JP5745783B2 - How to place building units - Google Patents

Description

  The present invention relates to a building unit arrangement method in which a plurality of rectangular building units in a plan view are arranged in a rectangular region in a plan view.

  There is a unit type building with a separation part (joint space) that is constructed by arranging a plurality of building units having a substantially rectangular parallelepiped frame by columns and beams, and arranged at least two adjacent building units apart (for example, Patent Document 1). A connecting beam having a length corresponding to the interval dimension is arranged in the separating portion, and the building units separated from each other are connected by the connecting beam.

JP 2010-101121 A

By the way, the building unit is placed and installed in a rectangular area in plan view in the site where the building is to be constructed, but the planar shape of this area is not necessarily the same shape. Will change.
On the other hand, when the building unit is arranged in the area, the structure is calculated and designed in advance in consideration of the size of the area, the size, shape, and separation interval of the building unit.
Therefore, every time the planar shape of the area is different, it is necessary to redesign the area in consideration of the size of the area, the size and shape of the building unit, the separation interval, and the like, which is troublesome.

  The present invention has been made in view of the above circumstances, and even if the planar shape of the region where the building unit is to be arranged is different, the building unit arranging method that allows the building unit to be placed apart from each other without redoing the structural calculation or the like. It is an issue to provide.

In order to solve the above-described problem, the invention described in claim 1 is a flat rectangular shape having a substantially rectangular parallelepiped frame made of column beams in a flat rectangular area A1, for example, as shown in FIGS. A building unit arrangement method in which a plurality of shaped building units 1, 2 are arranged,
N in the long side direction of the plane rectangular reference building unit B as a reference for the design (n is an integer of 2 or more) can be arranged without causing inter-gap in together pieces adjacent the, and, in the short-side direction A plane rectangular area that can be separated with a predetermined interval L is set as a design reference area A, and a structure is calculated and set for a state in which the reference building unit B is arranged in the reference area A.
When the building units 1 and 2 are arranged , the area S1 of the area A1 to be arranged is set to 95% to 100% of the reference area S that is the area of the reference area A, and within this range, the area A1 a planar shape long side is set to a shorter rectangular planar shape than the long side of the reference area a,
A planar rectangular building unit 1 having the same short side length as that of the reference building unit B along the two opposite sides of the area A1 having a different planar shape. 2, the n number (e.g. two) in the long side direction are arranged without causing inter-gap in together when adjacent, and characterized in that it placed apart with appropriate intervals L1 in the shorter side direction.

  Here, when the reference building unit B is arranged along the long side of the reference area A, the area A1 where the building units 1 and 1 are to be arranged is shorter than the long side of the reference area A. The short side of A1 is longer than the short side of the reference region A, and accordingly, the interval L1 between the building units 1 and 1 is also longer than the interval L in the case of the reference region A.

According to the first aspect of the present invention, the area S1 is set to 95% to 100% of the reference area S, and the planar shape of the area A1 is different from the planar shape of the reference area A. Along with the reference building unit B, there are n adjacent planar rectangular building units 1 and 2 that have the same length in the short side direction and the short length in the long side direction, and have a gap in the area A1. Since it arranges without generating and leaves | separates with the suitable space | interval L1 in the short side direction, the arrangement state of the building units 1 and 2 with respect to the area | region A1 is the arrangement state of the arrangement | positioning of the reference | standard building unit B with respect to the reference | standard area | region A The area of the region A1 is also approximately 95% to 100% of the reference area S. And since the building units 1 and 2 to be arranged have a shorter length in the long side direction than the reference building unit B, the support interval of the beam is reduced correspondingly, and the structure is advantageous in strength. .
Therefore, without redoing the structural calculation, etc., it may make placed apart building units 1 and 2.

According to a second aspect of the invention, for example, as shown in FIG. 6, the arrangement method of the building unit according to claim 1,
An additional area a in which one building unit 1 can be arranged is arranged adjacent to the area A1 in which the building units 1 and 2 are arranged, and one building unit 1 is arranged in the additional area a. It is characterized by that.

According to the second aspect of the present invention, since one building unit 1 is arranged in the additional area a arranged adjacent to the area A1, one building unit 1 can be freely added. Therefore, it is effective when the building unit 1 has a roof balcony.

The invention according to claim 3 is the building unit arrangement method according to claim 1 or 2 , as shown in FIG.
After the building units 1 and 2 are arranged in the area A1, the building units 1 and 1 (2, 2) that are separated from each other by an appropriate distance L1 in the short side direction of the building units 1 and 2 are connected to each other. It connects with.

According to the invention described in claim 3 , by connecting the building units 1, 1 (2, 2) separated by a suitable distance in the short side direction of the building units 1, 2 by the connecting member 3, The distance between the building units 1, 1 (2, 2) can be reliably maintained.

The invention according to claim 4 is, for example, as shown in FIG. 2 and FIG. 4, in the arrangement method of the building unit according to any one of claims 1 to 3 ,
A central ventilation device main body 20 is provided on the ceiling of a predetermined building unit 2 among the plurality of building units 1 and 2.

According to the fourth aspect of the present invention, since the central ventilator main body 20 is provided on the ceiling of the predetermined building unit 2, even if the planar shape of the area A1 in which the building units 1 and 2 are to be arranged is different. , as possible out easily obtain unitary building with a central ventilation device body 20.

According to the present invention, the reference area is set to 95% to 100% of the reference area, and the area of the reference area is different from that of the reference area along the two opposing sides thereof. Plane rectangular building units with the same length in the side direction and a short length in the long side direction are arranged adjacent to each other in the long side direction without causing a gap in the area, and appropriate in the short side direction. Since they are spaced apart from each other, the arrangement state of the building units with respect to the area approximates the arrangement state of the arrangement of the reference building units with respect to the reference area, and the area of the area is also 95% to 100% of the reference area. And since the building units 1 and 2 to be arranged have a shorter length in the long side direction than the reference building unit B, the support interval of the beam is reduced correspondingly, and the structure is advantageous in strength. .
Therefore, without redoing the structural calculation, etc., it may make placed apart building units.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view illustrating a design reference area and a reference building unit for explaining a first embodiment of a building unit arrangement method according to the present invention. It is a top view which shows the area | region and the building unit arrange | positioned at this area | region similarly. It is a perspective view of the framework of a building unit. It is a figure which shows the arrangement | positioning state of a central ventilation apparatus main body. It is for describing 2nd Embodiment of the arrangement | positioning method of the building unit which concerns on this invention, Comprising: It is a top view which shows the area | region and the building unit arrange | positioned in this area | region. It is for describing 3rd Embodiment of the arrangement | positioning method of the building unit which concerns on this invention, and is a top view which shows the area | region and the building unit arrange | positioned in this area | region.

Embodiments of the present invention will be described below with reference to the drawings.
(First embodiment)
FIG. 1 is a plan view showing a design reference area A and a reference building unit B for explaining a method for arranging building units according to the present invention.
As shown in FIG. 1, the reference area A has a rectangular shape in plan view, and the vertical length is set to 5.5M (module) and the horizontal length is set to 12M (module). Therefore, the reference area S of the reference region is 5.5M × 12M = 66M ² .
Here, the module refers to a standard dimension for arranging all parts of the building in a multiple relationship of a certain size, and is not particularly limited, but includes, for example, 900 mm, 910 mm, 1000 mm, and the like. .

In the reference area A, two reference building units B serving as design references along the two opposite sides (opposing long sides) are adjacently arranged in the long side direction, and predetermined in the short side direction. They are separated by a distance L, and a total of four are arranged. Further, the reference building unit B is arranged without causing a gap in the reference area A in the long side direction of the reference area A.
The reference building unit B has a rectangular shape in plan view, and the vertical length is set to 2.5M (module) and the horizontal length is set to 6M (module). The interval L is set to 0.5M (module).
In this way, the design area A of the planar rectangular shape and the reference area S (= 66 M ² ), which is the area of the reference area A, are designed along the two opposite sides of the reference area A. The structure is calculated and set so that two reference building units B having a rectangular plane shape serving as a reference can be arranged adjacent to each other in the long side direction and can be spaced apart with a predetermined interval L in the short side direction.

FIG. 2 is a plan view showing the building units 1 and 2 arranged by the building unit arrangement method according to the present invention.
The area A1 in which the building units 1 and 2 are to be arranged has a rectangular shape in plan view, and has a vertical length of 7.5M (module) and a horizontal length of 8.5M (module). Accordingly, the area S1 of the region A1 is 7.5M × 8.5M = 63.75M ² , which is 97% of the reference area 66M ² .
Thus, the area S1 of the area A1 in which the building units 1 and 2 are to be arranged is in the range of 95 to 100% of the reference area S, and the planar shape of the area A1 is different from the planar shape of the reference area A. .

Then, the region A1, the two opposing sides along the (opposing long sides), Ri each reference building unit B and flat shape and is Do different in size, equal length reference building unit B and a short direction length Two flat rectangular building units 1 and 2 having a short side length are arranged adjacent to each other in the long side direction without causing a gap in the area A1, and have an appropriate interval L1 in the short side direction. Keep away.
The building unit 1 has a vertical length of 2.5M (module) and a horizontal length of 4M (module). The building unit 2 has a vertical length of 2.5M (module) and a horizontal length. Is 4.5M (module). Therefore, all the building units 1 and 2 arrange | positioned in area | region A1 are equal in the length of the short side direction. The interval L is 2.5M (module).
The long side of the region A1 is shorter than the long side of the reference region A, and the short side of the region A1 is longer than the short side of the reference region A. Accordingly, the interval L1 between the building units 1 and 1 is also The interval is longer than the interval L in the case of the reference region A.

Here, for example, as shown in FIG. 3, the building unit 1 connects four columns 10, four ceiling beams 11 that connect the upper ends of these columns 10, and the lower ends of the columns 10. The four floor beams 12 are provided.
The four ceiling beams 11 are constituted by two long side ceiling beams 11a and two short side ceiling beams 11b shorter than the long side ceiling beams 11a. The four floor beams 12 are composed of two long side floor beams 12a and two short side floor beams 12b shorter than the long side floor beams 12a. The column 10 is formed in a square cylinder shape, and the ceiling beam 11 and the floor beam 12 are each formed in a U-shaped cross section.

A plurality of ceiling beams 13 are installed on the two long-side ceiling beams 11a, 11a, and the ceiling beams 13 are provided at predetermined intervals in the longitudinal direction of the long-side ceiling beams 11a. A ceiling plate 14 is fixed to the lower surface of the ceiling beams 13.
A plurality of joists 15 are installed on the two long side floor beams 12a, 12a, and the joists 15 are provided at predetermined intervals in the longitudinal direction of the long side floor beams 12a. A floor plate 16 is fixed to the upper surface of the joists 15.
Note that the upper end portion of the column 10 and the end portion of the ceiling beam 11 are joined by a column head joining member 17, and the lower end portion of the column 10 and the end portion of the floor beam 12 are joined by a column base joining member 18.
The building unit 2 is configured in the same manner as the building unit 1.

After the building units 1 and 2 as described above are arranged in the area A1 as described above, as shown in FIG. 2, the buildings are placed apart with an appropriate interval L1 in the short side direction of the building units 1 and 2. Units 1 and 1 (2, 2) are connected by a connecting member 3. The connecting member 3 is formed of a steel frame or the like that is long in the vertical direction. In plan view, the opposing corners of the building units 1, 1 (2, 2) are opposed to the central part of the opposing long sides. Are connected.
In the present embodiment, since the unit type building is on the second floor, the same building units 1 and 2 are installed and connected on the first floor building units 1 and 2, and the short side direction of the building units 1 and 2 In the same manner, the building units 1, 1 (2, 2) spaced apart with an appropriate distance L1 are connected by the connecting member 3.

In addition, the connection member 3 is each arrange | positioned between the ceiling beams 11 and 11 and the floor beams 12 and 12 which the building units 1 and 1 (2, 2) oppose, and these are connected.
Moreover, the central ventilation apparatus main body is provided in the ceiling part of one building unit 2. The building unit 2 provided with the central ventilator body is shaded in FIG. The building unit 2 provided with the central ventilation device main body is not provided with a ceiling brace, and the other building units 1 and 2 are provided with ceiling braces (not shown) crossing each other.

As shown in FIGS. 4 (a) to 4 (c), the central ventilation device body 20 is disposed between adjacent ceiling beams 13 and 13 of the building unit 2, and the upper half of the central ventilation device body 20 is a gypsum board. The lower half is located below the ceiling board 14, and the lower half is located above the ceiling board 14. That is, the central ventilator main body 20 is a semi-embedded ceiling type.
The ceiling plate 14 is attached to the building unit 2 in advance, but the portion of the ceiling plate 14 that is shaded in FIG. 4 (a) is unmounted, that is, the portion of the ceiling plate that is shaded. A rectangular hole is formed in 14.

And as shown in FIG.4 (c), the enclosure member 22 by which a face material is provided in the upper surface of a frame is mounted and attached on the ceiling field edge 21 around the said hole. A refractory material 23 such as glass wool is attached to the face material of the enclosing member 22 in advance.
The upper half of the central ventilator main body 20 is inserted into the enclosure member 22 from below, and the lower half is supported by a support portion 24 provided around the hole. A hidden plate 25 is disposed below the central ventilator body 20 and is fixed to the field edge 26. The central ventilator body 20 is connected to an external suction pipe and an external exhaust pipe for exhausting room air to the outside.
The central ventilation device main body is also provided in the ceiling of one building unit 2 on the second floor in the same manner as the first floor, but the central ventilation device main body is provided above the ceiling plate 14. The ventilator body is a ceiling-embedded type.

According to the present embodiment, the area S1 is 95% to 100% of the reference area S, and the area A1 in which the planar shape is different from the planar shape of the reference area A is along the two opposite sides. Planar rectangular building units 1 and 2 that are different from the reference building unit B in plan shape and size, and that have the same length in the short side direction and the short side direction in the long side direction. Since the two adjacent units are arranged without causing a gap in the region A1 and are separated with an appropriate interval L1 in the short side direction, the arrangement state of the building units 1 and 2 with respect to the region A1 is relative to the reference region A. It approximates the arrangement state of the arrangement of the reference building B, and the area S1 of the region A1 is also 95% to 100% of the reference area S.
Therefore, without redoing the structural calculation, etc., it may make placed apart building units 1 and 2.

Moreover, since the length of the short side direction of all the building units 1 and 2 arrange | positioned in area | region A1 is equal, the building unit 1 and 2 are each made into the long side direction along the two opposite sides to area | region A1. When two are arranged adjacent to each other, the distance between the building units 1 and 1 (2, 2) that are separated from each other with a predetermined interval L1 in the short side direction of the building units 1 and 2 is constant. Therefore, the building units 1 and 2 (2, 2) can be easily connected by the connecting member 3 having a certain length.
Further, the building units 1 and 1 (2, 2) are connected to each other by the connecting member 3 so that the building units 1 and 1 (2, 2) are separated from each other with an appropriate distance L1 in the short side direction. , 1 (2, 2) can be reliably maintained.

Further, since the central ventilation device main body 20 is provided on the ceiling portion of the predetermined building unit 2, even if the planar shape of the area A1 where the building units 1 and 2 are to be arranged is different from the reference area A, the central ventilation device main body A unit type building with 20 can be easily obtained.
Moreover, since the building unit 2 in which the central ventilator main body 20 should be installed is not provided with a ceiling brace, the central ventilator main body 20 can be easily installed.

(Second Embodiment)
FIG. 5 is a plan view showing the building units 1 and 4 arranged by the building unit arrangement method according to the present invention.
The area A2 in which the building units 1 and 4 are to be arranged has a rectangular shape in plan view, and has a vertical length of 7M (module) and a horizontal length of 9M (module). Therefore, the area S2 of the region A2 is 7M × 9M = 63M ² , which is 95% of 66M ² of the reference area S.
As described above, the area S2 of the area A2 in which the building units 1 and 4 are to be arranged is in the range of 95 to 100% of the reference area S, and the planar shape of the area A2 is different from the planar shape of the reference area A. .

Then, in the area A2, along the two opposing sides (opposing long sides), the flat rectangular building units 1 and 4 having different sizes from the reference unit B are arranged in the long side direction. Two of them are arranged adjacent to each other and spaced apart at an appropriate interval L2 in the short side direction.
The building unit 1 has a vertical length of 2.5M (module) and a horizontal length of 4M (module), as in the case shown in FIG. The horizontal length is 5M (module). Therefore, all the building units 1 and 4 arrange | positioned in area | region A2 are equal in the length of the short side direction. The interval L is 2M (module).

As described above, after the building units 1 and 4 are arranged in the area A2, as shown in FIG. 5, the building units 1 and 1 that are spaced apart from each other at an appropriate interval L2 in the short side direction of the building units 1 and 4 are provided. (4, 4) The connecting members 5 are connected to each other. The connecting member 5 connects the opposing corners of the building units 1, 1 (4, 4) and the central portions of the opposing long sides in plan view.
Moreover, the central ventilation apparatus main body is provided in the ceiling part of one building unit 4 similarly to 1st Embodiment. The building unit 4 provided with the central ventilator main body is shown shaded.
In the present embodiment, the same effects as those of the first embodiment can be obtained.

(Third embodiment)
FIG. 6 is a plan view showing the building units 1 and 4 arranged by the building unit arrangement method according to the present invention.
In the present embodiment, an additional area a in which one building unit 1 can be arranged is arranged adjacent to the area A1 in which the building units 1 and 2 shown in FIG. 2 are arranged.
The additional area a has a rectangular shape in plan view, and has a vertical length of 2.5 M (module) and a horizontal length of 4 M (module).
In addition, a building unit 1 having a vertical length of 2.5 M (module) and a horizontal length of 4 M (module) is arranged in the additional region a and connected to the adjacent building unit 1.

  According to the present embodiment, in addition to the same effect as the first embodiment, since one building unit 1 is arranged in the additional area a arranged adjacent to the area A1, the building unit Can be freely added. Therefore, it is effective when the building unit 1 has a roof balcony.

A Reference area B Reference building unit A1, A2 area a Additional area L, L1, L2 Spacing 1, 2, 4 Building units 3, 5 Connecting member 20 Central ventilator body

Claims (4)

A plurality of flat rectangular building units with a substantially rectangular parallelepiped frame made of column beams are arranged in a flat rectangular area without causing a gap in the long side direction and spaced in the short side direction A method for arranging building units,
N in the long side direction reference building unit of plane rectangular shape as a reference for the design (n is an integer of 2 or more) can be arranged without causing inter-gap in together pieces adjacent the, and, given the short-side direction A plane rectangular area that can be separated with an interval of is set as a reference area in the design, and the state where the reference building unit is arranged in this reference area is structurally calculated and set ,
When arranging the building unit, the area of the area to be arranged is in the range of 95 to 100% of the reference area which is the area of the reference area, and the long side of the planar shape of the area is within the range. Set it to a flat rectangular shape that is shorter than the long side of the reference area ,
On the set area, along its two opposite sides, each said reference building unit and the short side direction length equal long side length is shorter flat rectangular building unit, n pieces adjacent in the long side direction then place without causing inter-gap in together, and, the arrangement method of the building units, which comprises placing apart with appropriate intervals in the short side direction. In the arrangement method of the building unit according to claim 1 ,
An additional area where one building unit can be arranged is arranged adjacent to the area where the building unit is arranged, and one building unit is arranged in the additional area. Placement method. In the arrangement method of the building unit according to claim 1 or 2 ,
After arranging the building unit in the area, the building units arranged by connecting the building units separated from each other at an appropriate interval in the short side direction of the building unit by a connecting member. In the arrangement method of the building unit as described in any one of Claims 1-3 ,
Of the plurality of building units, a central ventilation device main body is provided on a ceiling portion of a predetermined building unit.

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