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JPH0458866B2 - - Google Patents

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Publication number
JPH0458866B2
JPH0458866B2 JP22272287A JP22272287A JPH0458866B2 JP H0458866 B2 JPH0458866 B2 JP H0458866B2 JP 22272287 A JP22272287 A JP 22272287A JP 22272287 A JP22272287 A JP 22272287A JP H0458866 B2 JPH0458866 B2 JP H0458866B2
Authority
JP
Japan
Prior art keywords
building
frame
horizontal
scaffolding
work floor
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.)
Expired
Application number
JP22272287A
Other languages
Japanese (ja)
Other versions
JPS6466363A (en
Inventor
Shigeyuki Nakatani
Shoji Shibuya
Shinji Yoshida
Akira Kenjo
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sumikin Kozai Kogyo KK
Original Assignee
Sumikin Kozai Kogyo KK
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Sumikin Kozai Kogyo KK filed Critical Sumikin Kozai Kogyo KK
Priority to JP22272287A priority Critical patent/JPS6466363A/en
Publication of JPS6466363A publication Critical patent/JPS6466363A/en
Publication of JPH0458866B2 publication Critical patent/JPH0458866B2/ja
Granted legal-status Critical Current

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Description

【発明の詳細な説明】[Detailed description of the invention]

〔産業上の利用分野〕 この発明は、建造物等の外壁面に沿つて仮設さ
れる枠組足場に係り、とくに階段の設置に伴う作
業スペースの圧迫がない枠組足場に関する。 〔従来の技術〕 この種の枠組足場としては、現在第5図のよう
なものが汎用されている。すなわち、図のものは
鳥居型の建枠90が所定の間隔で複数並置される
とともに、上下方向に所要数が連結され、相隣れ
る建枠と建枠との間に交叉筋違91が取付けられ
る。そしてその隣り合う建枠の横地90a,90
a間には足場板2がかけ渡され、作業床A1,A2
…が確保される。最上段の建枠90には支柱92
を立てて手摺93がセツトされる。 また、最近では建枠として、H型のものを使用
することも検討されている。H型の建枠は、建地
の略々中ほどの高さを位置に横地を設けたもの
で、この横地に足場板が架け渡されるが、これを
使用して足場の組立、解体時の安全性を高めよう
というものである。 〔発明が解決しようとする問題点〕 ところが、上記公知の枠組足場には次のような
問題がある。 足場板2が形成する作業床A1,A2…各段間に
は階段を設けることが必要である。枠組足場の階
段は、第5図に示す如く各段間においてはすかい
に位置する横地90a,90a間に架設される。 ところが、こうして階段7を取付けると、その
部位の作業床Aの巾が階段巾の分だけ狭められる
ことになる。 このため建枠90としては、階段7取付部位に
おいて作業上必要な巾の作業床を確保し得る巾の
ものを使用することが必要となる。一般に階段巾
約500mmあり、作業のためには少なくとも600mmほ
ど必要であるから、建枠の巾Bとしては実際上、
1100mm以上必要となつてくるのである。 建枠は現在、610mm巾、762mm巾の簡易枠と、
914mm巾、1219mm巾の標準枠に分類されている。
足場としては一般に簡易枠が使用されるが、1100
mm以上の巾を確保しようとすると、標準枠が必要
となる。 このような広巾の建枠は、階段取付部位以外の
一般部においては必要以上に広い作業床をつくり
出し、不合理かつ不経済であるのみならず、運
搬、保管の他、取回しにも不便である。また、足
場の巾が大きなものとなるので、狭小地での使用
に都合が悪い。 本発明は、上記従来の足場の問題点を解決した
枠組足場の提供を目的とする。 〔問題点を解決するための手段〕 本発明は、第1図に示す如く、並列状に配置さ
れかつ複数段に組上げられた建枠1…の隣接横地
11,11間に足場板2を掛け渡して作業床A1
A2…を確保した作業床ユニツトU1と該作業床ユ
ニツトU1の外側面側に設置され作業床A1,A2
各段間をつなぐ階段ユニツトU2とからなり、階
段ユニツトU2は、一本の建地60とその片側に
水平に持ち出された横地61とを基本構成部材と
する支持枠6が前記作業床ユニツトU1の建枠1
と同じ間隔で配置されかつ建地60の連結によつ
て上下に所要段階数組上げられるとともに、横地
61先端が建枠建地10につなぎ止められてい
て、この横地61…に作業床各段間をつなぐよう
はすかいに足場用段階7が取付けられるととも
に、その段階7の上下端に接続して足場板2を掛
け渡して作業床ユニツトU1の作業床A1,A2…に
続く踊場B1,B2…が設けられていることを特徴
とする枠組足場を要旨とする。 〔作用〕 本発明の枠組足場の特徴は、作業床を確保する
部分から作業床各段間をつなぐ階段を分け、階段
専用の支持枠を使用して作業床の外側に隣合せに
設けた点にある。すなわち従来、作業床を形成す
る部分に作業床の一部を置換える形で組込まれて
いたものを、階段ユニツトとして独立させたもの
であり、階段取付部位においても作業床Aの巾が
圧迫されることがなく、建枠1の巾いつぱいを作
業床にとることができる。このため、従来のよう
に必要以上に大きな巾の建枠を使用する必要がな
く、経済的で運搬や保管にも有利であり、組払し
の作業も容易となる。また、階段ユニツトU2
作業床ユニツトU1の外側面の所要の一部に設け
ればよいから、狭い場所においても部分的に広く
なつているところなどを利用して設けることがで
き、狭小地への適用上都合がよい。 〔実施例〕 前出第1図は本発明の一実施例を示す。本発明
は鳥居型建枠、H型建枠のいずれを対象としても
よいが、第1図はH型建枠を基礎としたものを例
示している。 本足場は、全体としては複数段の作業床A1
A2…を形成する作業床ユニツトU1と、その作業
床各段間をつなぐ階段を与える階段ユニツトU2
とからなつている。図では表現の都合上、両ユニ
ツトU1,U2が分けて描かれているが、実際には
両者は矢印で示される関係において一体のもので
ある。 作業床ユニツトU1の基本構成要素は、建枠1
と足場板2と側枠3であり、作業床ユニツトU1
に付設された形の階段ユニツトU2は、支持枠6、
足場用階段7、足場板2、側枠3が基本構成要素
となつている。各々の構成を以下に示す。 Γ建枠1 第2図に正面図を示す。 同図によると、建枠1はH型の枠であり、一対
の建地10,10と、その上下2分割点で両建地
間をつなぐ横地11と、該横地11の下側、両建
地10,10間に配された逆U字形の補強材12
とで基本の部分が構成されている。構成部材はす
べて丸鋼管である。 両建地10,10の上端には、建枠どうしを連
結するための連結ピン13が付設されている。連
結ピン13にはそれに嵌合した建地下端部を、同
部の側孔101にスプリング付ロツクピン140
を差し込んで抜止めするロツク機構14が装備さ
れている。このロツク機構は従来のアームロツク
に代わるものであり、アームロツクを使用するよ
うにしてもよいことは言うまでもない。 また、建地10,10のそれぞれには、バネ式
抜止片150付の係合ピン15が、上端および下
端付近、横地11取付位置を挟んでその直上、直
下の計4個所に設けられている。係合ピン15は
すべて枠自身の内部側に突き出す形になつてい
る。 各建地10の横地11取付位置直下の部位に
は、横地長手方向の貫通孔100が設けられ、こ
れは後述する階段ユニツトU2の支持枠6を連結
固定するのに使用される。支持枠6との連結固定
は単管クランプによつてもよい。貫通孔100は
アサガオ等の足場付帯設備を設けるときなどにも
利用される。 両建地10,10間にまたがる補強材12は、
その中央部において連結プレート120により横
地11につなぎ止められている。連結プレート1
20には透孔120aがあけられているが、これ
は上記貫通孔100を使つてアサガオ等を取付け
るときに、支持補強のためのタイロツドをとる場
合などに利用できる。 なお、建枠巾としては、仮設対象を建築物一般
とするなら、600mmほどもあれば十分で、850mmを
越えるようなものは作業上必要なく、設置スペー
スの観点から好ましくない。高さH1については、
人の背丈を基準に作業上必要なスペースを確保す
る立場から、1700〜2000mm程度が適当である。 Γ足場板2 足場板2は、通常使用されるもので、両端に建
枠横地11に対する係合爪20,20を具備す
る。 Γ側枠3 建枠1、支持枠6の外側面側、内側面側におい
て、建地10の隣接し合うものどおしの間に取り
付けられる強度部材である。 この強度部材として鳥居形建枠では交叉筋違が
使用されるが、H型建枠では交叉筋違の他、手摺
兼用の方形枠、三角形状の手摺枠、手摺と斜材の
組合せ等が用いられる。 第1図では内側面側には図示されていないが三
角形状の手摺枠を使用し、外側面側には養生ネツ
トを着脱可能に装着した方形枠を使用するものと
した。 Γ支持枠6 第3図イに正面図を示す。 図によると、支持枠6は一本の建地60と、そ
の上下2分割点から片側に片持ち状に持出された
横地61と、該横地61の下側に配された四分円
状の補強材62とが枠体の基本となつている。構
成部材は丸鋼管である。 この枠は基本的には、前記した建枠1を半分に
したようなもので、建地60には建枠1の場合と
同じ付属品が取付けてある。これらの同一部につ
いては、第2図と同一の符号を付して、説明を割
愛する。 補強材62は、一端側が建地60の内側に固定
され、円弧を描いて他端側が横地61の直下まで
伸び、ここで連結プレート120(第2図の符号
に対応)を介して横地61につながれた形であ
り、端部は横地61と揃えてある。 横地61と補強材62の端部には、それらにま
たがつて前記建枠建地10との取合プレート63
が付設されている。取合プレート63は、第3図
ロに明らかなように建地10外面に沿う形をして
おり、上下中央部にはボルト孔63aを有してい
る。これは、建枠建地10の横地取付位置直下の
貫通孔100にボルト孔63aを合せてボルト・
ナツト64でつなぐものである。なお、この取合
プレートの代替手段として、前述したとおり周知
の単管クランプの採用も可能である。 支持枠6の巾は、足場用階段7をかけるだけの
ものがあればよい。具体的には、600mmほどもあ
れば十分である。 Γ足場用階段7 足場板同様、一般に使用されているもので、上
端および下端には横地に対する係合爪70,70
を備えている。 各要素の構成は以上のとおりであるが、次にこ
れらの配置組合せ状態を説明する。 まず建枠1は、その所要数が所定間隔lをおい
て並列状に配置され、かつ上下方向にも所要段数
継ぎ足し設置されている。最下段の建枠建地10
下端にはジヤツキベース8が装着されている。配
置間隔lはインチサイズの場合1829mm、1524mm、
1219mm、914mm程度に設定される。上下方向の連
結は、前記した建地10上端の連結ピン13によ
る。 足場板2は、このような建枠1…各段の、互い
に隣り合う横地11,11間に接続してかけ渡さ
れ、建枠の組上げ段数分の作業床A1,A2…を形
成している。 横地11との取合は、足場板2両端の係合片2
0,20による。 側枠3は、上記建枠1…の各段において、その
結果、外側面側および内側面側の各隣接建地1
0,10間に設けられている。側枠3の高さH2
は建枠一つの高さH1の略々半分であり、側枠3
は各段において、外側面側については作業床Aレ
ベルを境にその上方側と下方側に一枚ずつ、また
内側面側については作業床レベルAの上方に一枚
ずつ建込まれ、外側面側については後述する段階
ユニツトU2の各階踊場Bに対応する部位Sを除
き外側面全体を覆うものとなる。踊場Bに対応す
る部位Sは、作業床階高部の側枠2枚分が開口部
として残されている。こうすることにより階段用
手摺が、側枠であることで不要となる。 側枠3の固定は、側枠の両側に設けた複数の取
合片を建地10,10の抜止片付係合ピン15…
に嵌着させることによる。 なお、図の例では最下段の作業床A1の下側に
ついては、斜材5が側枠に代えて取付けられてい
る。 階段ユニツトU2は、前記作業床ユニツトU1
5スパン分(建枠6枚分)に対応して設けられ、
支持枠6が並列に6枚使用されている。すなわ
ち、作業床ユニツトU1の外側面側において、建
枠1と同じ間隔lで対応位置に6枚が設置され、
かつ上下方向には建枠1の組上げ段数と同じだけ
組上げられている。そして、支持枠6はそれぞれ
横地61端部の取合プレート63のボルト・ナツ
ト64による固定によつて対応建枠1の外側建地
10につなぎ止められている。この状態で支持枠
6の横地61は、作業床ユニツトU1の建枠横地
11と高さレベルが一致する。最下段の支持枠6
の下端には前記建枠1同様ジヤツキベース8が装
着されている。 足場用階段7は、このような支持枠5スパン分
の中央スパン部を挟む両側のスパン部において、
上下方向の千鳥の形で同じ向きに配置され、支持
枠6各段間に1つずつ設けられている。各階段7
は、対応スパン部の両きわに立つ支持枠列間にお
いて、隣接階の支持枠横地61,61間にはすか
いにかけ渡されているのである。横地61との取
合は、足場用階段7両端の係合爪70,70によ
る。 足場板2は、上記各階段7の通過に空間が必要
な部分を除き、全隣接横地61,61間に配設さ
れている。このうち、各階段7の上下端に接続す
るものが、踊場Bを形成する。各踊場Bは、隣の
作業床Aと同じレベルであり、各階作業床の側方
に接続した形となつている。 そして、各階において、作業床Aと踊場Bは作
業床ユニツト外側面に残された開口部Sによつて
連絡されることになる。作業者はこの開口部Sを
通つて作業床Aと踊場B間を往来し、階段7…を
使つて昇降する。昇降の方式は全体としては、作
業床A1,A2…を仲立ちとした螺旋型になる。 なお、上記足場板2のうち、踊場とならないも
のは、足場の組払しの面から必要とされるもの
で、強度上の意味もある。 側枠3は、上記支持枠6…の各段において、外
側面側の隣接建地10,10間に取付けられてい
る。設置、取付の仕方は、作業床ユニツトU1
建枠1に対する場合と全く同様である。 また、最下段の下側についてのみ、斜材5が使
われていることも、先の場合と同じである。 次に、上記足場の組払しは以下のように行われ
る。 まず、作業床ユニツトU1の最下段の建枠1…
を設置し、その各建枠間の下方側に斜材5をセツ
トするとともに、隣接横地11,11間に足場板
2をかけ渡す。一方、この外側の所要の場所に、
階段ユニツトU2の最下段の支持枠6…を立て、
先に設置されている建枠1…の建地10にその横
地61をつなぎ止める。そしてその各横地間に足
場板2をかける。このようにしたのち、両ユニツ
トU1,U2の足場板2上にあがつて外側面側、内
側面側とも最下段上側の側枠3を取付ける。 こうして最下段ができれば、この上に第2段目
の建枠1…および支持枠6…を継ぎ足し、支持枠
6を建枠1に固定するとともに、外側面側には2
段目の下側側枠3を取付けて、足場板2をかけ
る。支持枠6の方は、所定のスパンのところへ足
場用階段7をかける。このような要領で作業ユニ
ツトU1、階段ユニツトU2を並行して下方から一
段ずつ順に組上げてゆく。解体するときは、これ
と全く逆の手順を踏んで最上段から順次下方へ作
業を進める。 以上の実施例では、側枠を使用しているが、側
枠を使用せずに一般の足場と同じように筋違を使
つてもよい。この筋違も、H型建枠1が使用され
ている場合には、足場板2レベルで上側と下側に
分割されたものを使用するのがよい。更にまた、
このような筋違と側枠の併用等も当然可能であ
る。 作業床ユニツトU1の建枠1の種類としても、
図のH型に限るものではなく、一般の鳥居型の使
用も可能であることは言うまでもない。 鳥居型建枠の場合、階段ユニツトU2の支持枠
6は、第4図に示すように建地60の上端部に横
地61を設けた形のものが使用されることにな
る。 第4図イによると、支持枠6は一本の建地60
と、その上端部から片側に片持ち状に持出された
横地61と、横地61の下端に配された四分円状
の補強材62とが枠体の基本となつている。構成
部材は丸鋼管である。 建地60の上端には、枠どおしを連結するため
の連結ピン13が付設されている。また建地61
には、バネ式止片150付の係合ピン15が上下
2個所に設けられている。アームロツクや交叉筋
違を係止するためのこの係合ピン15はすべて枠
自身の内部側(横地持出側)に突き出す形になつ
ている。 補強材62は、一端側が建地60の内側に固定
され、円弧を描いて他端側が横地61の直下まで
伸び、ここで連結プレート620を介して横地6
1につながれた形であり、端部は横地61と揃え
てある。 横地61と補強材62の端部には、それらに跨
がつてプレート65が固着され、これに鳥居型の
建枠建地10との係合手段である周知の単管クラ
ンプ63が取付けられている。単管クランプ63
の詳細を第4図ロに平面図で示しておく。 〔発明の効果〕 以上に説明した本発明の枠組足場は、次のよう
な特徴・利点を有している。 Γ作業床A1,A2…各段間をつなぐ階段が、階段
ユニツトU1として作業床形成部分から分けて
設けられているから、階段取付部位においても
作業床Aの巾が圧迫されることがなく、つねに
建枠1の巾いつぱいを作業床に利用できる。 このため、従来のように階段設置による圧迫
を見込んで必要以上に大きな巾の建枠を使用す
る必要がなく、経済的かつ運搬や保管に有利で
あり、組払し作業も容易となる。 Γ階段ユニツトU2は、作業床ユニツトU1の一部
に対し設ければよいので、仮設スペースが十分
でない場合でも、一部に多少の余裕があればそ
こを利用して設けることができ、狭小地への適
用の面でもメリツトがある。
[Industrial Application Field] The present invention relates to a frame scaffold that is temporarily installed along the outer wall surface of a building, etc., and particularly relates to a frame scaffold that does not compress the work space due to the installation of stairs. [Prior Art] As this type of framework scaffold, the one shown in FIG. 5 is currently in general use. That is, in the figure, a plurality of torii-shaped building frames 90 are arranged side by side at predetermined intervals, and the required number are connected in the vertical direction, and intersecting braces 91 are installed between adjacent building frames. It will be done. And the horizontal land 90a, 90 of the adjacent building frame
Scaffolding board 2 is spanned between a and work floors A 1 and A 2
... will be ensured. Supports 92 are installed on the top building frame 90.
is erected and the handrail 93 is set. Recently, the use of H-shaped building frames has also been considered. The H-shaped building frame has a horizontal area located approximately at the middle height of the building site, and scaffolding boards are spanned over this horizontal area, and these are used to assemble and dismantle the scaffolding. The aim is to improve safety. [Problems to be Solved by the Invention] However, the above-mentioned known framework scaffolds have the following problems. Work floors A 1 , A 2 formed by the scaffolding boards 2 ...It is necessary to provide stairs between each step. As shown in FIG. 5, the framework scaffolding staircase is constructed between horizontal areas 90a and 90a located between each step. However, when the stairs 7 are installed in this way, the width of the work floor A at that location is reduced by the width of the stairs. Therefore, it is necessary to use the building frame 90 with a width that can secure a working floor of the width necessary for the work at the part where the stairs 7 are attached. Generally, the width of the stairs is about 500 mm, and at least 600 mm is required for the work, so in practice, the width B of the building frame is:
This means that 1100mm or more is required. Currently, the building frames are simple frames with a width of 610 mm and a width of 762 mm.
It is classified into standard frames of 914mm width and 1219mm width.
A simple frame is generally used as a scaffold, but 1100
If you want to secure a width of mm or more, you will need a standard frame. Such a wide building frame creates an unnecessarily wide working floor in the general area other than the area where the stairs are attached, which is not only unreasonable and uneconomical, but also inconvenient for transportation, storage, and handling. It is. Furthermore, the width of the scaffold is large, making it inconvenient for use in narrow spaces. An object of the present invention is to provide a framework scaffold that solves the above-mentioned problems of conventional scaffolds. [Means for Solving the Problems] As shown in FIG. 1, the present invention provides a structure in which scaffolding boards 2 are hung between adjacent horizontal lots 11, 11 of building frames 1 arranged in parallel and assembled in multiple stages. Pass work floor A 1 ,
A work floor unit U 1 that has secured A 2 ... and work floors A 1 , A 2 ... that are installed on the outer side of the work floor unit U 1 .
The stair unit U 2 consists of a stair unit U 2 that connects each step, and the stair unit U 2 has a support frame 6 whose basic components are a single building site 60 and a horizontal site 61 brought out horizontally on one side of the building site 60, and a support frame 6 that connects each step to the working floor. Building frame 1 of unit U 1
They are arranged at the same intervals as the building blocks 60, and are raised up and down by the required number of stages by connecting the building lots 60, and the tips of the horizontal lots 61 are connected to the building frame building 10, and the horizontal lots 61... have work floors between each level. A scaffolding stage 7 is installed in the sky to connect the stages 7, and the scaffolding board 2 is connected to the upper and lower ends of the stage 7 to create a landing that continues to the working floors A1 , A2, etc. of the working floor unit U1 . The gist is a framework scaffolding characterized by the provision of B 1 , B 2 .... [Function] The feature of the framework scaffold of the present invention is that the stairs connecting each stage of the work floor are separated from the part that secures the work floor, and are installed adjacent to each other on the outside of the work floor using a support frame dedicated to the stairs. It is in. In other words, what was conventionally incorporated into the part forming the work floor to replace part of the work floor has been made independent as a staircase unit, and the width of the work floor A is also compressed at the stair attachment part. The entire width of the building frame 1 can be used as a work floor. Therefore, there is no need to use a building frame with an unnecessarily wide width as in the past, which is economical and advantageous for transportation and storage, and also facilitates assembly work. In addition, since the stair unit U 2 can be installed on a required part of the outer surface of the work floor unit U 1 , it can be installed in a narrow space by using a partially wide area. It is convenient for application to the land. [Embodiment] The above-mentioned FIG. 1 shows an embodiment of the present invention. Although the present invention may be applied to either a torii-shaped building frame or an H-shaped building frame, FIG. 1 illustrates an example based on an H-shaped building frame. This scaffold as a whole has a multi-tiered work floor A 1 ,
A work floor unit U 1 that forms A 2 ..., and a stair unit U 2 that provides stairs that connect each step of the work floor.
It is made up of. Although the two units U 1 and U 2 are drawn separately in the figure for convenience of expression, in reality they are one unit in the relationship indicated by the arrows. The basic components of the work floor unit U 1 are the building frame 1
, the scaffold board 2 and the side frame 3, and the work floor unit U 1
The stair unit U 2 attached to the support frame 6,
Scaffolding stairs 7, scaffolding boards 2, and side frames 3 are the basic components. The configuration of each is shown below. Γ Frame 1 Figure 2 shows the front view. According to the figure, the building frame 1 is an H-shaped frame, and includes a pair of building lots 10, 10, a horizontal lot 11 that connects the two building lots at the upper and lower division points, and a horizontal lot 11 on the lower side of the horizontal lot 11, Inverted U-shaped reinforcing material 12 placed between the bases 10 and 10
The basic parts are made up of. All structural members are round steel tubes. A connecting pin 13 for connecting the building frames to each other is attached to the upper ends of both building sites 10, 10. A locking pin 140 with a spring is inserted into the side hole 101 of the connecting pin 13, and a lock pin 140 with a spring is inserted into the side hole 101 of the connecting pin 13.
It is equipped with a locking mechanism 14 that inserts and prevents it from coming out. This locking mechanism is an alternative to a conventional arm lock, and it goes without saying that an arm lock may also be used. Furthermore, on each of the building lots 10, 10, engagement pins 15 with spring-type retaining pieces 150 are provided at a total of four locations near the upper and lower ends, directly above and directly below the mounting position of the horizontal lot 11. . All of the engagement pins 15 are shaped to protrude inward from the frame itself. A through-hole 100 extending in the longitudinal direction of the horizontal land is provided in a portion of each building site 10 directly below the mounting position of the horizontal land 11, and this hole is used for connecting and fixing the support frame 6 of the stairway unit U2 , which will be described later. The connection and fixation with the support frame 6 may be performed using a single tube clamp. The through hole 100 is also used when installing scaffolding equipment such as morning glory. The reinforcing material 12 spanning both building lots 10, 10 is
It is connected to the horizontal floor 11 by a connecting plate 120 at its center. Connection plate 1
A through hole 120a is drilled in the through hole 120, which can be used when attaching a tie rod for support and reinforcement when attaching a morning glory or the like using the through hole 100. Regarding the width of the building frame, if the temporary construction is for general buildings, a width of about 600 mm is sufficient; anything over 850 mm is not necessary for the work and is undesirable from the standpoint of installation space. For the height H 1 ,
From the perspective of securing the necessary space for work based on a person's height, a value of about 1700 to 2000 mm is appropriate. Scaffolding board 2 The scaffolding board 2 is normally used, and is provided with engaging claws 20, 20 at both ends for engaging the building frame horizontal area 11. Γ side frame 3 This is a strength member installed between adjacent building lots 10 on the outside and inside sides of the building frame 1 and the support frame 6. As this strength member, cross braces are used in torii-shaped building frames, but in addition to cross braces, in H-shaped building frames, square frames that also serve as handrails, triangular handrail frames, combinations of handrails and diagonal members, etc. are used. It will be done. In FIG. 1, a triangular handrail frame (not shown) is used on the inner side, and a rectangular frame to which a curing net is removably attached is used on the outer side. Γ Support frame 6 A front view is shown in Fig. 3A. According to the figure, the support frame 6 consists of a single building site 60, a horizontal lot 61 that is cantilevered to one side from the upper and lower division point of the building site 60, and a quadrant-shaped horizontal lot 61 arranged below the horizontal lot 61. The reinforcing material 62 forms the basis of the frame. The structural members are round steel tubes. This frame is basically a half of the building frame 1 described above, and the same accessories as in the case of the building frame 1 are attached to the building lot 60. These same parts are given the same reference numerals as in FIG. 2, and a description thereof will be omitted. One end of the reinforcing material 62 is fixed inside the building site 60, and the other end extends in an arc to just below the horizontal lot 61, where it is connected to the horizontal lot 61 via a connecting plate 120 (corresponding to the reference numeral in FIG. 2). It has a connected shape, and the ends are aligned with the horizontal area 61. At the ends of the horizontal lot 61 and the reinforcing material 62, a connecting plate 63 with the building frame building site 10 is installed astride them.
is attached. As is clear from FIG. 3B, the connecting plate 63 has a shape that follows the outer surface of the building site 10, and has a bolt hole 63a in the vertical center. This is done by aligning the bolt hole 63a with the through-hole 100 directly below the horizontal land installation position of the building frame building site 10, and attaching the bolt.
It is connected with a nut 64. As an alternative to this connecting plate, it is also possible to employ the well-known single tube clamp as described above. The width of the support frame 6 only needs to be wide enough to accommodate the scaffolding stairs 7. Specifically, about 600 mm is sufficient. ΓScaffolding stairs 7 Like the scaffolding board, this is a commonly used one, and the upper and lower ends have claws 70, 70 for engaging the horizontal ground.
It is equipped with Although the configuration of each element is as described above, the arrangement and combination of these elements will be explained next. First, the required number of building frames 1 are arranged in parallel at a predetermined interval l, and the required number of stages are added in the vertical direction as well. Bottom building frame building site 10
A jack base 8 is attached to the lower end. The placement interval l is 1829mm, 1524mm for inch size,
It will be set at around 1219mm and 914mm. The connection in the vertical direction is via the connection pin 13 at the upper end of the building site 10 described above. Scaffolding boards 2 are connected and spanned between adjacent horizontal lots 11, 11 of each tier of such a building frame 1, forming working floors A1 , A2 ... for the number of erected tiers of the building frame. ing. The engagement with the horizontal ground 11 is done using the engagement pieces 2 on both ends of the scaffolding board 2.
According to 0.20. As a result, the side frame 3 is attached to each adjacent building site 1 on the outer side and the inner side in each stage of the above-mentioned building frames 1...
It is set between 0 and 10. Height of side frame 3 H 2
is approximately half of the height H 1 of one building frame, and the side frame 3
In each level, on the outside side, one sheet is built above and below the work floor level A, and on the inside side, one sheet is built above the work floor level A, and on the outside side. As for the side, the entire outer surface is covered except for a portion S corresponding to each floor landing B of stage unit U2 , which will be described later. In the part S corresponding to the landing B, two side frames of the elevated part of the work floor are left as openings. By doing this, the stair handrail becomes unnecessary because it is a side frame. The side frame 3 is fixed by connecting a plurality of connecting pieces provided on both sides of the side frame to the engagement pins 15 with retaining pieces of the building site 10, 10...
By fitting the In the illustrated example, a diagonal member 5 is attached to the lower side of the lowermost work floor A1 instead of the side frame. The stair unit U 2 is provided corresponding to 5 spans (6 building frames) of the work floor unit U 1 ,
Six supporting frames 6 are used in parallel. That is, on the outer side of the work floor unit U 1 , six pieces are installed at corresponding positions at the same spacing l as the building frame 1,
Moreover, in the vertical direction, the same number of stages as the building frame 1 are assembled. Each support frame 6 is connected to the outer building 10 of the corresponding building frame 1 by fixing a connecting plate 63 at the end of the horizontal area 61 with bolts and nuts 64. In this state, the horizontal area 61 of the support frame 6 matches the height level of the frame horizontal area 11 of the work floor unit U1 . Bottom support frame 6
Like the building frame 1, a jack base 8 is attached to the lower end of the frame. The scaffolding staircase 7 has span parts on both sides sandwiching the central span part of five spans of the support frame.
They are arranged in the same direction in a staggered manner in the vertical direction, and one support frame 6 is provided between each stage. Each staircase 7
is extended across the support frame rows 61, 61 of the adjacent floors between the rows of support frames standing on both sides of the corresponding span section. The engagement with the horizontal ground 61 is via engagement claws 70, 70 at both ends of the scaffolding staircase 7. The scaffold board 2 is disposed between all adjacent horizontal lots 61, 61, except for the portion where space is required for each of the stairs 7 to pass through. Among these, those connected to the upper and lower ends of each staircase 7 form a landing B. Each landing B is on the same level as the adjacent work floor A, and is connected to the side of each floor work floor. Then, on each floor, the work floor A and the landing B are connected through an opening S left on the outer surface of the work floor unit. Workers go back and forth between the work floor A and the landing B through this opening S, and go up and down using the stairs 7. The overall method of lifting and lowering is a spiral type with work floors A 1 , A 2 , . . . as intermediates. It should be noted that among the scaffold boards 2, those that do not serve as landings are necessary for the purpose of assembling the scaffold, and are also important in terms of strength. The side frame 3 is attached between adjacent building lots 10, 10 on the outer surface side in each stage of the support frames 6. The installation and attachment methods are exactly the same as those for the work floor unit U1 on the building frame 1. Also, as in the previous case, the diagonal member 5 is used only on the lower side of the lowest stage. Next, the scaffolding is removed as follows. First, the lowest building frame 1 of work floor unit U 1 ...
are installed, diagonal members 5 are set on the lower side between each building frame, and scaffolding boards 2 are stretched between adjacent horizontal lots 11, 11. On the other hand, at the required location outside this,
Erect the bottom support frame 6 of stair unit U 2 ,
The horizontal lot 61 is tied to the building site 10 of the building frame 1 that has been installed previously. Scaffolding boards 2 are then placed between each of the horizontal lots. After doing this, go up onto the scaffolding board 2 of both units U 1 and U 2 and attach the lowermost upper side frame 3 on both the outer and inner surfaces. Once the bottom tier is completed in this way, the second tier building frame 1... and support frame 6... are added on top of this, and the support frame 6 is fixed to the building frame 1, and the outer side has two tiers.
Attach the lower side frame 3 of the step and hang the scaffold board 2. On the support frame 6, a scaffolding staircase 7 is placed at a predetermined span. In this manner, the work unit U 1 and the stair unit U 2 are assembled one step at a time from the bottom in parallel. When dismantling, follow the exact opposite procedure and work your way down from the top. In the above embodiments, side frames are used, but braces may be used in the same way as general scaffolding without using side frames. When the H-shaped building frame 1 is used, it is preferable to use a brace that is divided into an upper side and a lower side at the level of the scaffolding board 2. Furthermore,
Of course, it is also possible to use such braces and side frames in combination. As the type of building frame 1 of work floor unit U 1 ,
Needless to say, it is not limited to the H type shown in the figure, and a general torii type can also be used. In the case of a torii-type building frame, the supporting frame 6 of the stairway unit U2 is of a type in which a horizontal area 61 is provided at the upper end of the building area 60, as shown in FIG. According to Fig. 4A, the support frame 6 has one building block 60.
, a horizontal strip 61 extending in a cantilevered manner from its upper end to one side, and a quadrant-shaped reinforcing member 62 arranged at the lower end of the horizontal strip 61 form the basis of the frame. The structural members are round steel tubes. A connecting pin 13 for connecting the frames is attached to the upper end of the building lot 60. Also, construction site 61
Engagement pins 15 with spring-type stoppers 150 are provided at two locations, upper and lower. These engaging pins 15 for locking arm locks and cross braces are all shaped to protrude into the inside of the frame itself (towards the side where the horizontal ground is brought out). One end of the reinforcing material 62 is fixed to the inside of the building site 60, and the other end extends in an arc to just below the horizontal area 61, where it connects to the horizontal area 61 via a connecting plate 620.
1, and the ends are aligned with the horizontal area 61. A plate 65 is fixed to the ends of the horizontal lot 61 and the reinforcing material 62 so as to straddle them, and a well-known single pipe clamp 63 is attached to this as a means for engaging with the torii-shaped building frame building 10. There is. Single tube clamp 63
The details are shown in a plan view in FIG. [Effects of the Invention] The framework scaffold of the present invention described above has the following features and advantages. Γ Work floor A 1 , A 2 ...Since the stairs connecting each step are provided separately from the work floor forming part as the stair unit U 1 , the width of the work floor A is also compressed at the stair installation part. There is no space, and the full width of building frame 1 can always be used as a work floor. Therefore, there is no need to use a building frame with an unnecessarily wide width in anticipation of pressure caused by the installation of stairs, as is the case in the past, which is economical and advantageous for transportation and storage, and also facilitates assembly work. The Γ staircase unit U 2 can be installed on a part of the work floor unit U 1 , so even if there is not enough temporary space, if there is some extra space, it can be installed using that space. It also has merits in terms of application to narrow spaces.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は本発明の一実施例に係る枠組足場を示
す斜視図、第2図は同上枠組足場に使用する建枠
を示す正面図、第3図イおよび第4図イは同上足
場における階段ユニツト用の支持枠の一例を示す
正面図、両図ロはその部分断面図、第5図は従来
の枠組足場を示す模式説明図である。 図中、1:建枠、2:足場板、3:側枠、6:
支持枠、7:足場用階段。
Fig. 1 is a perspective view showing a framework scaffolding according to an embodiment of the present invention, Fig. 2 is a front view showing a building frame used in the above framework scaffold, and Figs. 3A and 4A are stairs in the above scaffold. FIG. 5 is a front view showing an example of a support frame for a unit; FIG. In the diagram, 1: Building frame, 2: Scaffolding board, 3: Side frame, 6:
Support frame, 7: Scaffolding stairs.

Claims (1)

【特許請求の範囲】[Claims] 1 並列状に配置されかつ複数段に組上げられた
建枠1…の隣接横地11,11間に足場板2を架
け渡して作業床A1,A2…を確保した作業床ユニ
ツトU1と、該作業床ユニツトU1の外側面側に設
置され作業床各段間をつなぐ階段ユニツトU2
らなり、階段ユニツトU2は、一本の建地60と
その片側に水平に配された横地61とを基本構成
部材とする支持枠6が前記作業床ユニツトU1
建枠1と同じ間隔lで配置されるとともに、建地
60の連結によつて上下に所要段数組上げられ、
かつその横地61先端が前記建枠1の建地10に
つなぎ止められていて、この横地61のはすかい
位置にあるものの間に足場用階段7が取付けられ
るとともに、その階段7の上下端に接続するよう
に隣接横地61,61間に足場板2を架け渡して
作業床ユニツトU1の作業床A1,A2…に続く踊場
B1,B2…が設けられていることを特徴とする枠
組足場。
1. A work floor unit U 1 that secures work floors A 1 , A 2 ... by spanning scaffolding boards 2 between adjacent horizontal lots 11, 11 of building frames 1 ... arranged in parallel and assembled in multiple stages, The stair unit U 2 is installed on the outer side of the work floor unit U 1 and connects each step of the work floor. A support frame 6 whose basic constituent members are arranged at the same interval 1 as the building frame 1 of the work floor unit U 1 , and is assembled up and down by the required number of stages by connecting the building structures 60,
The tip of the horizontal lot 61 is connected to the building site 10 of the building frame 1, and a scaffolding staircase 7 is installed between the horizontal sections 61 at a narrow position, and the upper and lower ends of the staircase 7 are Scaffolding boards 2 are bridged between the adjacent horizontal lots 61 and 61 so as to connect the landings that follow the working floors A 1 , A 2 . . . of the working floor unit U 1 .
A framework scaffolding characterized in that B 1 , B 2 ... are provided.
JP22272287A 1987-09-04 1987-09-04 Framework scaffold Granted JPS6466363A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP22272287A JPS6466363A (en) 1987-09-04 1987-09-04 Framework scaffold

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP22272287A JPS6466363A (en) 1987-09-04 1987-09-04 Framework scaffold

Publications (2)

Publication Number Publication Date
JPS6466363A JPS6466363A (en) 1989-03-13
JPH0458866B2 true JPH0458866B2 (en) 1992-09-18

Family

ID=16786881

Family Applications (1)

Application Number Title Priority Date Filing Date
JP22272287A Granted JPS6466363A (en) 1987-09-04 1987-09-04 Framework scaffold

Country Status (1)

Country Link
JP (1) JPS6466363A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7389974B1 (en) * 2023-09-29 2023-12-01 エスジー有限会社 Temporary scaffolding and stairs for temporary scaffolding

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0328533U (en) * 1989-07-21 1991-03-22
CN102677883B (en) * 2012-05-28 2014-07-30 开平市优赢金属制品有限公司 Scaffold with expanded working platform
JP6276073B2 (en) * 2014-03-07 2018-02-07 日鐵住金建材株式会社 Widening / narrowing scaffolding member and temporary scaffolding incorporating this scaffolding member
JP7121381B2 (en) * 2018-03-08 2022-08-18 建装工業株式会社 Falling object scattering prevention device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7389974B1 (en) * 2023-09-29 2023-12-01 エスジー有限会社 Temporary scaffolding and stairs for temporary scaffolding

Also Published As

Publication number Publication date
JPS6466363A (en) 1989-03-13

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