed on the left side The base plate 2 and the upper portion of the base plate 2 disposed on the right side are installed transversely to each other so as to connect the slab structures 1 installed on the left and right sides to improve the overall durability and strength.

As shown in Fig. 6, in the state where the slab structures 1 are installed between the upper portions of the plurality of left and right side beams 9a located on the lower layer and the upper portions of the upper and lower side walls 9a, The slab structure 1 and the upper and lower walls 9a and 9b positioned on the right and left sides with the finishing concrete 22 poured into the upper side wall 9b and the lower wall of the upper wall 9b, So that they are integrally connected.

When the slab structure 1 of the present invention is used to construct a slab located on the outer wall side of the building, as shown in FIGS. 7 and 8, the upper and lower walls 9a and 9b And the upper surface of the base plate 2 and the lower surface of the base plate 2 in a state where the base plate 2 is placed on the upper surface edge of the lower layer wall 9a, 9a and 9b of the lower layer and the slab structure 1 and upper and lower walls 9a and 9b of the upper layer are poured into the lower layer of the upper layer and the lower wall of the wall 9b, Are integrally connected to each other.

Meanwhile, in the case of installing the slab located on the outer wall side of the building as described above, in order to reinforce the connection with the wall and the wall, and the overall durability and strength, the slab structure 1, 2 upper ends of the vertical upper reinforcing bars 13 provided vertically above one of the right and left side ends exposed to the outside of the lower reinforcing bars 17 and the lower reinforcing walls 9a are referred to as "T" or "L And the second lower reinforcing bar 17 and the lower connecting rope 24 are connected to each other via the coupler 7f or welded to each other, A lower end portion of the vertical downwardly rebounding bar 14 provided vertically downwardly to either the left or right side end portions exposed to the outside of the upper reinforcement 19 and the upper or lower reinforcement wall 9b is referred to as a T- Quot; -shaped upper connecting rope 25 and the second phase < RTI ID = 0.0 > The overlapping portion of the reinforcing bar 19 and the upper connecting root 25 in a conventional wire or the like adapted to secure the stack.

The lower connecting rope 24 and the upper connecting rope 25 are bent in a "T" shape or an "L" shape so that one end portion of the lower connecting rope 24 and the upper connecting rope 25 are engaged with the vertical upper reinforcing bar 13 or the lower vertical reinforcing bar 14 The other end portion is installed horizontally side by side with the second lower reinforcing bar 17 or the second upper reinforcing bar 19. [

In another embodiment according to the present invention, an eave part integrally formed with a slab may be installed on the outer surface of the building. In this case, as shown in Figs. 9 to 11, the base plate 2 A plurality of through holes 26 are perforated in a line at a predetermined interval in the middle portion of the base plate 2 so that a portion of the base plate 2 where the through holes 26 are drilled is divided into upper and lower layers, One side of the base plate 2 protrudes to the outside of the building and is installed as an eave portion while being interposed between the upper and lower walls 9a and 9b 9b are connected to each other via a coupler 7b or welded to each other in a state where the vertical upright reinforcing bars 13 and the vertical downward reinforcing bars 14 are respectively passed through the base plate 2 ), A plurality of through holes (26) A 12 is turned up phase, the lower layer Bona wall (9a) (9b) adapted to be stacked in a vertical spaced a predetermined interval.

The base plate 2 is formed with a protruding step 27 vertically upward at one end forming an eave portion. The protruding step 27 is formed such that the height of the upper end is smaller than the height And the reinforcing bars are connected between the upper and lower walls 9a and 9b with the base plate 2 interposed therebetween, and when the finishing concrete 22 is filled with the reinforcing bars, 27 are filled with the finishing concrete 22 so that the through-holes 26 are filled with the finished concrete 22 so that the slab structures 1 are integrally formed between the upper and lower walls 9a, 9b As the construction is done, the eaves part is built together on the outside of the building.

Hereinafter, the construction method of the present invention will be described in detail.

When the slab structure 1 according to the present invention is used to construct a slab of a building according to the PC method, first, as shown in FIG. 4, the lower layer wall 9a, A plurality of supporting stones 12 are placed at regular intervals along the middle portion of the upper surface of the supporting frame 12 and the upper supporting layer 9b is stacked on the supporting stone 12, The upper end portion of the vertical upper reinforcing bar 13 and the lower end portion of the lower downright reinforcing bar 14 embedded in the upper side reinforcement wall 9b are connected to each other via the normal coupler 7b in a state of being adjacent to each other, (9a) and (9b) laminated on upper and lower layers are vertically and horizontally connected to each other, and the left and right side walls (9a) and (9b) located on the lower layer among the vertically stacked upper and lower layers At the upper part between the wall and the wall 9a, The left end portion of the base plate 2 is placed on the right side edge of the upper surface portion of the bonnet or wall 9a positioned on the left side and the right end portion of the base plate 2 is placed on the right side The base plate 2 is placed between a plurality of beams or walls 9a spaced at left and right spaced apart from each other in such a manner as to be raised on the left side edge of the upper surface of the wall 9a located at the upper portion of the wall 9a, The temporary fixing piece 10 bent at right angles between the outer side surface and the lower surface of the left and right side ends of the base plate 2 is temporarily connected and fixed through the fixing anchor 11 in the state of being backed with the temporary fixing piece 10, Is removed after completion of the construction of the slab structure 1.

Next, as shown in Figs. 2 to 4, while the front and rear surfaces of the base plate 2 are made to abut against the front and rear surfaces of the base plate 2, the front and rear connecting grooves 3, (3) (4) in a state in which a plurality of base plates (2) are positioned so as to be in contact with each other in the front and rear directions so as to form a single connection space (5) The front and rear end portions of the first lower reinforcing bars 6 exposed to the outside are connected or welded to each other via a normal coupler 7a in a state of being adjacent to each other at the inside of the connection space 5, And the front and rear ends of the first upper reinforcing bars 20 provided on the rear base plate 2 are connected or welded to each other via a normal coupler 7e in a state where they are adjacent to each other, (5), as shown in FIG. 5, filled concrete 8 is filled therein, And it buried the exposed front and rear both side ends of the root (6) finishes the connecting space (5).

4, the right and left ends of the second lower reinforcing bar 17 and the second upper reinforcing bar 19 of the base plate 2 raised to the left edge of the upper surface of the lower layer wall 9a, The second lower reinforcing bars 17 and the left end portions of the second upper reinforcing bars 19 of the base plate 2 raised on the right side edge of the upper surface portion of the lower layer wall 9a are stacked adjacent to each other, 6b and 7b and 7b and 7b and 7b and the upper and lower walls 9a and 9b of the base plate 2 as shown in FIG. So that the slab structure 1 positioned on the left and right sides and the upper and lower walls 9a and 9b are integrally connected to each other.

On the other hand, when a slab positioned on the outer wall side of the building is to be installed, as shown in Figs. 7 and 8, a normal die 23 is provided on the outer side between the upper and lower walls 9a and 9b, (9a) and (9b) on the upper and lower layers of the base plate (2) in a state where the base plate (2) is placed on the upper surface edge of the lower layer wall or the wall surface (9a) The slab structure 1 and the upper and lower walls 9a and 9b are integrally connected to each other by placing the finishing concrete 22 on the lower side of the upper floor wall 9b.

1. Slab structure 2. Base plate
3. Front connection groove 4. Rear connection groove
5. Connection space 6. First bottom reinforcing bar
7a, 7b, 7c, 7d, 7e, 7f. Coupler 8. Filled Concrete
9a, 9b. Wall or wall 10. Temporary fixture
11. Fixed anchor 12. Stand
13. Vertical Upward Reinforcement 14. Vertical Downward Reinforcement
15. Slope 16. Insulation
17. Second Lower Reinforcement 18. Truss Reinforcement
19. Second Upper Reinforcement 20. First Upper Reinforcement
21. Reinforced concrete 22. Finishing concrete
23. Formwork 24. Lower connection
25. Upper connecting rods 26. Through holes
27. protruding chin

Claims (11)

A second lower reinforcing bar 17 provided on both sides of the base plate 2 so as to be exposed at the left and right side outer sides of the base plate 2 with a plurality of right and left side end portions embedded in a horizontal direction at right and left intervals, A plurality of truss reinforcing bars 18 welded along the upper surface of each of the second lower reinforcing bars 17 and embedded in the base plate 2 at a lower portion thereof, A plurality of second upper reinforcing bars 19 welded to the upper surface of the upper reinforcing bar 18 in the left and right horizontal directions and front and rear opposite end portions of the first lower reinforcing steel 6 in the connecting space 5, A plurality of forward connection grooves 3 and a plurality of rear connection grooves 4 are formed at upper and lower rear corner portions at left and right predetermined intervals, A base plate 2 formed on the base plate 2, A first lower reinforcing bar 6 disposed so as to be exposed at the front and rear outer sides through the front and rear connecting grooves 3 and 4 of the base plate 2 in a state where a plurality of front and rear end portions are embedded horizontally at left and right predetermined intervals A first upper reinforcing bar 20 welded to the upper surface of the plurality of second upper reinforcing bars 19 with a length corresponding to the first lower reinforcing bars 6 at a predetermined interval in the longitudinal direction The front and rear connection grooves 3 and 4 are in contact with each other so that the front and rear connection grooves 3 and 4 are in contact with the front and rear surfaces of the base plate 2, And both front and rear ends of the first lower reinforcing bars 6 exposed outward through the front and rear connecting grooves 3 and 4 are overlapped with each other on the inner side of the connecting space 5, And the base plate 2 has front and top openings of the respective front connecting grooves 3, The front and rear connection grooves 3 and 4 are formed on the front side and the rear side of the groove 4 so as to be opposed to each other on the front and rear straight lines. The reinforcing concrete 8 is filled in the connection space 5 with both front and rear ends of the reinforcing bars 6 connected to each other so that the front and rear opposite ends of the first reinforcing bar 6 are buried, 5) is finished.
delete The heat exchanger according to claim 1, wherein the base plate (2) is formed with inclined surfaces (15) at left and right upper end corner edges, and a heat insulating material (16) is laminated on the upper surface of the base plate Construction slab constructions.
The lower reinforcing bar according to claim 1, wherein the second lower reinforcing bar (17) is formed by joining the right end portion of the second lower reinforcing bar (17) of the base plate (2) raised to the left edge of the upper surface of the lower- The left end of the second lower reinforcing bar 17 of the base plate 2 raised to the right side edge of the upper surface of the wall body 9a is connected or welded via the coupler 7c in a state of being adjacently overlapped with each other, The upper reinforcing bars 19 are formed on the right side edge of the second upper reinforcing bars 19 of the base plate 2 raised on the left side edge of the upper surface of the lower layer wall 9a and on the right side edge of the upper surface side of the lower layer wall 9a The left end of the second upper reinforcing bar 19 of the base plate 2 which is raised on the upper surface of the lower plate is connected to or welded through the coupler 7d in a state of being adjacent to each other, And the left and right base plates 2 to be raised are connected to each other Features architectural slab construction.
The apparatus as claimed in claim 1, wherein the first upper reinforcing bars (20) are formed on the rear end portions of the first upper reinforcing bars (20) of the base plate (2) positioned in front of the plurality of base plates The front end portions of the first upper reinforcing bars 20 of the base plate 2 positioned at the rear are connected or welded to each other via the coupler 7e while being adjacent to each other, A plurality of reinforcing bars 21 are installed in the left and right horizontal directions and the reinforcing bars 21 are arranged in a state of horizontally crossing the base plate 2 installed on the left side and the upper side of the base plate 2 placed on the right side Wherein the slab structure is constructed to be installed.
The base plate (2) according to claim 1, wherein a plurality of through holes (26) are perforated in a line at a predetermined interval in the center portion of the base plate (2) One side of the base plate 2 is protruded to the outside of the building to be installed as an eave portion while being interposed between the upper and lower layers of the wall and the wall 9a and 9b, The upper and lower reinforcing bars 13 and 14 provided in the lower layer wall 9a and 9b are connected to each other via the coupler 7b so as to be connected or welded And a supporting stone 12 is placed between the portions where the through holes 26 are drilled in the base plate 2 so that the upper and lower layers 9a and 9b are spaced apart from each other at regular intervals Wherein the slab structure is configured to be stacked.
7. The apparatus of claim 6, wherein the base plate (2) has a protruding step (27) vertically upwardly formed at one end forming an eave, and the protruding step (27) (9b) of the slab structure.
The base plate 2 made of a concrete material is placed on the upper part between the left and right side beams 9a and 9b located on the lower layer among the upper and lower layers 9a and 9b on the left and right sides, The front and rear ends of the first upper reinforcing bars 20 are connected to each other in the connection space 5 by couplers or welding while the front and rear surfaces of the other base plates 2 are in contact with the front and rear surfaces of the left and right base plates 2, A method of connecting both left and right side ends of a second lower reinforcing bar 17 and a second upper reinforcing bar 19 by connecting couplers or welding and integrally connecting the two lower reinforcing bars 17 and the second upper reinforcing bars 19, A plurality of supporting stones 12 are placed at regular intervals along the center portion of the upper surface of the raised bottom wall 9a and the upper supporting wall 9b is stacked on the supporting stone 12, , A lower layer of the lower layer and the walls 9a and 9b A base plate 2 made of a concrete material is placed on the upper part between the left and right side beams 9a and the front and rear faces of the base plate 2 are placed on the front and rear faces of the base plate 2, The connecting grooves 3 and 4 are in contact with each other so as to communicate with each other to form a connection space 5 having an opened upper portion. The front and rear end portions of the reinforcing bars 6 are connected or welded to each other via the coupler 7a in a state in which they are adjacent to each other at the inner side of the connection space 5 and the front and rear base plates 2, The front and rear ends of the first upper reinforcing bars 20 provided on the upper portion are connected to each other via a coupler 7e in a state where they are adjacent to each other and welded thereto and filled concrete 8 is inserted into the connection space 5 And the upper surface of the lower layer and the upper surface of the wall body 9a, The second lower reinforcing bar 17 of the base plate 2 lifted by the right end portions of the second lower reinforcing bars 17 and the second upper reinforcing bars 19 of the plate 2 and the right side edge of the upper surface portion of the lower reinforcing reinforcing bars 9a, The left end portions of the first upper reinforcing bars 17 and the second upper reinforcing bars 19 are connected to each other via couplers 7c and 7d in a state of being adjacent to each other, The slab structure 1 and the upper and lower walls 9a and 9b are integrally connected to each other by placing the finishing concrete 22 between the walls 9a and 9b to the bottom wall of the upper layer or the lower wall of the wall 9b. Wherein the slab structure is constructed so that the slab structure is constructed.
The reinforced concrete structure according to claim 8, wherein the lower reinforced concrete wall (9a) comprises a lower end portion of a vertically upper reinforcing bar (13) embedded in the upper layer and a lower end (9a) and (9b) of upper and lower layers are connected to each other at regular intervals in the vertical direction by connecting or welding the upper and lower portions of the base plate (2) adjacent to each other via the coupler (7b) And the right end of the base plate 2 is raised at the left edge of the upper face of the upper wall portion 9a positioned on the right side, The base plate 2 is placed between the plurality of beams 9 and the walls 9a and then the temporary outer surface of the lower layer of the wall 9a and the lower surface of the base plate 2, And the fixed anchor (11) Wherein the slab structure is fixed in place.
The floor panel according to claim 8 or 9, wherein the upper and lower walls 9a and 9b are formed on the outer side between the upper and lower walls 9a and 9b located on the outer wall side of the building, 9b) of the upper and lower layers of the base plate 2 in a state in which the base plate 2 is placed on the upper side edge of the lower layer of the wall 9a, The slab structure 1 and the upper and lower walls 9a and 9b are integrally connected to each other by placing the finishing concrete 22 on the lower side of the upper wall or the lower wall 9b, A method of constructing a construction slab structure.
The slab structure (1) according to claim 8, characterized in that the slab structure (1) comprises a vertical upper reinforcing bar (1) provided vertically above one of the right and left side ends exposed to the outside of the second lower reinforcing bar (17) 13 is connected to the lower connecting rope 24 bent in the shape of "T" or "L" and the overlapped portion of the second lower reinforcing bar 17 and the lower connecting rope 24 is connected to the coupler 7f ) Of the upper and lower reinforcing bars (14, 15, 16, 17, 18, 17, 18) The lower end portion is connected to the upper connecting rope 25 bent in the "T" shape or the "L" shape and the overlapping portion of the second upper reinforcing bar 19 and the upper connecting rope 25 is bundled and fixed A method of constructing a construction slab structure.

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