JP4328455B2 - Unit building - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a plurality of box-shaped building units in which one of the four columns is omitted in order to form a large space without columns, and a reinforcing beam is provided between adjacent building units. Related to unit buildings.
[0002]
[Background]
Conventionally, a unit type building constructed by connecting a plurality of box-shaped building units manufactured in a factory at a construction site has been used.
As a building unit forming this unit type building, one having a box-shaped frame in which upper and lower ends of pillars at four corners are connected by a ceiling beam and a floor beam is generally used. The frame has a ceiling surface material supported by the ceiling beam, an interior material such as a floor surface material supported by the floor beam and a partition wall partitioning the room, and an exterior material such as an outer wall formed of lightweight cellular concrete. It is assembled with.
According to such a unit-type building, after the building unit is manufactured by performing the attaching work of the interior material and the exterior material to the box-shaped frame in the factory, the building unit is simply transported to the site and the connecting work is performed. Since the building is completed, the work on the construction site is greatly reduced and the construction can be completed in a short period of time.
[0003]
On the other hand, in a unit type building (hereinafter referred to as a laminated unit type building) formed by stacking building units up and down, a large space without a pillar such as a large living room may be formed inside the lower building unit. is there. In this case, for example, one of the four pillars provided on the frame of a normal building unit is omitted to form a large space building unit, and the corner of the large space building unit is omitted. A large space is formed by bringing together the four.
At this time, since one pillar is omitted, the rigidity of the large space building unit is reduced. Therefore, a normal two span is provided between the pillars arranged on both sides of the corner where the pillar is omitted. A reinforcing beam having a length of minutes is provided to compensate for the rigidity (see Japanese Patent Application Laid-Open No. 8-277580).
[0004]
[Problems to be solved by the invention]
According to the invention disclosed in Japanese Patent Application Laid-Open No. 8-277580, a corner where a column is omitted by connecting a reinforcing beam to the lower building unit or both the lower building unit and the upper building unit. Although the corners are reinforced, there is a problem due to vibration generated in the upper building unit because the load of the upper building unit acts on the ceiling beam of the lower building unit.
In other words, when the lower building unit is formed of a large space building unit, the corner of the lower building unit with the pillars omitted is the approximate center of the ceiling. As a result of the propagation of the vibration to the lower unit, the corners from which the columns are omitted become abdomen, and the noise problem becomes significant.
[0005]
An object of the present invention is to provide a unit building having a large space inside and having a reinforcing beam capable of suppressing propagation of vibration generated on the upper floor of the large space.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the unit type building of the present invention adopts the following configuration.
The present invention will be described with reference to the drawings. A unit building 10 according to claim 1 includes a plurality of lower building units 20 arranged with corners being brought together and above these lower building units. A plurality of upper building units 30 stacked, and at least a plurality of the lower building units among the lower building unit and the upper building unit have ceiling beams 42 and floor beams at the upper and lower ends of the pillars 41 at the four corners. 43, a normal building unit 20A, 30A having a frame 40 formed in a box shape, is constructed by a large space building unit 20B in which one pillar is omitted, and the large space building unit A unit type building in which corners from which columns are omitted are arranged close to each other and a reinforcing beam 70 is provided to reinforce the corners, and the reinforcing beams are omitted from the columns. A beam main body 71 spanned between columns disposed on both sides of the corner portion, and a connection portion 73 provided on the beam main body, the connection portion excluding both ends connected to the column. It is connected to the upper building unit at an arbitrary position and is separated from the lower building unit.
[0007]
According to the present invention, the reinforcing beam is bridged between the columns arranged on both sides of the corner portion where the column is omitted, and the reinforcing beam supports the upper building unit via the connecting portion, that is, the upper building. Since the load of the unit does not act on the lower building unit, a large space can be formed in the lower building unit. Furthermore, since the connecting portion is separated from the lower building unit, even if vibration occurs in the upper building unit, the vibration does not propagate to the ceiling beam of the lower building unit via the reinforcing beam. The ceiling surface of the space does not vibrate and noise problems do not occur. Therefore, a large space is formed inside, and the propagation of vibration generated on the upper floor of the large space can be suppressed.
[0008]
The unit building according to claim 2 is the unit building according to claim 1, wherein the beam main body is disposed between adjacent floor beams of the upper building unit.
According to this invention, since the beam body does not protrude to the height position of the ceiling beam of the lower building unit, it is possible to reduce the weight of the reinforcing beam, and also to install piping, wiring, etc. that penetrate the ceiling beam of the lower building unit Becomes easier.
[0009]
The unit type building according to claim 3 is the unit type building according to claim 1, wherein the beam main body spans between adjacent floor beams of the upper building unit and adjacent ceiling beams of the lower building unit. It is arranged.
According to this invention, since the reinforcing beam can secure a predetermined dimension in the height direction as compared with the second aspect, the rigidity against the vertical load by the upper building unit is improved.
[0010]
The unit type building according to claim 4 is the unit type building according to any one of claims 1 to 3, wherein the connecting portion has a flat plate shape.
According to this invention, since the connection portion is formed of a flat plate material, the connection portion can be easily fixed to the lower surface of the beam body. Moreover, a connection part can be easily fixed to a reinforcement beam main body also by providing a slit in the height direction intermediate part of a beam main body, and inserting a connection part in this slit. Therefore, construction becomes easy.
[0011]
The unit building according to claim 5 is the unit building according to claim 4, wherein the connecting portion is disposed between the upper building unit and the lower building unit, and is fastened to the upper building unit. It is fixed with the tool 81, It is characterized by the above-mentioned.
According to the present invention, since fastening tools such as bolts and nuts are used to fix the connecting portion to the floor beam of the upper building unit, equipment such as welding and advanced technology are not required, and it is easy and reliable. Can be constructed.
[0012]
The unit type building according to claim 6 is the unit type building according to claim 4 or 5, wherein the beam main body is cylindrical and the flat plate-like connecting portion is fixed to the lower surface. Features.
According to the present invention, by making the beam body cylindrical, not only the rigidity against the vertical load by the upper building unit but also the rigidity against the horizontal force due to the torsion or earthquake caused by the vertical load can be secured.
[0013]
The unit type building according to claim 7 is the unit type building according to claim 4 or 5, wherein the beam body has a flat plate shape, and the flat plate-like connecting portion is fixed to a lower surface, and the fixed portion. A stiffener is provided at regular intervals along the line.
According to this invention, by forming the beam main body with a plate-like material, it is possible to provide the reinforcing beam even when the interval between adjacent beams of the upper building unit and the lower building unit is narrow.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a unit building 10 according to the present embodiment. The unit building 10 includes a foundation 11, a building body 12 formed on the foundation 11, and a roof 13 formed on the building body 12.
Among these, the building body 12 is formed by combining a plurality of box-shaped building units, and includes a plurality of first-floor building units 20 as lower building units and second-floor building units 30 as upper building units. I have.
[0015]
As shown in FIG. 2, the first-floor building unit 20 has five normal building units 20 </ b> A arranged in an L shape along the outer peripheral edge of the building main body 12, and a normal one as shown by the alternate long and short dashed lines. The four large building units 20B arranged in the L-shaped corners formed by the building unit 20A.
The second-floor building unit 30 is composed of nine ordinary building units 30A having the same shape as the ordinary building unit 20A.
[0016]
As shown in FIG. 3, the normal building units 20 </ b> A and 30 </ b> A include a box-shaped frame 40 having a ceiling beam 42 and a floor beam 43 that connect upper and lower ends of pillars 41 at four corners. Among these, the column 41 and the ceiling beam 42 are connected via a column head joint member 45 disposed on the column head side of the column 41, and the column 41 and the floor beam 43 are disposed on the column leg side of the column 41. The column base joint members 46 are connected to each other.
There are two types of ceiling beams 42, short-side ceiling beams 42A and long-side ceiling beams 42B having different lengths, and floor beams 43 are short-side floor beams 43A and long-side floor beams 43B having different lengths. Two types are provided. Further, a ceiling beam for supporting the ceiling surface material is bridged between the opposing long side ceiling beams 42B (not shown), and a floor is provided between the opposing long side floor beams 43B. A plurality of joists for supporting a floor material such as a particle board to be formed are bridged (not shown).
[0017]
FIG. 4 shows an exploded perspective view of a connecting portion of ordinary building units 20A and 30A.
Positioning pins 45 </ b> A and insertion holes 45 </ b> B are provided on the upper surface of the stigma joining member 45, and positioning holes and insertion holes 46 </ b> B (not shown) are provided on the lower surface of the column base joining member 46.
Moreover, the flat normal shear plate 60 is used for connection of normal building units 20A and 30A. A normal shear plate 60 is interposed between a plurality of adjacent stigma joining members 45 of the first-floor building unit 20 </ b> A and the stilt joint members 46 of the second-floor building unit 30 </ b> A disposed on these stigma joining members 45. By interposing, building units 20A and 30A adjacent in the up-and-down direction and the horizontal direction are connected. For the connection between the building units 20A and 30A, bolts 81A and nuts 81B as the fasteners 81 are used.
[0018]
Specifically, the normal shear plate 60 is provided with positioning holes 60A and insertion holes 60B. The positioning pin 45A of the stigma joining member 45 of the first-floor building unit 20A is inserted into the positioning hole 60A of the normal shear plate 60 and is fitted into the positioning hole of the pedestal joining member 46 of the second-floor building unit 30A. Thus, the positions of the building units 20A and 30A are determined. Then, a bolt 81A is inserted into the insertion hole 45B of the stigma joining member 45 of the first floor building unit 20A, the insertion hole 60B of the normal shear plate 60, and the insertion hole 46B of the column base joining member 46 of the second floor building unit 30A. The building units 20A and 30A are connected to each other by screwing and tightening the nut 81B to the bolt 81A.
[0019]
FIG. 5 shows an exploded perspective view of the large space building unit 20B.
The large space building unit 20B includes a box-shaped large space frame 50 including a corner portion 20D in which one column 41 of the frame 40 of the normal building unit 20A is omitted, and each corner corner is provided. The parts 20D are arranged adjacent to each other in a state of being brought together.
As a result, a large large space is formed inside the four large space building units 20 </ b> B without any protrusions such as the pillars 41 between the ceiling and the floor.
Further, the large space building unit 20B includes the corner portions 20D in which the columns 41 are omitted and brought together, and includes corner portions 20C on both sides in the short side direction. A shear plate 61 is installed, and reinforcing beams 70 are bridged between columns 41 arranged at the corners 20C.
[0020]
FIG. 6 is an overall perspective view of the reinforcing beam 70.
The reinforcing beam 70 is a rectangular tubular member having a vertically long cross section. The reinforcing beam 70 has the same shape as the beam main body 71 integrally formed with the seam and the normal shear plate 60, and is provided at a predetermined position on the lower surface of the beam main body 71. And a connection portion 72 fixed by welding. The connecting portion 72 is a position corresponding to the corner portion 20D, and is a position corresponding to the center connecting portion 73 provided at the center of the beam body 71 and the corner portions 20C on both sides of the corner portion 20D. And an end connection portion 74 provided at the end of the beam main body 71. The central connection portion 73 is provided with a plurality of positioning holes 73A and insertion holes 73B, and the end connection portion 74 is provided with a plurality of positioning holes 74A and insertion holes 74B.
[0021]
FIG. 7 shows an enlarged cross-sectional view of the central connection portion 73 of the reinforcing beam 70, and FIG. 8 shows an exploded perspective view of a connecting portion between the reinforcing beam 70 and the large space building unit 20B.
The beam back H of the beam main body 71 has a dimension that fits between the upper surface and the lower surface of the short-side floor beam 43A of the second-floor building unit 30A. Further, the beam width W of the beam main body 71 is slightly narrower than the gap formed between the adjacent second-floor building units 30A.
[0022]
The central connection portion 73 is disposed across the lower surface of the column base joint member 46 of the four adjacent two-story building units 30A. However, only the column base joint member 46 is provided with the bolt 81A and the nut 81B as the fasteners 81. It is connected. That is, the adjacent second-floor building units 30A are connected only in the horizontal direction. Specifically, a bolt 81A is inserted into the insertion hole 46B of the column base joining member 46 of the second-floor building unit 30A and the insertion hole 73B of the central connection portion 73, and tightened with a nut 81B.
[0023]
Similarly to the normal shear plate 60, the end connection portion 74 is interposed and coupled between the stigma joining member 45 of the building unit 20 </ b> B and the stilt joint member 46 of the building unit 30 </ b> A. Specifically, the positioning pin 45A of the stigma joining member 45 of the first-floor building unit 20B is inserted into the positioning hole 74A of the end connection part 74, and becomes the positioning hole of the pedestal joining member 46 of the second-floor building unit 30A. It is mated. In addition, a bolt 81A is inserted into the insertion hole 45B of the stigma joining member 45 of the first floor building unit 20B, the insertion hole 74B of the end connection portion 74, and the insertion hole 46B of the column base joining member 46 of the second floor building unit 30A. It is tightened with 81B.
[0024]
The large space shear plate 61 has the same shape as the normal shear plate 60, and is installed across the upper surface of the stigma joining member 45 of the adjacent four corner portions 20D and below the central connection portion 73. The fasteners 81 are connected only to the stigma joining member 45. That is, adjacent first-floor building units 20A are connected only in the horizontal direction. Specifically, the positioning pin 45A of the stigma joining member 45 of the first floor building unit 20B is inserted into the positioning hole 61A of the large space shear plate 61, and the insertion hole 45B of the stigma joining member 45 of the building unit 20B and the large space are used. A bolt 81A is inserted into the insertion hole 61B of the shear plate 61 and is tightened with a nut 81B.
In addition, the space T between the second-floor building unit 30A and the first-floor building unit 20B is secured so that the central connecting portion 73 and the fastener 81 thereof are separated from the large space shear plate 61 and the fastener 81. Yes.
[0025]
Next, a procedure for assembling a large large space where no protrusions such as pillars 41 are present will be described.
First, the large space building unit 20B is manufactured at the factory in the same manner as the building units 20A and 30A and the reinforcing beams 70, and then transported to the building site. In order to prevent deformation of the large space frame 50 of the building unit 20B during transportation, provisional pillars (not shown) are provided in the corner portions 20D. The temporary column is detachably connected to the column base joining member 46 and the stigma joining member 45. Then, as shown in FIG. 9, the corner portions 20D of the four large space building units 20B are brought together and arranged adjacent to each other.
[0026]
Next, the large space shear plate 61 is disposed at the corner 20D, and the positioning pin 45A of the stigma joining member 45 of the large space building unit 20B is inserted into the positioning hole 61A of the large space shear plate 61, The positions of the space building units 20B are determined. Then, the bolt 81A is inserted into the insertion hole 45B of the stigma joining member 45 of the large space building unit 20B and the insertion hole 61B of the large space shear plate 61 and tightened with the nut 81B, and the large space building units 20B are horizontally aligned. Connect only in the direction.
[0027]
Thereafter, the reinforcing beams 70 are arranged between the corner portions 20C, and the positioning pins 45A of the stigma joining members 45 of the large space building unit 20B are inserted into the positioning holes 74A of the end connecting portions 74, so that the positions of the reinforcing beams 70 are increased. To decide. At this time, an interval T between the building unit 20A and the building unit 20B is ensured so that the central connecting portion 73 and the fastening tool 81 thereof are separated from the large space shear plate 61 and the fastening tool 81. For example, the normal shear plate 60 is overlapped between the end connection portion 74 and the stigma joining member 45 of the large space building unit 20B.
[0028]
Thereafter, the second-floor building unit 30A is stacked on the large space building unit 20B and connected by the fasteners 81, so that the second-floor building unit 30A, the large space building unit 20B, and the reinforcing beam 70 are integrated. At this time, the central connection portion 73 of the reinforcing beam 70 is connected only to the second-floor building unit 30A. That is, the bolt 81A is inserted into the insertion hole 46B of the column base joining member 46 of the second-floor building unit 30A and the insertion hole 73B of the center connection portion 73, and tightened with the nut 81B. Thereafter, when the temporary pillar 80 is removed, a large large space in which no protrusions such as the pillar 41 exist between the ceiling and the floor is formed.
[0029]
Therefore, according to this embodiment, there are the following effects.
(1) Reinforcement beams 70 are bridged between the columns 41 arranged on both sides in the short side direction of the corner 20D from which the columns 41 are omitted, and the reinforcement beams 70 are connected to the second-floor building unit via the central connection portion 73. Since 30A can be supported, that is, the load of the second floor building unit 30A does not act on the first floor building unit 20B, a large space can be formed in the first floor building unit 20B. Further, since the central connection portion 73 of the reinforcing beam 70 is separated from the large space shear plate 61 of the first floor building unit 20B, even if vibration occurs in the second floor building unit 30A, the vibration is transmitted through the reinforcing beam 70. Therefore, the ceiling surface of the large space does not vibrate and no noise problem occurs. Therefore, a large space is formed inside, and the propagation of vibration generated on the upper floor of the large space can be suppressed.
[0030]
(2) Since the beam main body 71 does not protrude to the height position of the short-side ceiling beam 42A of the first-floor building unit 20B, the reinforcing beam 70 can be reduced in weight, and the piping penetrates the short-side ceiling beam 42A of the first-floor building unit 20B. Construction of wiring and the like becomes easy.
(3) By forming the connection part 72 with a flat plate material, the connection part can be easily fixed to the lower surface of the beam main body 71. Therefore, construction is easy.
[0031]
(4) Since the bolt 81A and the nut 81B as the fastener 81 are used to fix the connecting portion 72 to the column base joining member 46 of the second-floor building unit 30A, facilities such as welding joining and advanced technology are unnecessary. Yes, it can be constructed easily and reliably.
(5) By making the beam main body 71 cylindrical, not only the rigidity with respect to the vertical load but also the rigidity with respect to the horizontal force due to the torsion or earthquake caused by the vertical load can be secured.
[0032]
(6) Since the normal shear plate 60 that connects the building units 20A and 30A can be used as the connecting portion 72, it is not necessary to change the connecting structure of the conventional building units 20A and 30A, and There is no need to manufacture the connecting portion 72 separately, and the cost is reduced.
[0033]
It should be noted that the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.
For example, in the above-described embodiment, the beam back H of the beam body is formed to have a dimension that fits between the upper surface and the lower surface of the short-side floor beam 43A of the second-floor building unit 30A, but as shown in FIG. It may be formed across the short-side floor beam 43A of the second-floor building unit 30A and the short-side ceiling beam 42A of the first-floor building unit 20B. Even in this case, as long as the beam width W is not in contact with the short-side ceiling beam 42A of the first floor building unit 20B, (1), (3), (4), (5) described in the previous embodiment. In addition to the effects of (6), the following effects are obtained.
(7) Since the reinforcing beam 70 secures a predetermined dimension in the height direction, the rigidity against the vertical load by the second-floor building unit 30A is improved.
[0034]
Moreover, in the said embodiment, although the cylindrical member was used for the beam main body 71, as shown in FIG.10 (B), instead of using a plate-shaped member, the fixed part of this plate-shaped member and the connection part 72 is used. Stiffeners 75 may be provided at regular intervals along. This also has the following effects in addition to the effects (1), (2), (3), (4), and (6) described in the previous embodiment.
(8) By forming the beam main body 71 from a plate material, the reinforcing beam 70 can be provided even when the distance between the short side floor beams 43A of the adjacent building unit 30A is narrow.
[0035]
In the first embodiment, a cylindrical member is used for the beam main body 71, and the beam back H of the beam main body 71 is sized to fit between the upper surface and the lower surface of the short side floor beam 43A of the second floor building unit 30A. As shown in FIG. 10C, a plate-like member is used for the beam body, and this plate-like member is changed from the short-side floor beam 43A of the second-floor building unit 30A to the short-side ceiling beam 42A of the first-floor building unit 20B. Stiffeners 75 may be provided at regular intervals along the fixed portion between the plate-like member and the connecting portion.
Even in this case, the effects (1), (3), (4), (6) described in the previous embodiment, the effect (7) described in the modification, and another modification (8) are described. ) Has the same effect.
[0036]
【The invention's effect】
According to the unit type building of the present invention, the following effects can be obtained.
According to the unit type building of claim 1, the reinforcing beam is bridged between the columns arranged on both sides of the corner portion where the column is omitted, and the reinforcing beam is connected to the upper building unit via the connecting portion. Since it supports, that is, the load of the upper building unit does not act on the lower building unit, a large space can be formed in the lower building unit. Furthermore, since the connecting portion is separated from the lower building unit, even if vibration occurs in the upper building unit, the vibration does not propagate to the ceiling beam of the lower building unit via the reinforcing beam. The ceiling surface of the space does not vibrate and noise problems do not occur. Therefore, a large space is formed inside, and the propagation of vibration generated on the upper floor of the large space can be suppressed.
[0037]
According to the unit type building of claim 2, since the beam main body does not protrude to the height position of the ceiling beam of the lower building unit, the weight of the reinforcing beam can be reduced and the ceiling beam of the lower building unit can be penetrated. Construction of piping and wiring to be performed becomes easy.
[0038]
According to the unit type building of the third aspect, since the reinforcing beam can secure a predetermined dimension in the height direction as compared with the second aspect, the rigidity against the vertical load by the upper building unit is improved.
[0039]
According to the unit type building of the fourth aspect, since the connecting portion is formed of a flat plate material, the connecting portion can be easily fixed to the lower surface of the beam main body. Moreover, a connection part can be easily fixed to a reinforcement beam main body also by providing a slit in the intermediate part of the height direction of a beam main body, and inserting a connection part in this slit. Therefore, construction becomes easy.
[0040]
According to the unit type building of the fifth aspect of the present invention, since fasteners such as bolts and nuts are used to fix the connecting portion to the floor beam of the upper building unit, facilities such as welding and advanced technology are not required. It can be easily and reliably constructed.
[0041]
According to the unit type building of claim 6, by making the beam body cylindrical, not only the rigidity with respect to the vertical load by the upper building unit but also the rigidity with respect to the horizontal force due to the torsion or earthquake caused by the vertical load is secured. it can.
[0042]
According to the unit type building according to claim 7, by forming the beam main body with a plate-like material, the reinforcing beam can be provided even when the interval between adjacent beams of the upper building unit and the lower building unit is narrow. Can be provided.
[Brief description of the drawings]
FIG. 1 is an overall perspective view showing a unit building according to an embodiment of the present invention.
FIG. 2 is a schematic plan view of the first floor according to the embodiment.
FIG. 3 is a perspective view showing a frame of a normal building unit according to the embodiment.
FIG. 4 is an exploded perspective view showing a connecting portion of a normal building unit according to the embodiment.
FIG. 5 is an exploded perspective view showing the large space building unit according to the embodiment.
FIG. 6 is an overall perspective view showing a reinforcing beam according to the embodiment.
7 is a cross-sectional view showing a connecting portion between a reinforcing beam and a large space building unit according to the embodiment. FIG.
FIG. 8 is an exploded perspective view showing a connecting portion between a reinforcing beam and a large space building unit according to the embodiment.
FIG. 9 is a view for explaining a method of connecting large space building units according to the embodiment.
FIG. 10 is a cross-sectional view showing a modification of the present invention, another modification of the present invention, and still another modification of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Unit type building 20 1st floor building unit 20A, 30A as lower building unit Normal building unit 20B Large space building unit 20C, 20D Corner corner 30 2nd floor building unit 41 as upper building unit Column 42 Ceiling beam 43 Floor beam 70 Reinforcement beam 71 Beam body 73 Connection part 75 Stiffener 81 Fastener

Claims (7)

A plurality of lower building units arranged with the corners being brought together, and a plurality of upper building units stacked on the lower building units, wherein the lower building unit and the upper building unit A large space where at least one of the lower building units has one column omitted from a normal building unit having a box-shaped frame in which the upper and lower ends of the pillars at the four corners are connected by ceiling beams and floor beams Unit building which is composed of building units and is arranged with the corners of the large space building units where the pillars are omitted, and is provided with reinforcing beams to reinforce the corners Because
The reinforcing beam includes a beam main body spanned between columns disposed on both sides of a corner portion where the column is omitted, and a connection portion provided on the beam main body, and the connection portion includes the column. A unit type building connected to the upper building unit at an arbitrary position excluding both ends connected to the unit, and separated from the lower building unit. 2. The unit type building according to claim 1, wherein the beam main body is disposed between adjacent floor beams of the upper building unit. 2. The unit type building according to claim 1, wherein the beam main body is disposed across between adjacent floor beams of the upper building unit and between adjacent ceiling beams of the lower building unit. building. The unit type building according to any one of claims 1 to 3, wherein the connecting portion has a flat plate shape. 5. The unit type building according to claim 4, wherein the connecting portion is disposed between the upper building unit and the lower building unit, and is fixed to the upper building unit with a fastener. Unit building. The unit type building according to claim 4 or 5, wherein the beam main body has a cylindrical shape, and the flat connecting portion is fixed to a lower surface. 6. The unit type building according to claim 4 or 5, wherein the beam body has a flat plate shape, and the flat plate-like connecting portion is fixed to a lower surface, and stiffeners are provided at regular intervals along the fixed portion. A unit type building characterized by

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