JP5050221B2 - Floor slab - Google Patents

Description

  The present invention relates to a floor slab.

Conventionally, some floor slabs of buildings are made of a plurality of precast concrete plates arranged adjacent to each other in the horizontal direction (see Patent Document 1). Each precast concrete board has a rectangular planar shape, and the precast concrete boards are adjacent to each other on the sides.
JP-A-8-151717

  Each precast concrete board has a vertical rib provided on the lower surface of the precast concrete board and extending in the vertical direction at the side portion, and a plurality of horizontal ribs each extending in the horizontal direction and intersecting the vertical rib. Two adjacent precast concrete plates are joined to each other by a bolt penetrating the vertical ribs of both precast concrete plates and a nut screwed to the bolt. The vertical ribs and the horizontal ribs reinforce the precast concrete board.

  A sheath that penetrates the longitudinal rib in the lateral direction is disposed inside the longitudinal rib of each precast concrete plate, and the bolt penetrates the longitudinal rib of both precast concrete plates through the sheath. By the way, if the position of the sheath is deviated from a predetermined position, it is difficult to pass the bolt through the longitudinal ribs of the two precast concrete plates through the sheath, and it is difficult to join the two precast concrete plates. It is. For this reason, the sheath must be accurately placed inside the precast concrete board.

  However, it takes a lot of labor and time to accurately arrange the sheath in the precast concrete plate. For this reason, the said precast concrete board cannot be manufactured efficiently.

  An object of the present invention is to efficiently manufacture the precast concrete board by not arranging the sheath in each precast concrete board in a floor slab having a plurality of precast concrete boards arranged adjacent to each other. .

  In the present invention, two precast concrete plates adjacent to each other are joined to each other by joining the lower end reinforcing bars of both precast concrete plates and joining the reinforcing reinforcing bars of both precast concrete plates.

  A floor slab according to the present invention includes a plurality of precast concrete plates each having a rectangular planar shape, arranged side by side adjacent to each other in the horizontal direction, and a concrete layer formed on the precast concrete plates. Each precast concrete plate is provided with a plurality of lateral ribs extending laterally provided on the top surface of the precast concrete plate, each having an end portion spaced inward from the side portion. A plurality of transverse ribs, at least one longitudinal rib extending in a longitudinal direction intersecting the transverse ribs, and a groove extending outwardly from the end portion of each lateral rib in the lateral direction and opened at the side portion A lower end reinforcing bar extending in the lateral direction through the groove, and a reinforcing reinforcing bar extending in the lateral direction through the lateral rib in the precast concrete plate. One of the lower reinforcing bars and the reinforcing steel bars precast concrete plate of the adjacent two precast concrete plate from one another are respectively coupled to the lower end reinforcing bars and the reinforcing rebar of the other precast concrete plate.

  Since the lower end reinforcing bars of the two adjacent precast concrete plates are coupled to each other and the reinforcing reinforcing bars of the two precast concrete plates are coupled to each other, the two precast concrete plates are joined to each other. For this reason, it is not necessary to arrange a sheath in each precast concrete plate as in the case where both the precast concrete plates are joined to each other with bolts and nuts, and the precast concrete plate can be efficiently manufactured.

  The lower end reinforcing bar and the reinforcing reinforcing bar of the one precast concrete plate and the lower end reinforcing bar and the reinforcing reinforcing bar of the other precast concrete plate are coupled by a coupling means, and the coupling means are first parallel to each other. A first reinforcing bar and a second reinforcing bar, one end of which is welded to the lower end reinforcing bar of the one precast concrete plate and the other end is welded to the lower end reinforcing bar of the other precast concrete plate; Is welded to the reinforcing reinforcing bar of the one precast concrete plate, and the other end portion is composed of a second reinforcing bar welded to the reinforcing reinforcing bar of the other precast concrete plate.

  The coupling means is a first steel member and a second steel member, each having an arcuate cross-sectional shape, parallel to each other, one end receiving the lower end reinforcing bar of the one precast concrete plate, and Received the pressure toward the lower end reinforcing bar and fixed to the lower end reinforcing bar, the other end receives the lower end reinforcing bar of the other precast concrete plate and receives the pressure toward the lower end reinforcing bar to the lower end reinforcing bar. A fixed first steel member and one end receiving the reinforcing reinforcing bar of one precast concrete plate and receiving pressure toward the reinforcing reinforcing bar to be fixed to the reinforcing reinforcing bar, and the other end being the other precast It is possible to comprise the second steel member that receives the reinforcing bar of the concrete plate and receives pressure toward the reinforcing bar and is fixed to the reinforcing bar. That.

  The floor slab is provided with joint ribs made of concrete placed on the two adjacent precast concrete plates and inside the grooves of both precast concrete plates and between the lateral ribs of both precast concrete plates. Can be. Thereby, joining of both precast concrete boards can be strengthened more.

  A precast concrete board having a rectangular planar shape according to the present invention is a plurality of lateral ribs provided on the top surface of the precast concrete board, each extending in a lateral direction, each from the side to the inside. A plurality of transverse ribs having spaced apart ends, at least one longitudinal rib extending in a longitudinal direction intersecting the transverse ribs, and extending laterally outwardly from the end of each transverse rib, the side A lower end reinforcing bar that extends in the lateral direction through the groove and a reinforcing reinforcing bar that extends in the lateral direction through the lateral rib in the precast concrete plate.

  The floor slab construction method according to the present invention is a plurality of precast concrete plates each having a rectangular planar shape, the sides of which are adjacent to each other in the horizontal direction, and each precast concrete plate is placed on the top surface of the precast concrete plate. A plurality of lateral ribs each extending in a lateral direction, each having a plurality of lateral ribs having ends spaced inwardly from the side portions, and intersecting the lateral ribs in a longitudinal direction. At least one longitudinal rib extending, and a groove extending outwardly from the end of each lateral rib in the lateral direction and opened at the side, and inside the precast concrete plate via the groove Preparing a plurality of precast concrete plates, comprising a lower reinforcing bar extending in the lateral direction and a reinforcing reinforcing bar extending in the lateral direction through the lateral rib, adjacent to each other Connecting the lower end reinforcing bar and the reinforcing reinforcing bar of one precast concrete plate to the lower end reinforcing bar and the reinforcing reinforcing bar of the other precast concrete plate, respectively, and a concrete layer on the precast concrete plate Forming.

  According to the present invention, two precast concrete plates adjacent to each other can be joined to each other by joining lower end reinforcing bars of both precast concrete plates and joining reinforcing reinforcing bars of both precast concrete plates. There is no need to arrange a sheath in each precast concrete plate as in the case where the plates are joined to each other by bolts and nuts, and the precast concrete plate can be manufactured efficiently.

  As shown in FIG. 1, a building floor slab 10 is constructed, the floor slab comprising a plurality of precast concrete plates 12 disposed adjacent to each other in the horizontal direction and concrete formed on the precast concrete plates. Layer 14. As shown in FIG. 2, each precast concrete board 12 has a rectangular planar shape, and the precast concrete board 12 has the side part 16 adjacent to each other.

  As shown in FIG. 3, each precast concrete board 12 intersects with each of the plurality of lateral ribs 20 provided on the upper surface 18 of the precast concrete board and extending in the lateral direction of the precast concrete board 12. And at least one longitudinal rib 22 extending in the longitudinal direction of the precast concrete plate 12. The number of the longitudinal ribs 22 is two in the illustrated example, but instead of this, one or three or more may be used.

  Each lateral rib 20 has an end 24 that is spaced inwardly from the side 16 of the precast concrete board 12. Each precast concrete board 12 has a groove 26 provided in the upper surface 18 of the precast concrete board and extending outward from the end 24 of each lateral rib 20 in the lateral direction. The groove 26 is open at the side 16 of the precast concrete board 12. As shown in FIGS. 4 to 6, each precast concrete plate 12 includes a lower end reinforcing bar 28 extending in the lateral direction through a groove 26 and a reinforcing reinforcing bar extending in the lateral direction through a lateral rib 20 inside the precast concrete plate. 30.

  As shown in FIG. 1, the lower end reinforcing bar 28 of one of the two precast concrete plates 12 adjacent to each other is coupled to the lower end reinforcing bar 28 of the other precast concrete plate 12. Further, the reinforcing bar 30 of one precast concrete plate 12 is coupled to the reinforcing bar 30 of the other precast concrete plate 12. The joint between the lower end reinforcing bars 28 of the two precast concrete plates 12 and the reinforcing reinforcing bars 30 of the two precast concrete plates 12 are made by the joining means 32.

  The coupling means 32 includes a first steel member 34 and a second steel member 36 which are parallel to each other. As shown in FIG. 7, each of the first steel member 34 and the second steel member 36 has an arcuate cross-sectional shape. The first steel member 34 has one end 38 that receives the lower end rebar 28 of one precast concrete plate 12 and is fixed to the lower end rebar 28 under pressure toward the lower end rebar, and the other end 40 has the other end 40. The lower end rebar 28 of the precast concrete plate 12 is received, and is fixed to the lower end rebar 28 under pressure toward the lower end rebar. The second steel member 36 has one end 42 that receives the reinforcing bar 30 of one precast concrete plate 12 and is fixed to the reinforcing bar 30 by receiving pressure toward the reinforcing bar, and the other end 44 has the other end 44. The reinforcing bar 30 of the precast concrete plate 12 is received, and is fixed to the reinforcing bar 30 by receiving pressure toward the reinforcing bar. Thus, the coupling means 32 is formed of a so-called squeeze joint. The coupling means 32 may be composed of another mechanical joint such as a threaded joint instead of the example shown in FIG. 1 composed of a squeeze joint.

  The first steel member 34 connects the lower end reinforcing bar 28 of one precast concrete plate 12 to the lower end reinforcing bar 28 of the other precast concrete plate 12, and the second steel member 36 connects the reinforcing reinforcing bar 30 of the one precast concrete plate 12. Instead of the example shown in FIG. 1 coupled to the reinforcing bar 30 of the other precast concrete plate 12, the lower end reinforcing bar 28 of one precast concrete plate 12 is welded to the lower end reinforcing bar 28 of the other precast concrete plate 12. The reinforcing bar 30 of the precast concrete plate 12 may be welded to the reinforcing bar 30 of the other precast concrete plate 12.

  As shown in FIG. 1, each precast concrete plate 12 includes a plurality of other lower end reinforcing bars 48 that extend in the longitudinal direction and intersect the lower end reinforcing bars 28 inside the precast concrete plate 12. , The other reinforcing reinforcing bars 50 extending in the longitudinal direction and intersecting with the reinforcing reinforcing bars 30, and the other reinforcing reinforcing bars 50 and the other lower reinforcing reinforcing bars 48 between the other reinforcing reinforcing bars and the other lower reinforcing bars 48. And a lattice rebar 52 joined to each other. The concrete layer 14 includes a plurality of upper end reinforcing bars 54 assembled in a lattice shape inside the concrete layer.

  When constructing the floor slab 10, first, as shown in FIGS. 2, 4, and 5, a plurality of precast concrete plates 12 arranged adjacent to each other in the horizontal direction are prepared. Next, as shown in FIGS. 1 and 8, the lower end reinforcing bar 28 and the reinforcing reinforcing bar 30 of one precast concrete plate 12 out of two adjacent precast concrete plates 12 are respectively connected to the lower end of the other precast concrete plate 12. It couple | bonds with the reinforcement 28 and the reinforcement reinforcement 30. Thereafter, a concrete layer 14 is formed on the precast concrete plate 12.

  By the way, after forming the concrete layer 14 on the precast concrete board 12, until the concrete layer 14 hardens | cures, the precast concrete board 12 must resist the load by the dead weight of the concrete layer 14. FIG. In the floor slab 10, the horizontal ribs 20 of the plurality of precast concrete plates 12 adjacent to each other can be integrated by the mutual connection between the lower end reinforcing bars 28 and the reinforcing reinforcing bars 30. For this reason, the floor slab 10 can resist the load by both the vertical ribs 22 and the horizontal ribs 20 of all the precast concrete plates 12, and functions as a two-way slab. Thereby, the intensity | strength with respect to the said load of the floor slab 10 can be increased, and the floor slab 10 can be lengthened span.

  In the example shown in FIG. 9, the coupling means 32 is replaced with the first rebar 56 and the second rebar parallel to each other in place of the example shown in FIG. 1, which includes the first steel member 34 and the second steel member 36 parallel to each other. 58. The first rebar 56 has one end 60 welded to the lower end rebar 28 of one precast concrete plate 12 and the other end 62 welded to the lower end rebar 28 of the other precast concrete plate 12. The second reinforcing bar 58 has one end 64 welded to the reinforcing reinforcing bar 30 of one precast concrete plate 12 and the other end 66 welded to the reinforcing reinforcing bar 30 of the other precast concrete plate 12.

  In the example shown in FIGS. 10 to 12, the concrete is placed on the two precast concrete plates 12 adjacent to each other, inside the grooves 26 of the two precast concrete plates 12 and between the lateral ribs 20 of the two precast concrete plates 12. The joining rib 46 which consists of is provided. The joint rib 46 strengthens the joint between the two precast concrete plates 12 and increases the compressive strength of the joint portion between the two precast concrete plates 12. When the floor slab 10 is constructed, providing the joint ribs 46 on both the precast concrete plates 12 means that the lower end rebar 28 and the reinforcing rebar 30 of one precast concrete plate 12 are respectively connected to the lower end rebar of the other precast concrete plate 12. This is performed before the concrete layer 14 is formed on the precast concrete board 12 after being combined with the reinforcing bars 28 and the reinforcing reinforcing bars 30.

Sectional drawing of the floor slab which concerns on 1st Example of this invention. The top view of the several precast concrete board arrange | positioned adjacent to each other based on 1st Example of this invention. The top view of the precast concrete board which concerns on 1st Example of this invention. The top view of the precast concrete board in the line 4 of FIG. Sectional drawing of the precast concrete board in the line 5 of FIG. FIG. 6 is a side view of the precast concrete board at line 6 in FIG. 5. Sectional drawing of the floor slab in the line 7 of FIG. FIG. 2 is a plan view of a precast concrete board at line 8 in FIG. 1 before forming a concrete layer. Sectional drawing of the floor slab which concerns on 2nd Example of this invention. Sectional drawing of the floor slab which concerns on 3rd Example of this invention. Sectional drawing of the floor slab in the line 11 of FIG. FIG. 11 is a plan view of a precast concrete board at line 12 of FIG. 10 before forming a concrete layer.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Floor slab 12 Precast concrete board 14 Concrete layer 16 Side part 18 Upper surface 20 Horizontal rib 22 Vertical rib 24 End part 26 Groove 28 Lower end reinforcement 30 Reinforcement reinforcement 32 Coupling means 34 1st steel member 36 2nd steel members 38 and 42 60, 64 One end 40, 44, 62, 66 The other end

Claims (6)

A plurality of precast concrete plates each having a rectangular planar shape, arranged side by side adjacent to each other in a horizontal direction, and a concrete layer formed on the precast concrete plates,
Each precast concrete plate is a plurality of horizontal ribs provided on the top surface of the precast concrete plate, each extending in a lateral direction, each having a plurality of lateral ends spaced inward from the side portions. A rib, at least one longitudinal rib extending in the longitudinal direction intersecting the lateral rib, and a groove extending in the lateral direction outward from the end of each lateral rib and opened at the side portion The inside of the precast concrete plate comprises a lower end reinforcing bar extending in the lateral direction through the groove, and a reinforcing reinforcing bar extending in the lateral direction through the lateral rib,
The floor slab in which the lower end reinforcing bar and the reinforcing reinforcing bar of one precast concrete plate of the two precast concrete plates adjacent to each other are respectively coupled to the lower end reinforcing bar and the reinforcing reinforcing bar of the other precast concrete plate.   The lower end reinforcing bar and the reinforcing reinforcing bar of the one precast concrete plate and the lower end reinforcing bar and the reinforcing reinforcing bar of the other precast concrete plate are coupled by a coupling means, and the coupling means are first parallel to each other. A first reinforcing bar and a second reinforcing bar, one end of which is welded to the lower end reinforcing bar of the one precast concrete plate and the other end is welded to the lower end reinforcing bar of the other precast concrete plate; The floor slab according to claim 1, wherein the second slab is welded to the reinforcing reinforcing bar of the one precast concrete plate and the other end is welded to the reinforcing reinforcing bar of the other precast concrete plate.   The lower end reinforcing bar and the reinforcing reinforcing bar of the one precast concrete plate and the lower end reinforcing bar and the reinforcing reinforcing bar of the other precast concrete plate are connected by a connecting means, and each of the connecting means has an arc shape. A first steel member and a second steel member that have a cross-sectional shape and are parallel to each other, one end of which receives the lower end reinforcing bar of the one precast concrete plate and receives pressure toward the lower end reinforcing bar, and A first steel member fixed to the lower end reinforcing bar, the other end receiving the lower end reinforcing bar of the other precast concrete plate and receiving pressure toward the lower end reinforcing bar, and fixed to the lower end reinforcing bar, and one end Receiving the reinforcing reinforcing bar of one precast concrete plate and receiving pressure toward the reinforcing reinforcing bar and being fixed to the reinforcing reinforcing bar, 2. The floor slab according to claim 1, wherein the floor slab has an end portion that receives the reinforcing bar of the other precast concrete plate and is fixed to the reinforcing bar by receiving pressure toward the reinforcing bar. .   The joint rib which consists of the concrete casted between the inside of the slot of both precast concrete boards, and the transverse rib of both precast concrete boards is provided on the two adjacent precast concrete boards. The floor slab according to 1.   A precast concrete plate having a rectangular planar shape, each provided with a plurality of lateral ribs extending in the lateral direction, each provided on an upper surface of the precast concrete plate, each separated inward from the side portion A plurality of transverse ribs having ends, at least one longitudinal rib extending in a longitudinal direction intersecting the transverse ribs, extending laterally outward from the end of each lateral rib and open at the side A precast concrete plate, comprising: a lower end reinforcing bar that extends in the lateral direction through the groove and a reinforcing reinforcing bar that extends in the lateral direction through the lateral rib in the precast concrete plate. A plurality of precast concrete plates having side surfaces adjacent to each other in the horizontal direction and each having a rectangular planar shape, each precast concrete plate being provided on the upper surface of the precast concrete plate, each extending in the lateral direction A plurality of lateral ribs each having an end portion spaced inwardly from the side, at least one longitudinal rib extending in a longitudinal direction intersecting the lateral ribs, and each lateral rib A lower end reinforcing bar that extends in the lateral direction from the end portion of the precast concrete plate and extends in the lateral direction from the end portion of the precast concrete plate. Preparing a plurality of precast concrete plates, comprising reinforcing bars extending in the lateral direction via ribs;
Combining the lower end reinforcing bar and the reinforcing reinforcing bar of one precast concrete plate of the two precast concrete plates adjacent to each other with the lower end reinforcing bar and the reinforcing reinforcing bar of the other precast concrete plate, respectively.
A method for constructing a floor slab, comprising forming a concrete layer on the precast concrete board.

Images