JP2006028912A - Beam reinforcing structure of unit building - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reinforce a beam of a building unit without causing room arrangement trouble or the like of a unit building. <P>SOLUTION: In the beam reinforcing structure of the unit building 1 with a plurality of building units 10A adjacently installed, a clearance between the mutually adjacent ceiling beams 13 of the adjacent building units 10A is provided with a web of reinforcing shape steel 30, and the web of the reinforcing shape steel 30 is bolt-joined to the mutually adjacent ceiling beams 13. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a beam reinforcing structure for a unit building.

In a unit building in which a plurality of building units are installed adjacent to each other, there is a structure in which a floor beam is joined to a bolt planted on a bundle foundation as described in Patent Document 1 as a reinforcing structure of a floor beam on the first floor.

In addition, there is a structure for reinforcing the ceiling beam on the top floor that supports the ceiling beam by a middle pillar standing in the room on the top floor.
JP 7-158167 A

The structure that supports the floor beam of the first floor of Patent Document 1 with a bundle foundation is reasonable when the underfloor is not used, but the presence of the bundle foundation is an obstacle when the underfloor is used for a storage room, a basement, or the like. become.
In the structure in which the ceiling beam on the top floor is supported by the middle pillar, the middle pillar is an obstacle to the layout of the room on the top floor.

An object of the present invention is to reinforce a beam of a building unit without causing a floor plan failure of the unit building.

According to the first aspect of the present invention, in the beam reinforcing structure of a unit building in which a plurality of building units are installed adjacent to each other, a reinforcing steel web is provided in a gap between adjacent beams of adjacent building units, and the reinforcing shape is provided. A steel web is bolted to adjacent beams.

According to a second aspect of the present invention, in the first aspect of the invention, the reinforcing structural steel is a T-shaped steel.

According to a third aspect of the invention, in the first aspect of the invention, the reinforcing structural steel is an H-shaped steel.

According to a fourth aspect of the present invention, there is provided the sheet steel according to any one of the first to third aspects, further comprising a sheet steel covering the beam along the side surface forming the gap from one of the upper surface and the lower surface of the beam. A web of the reinforcing structural steel is provided from the other side of the upper surface and the lower surface of the beam in the gap between the thin steel plates provided on the adjacent beams, and the reinforcing structural steel webs are adjacent to each other. These thin plate steels are bolted together.

According to the invention of claim 5, in a beam reinforcing structure of a unit building in which a plurality of building units are installed adjacent to each other, a sheet steel that covers the beam is provided along the outer surface of the beam of the building unit. The web is bolted to the beam.

(Claim 1)
(a) A web of reinforcing structural steel was provided in the gap between adjacent beams, and the reinforcing structural web was bolted to the adjacent beams. Therefore, it is possible to improve the cross-sectional performance of the beam to which the reinforcing structural steel is bolted and to reinforce the beam. In addition, the height at which the flange of the reinforcing steel bar protrudes from the top and bottom of the beam can be minimized, and the floor plan of the unit building is not obstructed.

(Claim 2)
(b) By using T-shaped steel as the reinforcing structural steel, the reinforcing structural steel can be reduced in weight and handleability can be improved. When T-shaped steel is bolted to both the upper surface side and the lower surface side of the beam, the upper and lower T-shaped steels form H-shaped steel via the beam, and the cross-sectional performance of the beam can be improved.

(Claim 3)
(c) Reducing the number of bolts required for the reinforcing structural steel while providing the reinforcing structural steel covering the entire height from the upper surface side to the lower surface side of the beam by using H-shaped reinforcing steel. it can.

(Claim 4)
(d) A thin steel plate is attached to the outer surface of adjacent beams, and a reinforcing steel web is inserted into the gap between the thin steel plates provided on adjacent beams. The web was bolted to adjacent beams and their sheet steel. Therefore, it is possible to improve the cross-sectional performance of the beam in which the thin plate steel and the reinforcing steel are bolted, and to reinforce the beam. Moreover, the protruding height of the thin plate steel with respect to the top and bottom of the beam can be reduced because of the thin plate.

Therefore, when the upper floor building unit set back on the lower floor building unit is mounted,
The upper floor building unit can be placed on the ceiling beam while the ceiling beam of the lower floor building unit is reinforced with the thin plate steel and the reinforcing steel.

When installing an upper-floor building unit that overhangs on a lower-floor building unit,
The floor beam can be placed on the lower floor building unit while the floor beam of the upper floor building unit is reinforced with the thin plate steel and the reinforcing steel.

(Claim 5)
(e) A sheet steel that covers the beam is provided along the outer surface of the beam of the building unit, and the web of the sheet steel is bolted to the beam so that the protruding height of the sheet steel with respect to the top and bottom of the beam is increased. While being small because of the thin plate, the cross-sectional performance of the beam can be improved and the beam can be reinforced.

FIG. 1 shows a part of a unit building, (A) is a side view showing a setback portion, (B) is a side view showing an overhang portion, FIG. 2 is a perspective view showing a building unit, and FIG. 3 is an embodiment. 1A is a cross-sectional view showing an adjacent beam, FIG. 1B is a cross-sectional view showing a process of inserting a reinforcing steel, and FIG. 3C is a cross-sectional view showing a fixed state of the reinforcing steel. FIG. 4 is a cross-sectional view showing a beam reinforcement structure of Example 2, FIG. 5 shows a beam reinforcement structure of Example 3, (A) is a cross-sectional view showing adjacent beams, and (B).
Is a cross-sectional view showing the insertion process of the reinforcing structural steel, (C) is a cross-sectional view showing a fixed state of the reinforcing structural steel, FIG. 6 is a cross-sectional view showing a beam reinforcing structure of Example 4, and FIG. FIG. 5 is a cross-sectional view showing a reinforcing structure of a beam 5.

1A and 1B is a unit building 1 in which a plurality of building units 10 are installed adjacent to each other in the left-right and up-down directions. FIG. 1 (A) shows a portion in the unit building 1 where the upper floor building unit 10B set back on the lower floor building unit 10A is mounted. FIG. 1B shows a portion in the unit building 1 where the upper-floor building unit 10B overhanging the lower-floor building unit 10A is mounted.

As shown in FIG. 2, the building unit 10 (10A, 10B) includes four square steel pipe columns 11,
It is a frame structure in which four C-shaped steel floor beams 12 and four C-shaped steel ceiling beams 13 are joined in a box shape. The building unit 10 has four corners, and the crossing floor beams 12 are connected to the lower side of the column 11 by a C-shaped steel joint piece 12A, and the crossing ceiling beams 13 are connected to the C-shaped steel joint piece 13A. Is joined to the upper end side surface of the column 11. The joint piece 12 </ b> A is joined to the side surface of the column 11 and holds the end of the floor beam 12. The joint piece 13A is a pillar 11
It is joined to the side surface of the ceiling and holds the end of the ceiling beam 13.

The unit building 1 has the following configuration in order to reinforce the floor beam 12 and the ceiling beam 13 of the building unit 10 without causing a floor plan failure or the like.

Example 1 (FIG. 3)
In the first embodiment, the ceiling beam 1 of the lower building unit 10A of the unit building 1 shown in FIG.
The present invention relates to a reinforcing structure in which 3 is reinforced by the following (1) to (5). However, the reinforcing structure of the first embodiment can also be applied to the reinforcing structure of the floor beam 12 of the lower floor building unit 10A and the reinforcing structure of the floor beam 12 and the ceiling beam 13 of the upper floor building unit 10B.

(1) An upper flange of the ceiling beam 13 which is adjacent to the building units 10A and 10B installed adjacent to each other and forms a gap g between them. A thin plate steel 20 which is a C-shaped steel with a lip is attached to the side surface of the web forming the gap g from the upper surface of the steel plate, and the upper flange and web of the ceiling beam 13 are covered with the flange and web of the thin plate steel 20. Yeah. The thin plate steel 20 is temporarily fixed to the ceiling beam 13 with a tapping screw or the like at the factory production stage of the lower floor building unit 10A. The thickness of the thin steel plate 20 is set to be thinner than the thickness of the joint piece 13A for the ceiling beam 13.

  (2) The lower-floor building units 10A and 10A described above (1) are installed adjacent to each other (FIG. 3A).

(3) The lower flange of the ceiling beam 13 is inserted into the gap g between the sheet steels 20 provided in the ceiling beam 13 adjacent to each other by the installation of the lower floor building units 10A and 10A described in (2) above. From the side of
A web of reinforcing structural steel 30 is inserted. The reinforcing section 30 is made of a T-section, and the reinforcing section 30
This flange is attached to the lower flange of the adjacent ceiling beam 13 (FIG. 3B). Shaped steel for reinforcement 3
Spacers 30A can be added to both sides of the zero web.

(4) The web of the reinforcing structural steel 30 of the above (3) is bolted to the adjacent ceiling beams 13 and their thin steel plates 20 using high-strength bolts 31 and nuts 32 (FIG. 3 (C )). High strength bolt 31
Frictionally joins the ceiling beam 13, the thin steel plate 20, and the reinforcing steel plate 30 to form an integral rigid beam.

An assembly in which a reinforcing structural steel 30 is bolted to the ceiling beam 13 and thin steel section 20 in FIG.
The cross-sectional secondary moment 5320cm ⁴ of the composite H-section steel is the same as the ceiling beam 13 and the thin section steel 2 of FIG.
It is strengthened to about three times the cross-sectional second moment of 1762 cm ⁴ of zero.

(5) The floor beam 12 of the upper floor building unit 10B is placed on the ceiling beam 13 of the lower floor building unit 10A.
And a unit building 1 having the setback portion of FIG. 1A is constructed.

According to the present embodiment, the following operational effects can be obtained.
A thin steel plate 20 is attached to the outer surface of the adjacent ceiling beams 13, and a web of reinforcing structural steel 30 is inserted into a gap g between the thin steel plates 20 provided on the adjacent ceiling beams 13. The web of the reinforcing structural steel 30 was bolted to the adjacent ceiling beams 13 and their thin steel sections 20. Therefore, the cross-sectional performance of the ceiling beam 13 in which the thin plate-shaped steel 20 and the reinforcing structural steel 30 are bolted can be improved, and the ceiling beam 13 can be reinforced. Moreover, the protruding height of the thin steel plate 20 with respect to the top and bottom of the ceiling beam 13 can be reduced because of the thin plate.

Therefore, when the upper-floor building unit 10B set back on the lower-floor building unit 10A is mounted, the ceiling beam of the lower-floor building unit 10A is reinforced with the thin plate steel 20 and the reinforcing steel frame 30, while the ceiling beam The upper floor building unit 10B can be placed on the top.

(Example 2) (FIG. 4)
In the second embodiment, the floor beam 12 of the upper building unit 10B of the unit building 1 shown in FIG.
The present invention relates to a reinforcement structure reinforced by the following (1) to (5). However, the reinforcing structure of the second embodiment can also be applied to the reinforcing structure of the floor beam 12 and the ceiling beam 13 of the lower floor building unit 10A and the reinforcing structure of the ceiling beam 13 of the upper floor building unit 10B.

(1) A floor beam 12 adjacent to the upper floor building units 10B and 10B installed adjacent to each other and forming a gap g between them, the floor beam 12 From the lower surface of the lower flange, a sheet steel 21 made of L-shaped steel is attached to the side surface of the web forming the gap g, and the flange and web of the sheet steel 21 cover the lower flange of the floor beam 12 and the web. Yeah. The thin plate steel 21 is temporarily fixed to the floor beam 12 with a tapping screw or the like at the factory production stage of the upper floor building unit 10B. The plate thickness of the thin plate steel 21 is set to be thinner than the plate thickness of the joint piece 12A for the floor beam 12.

  (2) Install the upper building units 10B and 10B adjacent to (1) above.

(3) The upper flange of the floor beam 12 is inserted into the gap g between the sheet steels 21 provided in the floor beam 12 adjacent to each other by the installation of the upper floor building units 10B and 10B. The web of the reinforcing structural steel 30 is inserted from the side. The reinforcing structural member 30 is made of a T-shaped steel, and the flange of the reinforcing structural member 30 is attached to the upper flange of the adjacent floor beam 12. Spacers 30 </ b> A can be added to both side surfaces of the reinforcing structural steel 30 web.

(4) The web of the reinforcing structural steel 30 of the above (3) is bolted to the adjacent floor beams 12 and their thin steel plates 21 using high-strength bolts 31 and nuts 32. The high-strength bolt 31 frictionally joins the floor beam 12, the thin plate steel 21, and the reinforcing steel 30 to form an integral rigid beam.

(5) On the floor beam 12 of the upper floor building unit 10B, the floor beam 12 of the upper floor building unit 10B is mounted, and the unit building 1 having the overhang portion shown in FIG. 1B is constructed.

According to the present embodiment, the following operational effects can be obtained.
A thin steel plate 21 is attached to the outer surface of adjacent floor beams 12, and a thin steel plate 21 provided on adjacent floor beams 12.
The web of the reinforcing structural steel 30 was inserted into the gap g between them, and the web of the reinforcing structural steel 30 was bolted to the adjacent floor beams 12 and their thin plate steels 21. Therefore, the cross-sectional performance of the floor beam 12 in which the thin plate steel 21 and the reinforcing structural steel 30 are bolted can be improved, and the floor beam 12 can be reinforced.
Moreover, the protruding height of the thin plate steel 21 with respect to the upper and lower sides of the floor beam 12 can be reduced because of the thin plate.

Further, when the upper floor building unit 10B that is overhanging is mounted on the lower floor building unit 10A, the floor beam 12 of the upper floor building unit 10B is reinforced with the thin plate steel 21 and the reinforcing structural steel 30 while the lower floor The floor beam 12 can be placed on the building unit 10A.

(Example 3) (FIG. 5)
The third embodiment relates to a reinforcing structure in which the floor beam 12 of the lower building unit 10A of the unit building 1 shown in FIGS. 1A and 1B is reinforced by the following (1) to (3). However, the reinforcement structure of Example 3 is the reinforcement structure of the ceiling beam 13 of the lower floor building unit 10A and the floor beam 12 of the upper floor building unit 10B.
It can also be applied to the reinforcing structure of the ceiling beam 13.

  (1) The lower floor building units 10A and 10A are installed adjacent to each other (FIG. 5A).

(2) Reinforcing the gap g between the adjacent floor beams 12 by installing the lower-floor building units 10A and 10A described above (1) from each side of the upper and lower flanges of the floor beams 12 Shape steel 40
Insert the web. The reinforcing section 40 is made of T-shaped steel, and the flange of each reinforcing section 40 is attached to the upper and lower flanges of the adjacent floor beams 12 (FIG. 5B). Spacers 40A can be added on both sides of the web of each reinforcing section 40.

(3) The web of the reinforcing structural member 40 of the above (2) is bolted to the adjacent floor beam 12 using the high strength bolt 41 and the nut 42. The high-strength bolt 41 frictionally joins the floor beam 12 and the reinforcing structural steel 40 to form an integral rigid beam.

The sectional moment of inertia 3277 cm ⁴ of the assembly (synthetic H section steel) in which the reinforcing steel 40 is bolted to the floor beam 12 of FIG. 5C is the sectional secondary moment of the floor beam 12 of FIG. 896cm ⁴ approximately 3.6
Strengthened twice.

According to the present embodiment, the following operational effects can be obtained.
(a) A web of reinforcing structural steel 40 was provided in the gap between adjacent floor beams 12, and the web of reinforcing structural steel 40 was bolted to adjacent floor beams 12. Therefore, the cross-sectional performance of the floor beam 12 to which the reinforcing structural member 40 is bolted can be improved, and the floor beam 12 can be reinforced. In addition, the height at which the flange of the reinforcing structural steel 40 protrudes from the top and bottom of the floor beam 12 can be minimized, and the floor plan trouble or the like of the unit building 1 does not occur.

(b) By using the T-shaped steel as the reinforcing section 40, the reinforcing section 40 can be reduced in weight and handleability can be improved. When T-shaped steel is bolted to both the upper surface side and the lower surface side of the floor beam 12, the upper and lower T-shaped steels form H-shaped steel via the floor beam 12, and the cross-sectional performance of the floor beam 12 can be improved.

Example 4 (FIG. 6)
The fourth embodiment relates to a reinforcing structure in which the floor beam 12 of the lower building unit 10A of the unit building 1 shown in FIGS. 1A and 1B is reinforced by the following (1) to (3). However, the reinforcement structure of Example 4 is the reinforcement structure of the ceiling beam 13 of the lower floor building unit 10A and the floor beam 12 of the upper floor building unit 10B.
It can also be applied to the reinforcing structure of the ceiling beam 13.

(1) One lower-floor building unit 10 is installed, and reinforcing steel bars 50 are temporarily attached to the side of the floor beam 12 of the lower-floor building unit 10A.

(2) The other lower floor building unit 10A is installed, and the floor beam 12 of the lower floor building unit 10A and the floor beam 12 of the lower floor building unit 10A described above (1), in other words, the adjacent floor beams 12 Gap g
The web of reinforcing structural steel 50 is sandwiched between them. The reinforcing section 50 is made of an H-shaped steel, and the reinforcing section 50
The upper and lower flanges are attached to the upper and lower flanges of the adjacent floor beams 12. Spacers 50 </ b> A can be added to both sides of the reinforcing structural steel 50 web.

(3) The web of the reinforcing structural steel 50 of the above (2) is bolted to the adjacent floor beam 12 using the high strength bolt 51 and the nut 52. The high-strength bolt 51 frictionally joins the floor beam 12 and the reinforcing structural steel 50 to form an integral rigid beam.

According to the present embodiment, the following operational effects can be obtained.
(a) A web of reinforcing structural steel 50 is provided in the gap g between adjacent floor beams 12, and the web of reinforcing structural steel 50 is bolted to adjacent floor beams 12. Therefore, the cross-sectional performance of the floor beam 12 to which the reinforcing structural steel 50 is bolted can be improved, and the floor beam 12 can be reinforced. In addition, the height at which the flange of the reinforcing structural steel 50 protrudes from the top and bottom of the floor beam 12 can be minimized, and the floor plan trouble or the like of the unit building 1 does not occur.

(b) Bolts required for the reinforcing structural steel 50 while providing the reinforcing structural steel 50 over the entire height from the upper surface side to the lower surface side of the floor beam 12 by using the H-shaped steel as the reinforcing structural steel 50 The number of 51 used can be reduced.

(Example 5) (FIG. 7)
In Example 5, the ceiling beam 1 of the lower building unit 10A of the unit building 1 shown in FIG.
The present invention relates to a reinforcing structure in which 3 is reinforced by the following (1) to (4). However, the reinforcing structure of the fifth embodiment can also be applied to the reinforcing structure of the floor beam 12 of the lower floor building unit 10A and the reinforcing structure of the floor beam 12 and the ceiling beam 13 of the upper floor building unit 10B.

(1) A sheet steel 60, which is a C-shaped steel, is attached to the outer surface of the ceiling beam 13 that is adjacent to the adjacent lower floor building units 10A, 10A, and upper and lower flanges of the sheet steel 60 are provided. Cover the upper and lower flanges and web of the ceiling beam 13 with the web. The sheet steel 60 is formed by the lower floor building unit 10.
At the factory production stage of A, the ceiling beam 13 is temporarily fixed with a tapping screw or the like. The plate thickness of the thin plate steel 60 is set to be thinner than the plate thickness of the joint piece 13A for the ceiling beam 13.

  (2) Install the lower floor building units 10A and 10A adjacent to (1) above.

(3) The web of the ceiling beam 13 and the thin steel plate 60 that are adjacent to each other by installing the lower building units 10A and 10A described in (2) above is bolted using the high strength bolt 61 and the nut 62. (FIG. 7). The high-strength bolt 61 frictionally joins the ceiling beam 13 and the thin steel plate 60 to form an integral rigid beam.

(4) The floor beam 12 of the upper building unit 10B is placed on the ceiling beam 13 of the lower building unit 10A.
And a unit building 1 having the setback portion of FIG. 1A is constructed.

According to the present embodiment, the following operational effects can be obtained.
Sheet steel 60 covering the ceiling beam 13 along the outer surface of the ceiling beam 13 of the section building unit 10A
And the web of the thin steel plate 60 is bolted to the ceiling beam 13 so that the ceiling beam 13
The cross-sectional performance of the ceiling beam 13 can be improved and the ceiling beam 13 can be reinforced while reducing the protruding height of the thin steel plate 60 with respect to the upper and lower sides of the steel plate 60 due to the thin plate.

The embodiment of the present invention has been described with reference to the drawings. However, the specific configuration of the present invention is not limited to this embodiment, and even if there is a design change or the like without departing from the gist of the present invention. Included in the invention. For example, in the case where the reinforcing structural steel of the present invention (T-shaped steel, H-shaped steel, etc.) is attached to the ceiling beam of the top floor building unit, there is no problem even if the projection of the reinforcing structural steel protrudes to the back of the shed. When there is no, it is possible to increase the height of the protrusion of the reinforcing structural steel to the back of the shed, and to increase the beam back of an assembly (such as a synthetic H-shaped steel) formed by the reinforcing structural steel together with the ceiling beam.

FIG. 1 shows a part of a unit building, (A) is a side view showing a setback portion, and (B) is a side view showing an overhang portion. FIG. 2 is a perspective view showing the building unit. FIG. 3 shows a beam reinforcing structure of Example 1, (A) is a cross-sectional view showing an adjacent beam, (B) is a cross-sectional view showing a process of inserting a reinforcing structural steel, and (C) is a reinforcing structural steel. It is sectional drawing which shows a fixed state. FIG. 4 is a cross-sectional view showing a beam reinforcing structure according to the second embodiment. 5A and 5B show a beam reinforcing structure of Example 3, wherein FIG. 5A is a cross-sectional view showing an adjacent beam, FIG. 5B is a cross-sectional view showing a process of inserting a reinforcing structural steel, and FIG. It is sectional drawing which shows a fixed state. FIG. 6 is a cross-sectional view showing a beam reinforcing structure of the fourth embodiment. FIG. 7 is a cross-sectional view showing a beam reinforcing structure according to the fifth embodiment.

Explanation of symbols

1 Unit Building 10, 10A, 10B Building Unit 12 Floor Beam 13 Ceiling Beam 20, 21, 60 Thin Section Steel 30, 40, 50 Section Steel for Reinforcement

Claims (5)

In the beam reinforcement structure of unit buildings where multiple building units are installed adjacently,
A beam reinforcing structure for a unit building, wherein a reinforcing structural steel web is provided in a gap between adjacent beams of adjacent building units, and the reinforcing structural steel web is bolted to the adjacent beams. .   The beam reinforcing structure for a unit building according to claim 1, wherein the reinforcing structural steel is a T-shaped steel.   The beam reinforcing structure for a unit building according to claim 1, wherein the reinforcing structural steel is an H-shaped steel. A sheet steel that covers the beam along the side surface that forms the gap from one of the upper surface and the lower surface of the beam is provided,
A web of the reinforcing structural steel is provided in the gap between the thin steel plates provided in adjacent beams from the other side of the upper and lower surfaces of the beams, and the reinforcing structural webs are adjacent to each other. The beam reinforcement structure for a unit building according to any one of claims 1 to 3, wherein the beam is joined to the thin plate steel with a bolt. In the beam reinforcement structure of unit buildings where multiple building units are installed adjacently,
A beam reinforcing structure for a unit building, characterized in that a sheet steel covering the beam is provided along the outer surface of the beam of the building unit, and a web of the sheet steel is bolted to the beam.

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