JP3734310B2 - Unit laminated structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a unit laminated structure, and more particularly, to a unit laminated structure in which laminated upper floor units and lower floor units communicate vertically.
[0002]
[Background]
In recent years, in order to increase the industrialization rate and shorten the construction period at a construction site, a unit construction method is used in which a plurality of building units are manufactured in advance in a factory, and these are combined at the construction site to construct a building.
A unit type building constructed by the unit method may be provided with an aerial through the upper floor unit and the lower floor unit in order to install an elevator or a staircase.
[0003]
For example, as shown in FIG. 3, the blow-through 40 opens the lower surface 12 of the upper floor unit 10 and the upper surface 21 of the lower floor unit 20 to form communication portions 41 </ b> A and 41 </ b> B, and through the communication portions 41 </ b> A and 41 </ b> B. It is formed by communicating the internal spaces of the units 10 and 20. Portions of the lower surface 12 of the upper floor unit 10 and the upper surface 21 of the lower floor unit 20 excluding the communication portions 41A and 41B are shield portions 42A and 42B that block the upper floor unit 10 and the lower floor unit 20 from each other.
[0004]
The upper floor unit 10 and the lower floor unit 20 include a rectangular parallelepiped frame including four columns 31, an upper beam 32 that connects the upper ends of the columns 31, and a lower beam 33 that connects the lower ends of the columns 31. 30. Between the lower beams 33 of the upper floor unit 10, a plurality of joists 65 constituting the upper floor, which is the shielding portion 42A, are installed, and between the upper beams 32 of the lower floor unit 20, the lower portion, which is the shielding portion 42B. A plurality of small beams 34 constituting the ceiling of the floor are installed.
A plurality of joists 65 constituting the floor of the lower floor are installed between the lower beams 33 of the lower floor unit 20 as in the case of a normal building unit.
Between the upper beams 32 of the upper floor unit 10, a plurality of small beams 34 constituting the ceiling of the upper floor are erected and a diagonal brace 50 is provided as in the case of a normal building unit. On the other hand, the braces 50 are installed between the upper beams 32 of the lower floor unit 20 only in the area constituting the ceiling of the lower floor which is the shielding portion 42B.
[0005]
[Problems to be solved by the invention]
In a general building unit, braces are laid diagonally between the upper beams, thereby preventing the building unit from being distorted.
However, since the brace 50 is provided only in the shielding portion 42B between the upper beams 32 of the lower floor unit 20 provided with the atrium 40, the lower floor unit 20 and the upper floor unit stacked on the lower floor unit 20 are provided. The rigidity of the building including 10 is lower than that in the case of using a normal building unit without an atrium. For this reason, the unit type building provided with the atrium 40 has a problem that the degree of freedom of design is limited.
[0006]
The objective of this invention is providing the unit laminated structure which can raise the freedom degree of design.
[0007]
[Means for Solving the Problems]
Referring to the drawings, the present invention is a unit laminated structure in which a laminated upper floor unit 10 and a lower floor unit 20 are vertically communicated, and includes a lower surface 12 of the upper floor unit 10 and a lower floor unit. The upper surface 21 of 20 includes communication portions 41A and 41B that connect the upper floor unit 10 and the lower floor unit 20, and shielding portions 42A and 42B that block the upper floor unit 10 and the lower floor unit 20. A brace 50 is provided on each of the shielding portions 42A and 42B on the lower surface 12 of the upper floor unit 10 and the upper surface 21 of the lower floor unit 20, and the upper floor unit 10 and the lower floor unit 20 are divided into four pieces. A box-shaped frame 30 including a column 31, an upper beam 32 that connects the upper ends of the column 31, and a lower beam 33 that connects the lower ends of the columns 31; The base 50 is diagonally connected to a region constituting the shielding portion 42A between the lower beams 33 of the upper floor unit 10 and a region constituting the shielding portion 42B between the upper beams 32 of the lower floor unit 20. A plurality of joists 35 constituting the shielding portion 42A are bridged between the lower beams 33 of the upper floor unit 10, and the bridging members 51 are composed of these joists 35. A recess 36 is provided on the lower surface of the joist 35, and the construction material 51 is accommodated in the recess 36. The recess 36 is the entire surface excluding both ends of the lower surface of the joist 35. The both ends of the joists are fitted into the openings of the lower beam each having a U-shaped cross section .
[0008]
In the present invention, the brace 50 is installed not only on the shielding part 42B on the upper surface 21 of the lower floor unit 20 but also on the shielding part 42A on the lower surface 12 of the upper floor unit 10. The tenth floor and the lower floor unit 20 are reinforced to increase the rigidity compared to the prior art. Therefore, a unit type building can be configured by arbitrarily combining with other building units or other atrium units that constitute other atriums, and the degree of freedom in design can be increased. This achieves the object.
[0009]
In the present invention, the upper floor unit 10 and the lower floor unit 20 include four columns 31, an upper beam 32 that connects the upper ends of the columns 31, and a lower beam 33 that connects the lower ends of the columns 31. The brace 50 includes a region constituting the shielding portion 42A between the lower beams 33 of the upper floor unit 10 and the shielding portion between the upper beams 32 of the lower floor unit 20. each area constituting the 42B that is configured to include a bridging member 51 to be stretched diagonally.
[0010]
Thus, if the bracing 50 is constructed by diagonally spanning the construction material 51 between the upper beams 32 and the lower beams 33, the frames 30 of the upper floor unit 10 and the lower floor unit 20 can be reliably reinforced. Can do.
[0011]
In the present invention, a plurality of joists 35 constituting the shielding portion 42 </ b> A are bridged between the lower beams 33 of the upper floor unit 10, and the erection material 51 is arranged below these joists 35. The
Thereby, since the construction material 51 does not protrude above the joist 35, a flooring or the like can be stretched on the upper surface of the joist 35 as usual.
[0012]
In the present invention, the lower surface of the joists 35 recess 36 is provided, the erection member 51 that is housed and arranged within the recess 36.
Thereby , the construction material 51 does not protrude below the joists 35, and the upper floor unit 10 and the lower floor unit 20 can be laminated and joined smoothly.
[0013]
In the present invention, the recess 36 is that provided over the entire surface except for both end portions of the lower surface of the joists 35.
Thus Runode a recess 36, so that the erection member 51 regardless of the placement and angle of the installation member 51 can be housed and arranged to ensure that the recess 36. Further, it is not necessary to set the position of the recess 36 for each joist 35 according to the arrangement of the construction material 51 and the joist 35 can be shared.
[0014]
And it is desirable that the internal space of the upper floor unit 10 and the lower floor unit 20 communicated via the communication portions 41A and 41B is a blow-off 40.
In this way, by simply stacking the upper-floor unit 10 and the lower-floor unit 20 and incorporating them into the building, it becomes possible to form the atrium 40 at a desired position in the building. Can be installed.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
In the following description, the same components as those in FIG. 3 described above are denoted by the same reference numerals, and the description thereof is omitted or simplified.
FIG. 1 shows an upper floor unit 10 and a lower floor unit 20 of the present embodiment. The internal space of the upper floor unit 10 and the lower floor unit 20 communicated via the communication portions 41A and 41B is a blow-off 40. This blow-through 40 may be used, for example, for installation of equipment such as an elevator staircase, or may be used for an entrance or the like, and its use is arbitrary.
[0016]
A brace 50 is provided between the lower beams 33 constituting the lower surface 12 of the upper floor unit 10 in a region constituting the shielding part 42A (upper floor). The brace 50 includes a construction material 51 that is bridged diagonally between the lower beams 33. The braces 50 installed between the upper beams 32 of the upper floor unit 10 and between the upper beams 32 of the lower floor unit 20 also have a similar structure.
[0017]
As shown in FIG. 2, the joists 35 spanned between the lower beams 33 of the upper floor unit 10 each have a recess 36 on the lower surface, and the construction material 51 is accommodated and disposed in the recess 36. The recess 36 is provided over the entire surface excluding both end portions of the lower surface of each joist 35.
[0018]
In the present embodiment configured as described above, the brace 50 is erected at the time of manufacturing the upper floor unit 10 and the lower floor unit 20, and the upper floor unit 10 and the lower floor unit 20 are stacked at the construction site, not shown. These are connected and fixed via the bracket.
[0019]
According to this embodiment, there are the following effects.
That is, the brace 50 is installed not only on the shielding part 42B (lower ceiling) on the upper surface 21 of the lower floor unit 20 but also on the shielding part 42A (upper floor) on the lower surface 12 of the upper floor unit 10. The upper floor unit 10 and the lower floor unit 20 are reinforced by the brace 50 of the unit 10 so that the rigidity is increased as compared with the conventional case. Therefore, a unit type building can be configured by arbitrarily combining with other building units or other atrium units that constitute other atriums, and the degree of freedom in design can be increased.
[0020]
In addition, since the brace 50 is configured by laying the construction material 51 between the upper beams 32 and the lower beams 33 diagonally, the frames 30 of the upper floor unit 10 and the lower floor unit 20 can be reliably reinforced. it can.
[0021]
Moreover, since the construction material 51 is installed under the joist 35 of the upper floor unit 10, a floor material or the like can be stretched on the upper surface of the joist 35 as usual.
Further, the joist 35 installed between the lower beams 33 of the upper floor unit 10 has a recess 36 on the lower surface, and the installation member 51 is accommodated in the recess 36 so that the installation member 51 projects below the joist 35. Therefore, the upper floor unit 10 and the lower floor unit 20 can be laminated and joined smoothly.
[0022]
And since the recessed part 36 was provided over the whole surface except the both ends of the bottom face 35, regardless of arrangement | positioning and angle of the erected material 51, the erected material 51 can be reliably accommodated in the recessed part 36. Further, it is not necessary to set the position of the recess 36 for each joist 35 according to the arrangement of the construction material 51 and the joist 35 can be shared.
[0023]
Furthermore, since the internal space of the upper floor unit 10 and the lower floor unit 20 communicated via the communication portions 41A and 41B is a blow-off 40, the upper floor unit 10 and the lower floor unit 20 are stacked and incorporated in the building. With this, it becomes possible to form the atrium 40 at a desired position in the building, and it is possible to install a staircase, an elevator or the like at an arbitrary position.
[0024]
In addition, this invention is not limited to the said embodiment, Other modifications etc. which can achieve the objective of this invention are included, The deformation | transformation etc. which are shown below are also contained in this invention.
That is, in the said embodiment, the upper floor unit 10 and the lower floor unit 20 were laminated | stacked, and the blow-through 40 which penetrated the two units 10 and 20 was provided, However, Three or more are laminated | stacked and three or more units are laminated | stacked. You may form the blow-through 40 which penetrates. For example, when another building unit is stacked on the upper floor unit 10 of the present embodiment to form an atrium extending over three units, a brace is provided on the shielding portion on the lower surface of the other building unit in the uppermost layer. That's fine.
[0025]
Further, the size (planar shape) of the communication portions 41A and 41B may be, for example, 1/3 of the lower surface 12 of the upper floor unit 10 and the upper surface 21 of the lower floor unit 20, or may be 2/3. If the braces 50 are provided in the shielding parts 42A and 42B, the sizes of the communication parts 41A and 41B are arbitrary.
[0026]
【The invention's effect】
As described above, according to the present invention, since the braces are installed not only on the upper surface shielding portion of the lower floor unit but also on the lower surface shielding portion of the upper floor unit, And the lower floor unit is reinforced and the rigidity becomes higher than before. Therefore, a unit type building can be configured by arbitrarily combining with other building units or other atrium units that constitute other atriums, and the degree of freedom in design can be increased.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing an embodiment of the present invention.
2 is a cross-sectional view taken along line II-II in FIG.
FIG. 3 is an exploded perspective view showing a conventional unit laminated structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Upper floor unit 20 Lower floor unit 30 Frame 31 Column 32 Upper beam 33 Lower beam 35 joist 36 Recess 40 Blow-in 41A, 41B Communication part 42A, 42B Shielding part 50 Brace 51 Construction material

Claims (2)

The unit upper structure in which the upper floor unit and the lower floor unit that are stacked are communicated vertically, and the lower surface of the upper floor unit and the upper surface of the lower floor unit communicate the upper floor unit and the lower floor unit. And a shielding part that blocks the upper floor unit and the lower floor unit, and a brace is provided on each of the lower surface of the upper floor unit and the shielding part on the upper surface of the lower floor unit, The upper floor unit and the lower floor unit have a box-shaped frame structure including four pillars, an upper beam connecting the upper ends of the pillars, and a lower beam connecting the lower ends of the pillars, and the brace Is configured to include a construction material that is bridged diagonally in a region constituting the shielding portion between the lower beams of the upper floor unit and a region constituting the shielding portion between the upper beams of the lower floor unit. Between the lower beams of the upper floor unit, a plurality of joists constituting the shielding portion are bridged, and the construction material is disposed below these joists, and a recess is provided on the lower surface of the joists, The erection material is housed and disposed in the recess, and the recess is provided over the entire surface excluding both ends of the bottom surface of the joist, and both ends of the joist are each formed in a U-shaped cross section. A unit laminated structure characterized by being fitted into a part . 2. The unit laminated structure according to claim 1 , wherein an internal space of the upper floor unit and the lower floor unit communicated with each other via the communication portion is a blowout.

Images