JP2003227177A - Unit building - Google Patents
Unit buildingInfo
- Publication number
- JP2003227177A JP2003227177A JP2002027153A JP2002027153A JP2003227177A JP 2003227177 A JP2003227177 A JP 2003227177A JP 2002027153 A JP2002027153 A JP 2002027153A JP 2002027153 A JP2002027153 A JP 2002027153A JP 2003227177 A JP2003227177 A JP 2003227177A
- Authority
- JP
- Japan
- Prior art keywords
- building
- unit
- rectangular parallelepiped
- building unit
- site
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Landscapes
- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明はユニット建物に関す
る。TECHNICAL FIELD The present invention relates to a unit building.
【0002】[0002]
【従来の技術】従来、特開平2-304166号公報に記載の如
く、ユニット建物において、平面視長方形で上面が水平
面とされた直方体型建物ユニットの端部に、上面が面取
りされた異型建物ユニットを並設し、直方体型建物ユニ
ットの水平上の上面から異型建物ユニットの水平上の上
面に渡る折板屋根を設けてなるものがある。2. Description of the Related Art Conventionally, as described in Japanese Patent Application Laid-Open No. 2-304166, in a unit building, a heterogeneous building unit whose upper surface is chamfered at the end of a rectangular parallelepiped building unit whose plan view is rectangular and whose upper surface is a horizontal plane. Are installed side by side, and a folded plate roof extending from the horizontal upper surface of the rectangular parallelepiped building unit to the horizontal upper surface of the odd-shaped building unit is provided.
【0003】この従来技術に記載されたような面取り型
の異型建物ユニットを用いれば、直方体形状の建物ユニ
ットのみの場合に比べて、建物を斜線制限のある敷地境
界に、より近づけることができ、建物内部の床面積を大
きくしたり、建物の反対側の庭の面積を大きくすること
ができる。By using the chamfered variant building unit as described in this prior art, it is possible to bring the building closer to the boundary of the site with diagonal restrictions, as compared with the case where only the rectangular parallelepiped building unit is used. The floor area inside the building can be increased, and the area of the garden on the opposite side of the building can be increased.
【0004】[0004]
【発明が解決しようとする課題】しかしながら、都市部
等の間口の狭い敷地においては、間口の狭い分、建物の
奥行きを可及的に拡大したいという要望が普遍的であ
る。斜線制限のある境界線とは反対側の敷地境界線に対
しても建物をできるだけ近づけて配置した場合、直方体
形状の建物ユニットの稜線が斜線制限のある側において
は斜線直近となってしまう場合があり、面取り型の異型
ユニットを付加すると斜線制限に抵触してしまうという
問題があった。However, in a site with a narrow frontage such as an urban area, there is a universal demand for increasing the depth of a building as much as possible because of the narrow frontage. If the building is placed as close as possible to the site boundary line on the opposite side of the diagonal line limit, the ridge line of the rectangular parallelepiped building unit may be close to the diagonal line on the diagonal line limit side. However, when a chamfered variant unit is added, there is a problem that it violates the diagonal line limitation.
【0005】本発明の課題は、敷地の北側斜線や道路斜
線に対応しながら、建物の奥行を敷地の境界近くまで可
及的に拡大可能とし、敷地の有効利用を図ることにあ
る。An object of the present invention is to make it possible to expand the depth of a building as close as possible to the boundary of the site while coping with the oblique line to the north of the site and the road oblique line, and to make effective use of the site.
【0006】[0006]
【課題を解決するための手段】請求項1の発明は、平面
視長方形で上面が水平面とされた直方体型建物ユニット
の複数個が並設され、更に、その並設方向端部に、上面
がその並設方向に沿う傾斜面とされた異型建物ユニット
が並設され、直方体型建物ユニットの上部には、複数個
の直方体型建物ユニットの全部にまたがる長さの折板に
よって屋根が構成されているユニット建物である。According to a first aspect of the present invention, a plurality of rectangular parallelepiped building units each having a rectangular shape in plan view and a horizontal upper surface are arranged in parallel. An odd-shaped building unit with an inclined surface along the juxtaposed direction is installed side by side, and a roof is formed on the upper part of the rectangular parallelepiped building unit by a folding plate having a length that spans all of the plurality of rectangular parallelepiped building units. It is a unit building.
【0007】請求項2の発明は、請求項1の発明におい
て更に、上記折板の長さが、製造上又は現場への輸送上
の略限界の長さであるようにしたものである。According to a second aspect of the present invention, in addition to the first aspect of the present invention, the length of the folded plate is a substantially limit length in terms of manufacturing or transportation to the site.
【0008】請求項3の発明は、請求項1の発明におい
て更に、上記建物ユニットの並設方向が、建物ユニット
の平面視短辺方向と一致しているようにしたものであ
る。According to a third aspect of the present invention, in addition to the first aspect of the invention, the arranging direction of the building units coincides with the short side direction of the building unit in plan view.
【0009】請求項4の発明は、請求項1の発明におい
て更に、上記異型建物ユニットの傾斜面には工場にて屋
根葺き材が葺かれてなるようにしたものである。According to a fourth aspect of the present invention, in addition to the first aspect of the invention, a roofing material is roofed at the factory on the inclined surface of the atypical building unit.
【0010】[0010]
【作用】請求項1の発明によれば下記〜の作用があ
る。
複数個の直方体型建物ユニットを建物の奥行方向に並
べて建物の奥行寸法を長くし、その奥行方向に更に上面
が傾斜面である異型建物ユニットを付加して奥行寸法を
拡張したから、建物の奥行を可及的に拡大できる。According to the invention of claim 1, the following effects are obtained. Since a plurality of rectangular parallelepiped building units are arranged in the depth direction of the building to increase the depth dimension of the building and the depth dimension of the building is expanded by adding a variant building unit whose upper surface is an inclined surface in the depth direction, the depth of the building is increased. Can be expanded as much as possible.
【0011】異型建物ユニットの上面は直方体型建物
ユニットの並設方向、換言すれば上述の奥行方向に沿う
傾斜面とされるから、敷地の北側斜線や道路斜線に対応
しながら、建物の奥行を敷地の境界近くまで可及的に拡
大できる。Since the upper surface of the odd-shaped building unit is an inclined surface along the parallel installation direction of the rectangular parallelepiped building units, in other words, the above-mentioned depth direction, the depth of the building should be kept in correspondence with the north oblique line or road oblique line of the site. It can be expanded as close as possible to the boundary of the site.
【0012】直方体型建物ユニットの屋根が、複数個
の直方体型建物ユニットの全部にまたがる長さの折板に
よって形成されるから、多数の直方体型建物ユニットを
並べて建物の奥行寸法を長くしながら、つなぎ目がない
ために防水信頼性が高い屋根を容易に施工できる。Since the roof of the rectangular parallelepiped building unit is formed by a folded plate having a length that extends over all of the plurality of rectangular parallelepiped building units, a large number of rectangular parallelepiped building units are arranged side by side to increase the depth of the building. Since there are no joints, a waterproof and highly reliable roof can be easily constructed.
【0013】請求項2の発明によれば下記の作用があ
る。
折板の長さを、製造上又は現場への輸送上の略限界の
長さとすることにより、つなぎ目のない一枚物の折板を
使用しながら、建物の奥行寸法を最大限まで長くでき
る。According to the invention of claim 2, there is the following action. By setting the length of the folded plate to a substantially limit length for manufacturing or transportation to the site, the depth dimension of the building can be maximized while using a seamless single folded plate.
【0014】請求項3の発明によれば下記の作用があ
る。
直方体型建物ユニットと異型建物ユニットの並設方向
を、それらの建物ユニットの平面視短辺方向に一致させ
たから、それらの建物ユニットの1列によって建物に長
い奥行を確保しながら、それらの建物ユニットの1列が
占める奥行に直交する開口巾を長くできる。According to the invention of claim 3, there is the following action. Since the parallel installation directions of the rectangular parallelepiped building unit and the odd-shaped building unit are made to coincide with the short side direction of the building units in plan view, one row of these building units secures a long depth in the building, and those building units are secured. The opening width orthogonal to the depth occupied by one column can be increased.
【0015】請求項4の発明によれば下記の作用があ
る。
異型建物ユニットの傾斜面の屋根が工場葺きされるか
ら、建物の工場生産化率を高めることができる。According to the invention of claim 4, there is the following action. Since the roof of the sloping surface of the odd-shaped building unit is roofed at the factory, the factory production rate of the building can be increased.
【0016】[0016]
【発明の実施の形態】図1はユニット建物を示す斜視
図、図2は異型建物ユニットを示す斜視図、図3は直方
体型建物ユニットと異型建物ユニットの屋根接続部を示
す側面図である。DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a perspective view showing a unit building, FIG. 2 is a perspective view showing a variant building unit, and FIG. 3 is a side view showing a roof connecting portion of a rectangular parallelepiped building unit and a variant building unit.
【0017】ユニット建物1は、図1に示す如く、直方
体型建物ユニット10と異型建物ユニット20の接合体
である。As shown in FIG. 1, the unit building 1 is a joined body of a rectangular parallelepiped building unit 10 and an odd-shaped building unit 20.
【0018】直方体型建物ユニット10は、工場生産段
階で、床構成体の4隅に柱を立設し、各柱の上端部に天
井構成体を支持して構築され、平面視長方形で天井構成
体の上面を水平面Aとした箱形骨組構造体である。床構
成体は形鋼等からなる4本の床梁を接合した四角枠組体
からなり、相対する床梁に架け渡された床小梁に根太を
介して床面材を貼設して構成される。天井構成体は形鋼
等からなる4本の天井梁(図3の天井梁11)を接合し
た水平四角枠状体からなり、相対する天井梁に架け渡さ
れた天井野縁(図3の天井野縁12)に天井面材(図3
の天井面材13)を貼設して構成される。柱は角鋼管等
からなる。The rectangular parallelepiped building unit 10 is constructed in such a manner that pillars are erected at four corners of the floor structure and the ceiling structure is supported on the upper end of each pillar at the factory production stage, and the ceiling structure is rectangular in plan view. It is a box-shaped frame structure whose upper surface is a horizontal plane A. The floor structure is composed of a square frame structure in which four floor beams made of shaped steel or the like are joined, and the floor beam is attached to the floor beam connected to the opposing floor beams with joists. It The ceiling structure is a horizontal quadrangular frame-like body in which four ceiling beams made of shaped steel (ceiling beam 11 in FIG. 3) are joined together, and the ceiling rim (ceiling in FIG. 3) bridged to the opposing ceiling beams. Ceiling surface material (Fig. 3)
The ceiling surface material 13) is attached. The pillar is made of square steel pipe or the like.
【0019】異型建物ユニット20は、図2に示す如
く、工場生産段階で、床構成体21の4隅のうち、前2
ヶ所に短柱22Aを、後2ヶ所に長柱22Bを立設し、
各柱22A、22Bの上端部に天井構成体23を支持し
て構成され、平面視長方形で天井構成体23の上面を平
面視短辺方向に沿う前下がりの傾斜面Bとした箱形骨組
構造体である。As shown in FIG. 2, the atypical building unit 20 has two front corners of the four corners of the floor structure 21 at the factory production stage.
Short columns 22A are installed in two places, and long columns 22B are installed in two rear places.
A box-shaped frame structure configured to support the ceiling structure 23 on the upper ends of the columns 22A and 22B, and having a rectangular shape in plan view and an upper surface of the ceiling structure 23 being a front-down inclined surface B along the short side direction in plan view. It is the body.
【0020】異型建物ユニット20の床構成体21は、
形鋼等からなる2本の長辺状床梁21Aと2本の短辺状
床梁21Bを接合した四角枠組体からなり、相対する長
辺状床梁21Aに架け渡された床小梁21Cに根太21
Dを介して床面材を貼設して構成される。The floor structure 21 of the atypical building unit 20 is
A floor girder 21C which is composed of a rectangular frame assembly in which two long-sided floor beams 21A and two short-sided floor beams 21B made of shaped steel or the like are joined, and which are bridged to the opposing long-sided floor beams 21A. Joist 21
It is configured by attaching a floor material through D.
【0021】異型建物ユニット20の天井構成体23
は、形鋼等からなる2本の長辺状天井梁23Aと2本の
傾斜短辺状天井梁23Bを接合した傾斜四角枠組体から
なり、相対する長辺状天井梁23Aに架け渡された傾斜
状天井野縁23Cに天井面材を貼設して構成される。Ceiling structure 23 of the unusual building unit 20
Is composed of a slanted rectangular frame structure in which two long-sided ceiling beams 23A made of shaped steel and two slanted short-sided ceiling beams 23B are joined, and is bridged to the opposing long-sided ceiling beams 23A. It is configured by attaching a ceiling surface material to the inclined ceiling edge 23C.
【0022】異型建物ユニット20は、工場生産段階
で、天井構成体23の上面の傾斜面Bに、屋根パネル2
4(屋根葺き材)が葺き設けられる。屋根パネル24
は、天井構成体23の相対する傾斜短辺状天井梁23B
に接合される上下の屋根枠材24Aと、枠材24Aに架
け渡されるたる木24Bと、枠材24Aとたる木24B
の上に貼設される屋根下地材24Cと、屋根下地材24
Cの上に葺かれる金属瓦等の天井面材24Dとからな
る。The odd-shaped building unit 20 has the roof panel 2 on the inclined surface B of the upper surface of the ceiling structure 23 at the factory production stage.
4 (roofing material) is installed. Roof panel 24
Is an inclined short-sided ceiling beam 23B facing the ceiling structure 23.
Upper and lower roof frame members 24A joined to each other, a barrel 24B spanning the frame member 24A, a frame member 24A and a barrel tree 24B
Roof underlaying material 24C pasted on the roof, and roof underlaying material 24
It is composed of a ceiling surface material 24D such as a metal roof tile that is laid on C.
【0023】尚、直方体型建物ユニット10と異型建物
ユニット20は、平面視の長辺方向長さL1と短辺方向
長さL2を互いに同一にしている。The rectangular parallelepiped building unit 10 and the odd-shaped building unit 20 have the same long-side length L1 and short-side length L2 in plan view.
【0024】しかるに、ユニット建物1は、建築現場に
おいて、敷地境界2に対する奥行方向に長い3階建てと
され、1階部分と2階部分のそれぞれは複数個(本実施
形態では6個)の直方体型建物ユニット10を平面視短
辺方向にて並設して構成され、3階部分は奥行側に複数
個(本実施形態では5個)の直方体型建物ユニット10
を平面視短辺方向にて並設し、その並設方向の前端部
(敷地境界2の側)に1個の異型建物ユニット20を平
面視短辺方向にて並設した。ここで、異型建物ユニット
20は、その平面視短辺方向に沿って上面の傾斜面Bを
設けたものであるから、その傾斜面Bは直方体型建物ユ
ニット10との並設方向に沿うものとなる。そして、異
型建物ユニット20の上面の傾斜面Bに設けた屋根パネ
ル24は、敷地の斜線制限ライン3に干渉しない勾配を
もつものとされる。However, the unit building 1 is a three-story building which is long in the depth direction with respect to the site boundary 2 at the construction site, and each of the first floor portion and the second floor portion has a plurality of (six in the present embodiment) rectangular parallelepiped. Type building units 10 are arranged side by side in the short side direction in plan view, and a plurality of (three in the present embodiment) rectangular parallelepiped building units 10 are provided on the depth side of the third floor portion.
Were arranged side by side in the short side direction in plan view, and one atypical building unit 20 was arranged side by side in the short side direction in plan view at the front end (side of site boundary 2) in the side by side direction. Here, since the odd-shaped building unit 20 is provided with the inclined surface B on the upper surface along the short side direction in plan view, the inclined surface B is supposed to be along the direction of juxtaposition with the rectangular parallelepiped building unit 10. Become. Then, the roof panel 24 provided on the inclined surface B on the upper surface of the odd-shaped building unit 20 has a slope that does not interfere with the oblique line 3 of the site.
【0025】最上階の複数個の直方体型建物ユニット1
0の上部の水平面Aには、現場施工段階で、それらの直
方体型建物ユニット10の全部にまたがる長さの折板1
4によって屋根が構成される。折板14は直方体型建物
ユニット10の天井梁11の上部に固定された取付金具
15に係着されて固定され、折板14の流れを直方体型
建物ユニット10の並設方向(ユニット建物1の奥行方
向、異型建物ユニット20の傾斜面Bに葺き設けた屋根
パネル24の傾斜方向)に向かうように設定し、折板1
4の先端部は異型建物ユニット20の屋根パネル24の
傾斜上端部の上方に突き出るように設定される。折板1
4の長さKは、折板14の製造上又は現場への移送上の
略限界の長さ(例えば12.5m)の範囲に設定される。A plurality of rectangular parallelepiped building units 1 on the top floor
On the horizontal plane A above 0, the folded plate 1 having a length that spans all of the rectangular parallelepiped building units 10 at the site construction stage.
The roof is composed of four. The folding plate 14 is fixed to the mounting bracket 15 fixed to the upper part of the ceiling beam 11 of the rectangular parallelepiped building unit 10 by fixing the flow of the folding plate 14 in the parallel installation direction of the rectangular parallelepiped building unit 10 (in the unit building 1). The folding plate 1 is set so as to be directed in the depth direction, the inclination direction of the roof panel 24 that is provided on the inclined surface B of the odd-shaped building unit 20).
4 is set so as to protrude above the inclined upper end of the roof panel 24 of the odd-shaped building unit 20. Folding plate 1
The length K of 4 is set to a range of a substantially limit length (for example, 12.5 m) in manufacturing the folded plate 14 or transferring it to the site.
【0026】尚、直方体型建物ユニット10と異型建物
ユニット20の上述の屋根接続部では、図3に示す如
く、直方体型建物ユニット10の折板14の先端部が覆
う異型建物ユニット20の屋根パネル24の傾斜上端部
に天井梁23Aの側から屋根面材24Dにまで延びる水
切り25が設けられ、折板14の先端部の前方には破風
化粧板16が設けられる。At the above-mentioned roof connection portion of the rectangular parallelepiped building unit 10 and the odd-shaped building unit 20, as shown in FIG. 3, the roof panel of the odd-shaped building unit 20 covered by the tip of the folding plate 14 of the rectangular parallelepiped building unit 10. A drainer 25 extending from the ceiling beam 23A side to the roof surface member 24D is provided at the upper end of the slope 24, and a gable decorative plate 16 is provided in front of the tip of the folding plate 14.
【0027】従って、ユニット建物1は以下の如くに施
工される。
(1)工場生産された直方体型建物ユニット10、異型建
物ユニット20を現場へと輸送する。Therefore, the unit building 1 is constructed as follows. (1) Transport the factory-produced rectangular parallelepiped building unit 10 and variant building unit 20 to the site.
【0028】(2)現場に設けた基礎の上に、1階部分の6
個の直方体型建物ユニット10のそれぞれを平面視短辺
方向にて並設する。次に、1階部分の各直方体型建物ユ
ニット10の上に、2階部分の6個の直方体型建物ユニ
ット10のそれぞれを平面視短辺方向にて並設する。(2) On the foundation provided at the site, 6 of the first floor
Each of the rectangular parallelepiped building units 10 is arranged side by side in the short side direction in plan view. Next, each of the six rectangular parallelepiped building units 10 on the second floor is arranged side by side in the short side direction in plan view on each rectangular parallelepiped building unit 10 on the first floor.
【0029】(3)2階部分の6個の直方体型建物ユニット
10のうち、奥行側の5個の各直方体型建物ユニット1
0の上に、3階部分の5個の直方体型建物ユニット10
のそれぞれを平面視短辺方向にて並設する。(3) Of the six rectangular parallelepiped building units 10 on the second floor, each of the five rectangular parallelepiped building units 1 on the depth side
5 rectangular parallelepiped building units 10 on the 3rd floor above 0
Are arranged side by side in the short side direction in plan view.
【0030】(4)2階部分の敷地境界2の側の直方体型
建物ユニット10の上で、3階部分の直方体型建物ユニ
ット10のうちの前端部のものの前に、1個の異型建物
ユニット20を平面視短辺方向にて並設する。異型建物
ユニット20は直方体型建物ユニット10との並設方向
(ユニット建物1の奥行方向)に沿う上面の傾斜面Bに
予め屋根パネル24が葺き設けられている。(4) Above the rectangular parallelepiped building unit 10 on the side of the site boundary 2 on the second floor, one heterogeneous building unit is placed in front of the front end of the rectangular parallelepiped building unit 10 on the third floor. 20 are arranged side by side in the short side direction in plan view. The odd-shaped building unit 20 is provided with a roof panel 24 in advance on an inclined surface B of the upper surface along the parallel installation direction (the depth direction of the unit building 1) with the rectangular parallelepiped building unit 10.
【0031】(5)3階部分の直方体型建物ユニット10
の上部の水平面Aに、それら直方体型建物ユニット10
の全部にまたがる折板14を葺き設ける。折板14の流
れは直方体型建物ユニット10の並設方向に沿い、従っ
て異型建物ユニット20の屋根パネル24の傾斜方向に
沿い、折板14の先端部は屋根パネル24の上方に突き
出るように設けられる。(5) A rectangular parallelepiped building unit 10 on the third floor
The rectangular parallelepiped building unit 10 on the horizontal plane A above the
A folding plate 14 that covers the entire area is provided. The flow of the folded plate 14 is along the direction in which the rectangular parallelepiped building units 10 are arranged side by side, and thus along the inclination direction of the roof panel 24 of the odd-shaped building unit 20, and the tip of the folded plate 14 is provided so as to project above the roof panel 24. To be
【0032】本実施形態において、直方体型建物ユニッ
ト10と異型建物ユニット20の平面視の短辺方向長さ
L2は、それらの輸送上の制限から現状では最大2.5m
である。また、折板14の長さは、その製造上又は輸送
上の制約から現状では最大12.5mである。従って、ユニ
ット建物1の現状の奥行寸法は、直方体型建物ユニット
10の最大並設方向長さ12.5m(2.5mの短辺方向長さL
2をもつ直方体型建物ユニット10の5個分)に、直方
体型建物ユニット10の一端部にだけ異型建物ユニット
20を並設したときの異型建物ユニット20の1個分に
よる最大拡張長さ2.5mを加えた全15m、又は直方体型
建物ユニット10の両端部に異型建物ユニット20を並
設したときの両異型建物ユニット20の2個分による最
大拡張長さ5mを加えた全17.5mとなる。In the present embodiment, the length L2 of the rectangular parallelepiped building unit 10 and the odd-shaped building unit 20 in the short side direction in plan view is 2.5 m at maximum in the present situation due to their transport limitation.
Is. Further, the length of the folded plate 14 is currently 12.5 m at maximum due to its manufacturing or transportation restrictions. Therefore, the current depth dimension of the unit building 1 is 12.5 m in the maximum juxtaposition direction of the rectangular parallelepiped building unit 10 (the short side length L of 2.5 m).
The maximum expansion length of 2.5 m by one heterogeneous building unit 20 when the anomalous building unit 20 is juxtaposed only at one end of the hexagonal building unit 10) The total length is 15 m, which is a total of 17.5 m, and the maximum extension length of 5 m, which is the total length of two different building units 20 when two different building units 20 are arranged in parallel at both ends of the rectangular parallelepiped building unit 10.
【0033】本実施形態によれば以下の作用がある。
複数個の直方体型建物ユニット10をユニット建物1
の奥行方向に並べてユニット建物1の奥行寸法を長く
し、その奥行方向に更に上面が傾斜面Bである異型建物
ユニット20を付加して奥行寸法を拡張したから、ユニ
ット建物1の奥行を可及的に拡大できる。According to this embodiment, there are the following effects. Unit building 1 with multiple rectangular parallelepiped building units 10
Since the depth dimension of the unit building 1 is increased by arranging them in the depth direction of the unit building 1, and the depth dimension of the unit building 1 is expanded by adding a variant building unit 20 whose upper surface is the inclined surface B in the depth direction, the depth of the unit building 1 can be extended. Can be expanded.
【0034】異型建物ユニット20の上面は直方体型
建物ユニット10の並設方向、換言すれば上述の奥行方
向に沿う傾斜面とされるから、敷地の北側斜線や道路斜
線に対応しながら、ユニット建物1の奥行を敷地の境界
2近くまで可及的に拡大できる。The upper surface of the odd-shaped building unit 20 is an inclined surface along the parallel installation direction of the rectangular parallelepiped building unit 10, in other words, the above-mentioned depth direction. The depth of 1 can be expanded as close as possible to the boundary 2 of the site.
【0035】直方体型建物ユニット10の屋根が、複
数個の直方体型建物ユニット10の全部にまたがる長さ
の折板14によって形成されるから、多数の直方体型建
物ユニット10を並べてユニット建物1の奥行寸法を長
くしながら、つなぎ目がないために防水信頼性が高い屋
根を容易に施工できる。Since the roof of the rectangular parallelepiped building unit 10 is formed by the folded plate 14 having a length that spans all of the plurality of rectangular parallelepiped building units 10, a large number of rectangular parallelepiped building units 10 are arranged side by side to form the depth of the unit building 1. Since the dimensions are long and there are no joints, it is easy to construct a roof with high waterproof reliability.
【0036】折板14の長さを、製造上又は現場への
輸送上の略限界の長さとすることにより、つなぎ目のな
い一枚物の折板14を使用しながら、ユニット建物1の
奥行寸法を最大限まで長くできる。By setting the length of the folded plate 14 to a substantially limit length in terms of manufacturing or transportation to the site, the depth dimension of the unit building 1 can be obtained while using the single folded plate 14 which is seamless. Can be maximized.
【0037】直方体型建物ユニット10と異型建物ユ
ニット20の並設方向を、それらの建物ユニット10、
20の平面視短辺方向に一致させたから、それらの建物
ユニット10、20の1列によってユニット建物1に長
い奥行を確保しながら、それらの建物ユニット10、2
0の1列が占める奥行に直交する開口巾を長くできる。The parallel installation direction of the rectangular parallelepiped building unit 10 and the odd-shaped building unit 20 is defined by
Since they are aligned with the short side direction of the plan view 20 of the building units 10, 20 while ensuring a long depth in the unit building 1 by one row of the building units 10, 20,
The opening width orthogonal to the depth occupied by one column of 0 can be lengthened.
【0038】異型建物ユニット20の傾斜面の屋根が
工場葺きされるから、ユニット建物1の工場生産化率を
高めることができる。Since the roof of the sloping surface of the odd-shaped building unit 20 is roofed in the factory, the rate of factory production of the unit building 1 can be increased.
【0039】以上、本発明の実施の形態を図面により詳
述したが、本発明の具体的な構成はこの実施の形態に限
られるものではなく、本発明の要旨を逸脱しない範囲の
設計の変更等があっても本発明に含まれる。The embodiment of the present invention has been described in detail above with reference to the drawings. However, the specific configuration of the present invention is not limited to this embodiment, and the design change is made within the scope of the present invention. Etc. are included in the present invention.
【0040】[0040]
【発明の効果】以上のように本発明によれば、敷地の北
側斜線や道路斜線に対応しながら、建物の奥行を敷地の
境界近くまで可及的に拡大可能とし、敷地の有効利用を
図ることができる。As described above, according to the present invention, the depth of the building can be expanded to the vicinity of the boundary of the site as much as possible while coping with the oblique line on the north side of the site and the oblique line of the road, and the effective use of the site is achieved. be able to.
【図1】図1はユニット建物を示す斜視図である。FIG. 1 is a perspective view showing a unit building.
【図2】図2は異型建物ユニットを示す斜視図である。FIG. 2 is a perspective view showing a variant building unit.
【図3】図3は直方体型建物ユニットと異型建物ユニッ
トの屋根接続部を示す側面図である。FIG. 3 is a side view showing roof connecting portions of a rectangular parallelepiped building unit and an odd-shaped building unit.
1 ユニット建物 10 直方体型建物ユニット 20 異型建物ユニット 14 折板 24 屋根パネル(屋根葺き材) 1 unit building 10 Rectangular building unit 20 Variant building unit 14 folding board 24 Roof panel (roofing material)
Claims (4)
方体型建物ユニットの複数個が並設され、 更に、その並設方向端部に、上面がその並設方向に沿う
傾斜面とされた異型建物ユニットが並設され、直方体型
建物ユニットの上部には、複数個の直方体型建物ユニッ
トの全部にまたがる長さの折板によって屋根が構成され
ていることを特徴とするユニット建物。1. A plurality of rectangular parallelepiped building units each having a rectangular shape in plan view and an upper surface which is a horizontal surface are arranged in parallel, and the upper surface is an inclined surface along the parallel installation direction at an end portion in the parallel installation direction. A unit building in which different-shaped building units are arranged in parallel, and a roof is formed on the upper part of the rectangular parallelepiped building unit by a folded plate having a length that spans all of the plurality of rectangular parallelepiped building units.
輸送上の略限界の長さであることを特徴とする請求項1
に記載のユニット建物。2. The length of the folded plate is a substantially limit length in terms of manufacturing or transportation to the site.
Unit building described in.
ニットの平面視短辺方向と一致していることを特徴とす
る請求項1に記載のユニット建物。3. The unit building according to claim 1, wherein a direction in which the building units are arranged side by side coincides with a short side direction of the building unit in plan view.
にて屋根葺き材が葺かれてなることを特徴とする請求項
1に記載のユニット建物。4. The unit building according to claim 1, wherein a roofing material is roofed at a factory on an inclined surface of the atypical building unit.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2002027153A JP2003227177A (en) | 2002-02-04 | 2002-02-04 | Unit building |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2002027153A JP2003227177A (en) | 2002-02-04 | 2002-02-04 | Unit building |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JP2003227177A true JP2003227177A (en) | 2003-08-15 |
Family
ID=27748767
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2002027153A Withdrawn JP2003227177A (en) | 2002-02-04 | 2002-02-04 | Unit building |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2003227177A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005351069A (en) * | 2004-05-11 | 2005-12-22 | Sekisui Chem Co Ltd | Complex building unit and unit building |
| CN106939649A (en) * | 2017-04-28 | 2017-07-11 | 重庆昊色堂建筑设计咨询有限公司 | Modular house unit and house |
-
2002
- 2002-02-04 JP JP2002027153A patent/JP2003227177A/en not_active Withdrawn
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005351069A (en) * | 2004-05-11 | 2005-12-22 | Sekisui Chem Co Ltd | Complex building unit and unit building |
| JP4733408B2 (en) * | 2004-05-11 | 2011-07-27 | 積水化学工業株式会社 | Unit building |
| CN106939649A (en) * | 2017-04-28 | 2017-07-11 | 重庆昊色堂建筑设计咨询有限公司 | Modular house unit and house |
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