JP2004143807A - Unit building and its construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To increase the section modulus of a reinforcing beam without causing an interference problem between a balcony floor constitutive member and the reinforcing beam additionally provided at a ceiling beam of a lower floor building unit of a unit building. <P>SOLUTION: The reinforcing beam 13 is additionally provided from the side face of the ceiling beam 16 on one side to the side face of the ceiling beam 16 on the other side of the lower floor building units 12a, 12b with column omitted corners arranged adjacently to each other. An upper floor building unit 11 is mounted on the lower floor building unit 12a on one side, and a balcony floor joist 32 is provided on the lower floor building unit 12b on the other side. The reinforcing beam 13 has a web 20 additionally provided at the ceiling beam 16 at the lower floor building unit 12b side part on the other side, and a flange 21 projecting on both sides of the web at the upper edge of the web. The flange 21 is positioned above the upper face of the balcony floor joist 32. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a unit building and a construction method thereof.
[0002]
[Prior art]
A unit building is generally constructed by installing a building unit in which columns, floor beams and ceiling beams are joined in a box shape adjacent to each other (for example, see Patent Document 1). In this unit building, a predetermined one pillar omitted corner portion of each building unit is arranged adjacent to each other, and then the lower floor building units arranged such that the pillar omitted corner portions are adjacent to each other are flush with each other. Reinforcing beams are provided from the side of one ceiling beam located inside to the side of the other ceiling beam. A two-story unit building having a shack is constructed by mounting an upper-story building unit on one lower-story building unit and forming a roof as a shack on the other lower-story building unit. be able to.
[0003]
The reinforcing beam has a high height dimension that can be attached to the floor beam of the upper-floor building unit on the side of the lower-floor building unit on one side on which the upper-floor building unit is mounted. On the other side of the lower-floor building unit side where the roof is formed without being mounted, the height under the roof is set to be low. In addition, a flange portion serving as an overhang is formed at the top of the low height dimension portion of the reinforcing beam. As a result, the reinforcing beams can increase the section modulus thereof without causing a problem of interference with the underpass, so that a large indoor space without pillars is secured and a unit building with excellent strength is provided. .
[0004]
[Patent Document 1]
JP-A-9-317020 (page 6, FIG. 7)
[0005]
[Problems to be solved by the invention]
However, if it is attempted to form a balcony on the other lower-floor building unit instead of the lower building, the other lower-floor building unit side on which the balcony floor is formed, taking into account the increase in the load imposed by humans. It is necessary to increase the section modulus of the reinforcing beam at the portion. If the overall size of the reinforcing beam is simply increased due to the increase in the section modulus, a problem of interference between the balcony floor component formed on the lower-floor building unit and the reinforcing beam occurs.
[0006]
Therefore, an object of the present invention is to increase the section modulus of a reinforcing beam without causing a problem of interference between a reinforcing beam attached to a ceiling beam of a lower building unit of a unit building and a balcony floor component member. It is an object of the present invention to provide a unit building and a construction method thereof.
[0007]
[Means for Solving the Problems]
The invention according to claim 1 comprises a plurality of building units in which columns, floor beams, and ceiling beams are joined in a box shape, and an upper-floor building is provided on a part of a plurality of lower-floor building units. In a unit building constructed with units installed, reinforcing beams are attached from the side of one ceiling beam to the side of the other ceiling beam located in the same plane of the lower-floor building units arranged adjacent to each other The upper-floor building unit is mounted on the lower-floor building unit on one side, the balcony floor joist is provided on the lower-floor building unit on the other side, and the cross section of the reinforcing beam on the other lower-floor building unit side The shape has a substantially T-shape consisting of a web portion attached to the ceiling beam and flange portions projecting to both sides of the web portion at the upper end of the web portion, and the flange portion is larger than the upper surface of the balcony floor joist. Be located above And it features.
[0008]
According to a second aspect of the present invention, in the first aspect of the present invention, the flange portion of the reinforcing beam is located at substantially the same height as a balcony floor base material formed on the balcony floor joist. The step formed on the balcony floor base surface corresponding to the flange portion located above the upper surface of the floor joist is eliminated by flattening with the floor covering material formed on the balcony floor base surface. It is characterized by.
[0009]
According to a third aspect of the present invention, in the first aspect of the present invention, the lower-side building unit side portion of the reinforcing beam on one side comprises a web portion continuous with the web portion, and The cross-sectional shapes of the lower-side building unit side portion on one side and the lower-side building unit side portion on the other side are different from each other.
[0010]
According to a fourth aspect of the present invention, in the unit building construction method according to the first aspect, the adjacent lower-floor building unit is installed, and the reinforcing beam is attached to a ceiling beam of the lower-floor building unit. An upper-floor building unit is mounted on the lower-floor building unit on the side, and a balcony floor component is provided on the lower-floor building unit on the other side.
[0011]
According to the first, third and fourth aspects of the invention, the cross-sectional shape of the reinforcing beam provided from the side of the ceiling beam on one side to the side of the other ceiling beam has a lower-floor building unit side portion on the other side. It has a substantially T-shape consisting of a web portion and a flange portion projecting to both sides at the upper end thereof, and the flange portion is located above the upper surface of the balcony floor joist. By increasing the cross-sectional area of the reinforcing beam without causing interference, the cross-sectional coefficient can be increased. This makes it possible to construct a unit building with a balcony and excellent strength.
[0012]
According to the second aspect of the present invention, the steps corresponding to the flange portions of the reinforcing beams formed on the balcony floor base surface are flattened by the floor covering material formed on the balcony floor base surface, and thus are flattened. Balcony floor can be formed.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.
[0014]
<Embodiment 1>
The unit building 10 shown in FIG. 1 has two standard building units 11, four pillar-omitted building units 12 (12a, 12a, 12b, 12b), and a reinforcing beam used for reinforcing the pillar-omitted building units 12. 13 is provided.
[0015]
The standard building unit 11 includes four pillars 14 made of, for example, square steel pipes, four floor beams 15 made of, for example, shaped steel, and four ceiling beams 16 made of similar shaped steel, which are joint pieces 17a, 17b. It is a framed structure that is joined in a box shape through the frame. As is well known in the art, the standard building unit 11 has a floor beam 15 that is orthogonal to each other connected to the lower end of the pillar 14 via four joints 17a at four corners, and a ceiling beam 16 that is orthogonal to each other. Are connected to the upper end of the column 14 via four joints 17b via joint pieces 17b.
[0016]
The pillar omitted building unit 12 has a temporary pillar 14 ′ detachably incorporated therein, as is well known in the art, instead of one pillar 14 of the four pillars 14 of the standard building unit 11. This forms a pillar-eliminated corner. A horizontal brace 18 is arranged along a diagonal line on a horizontal plane formed by the ceiling beams 16 of the standard building unit 11 and the column-omitted building unit 12, and the horizontal brace allows the frame strength of each of the units 11 and 12. Is being improved.
[0017]
In the state where the temporary pillars 14 'are incorporated in the pillar omitted building unit 12, the units 11 and 12 including the pillar omitted building unit 12 are produced in a factory and are interconnected at a building site.
[0018]
In the example shown in FIG. 1, four pillar-omitted building units 12 are arranged on a foundation 19 in such a manner that temporary pillars 14 ′ provided at respective pillar-omitted corners are arranged adjacent to each other, and are connected to each other to form a lower floor portion. 10A is built. Also, two standard building units 11 are arranged and installed on a pair of pillar-omitted building units 12a, 12a, and connected to each unit 11, 12 to construct an upper floor portion 10B. A balcony is constructed on a pair of pillar-omitted building units 12b on which the standard building unit 11 is not mounted.
[0019]
The reinforcing beam 13 includes a pair of pillar-omitted building units 12a, 12a located on one side on which the standard building unit 11 is mounted for reinforcing the ceiling beam 16 of each pillar-omitted building unit 12 after removing the column 14 '. It is arranged between a pair of pillar-omitted building units 12b, 12b located on the other side which is the balcony side where the standard building unit 11 is not mounted. As will be described in detail later, the reinforcing beams 13 are arranged along the ceiling beams 16 of the building units 12a with columns omitted from one side and the ceiling beams 16 of the building units 12b with columns omitted on the other side. It is connected to each ceiling beam 16 located on both sides thereof.
[0020]
The reinforcing beam 13 includes a web portion 20 formed of a flat plate-like portion, and a flange portion 21 connected to the web portion and extending at right angles to the both sides at an upper edge thereof. The web portion 20 includes a linear upper edge portion 20a parallel to the lower edge thereof and extending from one end of the web portion 20 to the center thereof, a concave curved edge portion 20b connected to the upper edge portion, and a lower edge portion. And a straight upper edge portion 20c parallel to the lower edge of the continuous web portion 20 and reaching the other end. An upper edge portion 20a formed on one end side of the reinforcing beam 13 is not provided with a flange portion 21, and the reinforcing beam 13 has an I-shaped cross section at one end thereof.
[0021]
The flange portion 21 includes a curved portion 21a along the curved edge portion 20b of the reinforcing beam 13, and a straight portion 21b extending from the curved portion to the other end of the web portion 20 along the upper edge portion 20c. Thus, the height H1 at one end of the reinforcing beam 13 is larger than the height H2 at the other end, that is, the height dimension H2 reaching the top surface of the flange portion 21. Since the flange portion 21 extends on both sides of the web portion 20 at the other end of the reinforcing beam 13, a T-shaped cross-sectional shape is formed in cooperation with the web portion 20. Thereby, the cross-sectional shapes of the reinforcing beams 13 at both ends are different from each other.
[0022]
FIG. 2 is an enlarged cross-sectional view partially showing the vicinity of a joint portion (the portion indicated by reference numeral A in FIG. 1) between the pillar-omitted building unit 12a and the pillar-omitted building unit 12b. Adjacent ends of the ceiling beams 16 of each pillar omitted building unit 12 (12a, 12b) are interconnected together with their joint pieces 17b via coupling plates 22 and bolt and nut assemblies 23. A short pillar member 24 fixed to the joint piece 17b is disposed at each corner of the pillar omitted building unit 12, and an upper end of the temporary pillar 14 'is detachably connected to the short pillar member. A brace fixing plate 25 is connected to the short column member 24 via a bolt and nut assembly 26, and a blade plate 27 fixed to one end of the horizontal brace 18 is connected to the brace fixing plate 25 by a bolt and nut assembly 28. Are coupled through. Thereby, one end of the horizontal brace 18 is supported by the joint piece 17b. In the example shown in FIG. 2, the other end of the horizontal brace 18 is connected to the column 14 via a brace fixing plate 25, a bolt / nut assembly 26, a blade plate 27, and a bolt / nut assembly 28 similar to those described above. Is supported by the joint piece 17b.
[0023]
As described above, the reinforcing beams 13 are arranged along the ceiling beams 16 between the pair of column-omitted building units 12a and between the pair of column-omitted building units 12b. . More specifically, one half side of the reinforcing beam 13 where the flange portion 21 is not provided is arranged along the side surface of the ceiling beam 16 on one side (the column omitted building unit 12a side) of the lower floor portion 10A. I have. The other half of the reinforcing beam 13 provided with the flange portion 21 is arranged so that the flange portion 21 projects above the ceiling beam 16 on the other side (the column omitted building unit 12b side) of the lower floor portion 10A on the balcony side. In addition, it is arranged along the side surface of the ceiling beam 16.
[0024]
The height H1 on one half side of the reinforcing beam 13 is set to be larger than the sum of the heights of the ceiling beam 16 of the column omitted building unit 12a and the floor beam 15 of the standard building unit 11 on the column omitted building unit. . The height H2 on the other half side of the reinforcing beam 13 is set to be larger than the height of the ceiling beam 16. The lower edge of the reinforcing beam 13 protrudes slightly downward from the lower edge of the ceiling beam 16, and slightly protrudes above the floor beam 15 of the upper floor portion 10B on one half side where the flange portion 21 is not provided. The reinforcing beam 13 is formed by integrally connecting the bolt / nut assembly 29 provided with the washer plate 29a and the bolt / nut assembly provided with no washer plate 29 'to each of the ceiling beams 16 located on both sides thereof. Are combined. In addition, the ceiling beam 16 of the pillar omitted building unit 12a and the floor beam 15 of the standard building unit 11 on the pillar omitted building unit are connected to each other by the bolt / nut assembly 29 similar to that described above.
[0025]
After the reinforcing beams 13 are installed, the temporary columns 14 ′ are removed, and then, as shown in FIG. 3, a ceiling plate 30 is installed along the lower surface of the ceiling beams 16 so as to cover the lower ends of the reinforcing beams 13. Further, a floor 31 is formed on the floor beam 15 of the standard building unit 11 constituting the upper floor portion 10B.
[0026]
As shown in FIG. 4, a joist 32 for the balcony floor is passed between the ceiling beams 16 of the pillar-omitted building unit 12b on which the balcony of the lower floor portion 10A is formed. Both ends of the joist 32 are fixed to the ceiling beam 16 and can be directly fixed to the ceiling beam using fixing means such as welding.
[0027]
The height of the component H2 at the flange portion 21 of the reinforcing beam 13 is set to a size sufficient to receive the end portion of the joist 32 on the ceiling beam 16 at a small interval below the flange portion. A balcony floor base material 33 is stretched on the joist 32 at substantially the same height as the flange portion 21, and a balcony floor base material 33 a covering the flange portion 21 is stretched on the flange portion 21 of the reinforcing beam 13. Can be A seal member 34 is applied between the balcony floor base material 33 on the joist 32 and the balcony floor base material 33a that covers the flange portion 21, thereby producing a step Δ of, for example, about 30 mm. In order to eliminate the step Δ, a recess for accommodating a convex portion of the balcony floor base material 33a is provided on a surface of the floor covering material 35 laid on the balcony floor base material 33, 33a facing the balcony floor base material 33a. The location 35a can be formed, thereby absorbing the step Δ and realizing a flat balcony floor 35b.
[0028]
The construction method of the unit building 10 according to the present invention is as follows.
[0029]
(1) The lower-floor building units including the pillar-omitted building units 12 are installed adjacent to each other, and the lower-floor portion 10A is constructed.
[0030]
(2) The reinforcing beams 13 are arranged between the ceiling beams 16 of the building unit 12 without pillars, and are attached to the ceiling beams 16 by being connected to the ceiling beams.
[0031]
(3) The upper-floor building unit including the standard building unit 11 is mounted on the lower-floor building unit, and the upper-floor portion 10B is constructed.
[0032]
(4) A balcony floor component including a balcony floor component such as a joist 32, balcony floor base materials 33 and 33a, and a floor covering material 35 is provided on the pillar-omitted building unit 12b of the lower floor portion 10A.
[0033]
In addition, removal of the temporary pillar 14 ′ can be appropriately performed after the reinforcing beam 13 is attached. In addition, the joist 32 can be fixed in advance on the ceiling beam 16 of the pillar omitted building unit 12b at the factory, and the joist 32 can be assembled on the ceiling beam 16 at the site instead.
[0034]
In the unit building 10 according to the present invention, the reinforcing beam 13 has a flange portion 21 and is given a T-shaped cross-sectional shape by the flange portion. Since the flange portion 21 is located above the upper surface of the joist 32, there is no problem of interference with the balcony floor constituent members 32, 33, 33a, 34, and 35 including the joist 32.
[0035]
Therefore, it is possible to increase the cross-sectional area of the reinforcing beam 13 without causing a problem of interference with the balcony floor components, thereby increasing the cross-sectional coefficient. A unit building 10 can be provided.
[0036]
In addition, by adjusting the partial thickness of the floor covering material 35, the step Δ caused by the flange portion 21 of the reinforcing beam 13 can be eliminated, and a flat balcony floor surface 35b can be obtained.
[0037]
It is possible to form a flat flange portion on the same plane as the straight portion 21b without providing the curved portion 21a on the flange portion 21 of the reinforcing beam 13. However, as shown in the figure, by forming the curved portion 21b rising from the straight portion 21b on the flange portion 21, the section modulus of the reinforcing beam 13 can be further increased.
[0038]
<Embodiment 2>
FIG. 5 shows an example in which a reinforcing beam 13 is applied to a unit building 50 using a sub-building unit 11 '. In the unit building 50, as in the unit building 10, the downstairs portion 10A is constructed by four pillar-omitted building units 12 (12a, 12a, 12b, 12b), and two standard building units 11 and two sub-building units 11 'Constructs the upper floor portion 10B.
[0039]
The sub-building unit 11 ′ is the same as the standard building unit 11 except that the length of the floor beam 15 and the ceiling beam 16 arranged along the depth direction is half those of the standard building unit 11. is there.
[0040]
The sub-building unit 11 'is mounted on the column-omitted building unit 12b, and a balcony is formed on the ceiling beam 16 protruding from the sub-building unit 11' of the column-omitted building unit 12b.
[0041]
FIG. 6 is a drawing similar to FIG. 2 shown in the first embodiment. In the example shown in FIG. 6, handrail fittings 36a and 36b for receiving balcony handrails are provided on the ceiling beam 16 of the pillar-omitted building unit 12b. In addition, the upper edge portion 20a of the reinforcing beam 13 extends from the ceiling beam 16 of the one-sided pillar-less building unit 12a, which is one end of the web portion 20, to the substantially central portion of the ceiling beam 16 of the other-side pillar-less building unit 12b. Finally, a flange portion 21 is formed corresponding to the balcony forming area portion of the ceiling beam 16.
[0042]
In the unit building 50 according to the present invention, although not shown, the flange portion 21 of the reinforcing beam 13 forming a T-shaped cross-sectional shape is higher than the upper surface of the joist 32, similarly to the reinforcing beam 13 in the unit building 10. Located in. Therefore, as in the unit building 10, by increasing the cross-sectional area of the reinforcing beam 13 without causing a problem of interference with the balcony floor components, the cross-sectional coefficient can be increased, and the strength is excellent. A unit building 50 with a balcony is provided.
[0043]
In the above description, an example is shown in which the reinforcing beam according to the present invention is applied between the ceiling beams of the column-omitted building unit. However, the present invention is not limited to this. It can be applied as appropriate between beams.
[0044]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the cross-sectional shape in the lower-floor building unit side part of the other side which becomes the balcony side of a reinforcing beam by raising the structure of a reinforcing beam, the web part attached to a ceiling beam, The upper end has a substantially T-shape consisting of flange portions projecting to both sides of the web portion, and the flange portion is located above the upper surface of the balcony floor joist, thereby reducing the problem of interference between the reinforcing beams and the balcony floor joist. Since the section modulus of the reinforcing beam can be increased without inviting, the strength of the reinforcing beam can be increased.
[0045]
In addition, the step due to the reinforcing beam can be absorbed by the floor covering material formed on the floor surface of the balcony floor, whereby a balcony having a flat finished surface with excellent strength can be formed.
[Brief description of the drawings]
FIG. 1 is a perspective view schematically showing a first embodiment of a unit building according to the present invention.
FIG. 2 is an enlarged sectional view showing a part of the unit building shown in FIG. 1;
FIG. 3 is a sectional view taken along the line III-III shown in FIG. 2;
FIG. 4 is a drawing similar to FIG. 3 showing a relationship between a reinforcing beam and a joist according to the present invention.
FIG. 5 is a perspective view schematically showing a unit building according to a second embodiment of the present invention.
FIG. 6 is a view similar to FIG. 2, showing a part of the unit building shown in FIG. 5 in an enlarged manner.
[Explanation of symbols]
10, 50 Unit building 11, 11 ', 12 (12a, 12b) Building unit 13 Reinforcement beam 14 Column 15 Floor beam 16 Ceiling beam 20 Web part 21 Flange part 32 Joist 35 Floor covering material

Claims (4)

A unit composed of a plurality of building units in which columns, floor beams, and ceiling beams are joined in a box shape, and constructed by mounting an upper-floor building unit on a part of a plurality of lower-floor building units. In the building
Reinforcing beams are provided from the side of the ceiling beam on one side to the side of the other ceiling beam located in the same plane as the lower-floor building units arranged adjacent to each other,
An upper-floor building unit is mounted on one lower-floor building unit, and a balcony floor joist is provided on the other lower-floor building unit,
The cross-sectional shape of the reinforcing beam on the other side of the lower-floor building unit side includes a web portion attached to the ceiling beam and a flange portion projecting to both sides of the web portion at an upper edge of the web portion. It has an almost T shape,
The unit building, wherein the flange portion is located above an upper surface of the floor joist of the balcony. The flange portion of the reinforcing beam is located at substantially the same height as a balcony floor base material formed on the balcony floor joist, and corresponds to the flange portion located above the upper surface of the balcony floor joist. 2. The unit building according to claim 1, wherein the step formed on the balcony floor substrate is eliminated by flattening the floor covering material formed on the balcony floor substrate. 3. The one-side lower-floor building unit side portion of the reinforcing beam includes a web portion continuous with the web portion, and the one-side lower-floor building unit side portion and the other-side lower-floor building unit of the reinforcing beam. The unit building according to claim 1, wherein the cross-sectional shapes of the side portions are different from each other. The construction method for a unit building according to claim 1,
Installing the adjacent lower floor building unit,
The reinforcing beam is attached to a ceiling beam of a lower-floor building unit,
The upper floor building unit is mounted on the lower floor building unit on one side,
A method for constructing a unit building, comprising providing a balcony floor component on a lower-floor building unit on the other side.

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