JP4104246B2 - Unit building and its construction method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a unit building and a construction method thereof.
[0002]
[Prior art]
In a unit building constructed by adjoining multiple building units on the left, right, top and bottom, the upper floor building unit must be the same size as the lower floor building unit and the same column position. Has been. For this reason, when trying to make the long side of the upper floor building unit orthogonal to the long side of the lower floor building unit, the lower floor has the same orientation as the upper floor building unit as described in JP-A-7-80228 It is necessary to prepare another lower floor building unit (FIG. 10). In FIG. 10A, 1A to 1C are lower-floor building units, 2 is an upper-floor building unit, and the upper-floor building unit 2 is mounted on the lower-floor building unit 1C. The building units 1 </ b> A to 1 </ b> C and 2 are box-shaped frame structures having columns 3, floor beams 4, and ceiling beams 5.
[0003]
[Problems to be solved by the invention]
However, the prior art has the following problems.
(1) In order to make the long side of the upper-floor building unit 2 orthogonal to the long sides of the lower-floor building units 1A and 1B, it is necessary to provide the lower-floor building unit 1C, which increases the number of units used and increases costs. Become.
[0004]
(2) Not only the lower-floor building units 1A and 1B but also the lower-floor building units 1C are arranged on the fixed floor area of the lower floor, the lower-floor building units 1A and 1B are located in the center of the three unit spaces. The pillar 3 stands up (FIG. 10B) and does not lead to obtaining a continuous wide unit space.
[0005]
When the long side of the upper building unit 2 is orthogonal to the long sides of the lower building units 1A and 1B, the upper building unit 2 is placed on the lower building units 1A and 1B as shown in FIG. Even in such a case, in this case, the ceiling beam 5 of the lower-floor building units 1A, 1B crosses the floor of the upper-floor building unit 2, and the continuous space (staircase, ventilator) on the upper and lower floors. Room) is restricted.
[0006]
The object of the present invention is to reduce the number of units used on the lower floor and build a wide continuous space between the upper and lower floors when constructing a unit building in which the long side of the upper floor building unit is orthogonal to the long side of the lower floor building unit. It is to form a space.
[0007]
[Means for Solving the Problems]
The present invention according to claim 1 is characterized in that a plurality of lower-floor building units are installed with their long sides juxtaposed, and one or more upper-floor building units are arranged so as to straddle the plurality of lower-floor building units. It is a unit building that is installed and has the long side of the upper floor building unit orthogonal to the long side of the lower floor building unit, and the lower floor building unit and the upper floor building unit are framed with columns and floor beams, respectively. It is provided as a component and does not have a ceiling beam as a framework component. The upper ends of adjacent columns of adjacent lower-floor building units are rigidly joined to the wide joint box provided on the floor beam on the long side of the upper-floor building unit or the roof beam of the roof frame. The
[0008]
The building according to claim 2 further includes mounting the plurality of upper floor building units on the plurality of lower floor building units so that their long sides are juxtaposed on the plurality of lower floor building units in the present invention according to claim 1. The adjacent floor beams of adjacent upper-floor building units are rigidly joined together.
[0009]
The building according to claim 3 is a method of constructing a unit building according to claim 2, wherein each of the adjacent upper floor building units is installed on a plurality of lower floor building units. In the state where each adjacent upper-floor building unit is supported by a temporary pillar that is raised in the middle of the floor beam in advance, the floor beams of these upper-floor building units are rigidly joined together, and then the temporary column is removed. It is a thing.
[0010]
According to a fourth aspect of the present invention, in the present invention according to the first aspect, the upper floor building unit and the roof frame are mounted on the plurality of lower floor building units so as to be juxtaposed with each other. The floor beam of the floor building unit and the roof frame are rigidly joined.
[0011]
The building according to claim 5 is a method for constructing a unit building according to claim 4, wherein each of the adjacent upper floor building unit and roof frame is installed on a plurality of lower floor building units. With the temporary pillars set up in the middle of the floor beams of the building unit supporting each of the adjacent upper floor building units and the roof frame, the floor beams and roof frames of the upper floor building units are rigidly joined. Then, the temporary pillar was removed.
[0012]
[Action]
According to the first aspect of the present invention, the following effects (1) to (3) are obtained.
(1) Since the upper-floor building unit is mounted so as to straddle a plurality of adjacent lower-floor building units, and the long side of the upper-floor building unit is arranged orthogonally to the long side of the lower-floor building unit, It is not necessary to add another lower-floor building unit in the same direction as the upper-floor building unit on the lower floor, and the number of units used can be reduced.
[0013]
(2) When installing a plurality of lower-floor building units described above on a fixed site area on the lower floor, the lower-floor building units are arranged side by side with their lower sides. It is possible to avoid a pillar standing in the center of the unit space on the floor, and to form a continuous large unit space.
[0014]
(3) Since the lower-floor building unit does not have a ceiling beam, when the upper-floor building unit is placed orthogonally on multiple adjacent lower-floor building units, the lower-floor building is located within the floor of the upper-floor building unit. There is no ceiling beam of the unit, and a continuous space on the upper and lower floors (staircase, atrium, etc.) can be secured.
[0015]
The present invention according to claim 2 has the following effect (4).
(4) On the lower floor building unit, the floor beams of the adjacent upper floor building units are rigidly joined to each other, so that a middle column for the upper floor building unit, etc. There is no need to provide a reinforcing member, and a wide opening without a reinforcing member such as a stud can be secured in the lower floor building unit.
[0016]
According to the third aspect of the present invention, there is the following effect (5).
(5) When installing adjacent upper-floor building units on multiple adjacent lower-floor building units in the unit building of (4) above, the floor beams of adjacent upper-floor building units are rigidly joined together. Until then, by supporting these upper-floor building units with temporary pillars standing on the lower-floor building units, the assembly dimensional accuracy and structural strength of the unit buildings can be ensured.
[0017]
According to the present invention of claim 4, the following effect (6) is obtained.
(6) On the lower floor building unit, the upper floor building unit and the roof frame are arranged in the middle of the floor of the lower floor building unit by rigidly joining the floor beam of the adjacent upper floor building unit and the roof frame. Therefore, it is not necessary to provide a reinforcing member such as a stud, and a wide opening without a reinforcing member such as a stud can be secured in the lower floor building unit.
[0018]
According to the fifth aspect of the present invention, the following effect (7) is obtained.
(7) In the unit building described in (6) above, when installing adjacent upper-floor building units and roof frames on multiple adjacent lower-floor building units, the floor beams of adjacent upper-floor building units Since the roof frame is rigidly connected, the assembly dimensional accuracy and structural strength of the unit building can be ensured by supporting the upper floor building unit and the roof frame with a temporary pillar standing on the lower floor building unit.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
1A and 1B show a first embodiment, FIG. 1A is a perspective view showing a unit separation state, FIG. 1B is a perspective view showing a unit connection state, and FIG. 2 is a connection structure of adjacent upper-floor building units (FIG. 1). II)), (A) is a perspective view, (B) is a cross-sectional view, and FIG. 3 shows the joint structure (III part in FIG. 1) of the floor beam of the upper floor building unit and the column of the lower floor building unit. , (A) is a perspective view, (B) is a cross-sectional view, FIG. 4 shows a second embodiment, (A) is a perspective view showing a unit separation state, and (B) is a perspective view showing a unit connection state, FIG. 5 is a perspective view showing a joint structure (V portion in FIG. 4) of a floor beam and a roof frame of an upper-floor building unit, FIG. 6 shows a third embodiment, and (A) is a perspective view showing a unit separation state. B) is a perspective view showing a unit joined state, FIG. 7 shows a fourth embodiment, (A) is a perspective view showing a unit separated state, and (B) is a unit view. 8 is a perspective view showing a building unit, FIG. 9 is a perspective view showing another example of the building unit, FIG. 10 shows a conventional example, (A) is a perspective view, and (B). ) Is a plan view, and FIG. 11 is a perspective view showing a comparative example.
[0020]
First Embodiment (FIGS. 1 to 3 and FIG. 8)
The unit building 10 of the present invention is composed of a plurality of building units, and at least a part of the unit building 10 uses a building unit 20 as shown in FIG.
As shown in FIG. 8, the building unit 20 includes a column 21 made of a square steel pipe or the like and a floor beam 22 made of a C-shaped steel with a lip or the like as a frame component, and does not have a ceiling beam as a frame component. Specifically, the building unit 20 is rigidly joined by welding (or bolting) a joint box 23 to the lower ends of the columns 21 disposed at each of the four corners, and the floor box is attached to the joint box 23. 22 is a box-shaped frame structure that is rigidly joined by welding (or bolting) the end portions thereof, and includes a ceiling panel 24 at the upper end portion of the column 21.
[0021]
However, a part of the unit building 10 of the first embodiment is constituted by two lower-floor building units 20A and two upper-floor building units 20B, as shown in FIG. The lower floor building unit 20A is basically the same as the building unit 20 of FIG. The upper floor building unit 20 </ b> B is basically the same as the building unit 20 of FIG. 8, but includes a wide joint box 25 in the middle portion of one floor beam 22 in the longitudinal direction, and floors on both end surfaces of the wide joint box 25. The end of the beam 22 is welded (or bolted) and rigidly joined (FIG. 3).
[0022]
That is, in the unit building 10 of FIG. 1, two lower building units 20A are installed with their long sides juxtaposed, and two such that they extend over the two lower building units 20A. The upper floor building unit 20B is mounted, and the long side of the upper floor building unit 20B is arranged orthogonally to the long side of the lower floor building unit 20A.
[0023]
At this time, the structure and construction procedure of the unit building 10 are as follows.
(1) Two temporary pillars 26 are set up in the middle of the floor beam 22 on the long side of the lower-floor building unit 20A at the factory production stage.
[0024]
(2) Install the two lower-floor building units 20A side by side.
[0025]
(3) Mount the two upper-floor building units 20B so as to straddle the two lower-floor building units 20A. And the long side of upper floor building unit 20B is orthogonally arranged to the long side of lower floor building unit 20A. At this time, the joint box 23 at the two corners of the upper floor building unit 20B is placed and supported on the pillar 21 of the lower floor building unit 20A, and the joint box 23 at the other two corners is a temporary pillar 26 of the lower floor building unit 20A. It is supported on.
[0026]
(4) In each of the two upper-floor building units 20B, the joint boxes 23 at the two corners of the upper-floor building unit 20B supported by the pillars 21 of the lower-floor building unit 20A are connected to the lower-floor building unit 20A. The column 21 is rigidly joined with a bolt. Moreover, the upper end part of the adjacent column 21 of the adjacent lower floor building unit 20A is connected to the above-mentioned wide joint box 25 provided in the middle part of the floor beam 22 in the longitudinal direction of the upper floor building unit 20B by a bolt 25A. Rigidly join (FIG. 3). In FIG. 3, 25B is a reinforcing plate.
[0027]
(5) A spacer 27 is sandwiched between adjacent joint boxes 23, 23 of adjacent upper floor building units 20B, and both joint boxes 23 are rigidly connected by bolts 23A. As a result, adjacent upper floor building units The floor beams 22 adjacent to each other in 20B are rigidly joined together (FIG. 2). In FIG. 2, 23B is a reinforcing plate.
[0028]
(6) Remove the temporary pillar 26 of the lower floor building unit 20A.
Therefore, according to the present embodiment, there are the following operations.
(1) An upper-floor building unit 20B is mounted so as to straddle a plurality of adjacent lower-floor building units 20A, and the long side of the upper-floor building unit 20B is arranged orthogonally to the long sides of the lower-floor building unit 20A. Therefore, it is not necessary to add another lower-floor building unit 20A in the same direction as the upper-floor building unit 20B on the lower floor, and the number of units used can be reduced.
[0029]
(2) When installing a plurality of the lower-floor building units 20A described above on a certain site area on the lower floor, the lower-floor building units 20A are juxtaposed with their long sides. It is possible to avoid a pillar standing in the center of the unit space of the lower floor to be formed, and a continuous wide unit space can be formed.
[0030]
(3) Since the lower-floor building unit 20A does not have a ceiling beam, when the upper-floor building unit 20B is orthogonally arranged on a plurality of adjacent lower-floor building units 20A, the floor of the upper-floor building unit 20B Therefore, there is no ceiling beam of the lower floor building unit 20A, and a continuous space (staircase, vent, etc.) on the upper and lower floors can be secured.
[0031]
(4) On the lower floor building unit 20A, the floor beams 22 of the adjacent upper floor building units 20B are rigidly joined to each other so that the upper floor building unit 20B is placed in the middle of the floor beams 22 of the lower floor building unit 20A. Therefore, it is not necessary to provide a reinforcing member such as a stud, and a wide opening without a reinforcing member such as a stud can be secured in the lower floor building unit 20A.
[0032]
(5) When installing the adjacent upper floor building unit 20B on the adjacent lower floor building unit 20A in the unit building of the above (4), the floor beam 22 of the adjacent upper floor building unit 20B. By supporting these upper-floor building units 20B with temporary pillars 26 standing on the lower-floor building unit 20A until they are rigidly joined together, the assembly dimensional accuracy and structural strength of the unit buildings can be ensured.
[0033]
Second Embodiment (FIGS. 4 and 5)
As shown in FIG. 4, a part of the unit building 10 of the second embodiment is divided into two lower-floor building units 20A, one upper-floor building unit 20B, and one roof frame 30 (as balcony floor frames). Also function). The lower floor building unit 20A is basically the same as the building unit 20 of FIG. The upper floor building unit 20 </ b> B is basically the same as the building unit 20 of FIG. 8, but includes a wide joint box 25 in the middle portion of one floor beam 22 in the longitudinal direction, and floors on both end surfaces of the wide joint box 25. The end of the beam 22 is welded (or bolted) (FIG. 3).
[0034]
The roof frame 30 is a frame structure in which three roof beams 31 made of C-shaped steel with a lip or the like are joined in a U shape via a joint box 32, and forms the roof or balcony floor of the unit building 10. The roof frame 30 includes a wide joint box 33 in the middle of one roof beam 31. The roof beam 31 is rigidly joined by welding (or bolt joining) to the joint boxes 32 and 33.
[0035]
That is, in the unit building 10 of FIG. 1, two lower-floor building units 20A are installed with their long sides juxtaposed, and one unit extends over the two lower-floor building units 20A. The upper floor building unit 20B and one roof frame 30 are mounted, and the long side of the upper floor building unit 20B is arranged orthogonally to the long side of the lower floor building unit 20A.
[0036]
At this time, the structure and construction procedure of the unit building 10 are as follows.
(1) Two temporary pillars 26 are set up in the middle of the floor beam 22 on the long side of the lower-floor building unit 20A at the factory production stage.
[0037]
(2) Install the two lower-floor building units 20A side by side.
[0038]
(3) One upper building unit 20B and one roof frame 30 are mounted so as to straddle over the two lower building units 20A. And the long side of upper floor building unit 20B is orthogonally arranged to the long side of lower floor building unit 20A. At this time, the joint box 23 at the two corners of the upper building unit 20B is placed and supported on the pillar 21 of the lower building unit 20A, and the joint box 23 at the other two corners is a temporary pillar 26 of the lower building unit 20A. It is supported on. Also, the joint box 32 at the two corners of the roof frame 30 is supported by being supported on the pillar 21 of the lower building unit 20A, and the free ends of the two roof beams 31 of the roof frame 30 are temporarily attached to the lower building unit 20A. It is supported on the pillar 26.
[0039]
(4) In the upper-floor building unit 20B, the pillar 21 of the lower-floor building unit 20A is bolted to the joint box 23 at the two corners of the upper-floor building unit 20B supported by the pillar 21 of the lower-floor building unit 20A. Rigidly join. Moreover, the upper end part of the adjacent column 21 of the adjacent lower floor building unit 20A is connected to the above-mentioned wide joint box 25 provided in the middle part of the floor beam 22 in the longitudinal direction of the upper floor building unit 20B by a bolt 25A. Rigidly join (FIG. 3). Moreover, the upper end part of the adjacent column 21 of the adjacent lower floor building unit 20A is rigidly joined to the wide joint box 33 provided in the middle part of one roof beam 31 of the roof frame 30 with a bolt.
[0040]
(5) Between the adjacent upper-floor building unit 20B and the roof frame 30, a joint beam 28 is welded (or bolted) to the joint box 23 of the upper-floor building unit 20B. The free end of the roof beam 31 of the roof frame 30 to be abutted with the upper frame is sandwiched between upper and lower C-shaped joint pieces 34 and 35, and the joint piece 34 and the joint beam 28 and the upper flange of the roof beam 31 are bolted 34A. The joint piece 35, the joint beam 28, and the lower flange of the roof beam 31 are rigidly joined with the bolt 35A. As a result, the floor beam 22 and the roof frame 30 of the adjacent upper-floor building unit 20B are rigidly joined. (FIG. 5).
[0041]
(6) Remove the temporary pillar 26 of the lower floor building unit 20A.
Therefore, according to the present embodiment, there are the following operations.
(1) An upper-floor building unit 20B is mounted so as to straddle a plurality of adjacent lower-floor building units 20A, and the long side of the upper-floor building unit 20B is arranged orthogonally to the long sides of the lower-floor building unit 20A. Therefore, it is not necessary to add another lower-floor building unit 20A in the same direction as the upper-floor building unit 20B on the lower floor, and the number of units used can be reduced.
[0042]
(2) When installing a plurality of the lower-floor building units 20A described above on a certain floor area of the lower floor, the lower-floor building units 20A are juxtaposed with their long sides. A pillar can be prevented from standing in the center of the unit space of the lower floor to be formed, and a continuous wide unit space can be formed.
[0043]
(3) Since the lower-floor building unit 20A does not have a ceiling beam, when the upper-floor building unit 20B is orthogonally arranged on a plurality of adjacent lower-floor building units 20A, the floor of the upper-floor building unit 20B Therefore, there is no ceiling beam of the lower floor building unit 20A, and a continuous space (staircase, vent, etc.) on the upper and lower floors can be secured.
[0044]
(4) On the lower floor building unit 20A, the floor beam 22 and the roof frame 30 of the adjacent upper floor building unit 20B are rigidly joined, so that the upper floor is placed in the middle of the floor surface of the lower floor building unit 20A. There is no need to provide a reinforcing member such as a stud for the building unit 20B and the roof frame 30, and a wide opening without a reinforcing member such as a stud can be secured in the lower floor building unit 20A.
[0045]
(5) When installing the adjacent upper floor building unit 20B and the roof frame 30 on a plurality of adjacent lower floor building units 20A in the unit building of the above (4), the adjacent upper floor building units 20B Since the floor beam 22 and the roof frame 30 are rigidly joined, by supporting the upper-floor building unit 20B and the roof frame 30 with the temporary pillars 26 standing on the lower-floor building unit 20A, the assembly dimensional accuracy of the unit building, Structural strength can be secured.
[0046]
(Third Embodiment) (FIG. 6)
Part of the unit building 10 of the third embodiment is, as shown in FIG. 6, two lower building units 20A, one upper building unit 20B, and two roof frames 30 (as balcony floor frames). Also function). The lower floor building unit 20A is basically the same as the building unit 20 of FIG. The upper floor building unit 20B is basically the same as the building unit 20 of FIG.
[0047]
The roof frame 30 is a frame structure joined in a U shape via three roof beams 31 made of C-shaped steel with a lip and a joint box 32, and forms the roof or balcony floor of the unit building 10. The roof frame 30 includes a wide joint box 33 in the middle of one roof beam 31. The roof beam 31 is rigidly joined by welding (or bolt joining) to the joint boxes 32 and 33.
[0048]
That is, in the unit building 10 of FIG. 1, two lower-floor building units 20A are installed with their long sides juxtaposed, and one unit extends over the two lower-floor building units 20A. The upper-floor building unit 20B and two roof frames 30 arranged on both sides of the upper-floor building unit 20B are mounted, and the long side of the upper-floor building unit 20B is orthogonal to the long side of the lower-floor building unit 20A. It is arranged and configured.
[0049]
At this time, the structure and construction procedure of the unit building 10 are as follows.
(1) Four temporary pillars 26 are set up at the factory production stage in the middle part of the floor beam 22 on the long side of the lower-floor building unit 20A.
[0050]
(2) Install the two lower-floor building units 20A side by side.
[0051]
(3) One upper-floor building unit 20B and two roof frames 30 arranged on both sides of the upper-floor building unit 20B are mounted so as to straddle over the two lower-floor building units 20A. And the long side of upper floor building unit 20B is orthogonally arranged to the long side of lower floor building unit 20A. At this time, the joint boxes 23 at the four corners of the upper floor building unit 20B are supported by being placed on the temporary pillars 26 of the lower floor building unit 20A. Further, on both sides of the upper floor building unit 20B, the joint boxes 32 at the two corners of the roof frame 30 are supported by being supported on the pillars 21 of the lower floor building unit 20A, and the free ends of the two roof beams 31 of the roof frame 30 are supported. The part is supported by being placed on the temporary pillar 26 of the lower-floor building unit 20A.
[0052]
(4) On both sides of the upper floor building unit 20B, the pillars 21 of the lower floor building unit 20A are rigidly joined to the joint boxes 32 of the roof frame 30 supported by the pillars 21 of the lower floor building unit 20A with bolts. Moreover, the upper end part of the adjacent column 21 of the adjacent lower floor building unit 20A is rigidly joined to the wide joint box 33 provided in the middle part of one roof beam 31 of the roof frame 30 with a bolt.
[0053]
(5) A joint beam 28 is welded (or bolted) to the floor beam 23 of the upper floor building unit 20B between the adjacent upper floor building unit 20B and the roof frames 30 and 30, respectively. The small beam 28 and the free end portion of the roof beam 31 of the roof frame 30 that abuts the small beam 28 are sandwiched between upper and lower C-shaped joint pieces 34 and 35, and the joint piece 34, the joint beam 28, and the roof beam 31 The upper flange is rigidly joined with the bolt 34A, and the lower flange of the joint piece 35 and the joint beam 28 and the roof beam 31 is rigidly joined with the bolt 35A. The frame 30 is rigidly joined (FIG. 5).
[0054]
(6) Remove the temporary pillar 26 of the lower floor building unit 20A.
[0055]
Therefore, according to the present embodiment, there are the following operations.
(1) An upper-floor building unit 20B is mounted so as to straddle a plurality of adjacent lower-floor building units 20A, and the long side of the upper-floor building unit 20B is arranged orthogonally to the long sides of the lower-floor building unit 20A. Therefore, it is not necessary to add another lower-floor building unit 20A in the same direction as the upper-floor building unit 20B on the lower floor, and the number of units used can be reduced.
[0056]
(2) When installing a plurality of the lower-floor building units 20A described above on a certain floor area of the lower floor, the lower-floor building units 20A are juxtaposed with their long sides. It is possible to avoid a pillar standing in the center of the unit space of the lower floor to be formed, and a continuous wide unit space can be formed.
[0057]
(3) Since the lower-floor building unit 20A does not have a ceiling beam, when the upper-floor building unit 20B is orthogonally arranged on a plurality of adjacent lower-floor building units 20A, the floor of the upper-floor building unit 20B Therefore, there is no ceiling beam of the lower floor building unit 20A, and a continuous space (staircase, vent, etc.) on the upper and lower floors can be secured.
[0058]
(4) On the lower floor building unit 20A, the floor beam 22 and the roof frame 30 of the adjacent upper floor building unit 20B are rigidly joined, so that the upper floor is placed in the middle of the floor surface of the lower floor building unit 20A. There is no need to provide a reinforcing member such as a stud for the building unit 20B and the roof frame 30, and a wide opening without a reinforcing member such as a stud can be secured in the lower floor building unit 20A.
[0059]
(5) When installing the adjacent upper floor building unit 20B and the roof frame 30 on a plurality of adjacent lower floor building units 20A in the unit building of the above (4), the adjacent upper floor building units 20B Since the floor beam 22 and the roof frame 30 are rigidly joined, by supporting the upper-floor building unit 20B and the roof frame 30 with the temporary pillars 26 standing on the lower-floor building unit 20A, the assembly dimensional accuracy of the unit building, Structural strength can be secured.
[0060]
(Fourth Embodiment) (FIG. 7)
The fourth embodiment is different from the second embodiment (FIG. 4) in that the roof frame 30 installed adjacent to the upper floor building unit 20B at the upper part of two adjacent lower floor building units 20A. Instead of the roof frame 40, an overhang 40A is additionally provided.
[0061]
That is, the roof frame 40 is different from the roof frame 30 in the joint boxes 32 provided at both ends of the central roof beam 31 among the three roof beams 31 having a U-shape. That is, the overhanging beams 41 and 41 on both sides of the three overhanging beams 41 constituting the overhang portion 40A are welded (or bolted) to be rigidly joined. The three overhanging beams 41 constituting the overhang portion 40A are welded (or bolted) to the joint box 42 to constitute a U-shaped frame structure.
[0062]
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration of the present invention is not limited to this embodiment, and there are design changes and the like without departing from the gist of the present invention. Is included in the present invention.
[0063]
For example, the building unit 20 (20A, 20B) to which the present invention is applied may be the building unit 50 shown in FIG. The building unit 50 in FIG. 9 has a joint box 23 provided at a joint portion between the column 21 and the floor beam 22 in the building unit 20 as an outer diaphragm 51. The outer diaphragm 51 has a hollow octagonal shape, for example, and the column 21 is inserted into the center hole and welded, and the floor beam 22 is abutted and welded to the outer surface. The joint box 32 and the like for joining the roof beams 31 of the roof frame 30 can also be changed to an outer diaphragm similar to the outer diaphragm 51 described above.
[0064]
【The invention's effect】
As described above, according to the present invention, when constructing a unit building in which the long side of the upper floor building unit is orthogonal to the long side of the lower floor building unit, the number of units used on the lower floor is reduced, and A wide continuous space can be formed between them.
[Brief description of the drawings]
FIG. 1 shows a first embodiment, (A) is a perspective view showing a unit separation state, and (B) is a perspective view showing a unit connection state.
2 shows a joint structure (II part in FIG. 1) of adjacent upper-floor building units, (A) is a perspective view, and (B) is a cross-sectional view.
FIGS. 3A and 3B show a joint structure (III part in FIG. 1) of a floor beam of an upper floor building unit and a column of a lower floor building unit, where FIG. 3A is a perspective view and FIG. 3B is a cross-sectional view.
4A and 4B show a second embodiment, in which FIG. 4A is a perspective view showing a unit separation state, and FIG. 4B is a perspective view showing a unit connection state.
FIG. 5 is a perspective view showing a joint structure (V portion in FIG. 4) of a floor beam and a roof frame of an upper-floor building unit.
6A and 6B show a third embodiment, in which FIG. 6A is a perspective view showing a unit separation state, and FIG. 6B is a perspective view showing a unit connection state.
7A and 7B show a fourth embodiment, in which FIG. 7A is a perspective view showing a unit separation state, and FIG. 7B is a perspective view showing a unit connection state.
FIG. 8 is a perspective view showing a building unit.
FIG. 9 is a perspective view showing another example of a building unit.
FIG. 10 shows a conventional example, (A) is a perspective view, and (B) is a plan view.
FIG. 11 is a perspective view showing a comparative example.
[Explanation of symbols]
10 unit building
20A Lower floor building unit
20B Upper floor building unit
21 pillars
22 Floor beams
30, 40 Roof frame

Claims (5)

Multiple lower-floor building units are installed side by side, and one or more upper-floor building units are mounted so as to straddle the multiple lower-floor building units. Is a unit building that is arranged orthogonally to the long side of the lower floor building unit,
The lower story building unit and the upper story building unit are each provided with pillars and floor beams as structural framing members state, and are not without a ceiling beams as structural framing members,
The upper end of the phase adjacent pillars Aitonaru under story building unit, the upper story building unit of the long side of the floor beams or units building a wide joint box provided in the roof beams Ru rigidly joined roof frame.   A plurality of the upper floor building units are mounted on the plurality of lower floor building units so that their long sides are juxtaposed, and the adjacent floor beams of adjacent upper floor building units are rigidly joined to each other. The unit building according to claim 1. A method for constructing a unit building according to claim 2,
When installing each adjacent upper-floor building unit on top of multiple lower-floor building units, each of the adjacent upper-floor building units is placed on a temporary column that is set up in advance in the middle of the floor beam of the lower-floor building unit. A method of building a unit building in which the floor beams of the upper floor building units are rigidly joined to each other and the temporary pillar is removed.   The upper floor building unit and the roof frame are mounted on the plurality of lower floor building units so as to be juxtaposed with each other, and the floor beams and roof frames of adjacent upper floor building units are rigidly joined. The listed unit building. A method for constructing a unit building according to claim 4,
When installing adjacent upper-floor building units and roof frames on multiple lower-floor building units, adjacent upper-floor buildings are placed on temporary pillars that are set up in advance in the middle of the floor beams of the lower-floor building units. A method of constructing a unit building in which a floor beam and a roof frame of the upper-floor building unit are rigidly joined with the unit and the roof frame supported, and then a temporary column is removed.

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