JP5327615B2 - Joint structure of column and flat slab - Google Patents

Description

  The present invention relates to a joining structure of a column and a flat slab in a flat slab method.

In the flat slab structure, the frame of the structure is composed of columns such as steel pipe columns and RC columns and flat slabs, and no beams are used, so the internal space can be widened and a highly flexible design becomes possible. . Since the load concentrates on the joint portion between the flat slab structure column and the flat slab, a capital or drop panel for receiving the flat slab is provided at the column head in order to prevent punching or bending failure of the flat slab.
For example, according to the joint structure of a steel pipe column and a flat slab according to Patent Document 1, the flat slab forming the drop panel is supported by the steel pipe column main body with the reinforcing rib, and the steel pipe column main body is inserted into the opening of the drop panel. The part gradually expands downward. By gradually expanding the opening toward the lower side, the drop panel can be dropped without being caught on the reinforcing rib and installed on the steel pipe column main body.

In addition, since the internal space is compressed by providing the capital and the drop panel, a flat slab structure in which the rigidity of the joint portion between the column and the flat slab is increased and the capital and the drop panel are not provided has been proposed.
For example, according to the joint structure of a steel pipe column and a flat slab according to Patent Document 2, the connecting bars project radially on the peripheral surface of the steel pipe column, and the connecting bars and the slab bars are overlapped to form the flat slab. It is joined. Since the connecting bars and the slab bars of the steel pipe column are overlapped, the rigidity of the joint between the steel pipe column and the flat slab is increased.

JP 2003-90095 A JP 2002-70164 A

However, the conventional joining structure of a steel pipe column and a flat slab has the following problems.
In the joining structure of the steel pipe column and the flat slab according to Patent Document 2, the connecting pipe and the slab bar of the steel pipe column are overlapped and arranged at the joint of the steel pipe column and the flat slab at the site, and the formwork of the joint is set. The concrete is cast and the formwork is removed after curing to construct a flat slab. There is a problem that work on these construction sites requires labor and takes a construction period. Moreover, the proof stress of the junction part of a steel pipe column and a flat slab must be ensured enough, and needs to be fully examined.

  The present invention has been made in view of the above-described problems, and the sufficient strength of the joint between the column and the flat slab is ensured, and the labor required for joining the column and the flat slab is reduced to shorten the work period. An object of the present invention is to provide a joint structure between a column and a flat slab.

In order to achieve the above-mentioned object, the joining structure of a column and a flat slab according to the present invention is a structure of a joint portion between a column and a flat slab in a flat slab structure, and the steel pipe for joining into which the column is inserted is the flat Embedded in the slab, a filler is filled between the outer peripheral surface of the column and the inner peripheral surface of the steel pipe for joining, and a first rib is formed on the outer peripheral surface of the column located at the joint. The second rib is provided on the inner peripheral surface of the joining steel pipe, and the third rib is provided on the outer peripheral surface of the joining steel pipe .

In the present invention, the joining steel pipe into which the column is inserted is embedded in the flat slab, and the filling material is filled between the outer peripheral surface of the column and the inner peripheral surface of the joining steel pipe, so that the column and the flat The slab is joined. The first and second ribs are joined by providing the first rib on the outer peripheral surface of the column located at the joint and the second rib on the inner peripheral surface of the steel pipe for joining. The column and joining steel pipe are integrated with the filler, and a compression strut is formed between the first rib and the second rib to prevent the vertical load of the flat slab Can be communicated to.
Also, by precasting the flat slab and pre-embedding the steel pipe for joining in the flat slab, the flat slab is placed at a predetermined position so that the column is inserted into the steel pipe for joining at the construction site. Since it is only necessary to fill a filler between the provided column and the steel pipe for joining, the labor can be reduced and the construction period can be shortened.
In addition, since the third rib is provided on the outer peripheral surface of the joining steel pipe, the third rib serves as a mechanical displacement stopper for the joining steel pipe, and the joining steel pipe and the flat slab concrete are integrated. be able to.
The column / flat slab joint structure according to the present invention is a structure of a joint portion between the column and the flat slab in the flat slab structure, and a joining steel pipe into which the column is inserted is embedded in the flat slab. A filler is filled between the outer peripheral surface of the column and the inner peripheral surface of the steel pipe for joining, and a first rib is provided on the outer peripheral surface of the column located at the joint, A second rib is provided on the inner peripheral surface of the joining steel pipe, and the joining steel pipe is joined to a reinforcing bar of the flat slab.
In the present invention, the joining steel pipe into which the column is inserted is embedded in the flat slab, and the filling material is filled between the outer peripheral surface of the column and the inner peripheral surface of the joining steel pipe, so that the column and the flat The slab is joined. The first and second ribs are joined by providing the first rib on the outer peripheral surface of the column located at the joint and the second rib on the inner peripheral surface of the steel pipe for joining. The column and joining steel pipe are integrated with the filler, and a compression strut is formed between the first rib and the second rib to prevent the vertical load of the flat slab Can be communicated to.
Also, by precasting the flat slab and pre-embedding the steel pipe for joining in the flat slab, the flat slab is placed at a predetermined position so that the column is inserted into the steel pipe for joining at the construction site. Since it is only necessary to fill a filler between the provided column and the steel pipe for joining, the labor can be reduced and the construction period can be shortened.
Moreover, the joining steel pipe and the flat slab can be integrated by joining the joining steel pipe to the reinforcing bar of the flat slab.
The column / flat slab joint structure according to the present invention is a structure of a joint portion between the column and the flat slab in the flat slab structure, and a joining steel pipe into which the column is inserted is embedded in the flat slab. In addition, a filler is filled between the outer peripheral surface of the column and the inner peripheral surface of the steel pipe for bonding, and a first rib is provided on the outer peripheral surface of the column located at the joint, The column has an end plate installed at an end thereof, the joining steel pipe has a diaphragm perpendicular to the axial direction of the joining steel pipe, and the columns are arranged above and below the diaphragm. The end plate is metal touched with the diaphragm.
In the present invention, the joining steel pipe into which the column is inserted is embedded in the flat slab, and the filling material is filled between the outer peripheral surface of the column and the inner peripheral surface of the joining steel pipe, so that the column and the flat The slab is joined. The first and second ribs are joined by providing the first rib on the outer peripheral surface of the column located at the joint and the second rib on the inner peripheral surface of the steel pipe for joining. The column and joining steel pipe are integrated with the filler, and a compression strut is formed between the first rib and the second rib to prevent the vertical load of the flat slab Can be communicated to.
Also, by precasting the flat slab and pre-embedding the steel pipe for joining in the flat slab, the flat slab is placed at a predetermined position so that the column is inserted into the steel pipe for joining at the construction site. Since it is only necessary to fill a filler between the provided column and the steel pipe for joining, the labor can be reduced and the construction period can be shortened.
In addition, an end plate is installed at the end of the column, and the joining steel pipe is provided with a diaphragm perpendicular to the axial direction of the joining steel pipe, and the columns are arranged above and below the diaphragm, and the end plate The diaphragm and metal touch can transmit the axial force of the upper floor pillar and the vertical load of the flat slab to the lower floor pillar, and the pillars are arranged separately for each floor. Can be applied.
Moreover, in the joining structure of the column and the flat slab according to the present invention, the end plate is preferably formed in a shape larger than the cross section of the column.
In the present invention, since the end plate is formed in a shape larger than the cross section of the column, it protrudes from the outer peripheral surface of the column, so that it can also serve as a mechanical displacement stopper.
Moreover, in the joining structure of the pillar and flat slab according to the present invention, the pillar may penetrate the joining steel pipe.
In the present invention, the column may penetrate through the steel pipe for bonding, and therefore can be applied when the column is a through column.

Moreover, in the joining structure of the column and the flat slab according to the present invention, a plate that protrudes from the column and receives the joining steel pipe is provided on the outer peripheral surface of the column located at the lower end portion of the joining portion.
In the present invention, the height of the lower end portion of the flat slab becomes the height of the plate by providing a plate that protrudes from the column and receives the steel pipe for joining on the outer peripheral surface of the column located at the lower end portion of the joining portion. Therefore, when arranging the flat slab, it is easy to determine the height of the flat slab and the arrangement is easy.

Moreover, in the joining structure of the column and the flat slab according to the present invention, it is preferable that the plate closes the lower end portion between the outer peripheral surface of the column and the inner peripheral surface of the joining steel pipe.
In the present invention, the plate closes the lower side of the clearance, so that it is not necessary to install a formwork for closing the lower side between the outer peripheral surface of the column and the inner peripheral surface of the joining steel pipe when filling the filler. , Labor can be reduced and construction period can be shortened.

According to the present invention, the joining steel pipe is embedded in the flat slab, the clearance between the outer peripheral surface of the column and the inner peripheral surface of the joining steel pipe is filled with the filler, and the outer peripheral surface of the column located at the joint is joined with the filler. Since the first and second ribs are formed on the inner peripheral surface of the steel pipe, the pillar and the joining steel pipe can be integrated with the filler, and the vertical load of the flat slab can be transmitted to the pillar. Since the strength of the joint can be secured, the flat slab can be precast, and the pillar and the flat slab can be joined by filling the clearance between the standing pillar and the steel pipe for joining, Efficient construction can be achieved by reducing labor and shortening the construction period.
In addition, since the third rib is provided on the outer peripheral surface of the joining steel pipe, the third rib serves as a mechanical displacement stopper for the joining steel pipe, and the joining steel pipe and the flat slab concrete are integrated. be able to.
Moreover, the joining steel pipe and the flat slab can be integrated by joining the joining steel pipe to the reinforcing bar of the flat slab.
In addition, an end plate is installed at the end of the column, and the joining steel pipe is provided with a diaphragm perpendicular to the axial direction of the joining steel pipe, and the columns are arranged above and below the diaphragm, and the end plate The diaphragm and metal touch can transmit the axial force of the upper floor pillar and the vertical load of the flat slab to the lower floor pillar, and the pillars are arranged separately for each floor. Can be applied.

(A) is a figure which shows the outline | summary of the junction structure of the pillar and flat slab by 1st embodiment of this invention, (b) is the sectional view on the AA line of (a). (A)-(c) is a figure explaining the joining method of the pillar and flat slab by 1st embodiment. (A) is a figure which shows the outline | summary of the junction structure of the pillar and flat slab by 2nd embodiment of this invention, (b) is the BB sectional drawing of (a). (A) is a figure which shows the outline | summary of the junction structure of the pillar and flat slab by 3rd embodiment of this invention, (b) is CC sectional view taken on the line of (a). (A)-(c) is a figure explaining the joining method of the pillar and flat slab by 3rd embodiment.

Hereinafter, the column and flat slab joining structure according to the first embodiment of the present invention will be described with reference to FIGS. 1 and 2.
As shown in FIGS. 1A and 1B, the column-flat slab joint structure 1 according to the first embodiment is a flat slab in which a frame is composed of a column 2 and a flat slab 3, and no beam is used. It is the structure of the junction part 10 of a construction method. The flat slab 3 is embedded with a steel pipe 4 for joining through the flat slab 3, the pillar 2 is inserted into the steel pipe 4 for joining, and the filler 5 is filled in the clearance 6 between the pillar 2 and the steel pipe 4 for joining. Has been.

  The column 2 is a hollow steel pipe column having a circular cross-sectional shape. The pillar 2 is erected on a foundation (not shown) as a through pillar. The pillar 2 is provided with a plurality of annular first ribs 11 on the outer peripheral surface located at the joint 10, and the annular rib plate 12 protruding from the pillar 2 on the outer peripheral surface located at the lower end of the joint 10. Is provided.

The first ribs 11 are round steel, flat bars, or the like, and are joined to the outer peripheral surface of the column 2 with a predetermined interval between the plurality of first ribs 11.
The rib plate 12 is formed in such a size that the outer peripheral portion 12 a protrudes from the outer peripheral surface of the joining steel pipe 4 and can close the clearance 6 between the column 2 and the joining steel pipe 4. The rib plate 12 is formed of a flat bar or the like.
The first rib 11 and the rib plate 12 are installed on the pillar 2 at a factory or the like.

The flat slab 3 is a reinforced concrete slab having a thickness of about 400 mm to 600 mm, for example, and provided with necessary main bars 16 and auxiliary bars. In the flat slab 3, oblique reinforcing bars 17 are disposed around the joining steel pipe 4 so as to surround the joining steel pipe 4. By arranging the diagonal reinforcing bars 17, the flat slab 3 of the joint portion 10 is reinforced.
The flat slab 3 is a precast member formed at a factory or the like.

  The joining steel pipe 4 is a circular hollow steel pipe having a cross-sectional shape larger than that of the column 2. When the column 2 is inserted into the bonding steel pipe 4, a clearance 6 is formed between the outer peripheral surface of the column 2 and the inner peripheral surface of the bonding steel pipe 4. The joining steel pipe 4 has the same height as the thickness of the flat slab 3, and the upper end and the lower end of the joining steel pipe 4 are located at the height of the upper end face and the lower end face of the flat slab 3.

The joining steel pipe 4 is provided with a plurality of annular second ribs 21 at a predetermined interval on the inner peripheral surface, and a plurality of annular third ribs 22 at a predetermined interval on the outer peripheral surface. ing. At this time, the third rib 22 is fixed to the concrete of the flat slab 3, and the third rib 22 serves as a mechanical displacement stopper for the joining steel pipe 4, and the joining steel pipe 4 and the concrete of the flat slab 3 are integrated. Turn into.
The steel pipe 4 for joining is embed | buried under the flat slab 3 when manufacturing the flat slab 3 in a factory etc.

The filler 5 is mortar, non-shrink grout, concrete, polymer cement mortar, epoxy resin, or the like.
The filler 5 is filled between the pillar 2 and the joining steel pipe 4 and hardened to join the pillar 2 and the flat slab 3. And the 1st rib 11 of the pillar 2 and the 2nd rib 21 of the steel pipe 4 for joining fix to the filler 5, and the 1st rib 11 and the 2nd rib 21 become the pillar 2 and for joining The steel pipe 4 is prevented from mechanical displacement, and the column 2 and the joining steel pipe 4 are integrated with the filler 5.
Further, a compression strut is generated between the first rib 11 of the column 2 and the second rib 21 of the joining steel pipe 4, and the vertical load of the flat slab 3 is transmitted to the column 2 by this compression strut. .
At this time, since the vertical load of the flat slab 3 is transmitted to the column 2 through the filler 5, the filler 5 selects a material having sufficient strength.

Next, a method for joining a column and a flat slab according to the first embodiment of the present invention will be described with reference to FIGS.
First, as shown to Fig.2 (a), the flat slab 3 is lifted with a crane. Then, as shown in FIG. 2 (b), the flat slab 3 is dropped to a predetermined height by penetrating the pillar 2 standing on the foundation through the steel pipe 4 for joining. At this time, since the rib plate 12 is provided on the column 2, the flat slab 3 may be dropped to a position where the lower end surface of the flat slab 3 is in contact with the rib plate 12 of the column 2. You can decide the height.
Then, a wedge is driven into the clearance 6 between the outer peripheral surface of the column 2 and the inner peripheral surface of the joining steel pipe 4 to determine the horizontal position of the flat slab 3.

Next, as shown in FIG. 2 (c), a filler 5 is filled into a clearance 6 between the column 2 and the joining steel pipe 4. At this time, since the rib plate 12 closes the lower side of the clearance 6, it is not necessary to install a formwork for closing the lower side of the clearance 6 at the site, and labor can be saved.
Then, the filler 5 is cured, and the first rib 11 and the second rib 21 are fixed to the filler 5, whereby the pillar 2 and the flat slab 3 are joined.

Next, the operation of the column / flat slab joint structure according to the first embodiment will be described with reference to the drawings.
In the column-flat slab joint structure 1 according to the first embodiment, the filler 6 is filled in the clearance 6 between the column 2 and the steel pipe 4 for bonding, whereby the column 2 and the flat slab 3 are connected. It is joined. And the 1st rib 11 is provided in the outer peripheral surface of the pillar 2, and the 1st rib 11 and the 2nd rib are provided by providing the 2nd rib 21 in the internal peripheral surface of the steel pipe 4 for joining. 21 serves to prevent mechanical displacement of the column 2 and the joining steel pipe 4, and the pillar 2, the joining steel pipe 4 and the filler 5 can be integrated.

Further, when a compression strut is generated between the first rib 11 and the second rib 21, the vertical load of the flat slab 3 can be transmitted to the column 2.
In addition, since the third rib 22 is provided on the outer peripheral surface of the joining steel pipe 4, the third rib 22 serves as a mechanical displacement stopper for the joining steel pipe 4, and the concrete of the joining steel pipe 4 and the flat slab 3. Can be integrated.

In the column-flat slab joint structure 1 according to the first embodiment described above, the filler 5 is filled between the column 2 and the steel pipe 4 for joining, and the first rib 11 and the second rib 21 are filled. Are provided so that the column 2 and the steel pipe 4 for joining are integrated with the filler 5, and the vertical load of the flat slab 3 is formed by the compression strut generated between the first rib 11 and the second rib 21. Can be transmitted to the column 2, so that the column 2 and the flat slab 3 can be reliably bonded to each other, and the yield strength of the bonded portion 10 can be ensured.
Further, since the flat slab 3 is precast and the joining steel pipe 4 is also provided in the flat slab 3 in advance, the work at the construction site can be reduced, so that labor can be reduced and the construction period can be shortened. It is possible to join the pillar 2 and the flat slab 3 efficiently.

Next, other embodiments will be described with reference to the accompanying drawings. However, the same or similar members and parts as those of the above-described first embodiment are denoted by the same reference numerals, and description thereof is omitted. A configuration different from the embodiment will be described.
As shown in FIGS. 3A and 3B, in the column-flat slab joint structure 31 according to the second embodiment, the main bar 37 of the flat slab 33 is welded to the joining steel pipe 34. The joining steel pipe 34 is provided with the second rib 21 on the inner peripheral surface, but no rib is provided on the outer peripheral surface. In addition, oblique reinforcing bars are not disposed around the joining steel pipe 34, and the flat slab 33 is reinforced by the main reinforcement 37 welded to the joining steel pipe 34.

  In the column-flat slab joining structure 31 according to the second embodiment, the joining steel pipe 34 is welded to the main bar 37 of the flat slab 33, so that the joining steel pipe 34 is integrated with the flat slab 33. The same effect as the joining structure of the column and the flat slab according to the first embodiment can be obtained.

As shown in FIGS. 4A and 4B, in the column / flat slab joint structure 41 according to the third embodiment, the columns 42 are separated from each other, not through columns. As shown in FIG. 4B, the column 42 is provided with end plates 48 formed at the upper end portion and the lower end portion so as to be larger than the cross-sectional shape of the column 42. The outer peripheral portion 48 a of the end plate 48 protrudes from the outer peripheral surface of the column 42. Further, the first rib provided on the outer peripheral surface of the column 42 in the first embodiment is not provided in the third embodiment.
The joining steel pipe 44 is provided with a diaphragm 47 at an intermediate portion in the height direction inside.

  The method of joining the column and the flat slab according to the third embodiment is as follows. First, as shown in FIG. 5 (a), the flat slab 43 is lifted, and as shown in FIG. A flat slab 43 is disposed on an upper portion of a column 42 erected on the flat slab 33, and a diaphragm 47 is brought into contact with an end plate 48 at the upper end of the column 42. Then, as shown in FIG. 5C, the column 42 on the upper floor side of the flat slab 43 is lifted, and the column 42 is disposed above the flat slab 43 as shown in FIG. The end plate 48 at the lower end of the diaphragm is brought into contact with the diaphragm 47.

  Then, the filler 49 is filled in the clearance 49 between the outer peripheral surface of the column 42 and the inner peripheral surface of the joining steel pipe 44, and the column 42 and the flat slab 43 are joined by hardening the filler 5. . At this time, the diaphragm 47 is provided with an inlet for the filler 5 for filling the clearance 49 below the diaphragm 47 with the filler 5. Note that the filling material 5 may be filled into the clearance 49 below the diaphragm 47 before the upstairs column 42 of the flat slab 43 is erected.

  According to the column / flat slab joining structure 41 according to the third embodiment, the end plate 48 of the column 42 is metal-touched to the diaphragm 47, so that the axial force of the column 42 on the upper floor and the vertical force of the flat slab 43 are aligned. The load can be transmitted to the pillar 42 on the lower floor. And since the outer peripheral part 48a of the end plate 48 which protrudes from the outer peripheral surface of the pillar 42 becomes a mechanical shift | offset | difference, the pillar 42 and a filler can be integrated, The effect similar to 1st embodiment is obtained. Play.

As mentioned above, although embodiment of the joining structure of the pillar and flat slab by this invention was described, this invention is not limited to said embodiment, It can change suitably in the range which does not deviate from the meaning.
For example, in the above-described embodiment, the columns 2 and 42 are hollow steel tube columns, but may be concrete-filled steel tube columns or RC columns. Further, the cross-sectional shape may be circular, square, H-shaped, or the like.
Further, in the above embodiment, the joining steel pipes 4, 34, 44 are steel pipes having a circular cross-sectional shape, but may be steel pipes having a square cross-sectional shape or other shapes.
In the above embodiment, the rib plate 12 is provided on the pillar 2, and the rib plate 12 also serves as the positioning of the flat slab 3 and the mold of the filler 5. 2 may be provided with a form of the filler 5 and used for positioning the flat slab 3.
Moreover, you may arrange | position diagonal reinforcement bars around the steel pipe 34 for joining in 2nd embodiment.
In the third embodiment, the main reinforcement of the flat slab 43 and the joining steel pipe 44 are not welded, but the main reinforcement of the flat slab 43 and the joining steel pipe 44 may be welded. Further, when the main bar of the flat slab 43 and the joining steel pipe 44 are welded, the third rib 22 on the outer peripheral surface of the joining steel pipe 44 may not be provided.
Moreover, in 3rd Embodiment, although the 1st rib is not provided in the outer peripheral surface of the pillar 42, you may provide. In the third embodiment, the outer peripheral portion 48a of the end plate 48 is used as a mechanical displacement stopper. However, the outer peripheral portion 48a of the end plate 48 is not projected from the outer peripheral surface of the column 42, and the outer peripheral surface of the column 42 is A first rib may be provided to prevent mechanical displacement.

1, 31, 41 Joining structure of pillar and flat slab 2, 42 Pillar 3, 33, 43 Flat slab 4, 34, 44 Steel pipe for joining 5 Filler 6, 49 Clearance 11 First rib 12 Rib plate 21 Second Rib 22 third rib

Claims (7)

The structure of the joint between the column and the flat slab in the flat slab structure,
The joining steel pipe into which the pillar is inserted is embedded in the flat slab, and a filler is filled between the outer peripheral surface of the pillar and the inner peripheral face of the joining steel pipe,
A first rib is provided on the outer peripheral surface of the column located at the joint, and a second rib is provided on the inner peripheral surface of the joining steel pipe, on the outer peripheral surface of the joining steel pipe. Is a joint structure between a column and a flat slab, characterized in that a third rib is provided . The structure of the joint between the column and the flat slab in the flat slab structure,
The joining steel pipe into which the pillar is inserted is embedded in the flat slab, and a filler is filled between the outer peripheral surface of the pillar and the inner peripheral face of the joining steel pipe,
A first rib is provided on the outer peripheral surface of the column located at the joint, and a second rib is provided on the inner peripheral surface of the steel pipe for joining. The steel pipe for joining is the flat slab. Column and flat slab joint structure characterized by being joined to a steel bar. The structure of the joint between the column and the flat slab in the flat slab structure,
The joining steel pipe into which the pillar is inserted is embedded in the flat slab, and a filler is filled between the outer peripheral surface of the pillar and the inner peripheral face of the joining steel pipe,
A first rib is provided on the outer peripheral surface of the pillar located at the joint, and a second rib is provided on the inner peripheral surface of the steel pipe for joining , and the pillar is an end plate at the end. The diaphragm is perpendicular to the axial direction of the joining steel pipe, the pillar is arranged above and below the diaphragm, and the end plate is connected to the diaphragm. Column and flat slab joint structure characterized by metal touch . The said end plate is formed in the shape larger than the cross section of the said pillar, The joining structure of the pillar and flat slab of Claim 3 characterized by the above-mentioned. The column / flat slab joining structure according to claim 1, wherein the column penetrates the joining steel pipe . The plate which protrudes from a pillar and receives the said steel pipe for joining is provided in the outer peripheral surface of the said pillar located in the lower end part of the said junction part, The Claim 1 characterized by the above-mentioned. Joint structure of column and flat slab. The said plate closes the lower end part between the outer peripheral surface of the said pillar, and the internal peripheral surface of the said steel pipe for joining, The joining structure of the pillar and flat slab of Claim 6 characterized by the above-mentioned.

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