JP3756987B2 - How to add a building - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a building extension method.
[0002]
[Background]
Buildings such as houses may be renovated due to aging or changing family structure.
For example, when extending the building body in the horizontal direction, as in the case of new construction, a foundation is set up on the extension site adjacent to the building body, and pillars and beams are assembled on this foundation and connected to the building body. A framework was formed, and flooring and wall materials were assembled to this framework.
[0003]
[Problems to be solved by the invention]
However, in such an extension method, it is necessary to perform all operations such as assembling the framework at the construction site, and the work at the site is complicated and requires a long construction period.
Also, if the extension part is added to the building body in an independent state, the extension part and the building body will shake individually in the event of an earthquake, resulting in horizontal relative displacement, which may cause harmful effects such as deformation of the frame. May give. In order to prevent the occurrence of such a relative displacement, the framework of the extension part and the building main body have to be joined with high strength over a large number of places, and the joining work has been troublesome.
[0004]
An object of the present invention is to provide a building extension method capable of simplifying the construction work and shortening the construction period.
[0005]
[Means for Solving the Problems]
DETAILED DESCRIPTION OF THE INVENTION The present invention will be described with reference to the drawings. A method for extending a building to be expanded on an extension site adjacent to a building body 10, comprising four columns 41 and upper beams connecting the upper ends of these columns 41. 42 and an extension unit 22A, 22B having a box-shaped framework 40 including a lower beam 43 connecting the lower ends of the pillars 41 are formed in advance, and a foundation 21 is provided on the extension site. When the extension units 22A and 22B are disposed on the foundation 21, the extension units 22A and 22B are connected to the building body 10 via the expansion joint 30. 31 A of 1 support parts, the 2nd support part 31B, the joint part 32 constructed between these 1st and 2nd support parts 31A and 31B, and each said support part 31 , 31B and a fastening tool 33 for connecting the joint portion 32 through elongated holes 33A, 33B orthogonal to each other, and in advance, facing surfaces of the frame 40 of the extension units 22A, 22B and the building unit 12 The first and second support portions 31A and 31B are provided opposite to each other, and after the extension units 22A and 22B are arranged on the foundation 21, the first and second support portions 31A and 31B are disposed on the base 21. The joint portion 32 is bridged, the joint portion 32 and the support portions 31A and 31B are coupled by the fastening tool 33, and the extension units 22A and 22B are connected to the building unit 12. And
[0006]
In the present invention, the extension units 22A and 22B including the frame 40 including the column 41, the upper beam 42, and the lower beam 43 are formed in advance, so that the work such as the assembly of the frame 40 can be omitted at the construction site. As a result, the construction work can be simplified and the construction period can be shortened.
Further, since the extension units 22A and 22B and the building body 10 are joined via the expansion joint 30, they are joined in a state of being physically separated from each other. Therefore, the horizontal relative displacement caused by the individual shaking of the extension units 22A and 22B and the building body 10 during an earthquake is absorbed by the expansion joint 30, and the extension units 22A and 22B and the building body 10 Will not adversely affect each other mechanically.
Furthermore, it is not necessary to rigidly join the extension units 22A and 22B and the building main body 10 with high strength over a large number of locations, and the joining work can be facilitated.
Thus, the object is achieved.
In addition, if the first support portion 31A and the second support portion 31B are provided in advance in the frameworks 40 of the extension units 22A and 22B and the building unit 12, the joint portion 32 is connected to the first and second support portions 31A, 31A, The extension units 22A and 22B can be easily connected to the building unit 12 simply by coupling to 31B.
[0007]
The building body 10 has a box shape including four columns 41, an upper beam 42 connecting the upper ends of the columns 41, and a lower beam 43 connecting the lower ends of the columns 41. The unit building 10 is constructed by combining a plurality of building units 12 each having the framework 40, and the framework 40 of the building unit 12 and the framework 40 of the extension units 22A and 22B are connected via the expansion joint 30. It is desirable to connect.
[0008]
As described above, the extension units 22A and 22B and the building unit 12 include the frame 40 having the same structure. Therefore, the extension units 22A and 22B can be easily formed by diverting the frame 40 of the building unit 12.
Moreover, since each frame 40 is connected, extension units 22A and 22B and the building unit 12 can be connected reliably.
[0009]
Further, the upper portions of the frames 40 of the extension units 22A and 22B and the building unit 12 and the lower portions of the frames 40 of the extension units 22A and 22B and the building unit 12 are connected via the expansion joint 30. It is desirable to connect.
[0010]
Thus, if the upper parts and the lower parts of the extension units 22A and 22B and the framework 40 of the building unit 12 are connected by the expansion joint 30, an earthquake occurs between the extension units 22A and 22B and the upper and lower parts of the building unit 12. Even when the relative displacement in the horizontal direction at the time is different, the difference in displacement is reliably absorbed by each expansion joint 30.
[0013]
The building body 10 has a planar shape with a recess 16, the extension units 22 </ b> A and 22 </ b> B are formed in advance into a shape that fits in the recess 16, and the extension site including the recess 16 is formed on the extension site. After the foundation 21 is provided and the extension units 22A and 22B are disposed on the foundation 21, the extension units 22A and 22B may be connected to the building body 10 via the expansion joint 30.
[0014]
If the extension units 22A and 22B are formed in a shape that fits in the recess 16 of the building body 10, the extension units 22A and 22B do not protrude from the recess 16, and the extension units 22A and 22B and the building body 10 The joint part can be easily processed and the aesthetic appearance can be secured.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, each embodiment of the present invention will be described with reference to the drawings.
[First embodiment]
FIG. 1 shows a unit type building 10 which is a building body of the present embodiment, and an extension portion 20 which is extended on an extension site adjacent to the unit type building 10. The unit type building 10 includes a plurality of building units 12 arranged in combination on the foundation 11 and a roof portion 13 including a plurality of roof panels 14 provided on these building units 12. The building units 12 are stacked in two layers, and are arranged so that the planar shape of the unit type building 10 is a rectangular shape.
[0016]
The extension portion 20 includes a foundation 21 provided on the extension site facing the building units 12A and 12B, and two extension units 22A and 22A, which are stacked on the foundation 21 with a gap from the building units 12A and 12B. 22B and a roof portion 23 including a roof panel 24 provided on the extension unit 22B.
[0017]
As shown in FIG. 2, the extension unit 22 </ b> A is connected to an adjacent building unit 12 </ b> A via an expansion joint 30. Similarly, the extension unit 22B is connected to the adjacent building unit 12B via an expansion joint (not shown).
[0018]
These extension unit 22A and building unit 12 include four columns 41, an upper beam 42 connecting the upper ends of these columns 41, and a lower beam connecting the lower ends of the columns 41 as shown in FIG. A rectangular parallelepiped frame 40 including 43 is provided. These columns 41 are connected to the upper beam 42 and the lower beam 43 via a bracket 44.
The frame (not shown) of the extension unit 22B has the same structure as the extension unit 22A, but the pair of columns 41 are constituted by short columns, and the upper beam 42 is inclined.
[0019]
As shown in FIG. 4, a curtain wall 45 such as an ALC plate, which is an outer wall material, is attached to the side surface of each of the frames 40 of the extension unit 22A and the building unit 12A that faces the outside.
A curtain wall is similarly attached to the side of the extension unit 22B and the other building unit 12 facing the outside.
Each frame 40 of these extension units 22A and 22B and the building unit 12 is assembled with various interior materials such as floor materials and ceiling materials, exterior materials and the like (not shown).
[0020]
The lower portions of each of the frameworks 40 of the extension unit 22A and the building unit 12A are connected by the expansion joint 30 described above. The expansion joint 30 is provided on the opposing surface of the first support portion 31A provided on the surface facing the building unit 12A of the framework 40 of the extension unit 22A and the extension unit 22A of the framework 40 of the building unit 12A. A second support portion 31B, a joint portion 32 installed between the first and second support portions 31A and 31B, a bolt 33 which is a fastening member for connecting the support portions 31A and 31B and the joint portion 32, and It includes a nut (not shown).
[0021]
31 A of 1st support parts consist of the support piece 37 provided in each lower end part of a pair of pillar 41 by the side of the building unit 12A of the unit 22A for extension, and the 2nd support part 31B is the unit 22A for extension of the building unit 12A. It consists of the support piece 37 provided in each lower end part of a pair of side pillar 41 facing the support piece 37 of 31 A of 1st support parts.
A rectangular frame-shaped joint portion 32 is constructed on the first and second support portions 31A and 31B.
[0022]
Each support piece 37 of the first and second support portions 31A, 31B is provided with a long hole 33A at a portion where the joint portion 32 intersects, and a support piece is provided at a portion where the joint portion 32 intersects with each support piece 37. A long hole 33B orthogonal to the 37 long holes 33A is provided. Bolts 33 are inserted into the long holes 33A and 33B from the joint portion 32 side, and nuts (not shown) are screwed into the bolts 33 from the support piece 37 side, so that the joint portion 32 and the support pieces 37 are tightened. It has been.
On the expansion joint 30, a floor surface material (not shown) is installed.
[0023]
Note that the upper portions of the frameworks 40 of the extension unit 22A and the building unit 12A are also connected by the expansion joint 30 having the same structure. The support piece 37 of the first support portion 31A of the expansion joint 30 is provided at the upper end portion of the column 41 of the extension unit 22A, and the support piece 37 of the second support portion 31B is the upper end portion of the column 41 of the building unit 12A. Is provided.
Under such an expansion joint 30, a ceiling surface material (not shown) is installed.
[0024]
Each joint portion 32 of the pair of expansion joints 30 is attached with a connecting outer wall material 34 such as an ALC plate via a joining member 35 fixed to the end portion thereof, and the extension unit 22A and the building unit 12A are connected to each other. The gap between them is covered. The connecting outer wall material 34 is a curtain wall, and a joint portion with an adjacent curtain wall 45 is treated with a joint material 341 or the like.
[0025]
The extension unit 22 </ b> B and the building unit 12 </ b> B are connected by the expansion joint 30 with the same structure, and the same connecting outer wall 34 is provided.
[0026]
Returning to FIG. 1, a connecting roof panel 36 is attached to the joint portion 32 that joins the upper portions of the frames 40 of the extension unit 22 </ b> B and the building unit 12 </ b> B. The lower end portion of the roof panel 14 on the adjacent building unit 12B is overlaid on the upper end portion of the connecting roof panel 36, and the lower end portion of the connecting roof panel 36 is the roof panel 24 on the adjacent extension unit 22B. It is overlaid on the upper end. Each joint portion between the connecting roof panel 36 and the roof panels 14 and 24 is rained.
[0027]
In the present embodiment configured as described above, the extension portion 20 is constructed in the following procedure.
First, in the factory, four sets of expansion joints 30 are prepared, elongated holes 33A and 33B that are orthogonal to each other are formed in each support piece 37 and joint portion 32, and a joining member 35 is fixed to both ends of the joint portion 32. Keep it.
[0028]
The four pillars 41, the upper beam 42, and the lower beam 43 are assembled to form the frames 40 of the extension units 22A and 22B. The frame 40 is provided with a curtain wall 45, various interior materials and exterior materials (not shown). Etc., and the extension units 22A and 22B are formed in advance.
At this time, support pieces 37 are attached to the upper and lower ends of each of the two pairs of columns 41 facing the building units 12A and 12B to form the first support portion 31A.
[0029]
Next, at the construction site, the sides facing the extension site of the building units 12A and 12B are opened to expose the frames 40, and the upper and lower ends of the two pairs of columns 41 facing the extension units 22A and 22B. Each of the support pieces 37 is attached to form the second support portion 31B.
In addition, a foundation 21 will be provided on the extension site.
The extension unit 22A is arranged on the foundation 21 with a gap from the building unit 12A, and the extension unit 22B is arranged on the extension unit 22A with a gap.
[0030]
Thereafter, the joint portions 32 are bridged between the first support portion 31A and the second support portion 31B of the extension unit 22A and the building unit 12A, and the extension unit 22B and the building unit 12B, respectively.
Bolts 33 are inserted into the elongated holes 33A and 33B at the intersections of the joint portion 32 and the support piece 37 from the joint portion 32 side, and nuts (not shown) are screwed into the bolt 33 from the support piece 37 side. And the support piece 37 are tightened. Such joining work is performed at each intersection of the joint portion 32 and the support piece 37, the first support portion 31A and the second support portion 31B are connected to the joint portion 32, the extension unit 22A and the building unit 12A, The upper parts and the lower parts of the frames 40 of the extension unit 22B and the building unit 12B are connected to each other.
[0031]
Subsequently, the connecting outer wall material 34 is attached to the joining member 35 fixed to each joint portion 32, and joint processing of the joint portion with the adjacent curtain wall 45 is performed. Then, a floor material (not shown) is installed on the expansion joint 30 that connects the lower portions of the frames 40 of the extension unit 22A and the building unit 12A, and the lower portions of the frames 40 of the extension unit 22B and the building unit 12B, A ceiling surface material (not shown) is installed under each expansion joint 30 that connects the upper portions of the frames 40.
[0032]
And the roof panel 36 for connection is attached on the joint part 32 which connects the upper beams 42 of the extension unit 22B and the building unit 12B, and rain of the junction part with the adjacent roof panels 14 and 24 is performed.
[0033]
According to this embodiment, there are the following effects.
That is, since the extension units 22A and 22B including the frame 40 including the column 41, the upper beam 42, and the lower beam 43 are formed in advance at the factory, the assembly of the frame 40, the assembly of the interior material, and the like are performed at the construction site. Thus, the construction work can be simplified and the construction period can be shortened.
[0034]
Further, in order to join the extension unit 22A and the building unit 12A, and the extension unit 22B and the building unit 12B via the expansion joint 30, the unit building 10 and the extension units 22A and 22B are physically separated from each other. It will join in the state. Therefore, the horizontal relative displacement caused by the individual shaking of the extension units 22A and 22B and the unit building 10 during an earthquake is absorbed by the expansion joint 30, and the extension units 22A and 22B and the unit type are absorbed. The building 10 will not adversely affect each other mechanically.
Furthermore, it is not necessary to rigidly join the extension unit 22A and the building unit 12A, and the extension unit 22B and the building unit 12B at a large number of locations with high strength, thereby facilitating the joining operation.
[0035]
Further, since the extension unit 22A includes the framework 40 having the same structure as that of the building unit 12, the extension unit 22A can be easily formed by diverting the framework 40 of the building unit 12. Furthermore, the framework of the extension unit 22B can be easily formed by simply using the pair of columns 41 of the framework 40 as short columns.
Since the extension unit 22A and the building unit 12A, and the extension unit 22B and the building unit 12B connect the frames 40 to each other, they can be reliably connected.
[0036]
Furthermore, the upper and lower parts of the frames 40 of the extension unit 22A and the building unit 12A are connected to each other by the expansion joint 30 and the upper parts and the lower parts of the frames 40 of the extension unit 22B and the building unit 12B are connected by the expansion joint 30. Even if the horizontal relative displacement at the time of an earthquake differs between the upper and lower portions of the units 22A and 22B and the building units 12A and 12B, the difference in displacement is reliably absorbed by each expansion joint 30.
[0037]
Further, the first support portion 31A is provided in advance in each framework 40 of the extension units 22A and 22B at the factory, and the second support portion 31B is attached to the building unit 12A before the extension units 22A and 22B are installed on the foundation 21. , 12B are provided in the frameworks 40, so that at the construction site, the extension unit 22A, 22B can be easily built by simply connecting the joint portion 32 to the first and second support portions 31A, 31B. 12A, 12B can be connected.
[0038]
Furthermore, since the connecting outer wall material 34 is attached to the joint portion 32, the expansion joint 30 can be reliably covered.
[0039]
[Second Embodiment]
Since the unit type building 10 and the extension part 20 of this embodiment are provided with the structure substantially the same as said 1st embodiment, the same code | symbol is attached | subjected to the same part, detailed description is abbreviate | omitted, and it differs below. Only the part will be described in detail.
FIG. 5 shows the unit type building 10 and the extension portion 20 of the present embodiment.
[0040]
The building unit 12 of the present embodiment is arranged in an L shape, and the corner portion 15 of the unit type building 10 is formed by the building units 12C and 12D on the foundation 11 and the building units 12 stacked on these building units 12C and 12D, respectively. It is configured. Thereby, the planar shape of the unit type building 10 is a shape provided with a rectangular recess 16 at one corner.
Here, the planar shape provided with the concave portion 16 is a planar shape in which a part is cut out from a rectangular shape. For example, a U-shaped planar shape in which a central portion of one side of the rectangle is cut into a rectangle, And a recess 16 corresponds to the cut-out portion.
[0041]
The extension portion 20 includes the foundation 21 provided on the extension site that includes the recess 16 and faces the building units 12C and 12D, and the extension portion 20 that is disposed on the foundation 21 with a space between each of the building units 12C and 12D. A unit 22A and a roof portion 23 including a roof panel 24 provided on the extension unit 22A are provided.
As shown in FIG. 6, the extension unit 22A is disposed so as to protrude from the recess 16 by the gap between the building units 12C and 12D.
[0042]
As shown in FIG. 7, the extension unit 22 </ b> A is connected to two adjacent building units 12 </ b> C and 12 </ b> D via an expansion joint 30.
An L-shaped outer wall material for connection 34 is attached to an end portion on the outdoor side of the joint portion 32 disposed between the extension unit 22A and the building unit 12C. Between the connecting outer wall material 34 and the curtain wall 45 of the extension unit 22A, an L-shaped outer corner wall material 51 that covers the protruding corner portion of the extension unit 22A is installed.
A similar connecting outer wall material 34 and outer corner wall material 51 are also provided between the curtain walls 45 of the extension unit 22A and the building unit 12D.
According to the present embodiment as described above, the same operations and effects as those of the first embodiment can be achieved.
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 second embodiment, the extension unit 22A is disposed so as to protrude from the recess 16 of the unit building 10, but the extension unit 22A is accommodated in the recess 16 as shown in FIGS. Alternatively, the extension unit 22B having the same planar shape may be laminated on the extension unit 22A and connected to the adjacent building units 12E and 12F via the expansion joint 30.
[0044]
If the extension units 22A and 22B are formed in such a shape, the extension units 22A and 22B will not protrude from the recess 16, and the joint between the extension unit 22A and the building units 12C and 12D and the extension unit The outer wall material 51 for the projecting corners at the joint portion between the unit 22B and the building units 12E and 12F can be omitted, and joint treatment and the like can be easily performed, and an aesthetic appearance can be secured.
[0045]
Further, the first and second support portions 31A and 31B of the expansion joint 30 are each constituted by two support pieces 37, but may be constituted by three or more support pieces 37.
Further, in the first embodiment, the support pieces 37 are provided at the upper and lower ends of the column 41. However, for example, the support pieces 37 may be provided at the upper beam 42 and the lower beam 43, or at the middle portion of the column. It may be provided.
Further, the joint portion 32 is not limited to a rectangular frame shape, and may be a planar shape, for example.
And the expansion joint 30 is not limited to what consists of 1st and 2nd support part 31A, 31B and the joint part 32, You may use the other existing expansion joint.
[0046]
【The invention's effect】
As described above, according to the present invention, an extension unit having a framework including columns, upper beams, and lower beams is formed in advance, so that the assembly work of the framework can be omitted at the construction site. Therefore, the construction work can be simplified and the construction period can be shortened.
Further, since the extension unit and the building body are joined through the expansion joint, they are joined in a state of being physically separated from each other. Therefore, the horizontal relative displacement caused by the individual shaking of the extension unit and the building body during an earthquake is absorbed by the expansion joint, and the extension unit and the building body have a mechanically harmful effect on each other. No effect.
Furthermore, it is not necessary to rigidly join the extension unit and the building main body at many places with high strength, and the joining work can be facilitated.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a first embodiment of the present invention.
FIG. 2 is a plan sectional view showing a unit type building and an extension part of the embodiment.
FIG. 3 is a perspective view showing the framework of the embodiment.
4 is an enlarged cross-sectional view showing a portion surrounded by a circle IV in FIG. 2. FIG.
FIG. 5 is a perspective view showing a second embodiment of the present invention.
FIG. 6 is a plan sectional view showing a unit type building and an extension part of the embodiment.
FIG. 7 is an enlarged cross-sectional view showing a connection portion between the building unit and the extension unit of the embodiment.
FIG. 8 is a perspective view showing a modified embodiment of the present invention.
FIG. 9 is a plan sectional view showing a unit type building and an extension part of the modified embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Unit type building 12 which is a building body Building unit 21 Foundation 22A, 22B Extension unit 30 Expansion joint 31A First support part 31B Second support part 32 Joint part 33 Fastening tool 33A, 33B Long hole 34 Connection outer wall material 40 Frame 41 Column 42 Upper beam 43 Lower beam

Claims (4)

An extension method for a building to be added to the extension site adjacent to the building body,
An extension unit having a box-shaped frame including four columns, an upper beam connecting the upper ends of the columns, and a lower beam connecting the lower ends of the columns is formed in advance. Every
Establish a foundation for the extension site,
After placing the extension unit on this foundation,
In connecting this extension unit to the building body via the expansion joint ,
The expansion joint includes a first support part, a second support part, a joint part laid between the first and second support parts, and a long hole perpendicular to each support part and the joint part. A fastening tool connected through
In advance, the first and second support portions are provided facing each other on the facing surfaces of the framework of the extension unit and the building unit,
After placing the extension unit on the foundation,
Span the joint on the first and second support,
A method for extending a building, wherein the joint portion and each support portion are coupled by the fasteners, and the extension unit is connected to the building unit. In the building extension method according to claim 1,
The building body includes a plurality of buildings having a box-shaped frame including four columns, an upper beam connecting upper ends of the columns, and a lower beam connecting lower ends of the columns. It is a unit type building constructed by combining units,
A building extension method comprising connecting the framework of the building unit and the framework of the extension unit via the expansion joint. In the building extension method according to claim 2,
A method for extending a building, comprising connecting the upper parts of the frames of the extension unit and the building unit to the lower parts of the frames of the extension unit and the building unit via the expansion joint. The building extension method according to any one of claims 1 to 3, wherein the building body has a planar shape with a recess,
Pre-form the extension unit into a shape that fits into the recess,
The foundation is provided on the extension site including the recess,
After placing the extension unit on this foundation,
A building extension method, wherein the extension unit is connected to the building body through the expansion joint.

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