JP6555529B2 - Steel plate concrete structure - Google Patents

Description

  The present invention relates to a steel plate concrete structure.

  Conventionally, the outer shell of a structure such as a floor, wall, column, beam, etc. of a structure is formed of a steel plate, filled with concrete inside, and a plurality of studs provided on the inner surface of the steel plate, A steel plate concrete structure (SC structure) in which concrete is structurally integrated is known. Such a steel plate concrete structure can be efficiently constructed with a robust housing having a large cross section, and is therefore spreading to buildings of nuclear facilities (see Patent Document 1 below).

  In addition, in order to ensure the joint strength, the diaphragm steel plate is placed along the horizontal plane in the joint between the steel plate concrete floor and the steel plate concrete wall, and the end of the diaphragm steel plate covers the outer surface of the wall. A structure that is rigidly bonded to a steel sheet to be formed is known. In this diaphragm steel plate, an opening for placing concrete is formed at a predetermined position, and the placed concrete passes through the opening and is filled below the diaphragm steel plate.

JP 2014-84692 A

However, in the configuration in which the diaphragm steel plate is disposed along the horizontal plane in the wall as described above, there is a possibility that unevenness in the filling property of the concrete may be generated below the diaphragm steel plate depending on the position from the opening for placing concrete. Specifically, the concrete is sufficiently filled immediately below the concrete placement opening, but the concrete may be insufficiently filled at a position away from the concrete placement opening.
Furthermore, since the continuity of the concrete in the wall is divided vertically by the diaphragm steel plate arranged along the horizontal plane, there is a possibility that the transmission function of the in-plane shear force as the earthquake-resistant wall is lowered.

  Then, this invention is made | formed in view of the said situation, and provides the joining structure of the steel plate concrete structure which can ensure the filling property of the concrete in a wall favorable, and can ensure continuity.

In order to achieve the above object, the present invention employs the following means.
That is, the steel plate concrete joint structure according to the present invention is a joint structure of a steel plate concrete floor and a steel plate concrete wall, and the floors are a pair of floors spaced apart from each other in the vertical direction. A side-side steel plate and a floor-side concrete portion filled between the pair of floor-side steel plates, and the wall is joined to an end portion of the floor and extends along one direction, a first wall-side steel plate, A height of the floor-side steel plate, a second wall-side steel plate arranged apart from the first wall-side steel plate in the horizontal direction and extending along one direction, and the first wall-side steel plate and the second wall-side steel plate. Connected at a position, between a plurality of connected steel plates arranged along the vertical plane and spaced in one direction, and between the first wall side steel plate and the second wall side steel plate, and a wall-side concrete part filled over the vertical direction, the first wall side steel The linking steel sheet and through the corresponding height position hole is formed, an end portion of the first wall side steel side of the connecting steel plate is disposed in the through hole, that is joined to the floor side steel It is characterized by that.

In the steel plate concrete joint structure configured as described above, the concrete constituting the wall-side concrete portion passes through the space between the plurality of connected steel plates, and is formed between the first wall-side steel plate and the second wall-side steel plate. Filled in between. The connecting steel plates are arranged with an interval in one direction along the vertical plane. Therefore, a large space is formed between the plurality of connected steel plates, and a concrete filling point is secured along one direction, so that the filling property of the concrete in the wall can be improved.
Moreover, the part located above the connection steel plate of a wall side concrete part and the part located below the connection steel plate of a wall side concrete part are connected via the space formed between several connection steel plates. Therefore, the continuity of the wall side concrete part can be ensured.
Further, the first wall side steel plate has a through hole formed at a height corresponding to the connecting steel plate, and the end of the connecting steel plate on the first wall side steel plate side is disposed in the through hole and joined to the floor side steel plate. Has been. Therefore, the tensile force which arises in a floor side steel plate can be transmitted to a connection steel plate.

  According to the joint structure of steel plate concrete structure according to the present invention, the filling property of the concrete in the wall can be ensured and continuity can be ensured.

It is a typical top view which shows the joining structure of the steel plate concrete structure of one Embodiment of this invention. It is typical sectional drawing in AA of FIG. (A) Typical sectional drawing of the location corresponded to AA of FIG. 1 of the modification of one Embodiment of this invention, (b) The elements on larger scale of (a).

A steel plate concrete joint structure according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a plan view showing a joint structure of steel plate concrete structure according to an embodiment of the present invention. FIG. 2 is a schematic cross-sectional view taken along the line AA of FIG. In addition, illustration of the wall side concrete part is abbreviate | omitted in FIG.
As shown in FIGS. 1 and 2, a steel plate concrete floor 10 and a steel plate concrete wall 20 are joined by a joint structure 1.

  The floor 10 includes an upper floor steel plate (floor side steel plate) 11 forming an upper surface, a lower floor steel plate (floor side steel plate) 12 disposed below the upper floor steel plate 11 and forming a lower surface of the floor 10, and an upper floor steel plate 11 And a floor concrete portion (floor side concrete portion) 13 filled between the lower floor steel plate 12 and the lower floor steel plate 12.

  The upper floor steel plate 11 and the lower floor steel plate 12 are each formed in a flat plate shape, and are disposed along a horizontal plane. The upper floor steel plate 11 has a plurality of openings H penetrating in the vertical direction. The opening H is for placing concrete in the floor concrete portion 13. After the concrete is placed, the opening H is closed by welding the opening plate 14 having a shape corresponding to the shape of the opening H.

  A plurality of studs S extending downward are provided on the lower surface of the upper floor steel plate 11. A plurality of studs S extending upward are provided on the upper surface of the lower floor steel plate 12.

  The wall 20 is disposed along the end 20E of the floor 10 and is configured to extend in a predetermined horizontal direction (one direction). In this embodiment, the wall 20 is arrange | positioned along the edge part 20E of the two sides of the floor 10, respectively.

  The wall 20 includes an inner wall steel plate (first wall steel plate) 21 joined to the end 20E of the floor 10, and an outer wall steel plate (second wall steel plate) spaced apart from the inner wall steel plate 21 in the horizontal direction. ) 22 and a wall concrete portion (wall-side concrete portion) 23 filled between the inner wall steel plate 21 and the outer wall steel plate 22.

  The inner wall steel plate 21 and the outer wall steel plate 22 are each formed in a flat plate shape and arranged along a vertical plane.

  A plurality of studs S extending toward the floor 10 are provided on the surface of the inner wall steel plate 21 facing the floor 10 side. Through the stud S provided on the upper floor steel plate 11 and the lower floor steel plate 12, and the stud S provided on the surface facing the floor 10 side of the inner wall steel plate 2, the floor concrete portion 13 is provided with the upper floor steel plate 11 and the lower floor steel plate 11. The steel plate 12 and the inner wall steel plate 21 are integrated.

  A plurality of studs S extending toward the outer wall steel plate 22 side are provided on the surface of the inner wall steel plate 21 facing the outer wall steel plate 22 side. A plurality of studs S extending toward the inner side wall steel plate 21 are provided on the surface of the outer side wall steel plate 22 facing the inner side wall steel plate 21 side. The wall concrete part 23 is integrated with the inner wall steel plate 21 and the outer wall steel plate 22 through these studs S.

  The inner wall steel plate 21 is formed with an insertion hole (through hole) 21H penetrating in the thickness direction at a height position where the upper floor steel plate 11 and the lower floor steel plate 12 are arranged.

  The inner wall steel plate 21 and the outer wall steel plate 22 are connected by a vertical diaphragm steel plate (connected steel plate) 30.

  The vertical diaphragm steel plate 30 is disposed at a height position where the upper floor steel plate 11 and the lower floor steel plate 12 are disposed. A plurality of the vertical diaphragm steel plates 30 are arranged at equal intervals along the extending direction (predetermined direction) of the wall 20. A space T between adjacent diaphragm steel plates is a space through which the concrete constituting the wall concrete portion 23 is filled.

  The vertical diaphragm steel plate 30 is provided between the inner wall steel plate 21 and the outer wall steel plate 22 and has a main plate portion 31 arranged along the vertical plane. The main plate portion 31 is formed in a plate shape and is disposed along a vertical plane.

  The end 30 </ b> X on the outer wall steel plate 22 side of the main plate portion 31 is joined to the outer wall steel plate 22 by welding or the like. The end 30 </ b> Y side of the main plate portion 31 on the inner wall steel plate 21 side is inserted through the insertion holes 21 </ b> H of the upper floor steel plate 11 and the lower floor steel plate 12.

  An inclined portion 32 is formed at the end 30 </ b> Y of the vertical diaphragm steel plate 30. The inclined portion 32 of the vertical diaphragm steel plate 30 disposed along the upper floor steel plate 11 is inclined so as to gradually approach the inner wall steel plate 21 as it goes downward. The upper part of the inclined part 32 is joined to the upper floor steel plate 11.

  The inclined portion 32 of the vertical diaphragm steel plate 30 disposed along the lower floor steel plate 12 is inclined so as to gradually approach the inner wall steel plate 21 as it goes upward. A lower portion of the inclined portion 32 is joined to the lower floor steel plate 12.

  The wall concrete portion 23 is filled in the vertical direction of the vertical diaphragm steel plate 30. The concrete that has passed through the space T formed between adjacent diaphragm steel plates is filled below the diaphragm steel plate in the wall concrete portion 23.

  In the steel plate concrete joint structure 1 configured as described above, the concrete constituting the wall concrete portion 23 passes through the space portion T between the plurality of vertical diaphragm steel plates 30, and the inner wall steel plate 21 and the outer wall steel plate 21. 22 is filled. The vertical diaphragm steel plates 30 are arranged along the vertical plane with an interval in a predetermined direction (extending direction of the wall 20). Therefore, a large space T formed between the plurality of vertical diaphragm steel plates 30 is ensured, and the concrete filling location is secured along the extending direction of the wall 20. Can be good.

  Further, the space concrete portion 23 is located above the vertical diaphragm steel plate 30 and the wall concrete portion 23 is located below the vertical diaphragm steel plate 30 via a space T formed between the plurality of vertical diaphragm steel plates 30. The part to be communicated with. Therefore, the continuity of the wall concrete part 23 can be ensured.

  Further, the inner wall steel plate 21 is formed with an insertion hole 21H at a height position corresponding to the vertical diaphragm steel plate 30, and the end 30Y on the inner wall steel plate 21 side of the vertical diaphragm steel plate 30 is disposed in the insertion hole 21H. The upper floor steel plate 11 or the lower floor steel plate 12 is joined. Therefore, the tensile force generated in the upper floor steel plate 11 or the lower floor steel plate 12 can be transmitted to the vertical diaphragm steel plate 30.

(Modification)
Next, a modification of the embodiment described above will be described mainly with reference to FIG.
In the following modifications, the same members as those used in the above-described embodiment are denoted by the same reference numerals, and the description thereof is omitted.
3A is a schematic cross-sectional view of a portion corresponding to AA of FIG. 1 of a modification of the embodiment of the present invention, and FIG. 3B is a partial enlarged view of FIG.
As shown in FIG. 3, the upper floor steel plate 11 is provided with a plurality of ribs 15 that protrude downward from the lower surface. A plurality of ribs 15 are provided in parallel with one end 20E of the floor 10 (see FIG. 1; the same applies hereinafter), and the other end 20E (see FIG. 1) orthogonal to the one end 20E of the floor 10. The same shall apply hereinafter). In other words, the ribs 15 are formed in a lattice shape in plan view. In plan view, the rib 15 is disposed at a position that does not overlap the opening H.

  The rib 15 is formed with a hole 16 penetrating in the plate thickness direction. The holes 16 are filled with the concrete constituting the floor concrete portion 13.

  In the steel plate concrete joint structure 1 configured as described above, since the holes 16 formed in the ribs 15 are filled with concrete, the studs for integrating the upper floor steel plate 11 and the floor concrete portion 13 together. Function as. Further, the tensile force generated in the upper floor steel plate 11 is efficiently transmitted to the vertical diaphragm steel plate 30 by the ribs 15 provided on the upper floor steel plate 11.

  It should be noted that the assembly procedure shown in the above-described embodiment, or the shapes and combinations of the constituent members are examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention.

  For example, the rib 15 is provided on the upper floor steel plate 11, but may be provided so as to protrude upward from the upper surface of the lower floor steel plate 12. Or the rib 15 may be provided only in the edge part 20E side of the upper floor steel plate 11 (lower floor steel plate 12).

DESCRIPTION OF SYMBOLS 1 ... Joining structure 10 ... Floor 11 ... Upper floor steel plate (floor side steel plate)
12 ... Lower floor steel plate (floor side steel plate)
13 ... Floor concrete part (floor side concrete part)
14 ... Opening plate 20 ... Wall 21 ... Inner side wall steel plate (first wall side steel plate)
21H: Insertion hole (through hole)
22 ... Outer wall steel plate (second wall steel plate)
23 ... Wall concrete part (wall side concrete part)
30 ... Vertical diaphragm steel plate (connected steel plate)
31 ... Main plate part 32 ... Inclined part H ... Opening S ... Stud T ... Space part

Claims (1)

It is a joint structure between a steel plate concrete floor and a steel plate concrete wall,
The floor is
A pair of floor-side steel plates arranged apart from each other in the vertical direction;
A floor-side concrete portion filled between the pair of floor-side steel plates,
The wall
A first wall side steel plate that is joined to the end of the floor and extends along one direction; a second wall side steel plate that is spaced apart from the first wall side steel plate in the horizontal direction and extends along one direction;
Connecting the first wall side steel plate and the second wall side steel plate at a height position of the floor side steel plate, a plurality of connecting steel plates arranged along the vertical plane and spaced in the one direction;
Between the first wall side steel plate and the second wall side steel plate, a wall side concrete portion filled across the vertical direction of the connecting steel plate ,
In the first wall side steel plate, a through hole is formed at a height position corresponding to the connection steel plate,
The end of the first wall steel side, the disposed in the through hole, the bonding structure of the steel sheet Concrete characterized that you have been joined to the floor side steel of the connecting steel plate.

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