JP3751727B2 - Precast concrete boards, concrete slabs and structures - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to precast concrete boards, concrete slabs and structures.
[0002]
[Prior art]
Building slabs in reinforced concrete are mostly constructed using precast concrete boards. In order to construct step portions for various pipes in this concrete slab, as shown in FIGS. 14 (1) and (2), one precast concrete plate 30 is shifted downward to form a step portion 31. In order to reinforce the step portion 31, the streaks 32 are arranged, or the slab bars 33 of the concrete slab are used as bend bars.
[0003]
In addition, as shown in (3) of the figure, the above-mentioned concrete slab uses a precast concrete plate 36 in which lightweight molds 35 are arranged at equal intervals between truss bars 34. A connecting bar (not shown) from an adjacent precast concrete board is arranged.
[0004]
[Problems to be solved by the invention]
However, since the bar arrangement in the stepped portion as described above is complicated, it takes a lot of labor for the rebar processing and construction on site, and the work efficiency is poor.
Moreover, when the precast concrete board | substrate with which the lightweight formwork was arrange | positioned is arrange | positioned in the adjacent state, since the truss reinforcement was closely arranged, the concrete slab as a whole became an unbalanced reinforcement arrangement.
[0005]
[Means for Solving the Problems]
The means for solving the above problems is that a precast concrete board divides a concrete board of a predetermined size into a predetermined area, and a high truss bar is placed on one side of the area from one side of the concrete board. Arrange the bars with appropriate spacing so that they protrude, and in the other area, arrange the lower truss bars with appropriate spacing so that the upper part protrudes from one side of the concrete plate . The low truss bars are triangular trusses in which one upper chord and two lower chords arranged in a triangle shape are joined by a corrugated lattice, and the ends of these truss bars are connected to a predetermined part of the concrete plate. Place the upper and lower bars in place and arrange lightweight molds between the tall truss bars, with the length in the long direction equal to or shorter than the tall truss bars. , these lightweight Of at least one row of the truss muscle in the longitudinal direction of the arrangement interval along, characterized by being wider than the longitudinal direction of the arrangement interval along the truss muscle other lightweight formwork.
In addition, the concrete slab divides a concrete plate of a predetermined size into a predetermined area, and arranges a tall truss bar in one area at an appropriate interval so that the upper part protrudes from one surface of the concrete plate, In the other area, short truss bars are arranged at appropriate intervals so that the upper part protrudes from one side of the concrete plate. The tall truss bars and the short truss bars are arranged in a triangular shape. Is a triangular truss in which one upper chord and two lower chords are joined by a corrugated lattice, and the ends of these truss are superposed on top of each other at a specific location on the concrete board, Lightweight formwork whose length in the long side direction is less than or equal to the spacing of tall truss bars between the tall truss bars is arranged at appropriate intervals along the truss bars of these lightweight formwork All vertical arrangement interval At least one row of Chino, the composite precast concrete plate wider than the longitudinal direction of the arrangement interval along the truss muscle other lightweight formwork, each appropriate intervals to the truss muscle its upper projecting from one surface of the concrete slab The lightweight formwork is arranged at appropriate intervals between these truss bars , and at least one row of the arrangement intervals in the vertical direction along the truss bars of these lightweight formwork is arranged in the other lightweight form. A plurality of hollow precast concrete plates, which are wider than the vertical spacing between the truss bars of the formwork, are arranged adjacent to each other between the beams, and adjacent to the hollow precast concrete plate adjacent to the composite precast concrete plate. A small and lightweight formwork that is narrower than the lightweight formwork is arranged at appropriate intervals, and for reinforcement that is half the length along the tall truss bar in the adjacent part Las muscle is Haisuji, Top concrete is characterized by being pouring to form a stepped portion between were provided with the lightweight frame portion and disposed to portions not. Moreover, it includes that the lightweight formwork of adjacent hollow precast concrete boards is a mutually different magnitude | size. Moreover, it includes that the lightweight formwork of a hollow precast concrete board and the lightweight formwork of a composite precast concrete board are different sizes, respectively. In addition, it includes that light-weight molds having different sizes are arranged on at least one of the precast concrete plates.
Furthermore, the structure is provided with the above-mentioned concrete slab.
[0006]
[Means for Solving the Problems]
The means for solving the above problems is that a precast concrete board divides a concrete board of a predetermined size into a predetermined area, and a high truss bar is placed on one side of the area from one side of the concrete board. Arrange the bars at appropriate intervals so that they protrude, and arrange the lower truss bars in the other area at appropriate intervals so that the upper part protrudes from one side of the concrete plate. The ends of the lower truss bars are overlapped in the length direction at predetermined locations on the concrete plate, and lightweight molds are arranged between the tall truss bars at appropriate intervals. It is characterized in that at least one row of the set intervals is wider than other arrangement intervals.
A concrete slab divides a concrete board of a given size into a given area, with a tall truss bar in one area and a short truss bar in the other area. Arrange bars at appropriate intervals so as to protrude from one surface, and arrange the ends of the tall truss bars and the short truss bars in the longitudinal direction at predetermined locations on the concrete plate, and the tall truss A lightweight formwork is arranged between the bars at an appropriate interval, and a composite precast concrete plate in which at least one row of these lightweight formwork arrangement intervals is wider than the other arrangement intervals, and a truss bar at the top thereof. Arrangement is made at appropriate intervals so as to protrude from one surface of the concrete plate, and lightweight molds are arranged between these truss bars at appropriate intervals, and at least of the arrangement intervals of these lightweight molds A plurality of hollow precast concrete plates whose rows are wider than other arrangement intervals are arranged adjacent to each other between the beams, and a step portion is formed between a portion where the lightweight formwork is arranged and a portion where the lightweight formwork is not arranged. It is characterized by the placement of top concrete.
Furthermore, the structure is provided with the above-mentioned concrete slab.
[0007]
In the precast concrete board, a step portion is formed between these areas due to the height difference between the tall truss bars and the short truss bars. Further, the end portions of the tall truss muscle and the short truss muscle are overlapped in the length direction, so that the strength in the stepped portion is increased. In addition, since the length in the long side direction of the lightweight formwork placed between the tall truss bars is set to be equal to or less than the arrangement interval of the tall truss bars, the gap portion for arranging the reinforcing bars perpendicular to the truss bars Many are formed.
[0008]
In concrete slabs, when a concrete slab is constructed with a precast concrete plate in which at least one of the spacing intervals of the lightweight formwork is wider than the other spacing intervals, the wide spacing portion corresponds to the truss bars. By arranging the connecting bars, the strength in the two directions of the long beam direction and the short beam direction of the concrete slab can be balanced, and the strength of the stepped portion can be increased.
[0009]
In addition, a structure having a concrete slab in which the strength in the two directions of the long beam direction and the short beam direction is balanced and the strength of the stepped portion is large.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of a precast concrete board, a concrete slab, and a structure of the present invention will be described with reference to the drawings. 1 is a plan view of a precast concrete plate, FIG. 2A is a cross-sectional view taken along the line AA of FIG. 1, and FIG. 1B is a cross-sectional view taken along the line BB of FIG.
[0011]
FIG. 1 shows a precast concrete board (hereinafter referred to as a thin PC board) 1, which is composed of a planar rectangular concrete board 2 and truss bars 3 and 4.
[0012]
The thin PC board 1 has a predetermined size and a predetermined thickness, and is divided into two areas 5 and 6, that is, two areas, and one of the areas 5 has three backs. High truss bars 3 are arranged at appropriate intervals along the long side direction of the concrete plate 2.
[0013]
The truss muscle 3 is a triangular truss in which one upper chord muscle (top muscle) 7 and two lower chord muscles (bottom muscle) 8 arranged in a triangular shape are joined by a corrugated lattice muscle 9. The lower chord 8 is joined to the bending reinforcing bar 10 in the concrete plate 2, and the upper chord 7 protrudes from one surface of the concrete plate 2.
[0014]
Between these tall truss muscles 3, lightweight molds 11 are arranged at appropriate intervals. The height of the lightweight form 11 is slightly lower than the tall truss muscle 3, and the length in the long side direction is less than the spacing of the tall truss muscle 3, that is, the distance a in FIG. (Hereinafter referred to as a small lightweight formwork).
[0015]
Of the arrangement intervals of the small lightweight molds 11, the arrangement interval in the longitudinal direction along the truss bars 3, that is, the arrangement interval in the central portion of the long side direction of the concrete plate 2 is arranged in the other longitudinal direction. The interval is wider than the interval, and the interval is such that a pair of connecting bars can be arranged.
[0016]
As the small lightweight mold 11, one that is not crushed by the cast concrete is used, and for example, a synthetic resin foam molded product by bead mold foam molding such as foamed polystyrene is used. However, it is also possible to use a foam molded product made of an ethylene resin, a propylene resin, or the like. The material of the small lightweight mold 11 is not particularly limited as long as it is a lightweight member for concrete, and can be a hollow steel pipe.
[0017]
On the other hand, in the other area 6, three short truss bars 4 are arranged at appropriate intervals along the long side direction of the concrete plate 2, and their tip portions are arranged on the tall truss bars 3. It is streaked. This overlapped bar overlaps at least two peaks of the lattice 9. As shown in FIG. 1 (2), the superposition can be made up and down as well as the truss bars 3 and 4 being attached side by side. As a result, the strength at the overlapping portion can be further increased, and the labor of shifting the truss bars 3 and 4 from each other can be saved.
[0018]
The short truss bar 4 has the same configuration as the tall truss bar 3, but is about half as tall as the tall truss bar 3, and its lower bar 8 is the lower end of the slab in the concrete plate 2. While being joined to the line 10, the upper end line 7 side protrudes from one surface of the concrete plate 2. Further, the lightweight mold 11 is not disposed between the short truss bars 4.
[0019]
The heights of the tall truss muscle 3 and the short truss muscle 4 are determined according to the size of the step. For example, when the step is large, the tall truss muscle 3 becomes higher, The shorter truss muscle 4 is further lowered.
[0020]
The lengths of the tall truss muscle 3 and the short truss muscle 4 are also determined according to the size of the stepped portion. For example, when constructing a stepped portion having a large area, the length of the short truss muscle 4 is long. The length of the tall truss muscle 3 is further shortened. Therefore, the strength of the stepped portion can be freely adjusted by the length of the overlapping bars of the truss bars 3 and 4.
[0021]
As described above, one row in the vertical direction along the truss bars 3 in the arrangement interval of the small lightweight molds 11, that is, the length along the truss bars in the central portion in the long side direction of the concrete plate 2. Although the thin PC board in which the arrangement interval in the direction is wider than the arrangement interval in the vertical direction along the truss bars of the other lightweight formwork is the most preferred embodiment, the present invention is such The horizontal direction perpendicular to the truss bars 3, that is, one row of the horizontal arrangement intervals along the short side direction of the concrete plate 2 may be wider than the other horizontal arrangement intervals. it can.
[0022]
Next, the concrete slab using a composite precast concrete board and a hollow precast concrete board is demonstrated based on FIGS. The composite precast concrete board 1 is a thin PC board in which lightweight molds 11 are arranged at appropriate intervals between a tall truss bar 3 and a short truss bar 4 as shown in FIG. (Hereinafter referred to as composite thin-walled PC board). On the other hand, the hollow precast concrete board 14 is a thin PC board (hereinafter referred to as a hollow thin PC board) in which lightweight molds 19 are arranged at appropriate intervals between tall truss bars 17 as shown in FIG. Say.
[0023]
The concrete slab 12 is composed of two composite thin PC plates 1 arranged side by side between a long beam 13a and a short beam 13b, and hollow thin PC plates 14 arranged on both sides thereof. Yes.
[0024]
As shown in FIG. 4, five tall truss bars 17 are arranged on the hollow thin PC board 14 at appropriate intervals along the long side direction of the concrete board 18. These truss bars 17 are embedded in the concrete plate 18 at the lower portion and protrude from one surface of the concrete plate 18 at the upper side. In addition, a small lightweight mold 19 is disposed between the truss bars 17 at appropriate intervals, and a vertical line along the truss bars 17 of these arrangement intervals, that is, the concrete plate 18 is arranged. The arrangement interval at the center in the long side direction is wider than the arrangement intervals in the other vertical direction.
[0025]
On the other hand, between the tall truss bars 3 in the composite thin PC board 1 adjacent to the hollow thin PC board 14, a small lightweight mold 11 is at the same interval as the lightweight mold 11 of the hollow thin PC board 14. It is arranged. That is, the arrangement interval of the lightweight molds 19 in the central portion in the long side direction of the composite thin PC board 1 is wider than the other arrangement intervals in the vertical direction. As a result, a wide gap 21 is formed on the PC plates 1 and 14 of the concrete slab 12 along the direction of the long beam 13a, and the connecting bars corresponding to the truss bars 3, 17, and 17 adjacent to the wide gap 21 are formed. 20 is arranged, and connecting bars 20 such as deformed reinforcing bars and truss bars are arranged between the other lightweight molds 11 and 19.
[0026]
The bar arrangement interval of the connecting bars 20 is the same as the bar arrangement interval of the adjacent truss bars 3, 17 and 17, but may be wider or narrower.
[0027]
Further, the joint portion between the composite thin PC board 1 of the hollow thin PC board 14, along with the narrow small lightweight frame 22 than lightweight frame 19 of the small split is provided, of the back at the junction A reinforcing truss bar 17a having a half length is arranged along the high truss bar 17.
[0028]
Further, between the areas 5 and 23 where the small lightweight mold 19 and the small lightweight mold 22 are arranged and the area 6 where these are not arranged, as shown in FIG. There is a difference in height between the high truss bar 17 and the short truss bar 4, and the top concrete 16 is placed thereon to form a stepped portion 25.
[0029]
As described above, the connecting bars 20 corresponding to the tall truss bars 3 and 17 are arranged between the lightweight molds 11 of the composite thin PC board 1 and the hollow thin PC board 14, and a wide gap portion is provided. 21 is provided with a pair of connecting bars 20 corresponding to the adjacent truss bars 3 and 17, thereby providing a bar arrangement balanced in the two directions of the long beam 13a and the short beam 13b. A load acting on the concrete slab 12 is caused to flow along the direction of the long beam 13a and the direction of the short beam 13b, so that a sufficient strength is ensured as the entire concrete slab.
[0030]
FIGS. 6 to 11 show concrete slabs provided with thin PC plates having different sizes of lightweight molds.
[0031]
FIG. 6 shows a concrete slab 12 in which a hollow thin PC plate 14 provided with a large lightweight formwork 26 is laid on the short beam 13b side, and is split only at a joint with another hollow thin PC plate 14. A lightweight mold 19 is provided. And the connecting bar | burr 20 corresponding to the tall truss bar 17 is arranged between the lightweight formwork 19, and the intensity | strength in a junction part is ensured. In addition, a pair of connecting bars 20 corresponding to the adjacent truss bars 3 and 17 are arranged in the wide gap portion 21, and the concrete slab as a whole can be balanced in the two directions of the long beam 13a and the short beam 13b. Thus, the load acting on the concrete slab 12 flows along the long beam 13a direction and the short beam 13b direction.
[0032]
FIG. 7 shows a concrete slab 12 in which a hollow thin PC plate 14 provided with a small lightweight mold 19 is laid on the side of the short beam 13b, and is small at a joint with another hollow thin PC plate 14. A comparatively lightweight mold 19 is provided. Further, a small lightweight mold 11 is disposed on one side of the composite thin PC board 1 with a wide gap 21 as a boundary, and a large lightweight mold 26 is disposed on the other.
[0033]
Further, FIG. 8 shows that a small lightweight mold 19 is disposed on the joint portion side of the hollow thin PC board 14 and a large lightweight mold 26 is disposed at other locations, and the composite thin PC board 1 is small. It is a concrete slab 12 in which a relatively light weight formwork 11 is disposed.
[0034]
Further, in FIG. 9, a hollow thin PC plate 14 provided with a large lightweight mold 26 is laid on the short beam 13b side, and a large lightweight mold 26 is provided on the other thin PC plates 1 and 14. Concrete slab 12.
[0035]
Further, FIG. 10 shows that a hollow thin PC plate 14 provided with a small lightweight mold 19 is laid on the side of the short beam 13b, and that the other thin PC plates 1 and 14 are provided with an almost large lightweight mold 26. A concrete slab 12 is provided.
[0036]
FIG. 11 shows a concrete slab 12 composed of a hollow thin PC board 14 in which a large lightweight mold 26 is provided, except that a small lightweight mold 11 is provided on a part of the composite thin PC board 1. It is.
[0037]
FIGS. 12 and 13 show a concrete slab 12 using a hollow thin PC plate 14 in which reinforcing truss bars 17a are not arranged. FIG. 12 shows a thin wall with a small lightweight formwork 19 disposed therein. PC boards 1 and 14 are used. On the other hand, in FIG. 13, a hollow thin PC board 14 provided with a large lightweight mold 26 is used except that a small lightweight mold 11 is partially provided.
[0038]
In the concrete slab 12 of FIGS. 7 to 13 described above, the connecting bars 20 corresponding to the tall truss bars 17 are arranged between the lightweight molds 11 and 19 in the same manner as in FIG. A pair of connecting bars 20 corresponding to the adjacent truss bars 3 and 17 are arranged in the wide gap portion 21 to ensure strength, and the concrete slab as a whole has two directions, ie, the long beam 13a direction and the short beam 13b direction. Therefore, the load is applied to the concrete slab 12 along the direction of the long beam 13a and the direction of the short beam 13b, and the strength of the concrete slab as a whole is secured.
[0039]
Further, the concrete slab 12 of FIGS. 7, 10 and 12 has a hollow thin wall PC plate 14 laid with a small lightweight formwork 11 on the short beam 13b side, and therefore a peripheral portion where a large shearing force acts. The load can flow along the direction of the long beam 13a and the direction of the short beam 13b. That is, as described above, the lightweight mold 11 is divided into small pieces and the connecting bars 20 are arranged, so that a large shearing force acting on the end of the hollow thin PC plate 14 can be dealt with. Moreover, since the hollow thin PC board 14 which does not make the lightweight mold 11 small has a small shearing force, it is possible to thin out the partition walls.
[0040]
Note that, as described above, the concrete slab 12 in which the wide gap portion 21 is formed along the direction of the long beam 13a is the most preferred embodiment, but the present invention is not limited to this, One of the arrangement intervals along the direction of the short beam 13b may be a wide gap 21.
[0041]
When constructing a steel structure, a reinforced concrete structure, and a steel reinforced concrete structure using the concrete slab 12 of FIGS. 3 and 6 to 13, the stepped portion 25 is reinforced and a well-balanced reinforcing concrete slab 12 is obtained. It will be the structure you have.
[0042]
【The invention's effect】
Due to the difference in height between the tall truss bars and the short truss bars, it is possible to manufacture a thin PC board in which a step portion is formed between these areas.
[0043]
In the thin PC board, the strength of the portion where the tall truss muscles and the short truss muscles are overlaid can be increased.
[0044]
The length of the long side of the lightweight formwork placed between the tall truss bars is less than or equal to the spacing between the tall truss bars, so that the reinforcing bars corresponding to the truss bars are placed on the thin PC board. Many streaks can be formed.
[0045]
A concrete slab with a step by simply placing the top concrete by using composite precast concrete in which tall truss bars and short truss bars are laid in the longitudinal direction at specified locations on the concrete plate. Can be easily formed.
[0046]
A concrete slab with a stepped portion can be constructed by simple on-site construction, omitting on-site rebar processing and complicated bar arrangement work.
[0047]
By constructing a concrete slab using a thin PC plate that has at least one row of lighter formwork arrangement intervals wider than other arrangement intervals, the truss bars close to the joint of the thin PC plate Since the corresponding connecting bars can be arranged, the concrete slab as a whole has a balanced arrangement in both the long beam direction and the short beam direction, and the load acting on the concrete slab can be adjusted to the long beam direction and the short beam. By flowing along the direction, it is possible to ensure a balanced strength as a whole concrete slab.
[0048]
By making the lightweight molds of adjacent hollow thin PC plates different in size, it is possible to arrange lightweight molds according to the arrangement of connecting bars at these joints.
[0049]
The lightweight formwork of the hollow thin PC board and the lightweight formwork of the composite thin PC board are sized differently so that the lightweight formwork can be arranged according to the arrangement of the connecting bars at these joints. it can. In addition, by laying a hollow thin PC plate with a small lightweight formwork on the short beam side, the load flows along the long beam direction and the short beam direction at the periphery of the concrete slab where a large shearing force acts. Thus, it is possible to cope with a large shearing force acting on the peripheral portion of the concrete slab.
[0050]
By disposing light-weight molds of different sizes on the thin PC plate, it is possible to dispose light-weight molds according to the arrangement of connecting bars.
[0051]
It is possible to construct a structure having a reinforcing concrete slab in which the step portion is reinforced and balanced in two directions of the long beam direction and the short beam direction.
[Brief description of the drawings]
FIG. 1A is a plan view of a thin PC board, and FIG. 1B is a cross-sectional view of overlapping bars.
2 is a cross-sectional view taken along line AA in FIG. 1, and FIG. 2 is a cross-sectional view taken along line BB in FIG.
FIG. 3 is a partially cutaway plan view of a concrete slab.
FIG. 4 is a plan view of a hollow thin PC plate.
5 is a cross-sectional view taken along the line CC of FIG. 3, FIG. 5 is a cross-sectional view taken along the line DD, and FIG. 5 is a cross-sectional view of a step portion of the concrete slab.
FIG. 6 is a partially cutaway plan view of a concrete slab.
FIG. 7 is a partially cutaway plan view of a concrete slab.
FIG. 8 is a partially cutaway plan view of a concrete slab.
FIG. 9 is a partially cutaway plan view of a concrete slab.
FIG. 10 is a partially cutaway plan view of a concrete slab.
FIG. 11 is a partially cutaway plan view of a concrete slab.
FIG. 12 is a partially cutaway plan view of a concrete slab.
FIG. 13 is a partially cutaway plan view of a concrete slab.
14A is a sectional view of a step portion of a conventional concrete slab, and FIG. 14B is a plan view of a conventional thin PC board.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Thin-walled PC board 2 and 18 Concrete board 3 and 17 Tall truss bars 4 Tall truss bars 5 and 23 One area 6 and 24 The other area 11 and 19 Small lightweight formwork 12 Concrete slab 14 Hollow thin wall PC board 16 Top concrete 20 Connecting bar 22 Small and lightweight formwork 25 Stepped part

Claims (6)

Divide a concrete board of a predetermined size into predetermined areas, and place a tall truss bar in one area at an appropriate interval so that the upper part protrudes from one side of the concrete board, and in the other area The short truss bars are arranged at appropriate intervals so that the upper truss bars protrude from one surface of the concrete plate, and the tall truss bars and the short truss bars are arranged in a triangular shape. A triangular truss in which muscles and two lower chords are joined by corrugated lattice muscles, and the ends of these truss bars are vertically superposed at predetermined locations on the concrete plate, and the tall truss is arranged. Lightweight formwork whose length in the long side direction is less than or equal to the spacing of tall truss bars between the bars , is arranged at appropriate intervals, and the vertical arrangement along the truss bars of these lightweight formwork at least one row of the set interval, other Precast concrete plate, characterized in that it has wider than the longitudinal direction of the arrangement interval along the truss muscle lightweight formwork. Divide a concrete board of a predetermined size into predetermined areas, and place a tall truss bar in one area at an appropriate interval so that the upper part protrudes from one side of the concrete board, and in the other area The short truss bars are arranged at appropriate intervals so that the upper truss bars protrude from one surface of the concrete plate, and the tall truss bars and the short truss bars are arranged in a triangular shape. A triangular truss in which muscles and two lower chords are joined by corrugated lattice muscles, and the ends of these truss bars are vertically superposed at predetermined locations on the concrete plate, and the tall truss is arranged. Lightweight formwork whose length in the long side direction is less than or equal to the spacing of tall truss bars between the bars , is arranged at appropriate intervals, and the vertical arrangement along the truss bars of these lightweight formwork at least one row of the set interval, other A composite precast concrete plate wider than the longitudinal direction of the arrangement interval along the truss muscle lightweight formwork,
The truss muscle its upper part Haisuji every appropriate intervals so as to protrude from one surface of the concrete plate, a lightweight frame disposed for each appropriate intervals between these trusses muscle, the truss muscles of these lightweight formwork A plurality of hollow precast concrete plates are arranged adjacent to each other between the beams, with at least one of the vertical arrangement intervals along the truss bars of other lightweight formwork wider than the vertical arrangement interval. And
In the adjacent part of the hollow precast concrete board adjacent to the composite precast concrete board, a small and lightweight formwork narrower than the lightweight formwork is disposed at an appropriate interval, and along the tall truss bars in the adjacent part. than this half length reinforcement truss muscle Te is Haisuji, the top concrete is pouring to form a stepped portion between the lightweight frame disposed portions and disposed portion not A concrete slab characterized by The concrete slab according to claim 2 , wherein the lightweight formwork between adjacent hollow precast concrete plates is different in size . The concrete slab according to claim 2 , wherein the lightweight formwork of the hollow precast concrete board and the lightweight formwork of the composite precast concrete board have different sizes . The concrete slab according to claim 2 , wherein light-weight molds having different sizes are arranged on at least one of the precast concrete plates . A structure comprising the concrete slab of claim 2 .

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