JP4011207B2 - ALC panel mounting structure - Google Patents

ALC panel mounting structure Download PDF

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Publication number
JP4011207B2
JP4011207B2 JP26230698A JP26230698A JP4011207B2 JP 4011207 B2 JP4011207 B2 JP 4011207B2 JP 26230698 A JP26230698 A JP 26230698A JP 26230698 A JP26230698 A JP 26230698A JP 4011207 B2 JP4011207 B2 JP 4011207B2
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Prior art keywords
panel
angle
plate
fixed
alc
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JP2000073481A (en
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浩 柴田
賢二 落合
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クリオン株式会社
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Description

【0001】
【発明の属する技術分野】
本発明は、梁上のスプライスプレートによって定規アングルが中断された位置におけるALCパネルの取付構造に関する。
【0002】
【従来の技術】
ALC壁パネル4の取付構造においては、ALCパネル(以下パネルという。)の層間変形追従性を有するようにロッキングの構造を採用することが多い。その構造の一例として、図10に示すように、アンカー13が埋設されたALC壁パネル4は、稲妻プレート21、板状部材8および自重受け部材9の3つに分かれた部材および定規アングル3を用いて梁12に取付けられる構造がある。この取付構造は、アンカー13の埋設位置や上層パネル4aと下層パネル4bの取付け位置にずれがあっても容易にALC壁パネル4を梁12に固定することが可能であるという長所を有している。
すなわち稲妻プレート21あるいは自重受け部材9の相対的な取付け位置を調整したり、自重受け部材9とそれを挿入される板状部材8との隙間dのなかで板状部材8を幅方向に移動させて固定したりして、パネル取付時にアンカー13位置と前記3つの部材(8、9、21)との位置合わせが容易である。
【0003】
一方、建築物の梁12の継手部は、図8および図9に示すように、梁12上に固定されるスプライスプレート7によって連結される構造になっている。そのため、その位置においては、図10に示すようなALC壁パネル4を梁12に取付けるための長尺の一本の定規アングル3は、スプライスプレート7と干渉して梁12上に取付けることができない。その問題を解消するため、従来は、図8および図9に示すように、スプライスプレート7により中断される定規アングル3の起立片3aの端部間に、連結部材1としてフラットバー20を連結部10の突き合わせ溶接によって固定し、そのフラットバー20に稲妻プレート21、板状部材8および自重受け部材9の3つの部材を用いて、ALC壁パネル4を梁12に固定していた。
【0004】
【発明が解決しようとする課題】
しかし、図8および図9に示すように、フラットバー20を定規アングル3の連結部材1とした場合、ALC壁パネル4の取付け強度が低いという問題点がある。すなわち自重受け部材9へのALC壁パネル4の荷重が、直接固定されているフラットバー20にそのままかかるため、フラットバー20が撓んでしまったり、またALC壁パネル4の取付け強度不足になったりしていた。
そこで、本発明の目的はパネルの層間変形追従性の優れたALC壁パネル4の取付構造およびその際のアンカー位置とALC壁パネル4の取付け部材との位置合わせの容易性を維持したままで、その梁の継手部における上記問題点を解決したALCパネルの取付構造を提供することにある。
【0005】
【課題を解決するための手段】
本発明は、前記課題を解決するために
ALCパネルが上下層に建て込まれたALC壁パネルの梁上面に固定されたスプライスプレートと、該スプライスプレートによって中断されて二分して前記梁上面に固定された定規アングルと、該定規アングルの起立片の各端部同士を連結する連結部材と、該連結部材に固定されているとともに上層パネルの下部に埋設されたアンカーに係止されているパネル下部取付け部材と、該連結部材に固定されて上層パネルを支持する自重受け部材と、一端部が下層パネルの上部に埋設されたアンカーに係止されているとともに他端部が前記自重受け部材に貫通する板状部材とから成るALCパネルの取付構造において、
前記連結部材は山形鋼で構成されているとともに該山形鋼と前記定規アングルとが側面コの字型を形成するようにそれらの各端部同士が連結されており、さらに前記パネル下部取付け部材は前記上層パネルに当接する垂直板と前記山形鋼に固定される水平板とを備えているALCパネルの取付構造とした。
【0006】
以下に本発明の作用を説明する。
スプライスプレートによって中断されて二分して梁上面に固定された定規アングルの起立片の各端部同士を連結する連結部材が山形鋼で構成されているとともに、山形鋼と定規アングルとが側面コの字型になるようにそれらの各端部同士が連結されている。このように連結部材として、L字型の山形鋼が用いられているため、自重受け部材にかかるALC壁パネルの荷重が山形鋼にそのままかかっても、その連結部材は撓むことがなくALC壁パネルの十分な取付け強度が得られる。
【0007】
また山形鋼の水平片が上面となるような構造であるとともに、パネル下部取付け部材は上層パネルに当接する垂直板と山形鋼に固定される水平板とを備えているため、パネルのアンカーに対してパネル下部取付け部材をその垂直板を介してパネル下部に容易に位置決めおよび取付けでき、また山形鋼の水平片の上面にもパネル下部取付け部材の水平板を配置し下向き溶接によって容易に固定することができる。
【0008】
さらに、壁パネルは3つの部材、すなわち山形鋼に固定されているとともに上層パネルの下部に埋設されたアンカーに係止されているパネル下部取付け部材と、山形鋼に固定されて上層パネルを支持する自重受け部材と、一端部が下層パネルの上部に埋設されたアンカーに係止されているとともに他端部が自重受け部材に貫通する板状部材とによりALCパネルが梁に固定されているため、パネルのアンカー位置と上記3つの部材との位置合わせが容易となる。
【0009】
【発明の実施の形態】
以下、本発明の実施形態を図1〜図7に基づいて説明する。なお、符号は従来例と同一のものは同一符号を付した。
図1および図2に示すように、2本の梁12の継手部において、壁パネル4の上層パネル4aおよび下層パネル4bの各1枚は、それぞれのパネル上下端部でかつ幅方向の中心部が各パネルに埋設されているアンカー13に取付け金具を介して梁12などの建物躯体に取り付けられて、ロッキングによるパネルの層間変形追従性を有する構造になっている。
【0010】
また、梁12の継手部上面には、スプライスプレート7が複数のボルトによって固定されているとともに、そのスプライスプレート7によって2分された定規アングル3の端部同士が山形鋼2によって連結されている。その山形鋼2は定規アングル3に対して逆向きになっていて、図2に示すように側面から見てコの字型になるように連結されており、この山形鋼2の垂下片2bに取付け金具が溶接固定されている。
【0011】
さらに取付け金具は、山形鋼2の水平片2aに溶接固定されているとともに上層パネル4aをその下部に埋設されたアンカー13とボルトなどの係止部材6を介して係止するL字型のパネル下部取付け部材5と、山形鋼2の垂下片2bに溶接固定されて上層パネル4aを受ける自重受け部材9と、一端部が下層パネル4bの上部に埋設されたアンカー13とボルトなどによって係止し他端部が自重受け部材9に貫通する板状部材8とから構成されている。なお、本実施形態においても自重受け部材9と板状部材8との間は、図9、図10と同じ間隔d(図示せず。)が空くように構成されている。
【0012】
本発明においてはパネル下部取付け部材5がL字型の取付け金具であると、構造も簡単であるととももにアンカー13との位置合わせも容易となり、さらに山形鋼2との溶接が作業性の良い下向き溶接となるため好ましい。また、このL字型の取付け金具のボルト貫通穴を縦長穴または横長穴にしておくと、壁パネル4内におけるアンカー13の埋設位置の誤差、および山形鋼2の定規アングル3への取付け時に生じる上下方向の誤差も吸収できるようになり、より好ましい。このボルトの縦長穴は20〜50mmが、施工上好ましい。
【0013】
さらに、図3および図4に示すように、山形鋼2の端部と定規アングル3の端部との連結部10に補強鋼板11が溶接固定されていると、連結部10における溶接が容易になるとともに、溶接部分を長くして連結の強度をアップさせることができる。
また梁12上のスプライスプレート7と壁パネル4のアンカー13とはいつも同じ位置関係になることはない。しかし室内側から補強鋼板11が溶接固定されていることが、山形鋼2と定規アングル3の連結部10がALC壁パネル4のアンカー13の近傍になっても補強鋼板11と自重受け部材9と干渉することがなくなる点で望ましい。
【0014】
次に第2実施形態を、図5〜図7に示す。ここではパネル下部取付け部材5としてT字型のパネル下部取付け部材を用いて、梁12にALC壁パネル4が固定されている。
図5〜図7に示すように、山形鋼2と定規アングル3とは、山形鋼2の垂下片2bの端部が定規アングル3の起立片3aの室内側面に重なるように溶接固定されている。
さらにT字型のパネル下部取付け部材5の水平板5bは山形鋼2の水平片2a上に溶接固定されているとともに、上層パネル4aに当接している垂直板5aは上層パネル4aの下部に埋設されたアンカー13とボルト6とにより係止されている。なお、T字型のパネル下部取付け部材の垂直片5bは、上層パネル4aに当接させるために段付き構造になっている。
【0015】
この取付け構造にすると、定規アングル3の起立片3aと山形鋼2の垂下片2bとの溶接が容易になるとともに、図4に示すような補強鋼板11が無くても十分な連結強度が得られるようになる。なお、この取付構造においてT字型のパネル取付け部材5の垂下片5cは、定規アングル3の起立片3aと同一面上に自重受け部材9がおける一実施形態を示す取付けられるようにする役目を果たす。
また、この下部垂下片5cを分離して、L字型の取付け金具と平プレート(図示せず。)とを組み合わせた部材を使用しても良い。
なお、本発明に係る埋設アンカーとは、長ナットを有するアンカーであっても、雌ネジが螺刻されているパイプ状のアンカーであっても良く、また予めパネルに埋設されていても、パネル取付時に埋設されても良い。
【0016】
【発明の効果】
以上のように本発明によれば、梁上のスプライスプレートによって定規アングルが中断された部分であっても、連結部材が山形鋼であるため、自重受け部材へのALC壁パネルの荷重によって撓むことがなくALC壁パネルの十分な取付け強度が得られる。さらに、パネル下部取付け部材と、自重受け部材と、板状部材との3つの部材によりALCパネルが梁に固定されているため、パネルのアンカー位置と前記3つの部材との位置合わせが容易となる。
また、山形鋼は定規アングルを流用できるとともに、建設現場では容易に入手しやすいため、別途に新たな部材を手配することが少なくて済む。
さらにパネルがロッキング可能な取付け構造であるため、建物躯体の層間変形に対するパネルの追従性も有している。
【図面の簡単な説明】
【図1】本発明における一実施形態を示す斜視図。
【図2】図1の断面図。
【図3】本発明における他の実施形態を示す一部破断斜視部。
【図4】図3における上層パネルを除いた平面図。
【図5】本発明におけるさらに他の実施形態を示す斜視図。
【図6】図5の断面図。
【図7】図5における上層パネルを除いた平面図。
【図8】連結部材にフラットプレートを用いた従来例を示す斜視図。
【図9】図8のパネル取付け金具の取付け構造を示す斜視図。
【図10】従来のALCパネルのロッキング構造の取付け構造を示す斜視図。
【符号の説明】
1 連結部材
2 山形鋼
2a 水平片
2b 垂下片
3 定規アングル
3a 起立片
4 ALC壁パネル
4a 上層壁パネル
4b 下層壁パネル
5 パネル下部取付け部材
5a 垂直板
5b 水平板
5c 垂下片
6 係止部材(ボルト)
7 スプライスプレート
8 板状部材
9 自重受け部材
10 連結部
11 補強鋼板
12 梁
13 アンカー[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ALC panel mounting structure at a position where a ruler angle is interrupted by a splice plate on a beam.
[0002]
[Prior art]
In the mounting structure of the ALC wall panel 4, a locking structure is often adopted so as to have an interlayer deformation followability of the ALC panel (hereinafter referred to as a panel). As an example of the structure, as shown in FIG. 10, the ALC wall panel 4 in which the anchor 13 is embedded includes a lightning plate 21, a plate-like member 8, and a self-weight receiving member 9 and a ruler angle 3. There is a structure that is attached to the beam 12 by using. This mounting structure has the advantage that the ALC wall panel 4 can be easily fixed to the beam 12 even if the anchor 13 is embedded or the mounting positions of the upper panel 4a and the lower panel 4b are displaced. Yes.
That is, the relative mounting position of the lightning plate 21 or the weight receiving member 9 is adjusted, or the plate-like member 8 is moved in the width direction in the gap d between the weight-receiving member 9 and the plate-like member 8 into which the weight receiving member 9 is inserted. The anchor 13 position and the three members (8, 9, 21) can be easily aligned when the panel is attached.
[0003]
On the other hand, as shown in FIGS. 8 and 9, the joint portion of the building beam 12 has a structure connected by a splice plate 7 fixed on the beam 12. Therefore, at that position, one long ruler angle 3 for attaching the ALC wall panel 4 to the beam 12 as shown in FIG. 10 cannot interfere with the splice plate 7 and attach to the beam 12. . In order to solve the problem, conventionally, as shown in FIGS. 8 and 9, a flat bar 20 as a connecting member 1 is connected between the ends of the upright pieces 3 a of the ruler angle 3 interrupted by the splice plate 7. The ALC wall panel 4 was fixed to the beam 12 by using three members of the lightning plate 21, the plate-like member 8 and the self-weight receiving member 9 on the flat bar 20.
[0004]
[Problems to be solved by the invention]
However, as shown in FIGS. 8 and 9, when the flat bar 20 is the connecting member 1 having the ruler angle 3, there is a problem that the mounting strength of the ALC wall panel 4 is low. That is, since the load of the ALC wall panel 4 on the weight receiving member 9 is directly applied to the flat bar 20 that is directly fixed, the flat bar 20 may be bent or the mounting strength of the ALC wall panel 4 may be insufficient. It was.
Therefore, the object of the present invention is to maintain the mounting structure of the ALC wall panel 4 excellent in interlaminar deformation followability of the panel and the ease of alignment between the anchor position and the mounting member of the ALC wall panel 4 at that time. An object of the present invention is to provide an ALC panel mounting structure that solves the above-mentioned problems in the joint portion of the beam.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a splice plate fixed to the beam upper surface of an ALC wall panel in which ALC panels are built in upper and lower layers, and is suspended by the splice plate and fixed to the beam upper surface in half. A ruler angle, a connecting member for connecting the ends of the upright pieces of the ruler angle, and a panel lower portion fixed to the connecting member and anchored to an anchor embedded in a lower portion of the upper panel A mounting member, a self-weight receiving member that is fixed to the connecting member and supports the upper panel, and one end is locked to an anchor embedded in the upper portion of the lower panel and the other end penetrates the self-weight receiving member. In the mounting structure of the ALC panel consisting of a plate-like member
The connecting member is made of angle steel, and the angled steel and the ruler angle are connected to each other so that the angled side forms a U-shape, and the panel lower mounting member is The ALC panel mounting structure includes a vertical plate that contacts the upper panel and a horizontal plate fixed to the angle steel.
[0006]
The operation of the present invention will be described below.
The connecting members that connect the ends of the ruler angle standing pieces that are interrupted by the splice plate and are fixed to the upper surface of the beam are formed of angle steel, and the angle steel and the ruler angle are Their ends are connected to form a letter shape. As described above, since the L-shaped angle steel is used as the connecting member, even if the load of the ALC wall panel applied to the weight receiving member is directly applied to the angle steel, the connecting member does not bend and the ALC wall is not bent. Sufficient panel mounting strength can be obtained.
[0007]
In addition, the horizontal piece of angle steel is the upper surface, and the panel lower mounting member has a vertical plate that contacts the upper panel and a horizontal plate that is fixed to the angle steel. The panel lower mounting member can be easily positioned and mounted to the lower panel via its vertical plate, and the horizontal plate of the panel lower mounting member is also placed on the upper surface of the horizontal piece of angle iron and fixed easily by downward welding. Can do.
[0008]
Furthermore, the wall panel is fixed to the angle member and fixed to the anchors embedded in the lower part of the upper panel, and the upper part panel is fixed to the angle steel and supports the upper panel. Since the ALC panel is fixed to the beam by the self-weight receiving member and the plate-like member whose one end is locked to the anchor embedded in the upper portion of the lower panel and the other end penetrates the self-weight receiving member. Position alignment between the panel anchor position and the three members is facilitated.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. In addition, the code | symbol same as the prior art example attached the same code | symbol.
As shown in FIGS. 1 and 2, in the joint portion of the two beams 12, each of the upper panel 4 a and the lower panel 4 b of the wall panel 4 is the upper and lower ends of each panel and the center in the width direction. Is attached to a building frame such as a beam 12 via an attachment fitting to an anchor 13 embedded in each panel, and has a structure having an inter-layer deformation followability of the panel by locking.
[0010]
A splice plate 7 is fixed to the upper surface of the joint portion of the beam 12 by a plurality of bolts, and ends of the ruler angle 3 divided by the splice plate 7 are connected to each other by the angle steel 2. . The angle steel 2 is opposite to the ruler angle 3 and is connected in a U-shape when viewed from the side as shown in FIG. 2, and is attached to the hanging piece 2b of the angle steel 2. The mounting bracket is fixed by welding.
[0011]
Further, the mounting bracket is fixed to the horizontal piece 2a of the angle steel 2 by welding, and the upper panel 4a is locked to the anchor 13 embedded in the lower portion thereof via a locking member 6 such as a bolt. The lower mounting member 5, the own weight receiving member 9 that is welded and fixed to the hanging piece 2b of the angle steel 2 and receives the upper panel 4a, and the anchor 13 and the anchor 13 embedded in the upper part of the lower panel 4b are locked by bolts or the like. The other end portion is composed of a plate-like member 8 that penetrates the self-weight receiving member 9. In the present embodiment, the same distance d (not shown) as in FIGS. 9 and 10 is provided between the self-weight receiving member 9 and the plate-like member 8.
[0012]
In the present invention, when the panel lower mounting member 5 is an L-shaped mounting bracket, the structure is simple and the alignment with the anchor 13 is facilitated, and the welding with the angle steel 2 is easy to work. This is preferable because it leads to good downward welding. Further, if the bolt through hole of this L-shaped mounting bracket is a vertically long hole or a horizontally long hole, an error occurs in the embedded position of the anchor 13 in the wall panel 4 and the angle steel 3 is attached to the ruler angle 3. An error in the vertical direction can be absorbed, which is more preferable. The vertical elongated hole of this bolt is preferably 20 to 50 mm in terms of construction.
[0013]
Further, as shown in FIGS. 3 and 4, if the reinforcing steel plate 11 is welded and fixed to the connecting portion 10 between the end portion of the angle steel 2 and the end portion of the ruler angle 3, welding at the connecting portion 10 is easy. In addition, the welded portion can be lengthened to increase the connection strength.
Further, the splice plate 7 on the beam 12 and the anchor 13 of the wall panel 4 are not always in the same positional relationship. However, the reinforcing steel plate 11 is welded and fixed from the indoor side, so that the reinforcing steel plate 11 and the self-weight receiving member 9 are connected even when the connecting portion 10 between the angle steel 2 and the ruler angle 3 is close to the anchor 13 of the ALC wall panel 4. It is desirable in that it does not interfere.
[0014]
Next, 2nd Embodiment is shown in FIGS. Here, a T-shaped panel lower mounting member is used as the panel lower mounting member 5, and the ALC wall panel 4 is fixed to the beam 12.
As shown in FIGS. 5 to 7, the angle steel 2 and the ruler angle 3 are fixed by welding so that the end of the hanging piece 2 b of the angle steel 2 overlaps the interior side surface of the standing piece 3 a of the ruler angle 3. .
Further, the horizontal plate 5b of the T-shaped panel lower mounting member 5 is welded and fixed on the horizontal piece 2a of the angle steel 2, and the vertical plate 5a in contact with the upper panel 4a is embedded in the lower part of the upper panel 4a. The anchor 13 and the bolt 6 are engaged. Note that the vertical piece 5b of the T-shaped panel lower mounting member has a stepped structure in order to abut on the upper panel 4a.
[0015]
With this mounting structure, welding of the standing piece 3a of the ruler angle 3 and the hanging piece 2b of the angle steel 2 is facilitated, and sufficient connection strength can be obtained without the reinforcing steel plate 11 as shown in FIG. It becomes like this. In this mounting structure, the hanging piece 5c of the T-shaped panel mounting member 5 serves to mount the weight receiving member 9 on the same plane as the upright piece 3a of the ruler angle 3 in one embodiment. Fulfill.
Moreover, you may use the member which isolate | separated this lower drooping piece 5c, and combined the L-shaped attachment bracket and the flat plate (not shown).
The embedded anchor according to the present invention may be an anchor having a long nut, a pipe-shaped anchor in which a female screw is engraved, or even if it is embedded in the panel in advance. It may be embedded at the time of attachment.
[0016]
【The invention's effect】
As described above, according to the present invention, even if the ruler angle is interrupted by the splice plate on the beam, the connecting member is angle steel, so that it bends due to the load of the ALC wall panel on the weight receiving member. And sufficient mounting strength of the ALC wall panel can be obtained. Furthermore, since the ALC panel is fixed to the beam by the three members of the panel lower part mounting member, the self-weight receiving member, and the plate-like member, it is easy to align the panel anchor position with the three members. .
In addition, the angle steel can be used for the angle iron, and since it is easily available at the construction site, it is less necessary to arrange a new member separately.
Furthermore, since the panel can be locked, the panel can follow the interlayer deformation of the building frame.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an embodiment of the present invention.
FIG. 2 is a cross-sectional view of FIG.
FIG. 3 is a partially broken perspective view showing another embodiment of the present invention.
4 is a plan view excluding an upper layer panel in FIG. 3;
FIG. 5 is a perspective view showing still another embodiment of the present invention.
6 is a cross-sectional view of FIG.
7 is a plan view excluding the upper layer panel in FIG. 5. FIG.
FIG. 8 is a perspective view showing a conventional example using a flat plate as a connecting member.
9 is a perspective view showing a mounting structure of the panel mounting bracket of FIG. 8. FIG.
FIG. 10 is a perspective view showing a conventional ALC panel locking structure mounting structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Connecting member 2 Angle steel 2a Horizontal piece 2b Hanging piece 3 Ruler angle 3a Standing piece 4 ALC wall panel 4a Upper wall panel 4b Lower wall panel 5 Panel lower attachment member 5a Vertical plate 5b Horizontal plate 5c Hanging piece 6 Locking member (bolt )
7 Splice plate 8 Plate member 9 Self-weight receiving member 10 Connecting portion 11 Reinforced steel plate 12 Beam 13 Anchor

Claims (5)

ALCパネルが上下層に建て込まれたALC壁パネル(4)の梁(12)上面に固定されたスプライスプレート(7)と、該スプライスプレート(7)によって中断されて二分して前記梁(12)上面に固定された定規アングル(3)と、該定規アングル(3)の起立片(3a)の各端部同士を連結する連結部材(1)と、該連結部材(1)に固定されているとともに上層パネル(4a)の下部に埋設されたアンカー(13)に係止されているパネル下部取付け部材(5)と、該連結部材(1)に固定されて上層パネル(4a)を支持する自重受け部材(9)と、一端部が下層パネル(4a)の上部に埋設されたアンカー(13)に係止されているとともに他端部が前記自重受け部材(9)に貫通する板状部材(8)とから成るALCパネルの取付構造において、
前記連結部材(1)は山形鋼(2)で構成されているとともに該山形鋼(2)と前記定規アングル(3)とが側面コの字型を形成するようにそれらの各端部同士が連結されており、さらに前記パネル下部取付け部材(5)は前記上層パネル(4a)に当接する垂直板(5a)と前記山形鋼(2)に固定される水平板(5b)とを備えているALCパネルの取付構造。A splice plate (7) fixed to the upper surface of the beam (12) of the ALC wall panel (4) in which the ALC panel is built in the upper and lower layers, and the beam (12) suspended in half by the splice plate (7). ) A ruler angle (3) fixed to the upper surface, a connecting member (1) for connecting the ends of the standing piece (3a) of the ruler angle (3), and a fixing member (1) And a lower panel mounting member (5) locked to an anchor (13) embedded in the lower part of the upper panel (4a), and the upper panel (4a) supported by the connecting member (1). A self-weight receiving member (9) and a plate-like member having one end locked to an anchor (13) embedded in the upper portion of the lower panel (4a) and the other end penetrating the self-weight receiving member (9) (8) ALC panel consisting of In the mounting structure,
The connecting member (1) is composed of angle steel (2) and the end portions of the angle member (2) and the ruler angle (3) form a U-shape. Further, the panel lower mounting member (5) is provided with a vertical plate (5a) that comes into contact with the upper panel (4a) and a horizontal plate (5b) fixed to the angle steel (2). ALC panel mounting structure. 前記パネル下部取付け部材(5)はL字型の取付け金具である請求項1記載のALCパネルの取付構造。The ALC panel mounting structure according to claim 1, wherein the panel lower mounting member (5) is an L-shaped mounting bracket. 前記山形鋼(2)の端部と前記定規アングル(3)の端部との連結部に、補強鋼板(11)が溶接固定されている請求項1または2記載のALCパネルの取付構造。The mounting structure of the ALC panel according to claim 1 or 2, wherein a reinforcing steel plate (11) is welded and fixed to a connecting portion between the end portion of the angle steel (2) and the end portion of the ruler angle (3). 前記補強鋼板(11)は、室内側から溶接固定されている請求項3記載のALCパネルの取付構造。The ALC panel mounting structure according to claim 3, wherein the reinforcing steel plate (11) is fixed by welding from the indoor side. 前記山形鋼(2)と前記定規アングル(3)とは、前記山形鋼(2)の垂下片(2b)の端部が前記定規アングル(3)の前記起立片(3a)の室内側面に重なるように溶接固定されている請求項1または2記載のALCパネルの取付構造。The angle steel (2) and the ruler angle (3) are such that the end of the hanging piece (2b) of the angle steel (2) overlaps the indoor side surface of the upright piece (3a) of the ruler angle (3). 3. The ALC panel mounting structure according to claim 1, wherein the ALC panel is fixed by welding.
JP26230698A 1998-08-31 1998-08-31 ALC panel mounting structure Expired - Fee Related JP4011207B2 (en)

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CN111997234A (en) * 2020-07-14 2020-11-27 安徽建筑大学 Novel ALC plate steel structure antidetonation connected node

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