JPH0633622B2 - Connection structure of corridors of adjacent buildings - Google Patents

Description

【発明の詳細な説明】 [技術分野] 本発明は、複数の構造的に独立した建物構造体を組み合
わせて一つの建物を構成するものにおいて、隣り合う建
物構造体の廊下同士の接続に関する技術に関する発明で
ある。Description: TECHNICAL FIELD The present invention relates to a technique for connecting corridors of adjacent building structures in a structure in which a plurality of structurally independent building structures are combined to form one building. It is an invention.

[背景技術] 従来から変形敷地等に対応して建物を建造する場合、既
存の規格化されたプランの建物を建造すると変形敷地に
十分対応できなかった。そこで変形敷地を十分生かそう
とすると、変形敷地に応じた特別なプランの建物を設計
して建造しなければならなかった。このため本発明者
は、既存のプランの建物の建物構造体を組み合わせるこ
とで、バリエーションを増して、種々の変形敷地に対応
できるようにすることを考えた。この場合、建物におい
て連続する部分である廊下を接続する技術の開発が望ま
れている。[Background Art] Conventionally, when constructing a building corresponding to a deformed site, it has not been possible to sufficiently cope with the deformed site by constructing a building with an existing standardized plan. Therefore, in order to make full use of the transformation site, it was necessary to design and construct a building with a special plan according to the transformation site. For this reason, the present inventor has thought of increasing the variations by combining the building structures of the existing plan buildings so as to be able to deal with various transformation sites. In this case, it is desired to develop a technique for connecting corridors that are continuous parts of the building.

[発明の目的] 本発明は、上記の転に鑑みて発明したものであって、そ
の目的とするところは、既存のプランの建物同士を組み
合わせて接続して変形敷地であっても対応できるように
するとともに、隣り合う建物の廊下同士を簡単に接続し
て廊下の連続性を確保できる隣り合う建物の廊下の接続
構造を提供するにある。[Object of the Invention] The present invention has been made in view of the above circumstances, and the object thereof is to combine buildings of existing plans so that they can be connected even in a transformed site. Another object of the present invention is to provide a structure for connecting corridors of adjacent buildings that can easily connect the corridors of adjacent buildings to ensure continuity of the corridors.

[発明の開示] 本発明の隣り合う建物の廊下の接続構造は、複数の構造
的に独立した建物構造体１を組み合わせて一つの建物２
を構成するものであって、一方の建物構造体１の廊下３
の端部に位置する廊下構造材４と、隣りの建物構造体１
の廊下３の端部に位置する廊下構造材４とがわずかな隙
間５を介して対向するように複合の建物構造体１を隣り
あって建て込み、対向する廊下構造材４の上のフランジ
６同士を接続用上板７と接続用下板８とで上下より挟ん
で接続用上板７と接続用下板８とを固着具９により固着
し、接続用上板７の巾方向の略中央部を下方に向けて凹
ませて凹部１９を形成すると共に固着具９の頭部を凹部
１９内に位置させ、接続用下板８の上面部の端部と廊下
構造材４の上のフランジ６の下面との間にパッキン材１
８を介在させて成ることを特徴とするものであって、こ
のような構成を採用することで、上記した本発明の目的
を達成したものである。すなわち本発明にあっては、複
数の構造的に独立した建物構造体１を組み合わせて一つ
の建物２を構成するので、組み合わせる既存の建物構造
体１のプランを選択することにより、組み合わせ形成さ
れる建物２のバリエーションを増して種々の変形敷地に
対応できるものであり、また一方の建物構造体１の廊下
３の端部に位置する廊下構造材４と、隣りの建物構造体
１の廊下３の端部に位置する廊下構造材４とを隙間５を
介して対向させ、対向する廊下構造材４の上のフランジ
６同士を接続用上板７と接続用下板８とで上下より挟ん
で接続用上板７と接続用下板８とを固着具９により固着
することで、独立した建物構造体１の廊下３同士を簡単
に接続できて廊下３の連続性を出すことができるように
なったものである。DISCLOSURE OF THE INVENTION The corridor connection structure of adjacent buildings of the present invention is one building 2 in which a plurality of structurally independent building structures 1 are combined.
And the corridor 3 of the building structure 1 on one side.
Structure material 4 located at the end of the building and the adjacent building structure 1
The composite building structures 1 are built next to each other so as to face the corridor structure material 4 located at the end of the corridor 3 via a slight gap 5, and the flange 6 on the facing corridor structure material 4 The connection upper plate 7 and the connection lower plate 8 are sandwiched from above and below and the connection upper plate 7 and the connection lower plate 8 are fixed to each other by a fixing tool 9, and the connection upper plate 7 is approximately centered in the width direction. The lower part is recessed to form a recess 19 and the head of the fastener 9 is located in the recess 19, and the end of the upper surface of the connecting lower plate 8 and the flange 6 on the corridor structure 4 are formed. Packing material 1 between the bottom and
8 is interposed, and the object of the present invention described above is achieved by adopting such a configuration. That is, in the present invention, a plurality of structurally independent building structures 1 are combined to form one building 2. Therefore, a combination of existing building structures 1 can be selected to form a combination. It is possible to increase the variation of the building 2 to accommodate various transformation sites, and also to connect the corridor structure member 4 located at the end of the corridor 3 of one building structure 1 and the corridor 3 of the adjacent building structure 1. The corridor structure material 4 located at the end is opposed via a gap 5, and the flanges 6 on the corridor structure material 4 facing each other are sandwiched between the connection upper plate 7 and the connection lower plate 8 from above and below to be connected. By fixing the upper board 7 for connection and the lower board 8 for connection by the fixing tool 9, the corridors 3 of the independent building structure 1 can be easily connected to each other and the continuity of the corridor 3 can be obtained. It is a thing.

以下本発明を実施例により詳述する。複数の構造的に独
立した建物構造体１が隙間５を介して隣りあって建て込
んである。独立した建物構造体１には廊下３部分(添付
図面の実施例では外廊下)が設けられるものであって、
隣り合う建物構造体１にそれぞれ設けた廊下３部分の構
造材である廊下構造材４同士が上記隙間５を介して対向
させてある。第３図乃至第５図には廊下３の一例が示し
てあり、建物構造体１を構成する柱１０や梁１１から廊
下側梁１２、廊下継ぎ梁１３、を突設して取り付け、廊
下側梁１２、廊下継ぎ梁１３の先端部を廊下柱１４また
は廊下柱１４に架設した廊下梁１５に固着し、廊下側梁
１２と廊下継ぎ梁１３との間、廊下継ぎ梁１３間に廊下
受桟１６を架設し、廊下継ぎ梁１３、廊下受桟１６の上
に軽量コンクリート系の床パネル１７を載設してビス等
により固着して廊下３を構成してある。ここで床パネル
１７の上面と廊下側梁１２の上面とがほぼ面一となって
いる。また、隣り合う廊下３の側部にはそれぞれ断面コ
字状の廊下側梁１２が位置していて互いに隙間５を介し
て対向しており、この廊下側梁１２が各建物構造体１の
廊下３の端部に位置する廊下構造材４となっているもの
である。そして隣り合う断面コ字状の廊下側梁１２は互
いに側部開口が対向するように配置してあって互いの上
のフランジ６の先端が対向するようになっている。この
対向する廊下構造材４である廊下側梁１２の上のフラン
ジ６同士を第２図に示すように接続用上板７と接続用下
板８とで上下より挟んで接続用上板７と接続用下板８と
をボルト、ナット等の固着具９により固着するものであ
る。このようにすることで、簡単に構造的に独立した建
物構造体１の廊下２の端部の廊下構造体１同士を接続す
ることができるものである。ここで接続用上板７は第２
図に示すように中央部を下方に凹ませて凹部１９を形成
してあって、固着具９であるボルト等の頭部を凹部１９
内に位置して上方に飛び出さないようになっている。ま
た接続用上板７と接続用下板８とで対向する上のブラン
ジ６を挟持する場合パッキン材１８を介在しておくもの
である。このようにして廊下３同士を連続させるのであ
るが、少なくとも一方の廊下３には踊り場２０及び階段
２１を設けるものである。添付図面中２２は階段用柱で
ある。隣り合う建物構造体１同士は必要に応じて接続金
物(図示せず)により接続されるが、隣り合う建物構造体
１同士の界壁２３は各建物構造体１にそれぞれ壁２３a
を既に述べた隙間５を介してそれぞれ独立して形成する
ことにより構成されるものである。界壁２３を構成する
各建物構造体１に形成する壁２３aは第６図に示すよう
に界壁間柱２４間に断熱材２５を充填し、界壁間柱２６
に石膏ボード２７を貼り、さらに内装仕上げ材２８を貼
って構成してある。また上記建物構造体１同士の界壁２
３は同一の基礎２９の上に建て込まれるものである。各
建物構造体１は界壁２３を境にしてそれぞれ独立した構
造となっており、またそれぞれ床３０、天井３１、内壁
等の仕上げがされるものである。ここで屋根３７は隣り
合う建物構造体１にわたって連続するように形成するも
のである。また第９図に示すように隣り合う建物構造体
１に形成する外壁３２の端部同士のなす目地部分(つま
り界壁２３の端部)において柱カバー３３を取り付けて
目地部分を覆うものである。ここで外壁３２または柱に
柱カバー取付け金具３４を取り付け、この柱カバー取付
け金具３４の両端の被係止部３５に柱カバー３３の両端
部分の係止部３６を係止して取り付けるものである。Hereinafter, the present invention will be described in detail with reference to Examples. A plurality of structurally independent building structures 1 are built next to each other with a gap 5 in between. The independent building structure 1 is provided with three corridors (an outer corridor in the embodiment of the accompanying drawings),
The corridor structure materials 4 which are the structural materials of the corridor 3 portions provided in the adjacent building structures 1 are opposed to each other with the gap 5 therebetween. An example of the corridor 3 is shown in FIGS. 3 to 5, in which the corridor side beam 12 and the corridor joint beam 13 are projectingly attached from the pillars 10 and the beams 11 constituting the building structure 1 to the corridor side. The tip ends of the beam 12 and the corridor joint beam 13 are fixed to the corridor column 14 or the corridor beam 15 installed on the corridor column 14, and the corridor receiving bar 16 is provided between the corridor side beam 12 and the corridor joint beam 13 and between the corridor joint beam 13. And a lightweight concrete floor panel 17 is mounted on the corridor joint beam 13 and the corridor receiving bar 16 and fixed by screws or the like to form the corridor 3. Here, the upper surface of the floor panel 17 and the upper surface of the corridor-side beam 12 are substantially flush with each other. In addition, corridor side beams 12 each having a U-shaped cross section are located on the side portions of the adjacent corridors 3 and are opposed to each other with a gap 5 therebetween, and the corridor side beams 12 are the corridors of each building structure 1. This is the corridor structure material 4 located at the end of 3. Adjacent corridor-side beams 12 having a U-shaped cross section are arranged so that their side openings face each other, and the tips of the flanges 6 on each other face each other. As shown in FIG. 2, the flanges 6 on the corridor side beams 12, which are the corridor structural members 4 facing each other, are sandwiched between the connection upper plate 7 and the connection lower plate 8 from above and below to form the connection upper plate 7. The lower plate 8 for connection is fixed by a fixing member 9 such as a bolt or a nut. By doing so, the corridor structures 1 at the ends of the corridor 2 of the structurally independent building structure 1 can be easily connected to each other. Here, the connecting upper plate 7 is the second
As shown in the figure, the central portion is recessed downward to form a concave portion 19, and the head of the fastener 9 such as a bolt is formed into the concave portion 19.
It is located inside so that it does not jump out upward. In addition, when the upper plunge 6 facing the upper plate 7 for connection and the lower plate 8 for connection is sandwiched, the packing material 18 is interposed. In this way, the corridors 3 are connected to each other, but the landing 20 and the stairs 21 are provided in at least one of the corridors 3. Reference numeral 22 in the attached drawings is a column for stairs. Adjacent building structures 1 are connected to each other by connection hardware (not shown) as necessary, but the boundary wall 23 between adjacent building structures 1 is a wall 23a for each building structure 1.
Are independently formed through the gap 5 described above. Walls 23a formed in each building structure 1 constituting the boundary wall 23 are filled with a heat insulating material 25 between the boundary wall studs 24 as shown in FIG.
A gypsum board 27 is attached to the above, and an interior finishing material 28 is further attached. A boundary wall 2 between the building structures 1
3 is built on the same foundation 29. Each building structure 1 has an independent structure with a boundary wall 23 as a boundary, and a floor 30, a ceiling 31, an inner wall and the like are respectively finished. Here, the roof 37 is formed so as to be continuous over the adjacent building structures 1. Further, as shown in FIG. 9, a pillar cover 33 is attached to the joint portion formed by the end portions of the outer walls 32 formed in the adjacent building structures 1 (that is, the end portion of the boundary wall 23) to cover the joint portion. . Here, the pillar cover mounting bracket 34 is attached to the outer wall 32 or the pillar, and the locking portions 36 at both ends of the pillar cover 33 are locked to the locked portions 35 at both ends of the pillar cover mounting bracket 34. .

ところで、本発明のように建物構造体１と隣りの建物構
造体１とを隙間５を介して建て込むにあたって、接続す
る建物構造体１のプランを種々異なるものとし、この種
々異なるプランの建物構造体１同士を組み合わせること
で、様々な変形敷地に対応した種々のバリエーションの
建物を既存の建物構造体１の組み合わせにより構成する
ことができることとなる。By the way, when the building structure 1 and the adjacent building structure 1 are built through the gap 5 as in the present invention, the plans of the building structures 1 to be connected are made different, and the building structures of the different plans are made different. By combining the bodies 1 with each other, it is possible to construct a variety of buildings corresponding to various transformation sites by combining the existing building structures 1.

[発明の効果] 本発明にあっては、叙述のように複数の構造的に独立し
た建物構造体を組み合わせて一つの建物を構成するの
で、組み合わせる既存の建物構造体のプランを選択する
ことで、組み合わせ形成される建物のバリエーションを
増して種々の変形敷地に対応できるようになったもので
あり、また一方の建物構造体の廊下の端部に位置する廊
下構造材と、隣りの建物構造体の廊下の端部に位置する
廊下構造材とをわずかな隙間を介して対向させ、対向す
る廊下構造材の上のフランジ同士を接続用上板と接続用
下板とで上下より挟んで接続用上板と接続用下板とを固
着具により固着することで、独立した建物構造体の廊下
同士を簡単に接続できて廊下の連続性を出すことがで
き、また上のフランジを挟持して接続しているので一方
の廊下に揺れ等の力が作用しても隣りの廊下側に影響を
与えないものであり、また、接続用上板の巾方向の略中
央部を下方に向けて凹ませて凹部を形成すると共に固着
具の頭部を凹部内に位置させてあることで、ボルトのよ
うな固着具の頭部が凹部内におさめられて上方に飛び出
さず、歩行の際の障害とならいものであり、また、接続
用上板の略中央部を巾方向に凹ませることで固着具の頭
部をおさめることができるので、接続用上板にさぐり孔
を形成してビスなどの頭部をおさめたりするのに比べ
て、接続用上板の固着具を挿入する部分の肉厚が薄くな
らず、固着強度が低下しないものであり、また、凹部が
リブの役目をして接続用上板の補強もなされるものであ
り、また、接続用下板の上面部の端部と廊下構造材の上
のフランジの下面との間にパッキン材を介在させるの
で、廊下を人が歩行することにより廊下に溜まる微細な
砂や泥、あるいは塵埃等にパッキンが直接触れず、この
ため、パッキンが劣化しにくいようにできるものであ
る。[Effects of the Invention] In the present invention, as described above, a plurality of structurally independent building structures are combined to form one building. Therefore, by selecting a plan of an existing building structure to be combined, , The combination of buildings has been expanded to accommodate various types of transformation sites, and the corridor structure material located at the end of the corridor of one building structure and the adjacent building structure The corridor structural material located at the end of the corridor is opposed with a slight gap, and the upper flanges of the corridor structural material facing each other are sandwiched between the upper and lower connecting plates from above and below for connection. By fixing the upper plate and the connecting lower plate with a fixing tool, it is possible to easily connect the corridors of independent building structures to each other to provide continuity of the corridor, and also to clamp the upper flange for connection. Because it is doing in one corridor Even if such a force is applied, it does not affect the adjacent corridor side.Also, the upper portion of the connecting upper plate is depressed downward to form a concave portion and the fixing tool. Since the head of the fastener is located in the recess, the head of a fixing tool such as a bolt is held in the recess and does not jump out upward, which is an obstacle to walking. Since the head of the fixing tool can be stored by recessing the approximately central part of the upper plate for use in the width direction, compared to the case of forming a hole in the upper plate for connection and holding the head of screws etc. Therefore, the thickness of the portion of the connecting upper plate into which the fastener is inserted does not become thin, and the fixing strength does not decrease, and the recess serves as a rib to reinforce the connecting upper plate. Also, there is a space between the end of the upper surface of the connecting lower plate and the lower surface of the flange above the corridor structure. Since interposing the Kin material, without touching fine sand and mud accumulates in the corridor by walking down the hallway person, or the packing dust directly, Therefore, one in which the packing can as withstands.

【図面の簡単な説明】[Brief description of drawings]

第１図は本発明の概略説明図、第２図は同上の廊下の接
続部分の斜視図、第３図は廊下の床パネルを貼る前の平
面図、第４図は同上の斜視図、第５図は同上の廊下の床
パネルを貼った状態の断面図、第６図は界壁部分の断面
図、第７図は同上の界壁部分の拡大横断面図、第８図は
同上の界壁の屋根部分の拡大縦断面図、第９図は界壁の
外壁側端部の拡大横断面図であって、１は建物構造体、
２は建物、３は廊下、４は廊下構造材、５は隙間、６は
上のフランジ、７は接続用上板、８は接続用下板、９は
固着具である。FIG. 1 is a schematic explanatory view of the present invention, FIG. 2 is a perspective view of a connecting portion of the same corridor, FIG. 3 is a plan view of a corridor floor panel before being attached, and FIG. 4 is a perspective view of the same. Fig. 5 is a sectional view of the same corridor with floor panels attached, Fig. 6 is a sectional view of the boundary wall portion, Fig. 7 is an enlarged transverse sectional view of the same boundary wall portion, and Fig. 8 is the same sectional area as above. FIG. 9 is an enlarged vertical sectional view of a roof portion of the wall, FIG. 9 is an enlarged transverse sectional view of an outer wall side end portion of the boundary wall, and 1 is a building structure,
2 is a building, 3 is a corridor, 4 is a corridor structural member, 5 is a gap, 6 is an upper flange, 7 is a connecting upper plate, 8 is a connecting lower plate, and 9 is a fixing tool.

Claims (1)

【特許請求の範囲】[Claims] 【請求項１】複数の構造的に独立した建物構造体を組み
合わせて一つの建物を構成するものであって、一方の建
物構造体の廊下の端部に位置する廊下構造材と、隣りの
建物構造体の廊下の端部に位置する廊下構造体とが隙間
を介して対向するように複数の建物構造体を隣りあって
建て込み、対向する廊下構造材の上のフランジ同士を接
続用上板と接続用下板とで上下より挟んで接続用上板と
接続用下板とを固着具により固着し、接続用上板の巾方
向の略中央部を下方に向けて凹ませて凹部を形成すると
共に固着具の頭部を凹部内に位置させ、接続用下板の上
面部の端部と廊下構造材の上のフランジの下面との間に
パッキン材を介在させて成ることを特徴とする隣り合う
建物の廊下の接続構造。1. A structure in which a plurality of structurally independent building structures are combined to form one building, wherein a corridor structural material located at an end of a corridor of one building structure and an adjacent building. A plurality of building structures are built next to each other so that the corridor structure located at the end of the corridor of the structure faces each other with a gap, and the flanges on the facing corridor structure materials connect the upper flanges to each other. And the lower plate for connection are sandwiched from above and below, and the upper plate for connection and the lower plate for connection are fixed by a fixing tool, and a concave portion is formed by denting the substantially central portion of the upper plate for connection in the downward direction. In addition, the head of the fastener is located in the recess, and a packing material is interposed between the end of the upper surface of the connecting lower plate and the lower surface of the flange above the corridor structure material. Connection structure of corridors of adjacent buildings.