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JP2630360B2 - Glass plate support - Google Patents
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JP2630360B2 - Glass plate support - Google Patents

Glass plate support

Info

Publication number
JP2630360B2
JP2630360B2 JP18194494A JP18194494A JP2630360B2 JP 2630360 B2 JP2630360 B2 JP 2630360B2 JP 18194494 A JP18194494 A JP 18194494A JP 18194494 A JP18194494 A JP 18194494A JP 2630360 B2 JP2630360 B2 JP 2630360B2
Authority
JP
Japan
Prior art keywords
glass plate
plate
ridge
vertical
supporting
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 - Fee Related
Application number
JP18194494A
Other languages
Japanese (ja)
Other versions
JPH0828148A (en
Inventor
博行 小寺
芳信 宿里
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.)
Showa Koki Co Ltd
Original Assignee
Showa Koki Co Ltd
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 Showa Koki Co Ltd filed Critical Showa Koki Co Ltd
Priority to JP18194494A priority Critical patent/JP2630360B2/en
Publication of JPH0828148A publication Critical patent/JPH0828148A/en
Application granted granted Critical
Publication of JP2630360B2 publication Critical patent/JP2630360B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Securing Of Glass Panes Or The Like (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は、硝子を支持するスウィ
ング式押縁により、外観の意匠性を高めるため、見付寸
法を可能な限り小さくできる硝子板支持方立に関するも
のである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass plate support which can reduce the apparent size as much as possible in order to enhance the design of the appearance by using a swing type edge for supporting the glass.

【0002】[0002]

【従来の技術】従来知られている硝子板支持方立として
は、図21ないし図23に示すように、硝子板14を支
持する溝状枠16の意匠性を高めるため、見付寸法を可
能な限り小さくするという目的がある。この目的を達成
するために、溝状枠16と硝子板14とをそれらの間に
充填された構造用シール材20により一体化し、方立1
7を、方立本体27にフランジ22を有するT字型部分
21を一体に設けて構成し、各支承金具24,25にお
ける一方の第1アーム板28,29を、前記各フランジ
22の透孔23に挿通した固定ボルト18,19を螺合
し、前記支承金具24,25の他方の第2アーム板3
0,31を、各溝状枠16の横溝に挿入し、前記フラン
ジ22、固定ボルト18,19、支承金具24,25お
よび溝状枠16の室内側部分を被覆するカバー32を設
け、そのカバー32の先端開口部にシール材33を固定
した構造のものが知られている。そして、固定ボルト1
8,19とフランジ22の透孔23との間に、クリアラ
ンスが設けられ、また前記支承金具24,25における
第2アーム板30,31の先端部と各溝状枠16の内側
溝の底面との間にもクリアランスが設けられている。
2. Description of the Related Art As shown in FIGS. 21 to 23, a conventionally known glass plate supporting orifice has a apparent size in order to enhance the design of a grooved frame 16 for supporting a glass plate 14. FIG. The purpose is to make it as small as possible. In order to achieve this object, the groove-shaped frame 16 and the glass plate 14 are integrated by a structural sealing material 20 filled between them, and
7 is formed integrally with a T-shaped part 21 having a flange 22 on a cubic main body 27, and one of the first arm plates 28, 29 in each of the support fittings 24, 25 is provided with a through hole of each of the flanges 22. 23, the fixing bolts 18 and 19 are screwed together, and the other second arm plate 3 of the bearings 24 and 25 is screwed.
0, 31 are inserted into the lateral grooves of each grooved frame 16, and a cover 32 is provided to cover the flange 22, the fixing bolts 18, 19, the bearings 24, 25, and the indoor portion of the grooved frame 16, A structure in which a sealing material 33 is fixed to an opening at the distal end of a seal 32 is known. And fixing bolt 1
A clearance is provided between the upper and lower holes 8, 19 and the through hole 23 of the flange 22, and the bottoms of the inner grooves of the grooved frames 16 and the distal ends of the second arm plates 30, 31 in the bearings 24, 25. There is also a clearance between them.

【0003】[0003]

【発明が解決しようとする課題】しかし、前記従来の図
21ないし図23の場合は、隣り合う硝子板14を、各
溝形断面の溝状枠16に構造用シール材20を介して嵌
入し、方立17に一体に設けられているT字型部分21
の一対のフランジ22に、大径の透孔23を設け、各透
孔23に挿通した固定ボルト18,19を、コ字状断面
の支承金具24の一辺に螺合し、その支承金具24の他
辺を前記溝状枠16の横溝に挿入しているので、前もっ
て構造用シール材20を充填して硝子板14を溝状枠1
6に固定しておかねばならないという欠点がある。また
地震によって発生する方立面内変位に対しては、各支承
金具24,25と溝状枠16との間のクリアランスおよ
び固定ボルト18,19と透孔23との間のクリアラン
スによって対応するようにしているので、これらのクリ
アランスを設けることを避けることができない。したが
って、この点でも問題がある。
However, in the case of the prior art shown in FIGS. 21 to 23, the adjacent glass plates 14 are fitted into the groove-shaped frames 16 of each groove-shaped cross section via the structural sealing material 20. , T-shaped part 21 provided integrally with cubic 17
A pair of flanges 22 are provided with large-diameter through holes 23, and fixing bolts 18, 19 inserted through the through holes 23 are screwed into one side of a U-shaped cross-section support fitting 24. Since the other side is inserted into the lateral groove of the grooved frame 16, the glass sheet 14 is filled in advance with the structural sealing material 20 and the glass plate 14 is
6 has to be fixed. In addition, the displacement in the cubic plane caused by the earthquake is dealt with by the clearances between the bearings 24 and 25 and the grooved frame 16 and the clearances between the fixing bolts 18 and 19 and the through holes 23. Therefore, providing these clearances cannot be avoided. Therefore, there is also a problem in this respect.

【0004】[0004]

【課題を解決するための手段】本発明は、前述の問題を
有利に解決するために、それぞれ水平状態の上枠材1お
よび下枠材2の両端部を一体に連結する硝子板4用の支
持方立において、方立本体5に外向きに開口する縦溝3
を設け、その縦溝3内に免震ゴム6を嵌合し、前記免震
ゴム6にT型連結部材7のフランジ8を嵌合すると共
に、前記T型連結部材7のウエッブ9を外側に配置し、
前記T型連結部材7のウエッブ9側に支持部材10を取
付け、前記支持部材10に、硝子板4に向かって開閉移
動する押縁11を設け、その押縁11を閉止位置に配置
した状態でその押縁11にストッパばね13を係合す
る。
SUMMARY OF THE INVENTION In order to advantageously solve the above-mentioned problems, the present invention provides a glass plate 4 for integrally connecting both ends of an upper frame member 1 and a lower frame member 2 in a horizontal state. In the supporting cubicle, the vertical groove 3 opening outward to the cubic body 5
The seismic isolation rubber 6 is fitted in the vertical groove 3, the flange 8 of the T-type connecting member 7 is fitted to the seismic isolating rubber 6, and the web 9 of the T-type connecting member 7 is Place,
A support member 10 is attached to the web 9 side of the T-shaped connecting member 7, and the support member 10 is provided with a ridge 11 that opens and closes toward the glass plate 4, and the ridge 11 is disposed in a closed position. 11 is engaged with a stopper spring 13.

【0005】[0005]

【実施例】図1ないし図13は本発明の第1実施例を示
すものであって、複数の上枠材1と複数の下枠材2と
が、上下方向に間隔をおいて平行に配置され、かつ各上
枠材1および下枠材2は直列に配置され、各上枠材1の
両端部と各下枠材2の両端部とに、方立本体5の両端部
が、L型連結金具39およびビス66,67により一体
に結合され、かつ前記上枠材1と下枠材2の凹溝34内
に、硝子板4の上下の縁部が嵌合されると共に凹溝34
内に設けられたゴム等の弾性材料製支承体80と、外部
および内部硝子シール35とが設けられて、硝子板4の
上下の縁部が弾性的に支承されている。
1 to 13 show a first embodiment of the present invention, in which a plurality of upper frame members 1 and a plurality of lower frame members 2 are arranged in parallel at an interval in the vertical direction. The upper frame material 1 and the lower frame material 2 are arranged in series, and both ends of the cubic main body 5 are L-shaped at both ends of each upper frame material 1 and both ends of each lower frame material 2. The upper and lower edges of the glass plate 4 are fitted into the concave grooves 34 of the upper frame member 1 and the lower frame member 2 by being integrally connected by the connection fitting 39 and the screws 66 and 67, and the concave grooves 34 are provided.
A support body 80 made of an elastic material such as rubber provided inside and an external and internal glass seal 35 are provided, and upper and lower edges of the glass plate 4 are elastically supported.

【0006】外面の中央に縦スリット26を備えている
方立部材36に上下方向に延長する中間仕切板37が一
体に設けられて方立本体5が構成され、前記方立本体5
の縦溝3からなる外側室内に、T型連結部材7のフラン
ジ部材8が配置され、そのフランジ部材8の左右両側に
免震ゴム6が被覆され、前記フランジ部材8の巾方向の
両側の免震ゴム6に中空室40が一体に設けられ、前記
免震ゴム6の左右両側部分は、前部室(外側室)の左右
両側部分に圧接されている。また、図10の部品図にも
示すように、上下方向に延長するT型連結部材7におけ
るウエッブ9の先端部には、L字状の係合部材46が一
体に屈折連設され、その係合部材46の室外側の基端板
60には、上下方向に間隔をおいて雌ねじ孔61が設け
られ、前記係合部材46における係止板83は前記ウエ
ッブ9と平行に設けられている。さらに前記方立本体5
の縦スリット26の左右両側において、支承フランジ6
5が前記方立本体5に一体に設けられている。前記支承
フランジ65により前記免震ゴム6および後述の後部弾
性体48が圧着されて支承される。なお、フランジ部材
8の先端部には環状突起56が一体に設けられている。
[0006] An intermediate partition plate 37 extending vertically is integrally provided on a cubic member 36 having a vertical slit 26 at the center of the outer surface to form the cubic body 5.
The flange member 8 of the T-shaped connecting member 7 is disposed in the outer chamber formed by the vertical groove 3, and the right and left sides of the flange member 8 are covered with seismic isolation rubber 6. A hollow chamber 40 is provided integrally with the seismic rubber 6, and the left and right sides of the seismic isolation rubber 6 are pressed against the left and right sides of the front chamber (outer chamber). Also, as shown in the parts diagram of FIG. 10, an L-shaped engaging member 46 is integrally bent at the tip of the web 9 of the T-shaped connecting member 7 extending in the vertical direction. Female screw holes 61 are provided in the base end plate 60 on the outdoor side of the joining member 46 at intervals in the vertical direction, and a locking plate 83 of the engaging member 46 is provided in parallel with the web 9. Further, the cubic body 5
On both left and right sides of the vertical slit 26
5 is provided integrally with the cubic body 5. The seismic isolation rubber 6 and a rear elastic body 48 described later are pressed and supported by the support flange 65. Note that an annular projection 56 is integrally provided at the tip of the flange member 8.

【0007】建物本体(図示を省略した)に一端が固定
された各ブラケット84に、前記上下枠材1,2が固定
され、前記上下枠材1,2の後部室内に係止金具41の
中間部がボルト・ナットにより固定され、かつ床または
天井部(図示を省略した)の表面に設置される化粧板4
2のV字型頭部43は前記係止金具41に係合されてい
る。
The upper and lower frame members 1 and 2 are fixed to brackets 84 each having one end fixed to a building body (not shown). Part 4 is fixed by bolts and nuts and is installed on the surface of the floor or ceiling (not shown)
The second V-shaped head 43 is engaged with the locking fitting 41.

【0008】図11の部品図にも示すように、前記T型
連結部材7の前端部に対向するように上下方向に延長す
る可動支持部材10が配置され、その可動支持部材10
は、前記縦支承板62の後方に突出した固定部材45
と、前記係合部材46の外面に係合する可動係合部材4
7とが一体に設けられている。また前記可動支持部材1
0の縦支承板62の中央部には、上下方向に間隔を置い
て透孔63が前記係合部材46の雌ねじ孔61に対向す
るように設けられている。そして前記係合部材46の雌
ねじ孔61に、前記可動支持部材10の透孔63に挿通
されたビス59のねじ軸部が螺合され、前記可動支持部
材10がビス59により前後方向(室内外方向)に位置
調節自在(可動)に取付けられている。また前記縦支承
板62の室内側の左右両側の係止溝64に、軟質スポン
ジ状ゴムまたは独立気泡性の軟質ゴム等の後部弾性体4
8が接着剤により固着されている。したがってビス59
により可動支持部材10は、後部弾性体48を介して前
記支承フランジ65に対し位置調節自在に支承される。
さらに前記固定部材45と可動係合部材47とにより、
T型連結部材7におけるウエッブ9とL字状の係合部材
46における前記ウエッブ9と平行な係止板83が摺動
自在にガイドされる。
As shown in the parts diagram of FIG. 11, a movable support member 10 extending in the vertical direction is disposed so as to face the front end of the T-shaped connecting member 7.
Are fixed members 45 projecting rearward from the vertical support plate 62.
And a movable engagement member 4 which engages with an outer surface of the engagement member 46.
7 are provided integrally. The movable support member 1
A through hole 63 is provided at the center of the zero vertical support plate 62 at an interval in the vertical direction so as to face the female screw hole 61 of the engagement member 46. A screw shaft portion of a screw 59 inserted into the through hole 63 of the movable support member 10 is screwed into the female screw hole 61 of the engagement member 46, and the movable support member 10 is moved in the front-rear direction (in the indoor / outdoor direction) by the screw 59. (Movable). A rear elastic body 4 such as a soft sponge-like rubber or a closed-cell soft rubber is provided in the locking grooves 64 on the left and right sides on the indoor side of the vertical support plate 62.
8 is fixed by an adhesive. Therefore, screw 59
Accordingly, the movable support member 10 is supported on the support flange 65 via the rear elastic body 48 so as to be adjustable in position.
Further, by the fixed member 45 and the movable engagement member 47,
The web 9 of the T-shaped connecting member 7 and the locking plate 83 of the L-shaped engaging member 46 parallel to the web 9 are slidably guided.

【0009】前記可動支持部材10の後面および前面
に、独立気泡性の後部弾性体48、前部弾性体49が接
着剤により固着されている。
A rear elastic body 48 and a front elastic body 49 having closed cells are fixed to the rear and front surfaces of the movable support member 10 with an adhesive.

【0010】また可動支持部材10の前面中央部に、左
右方向に間隔をおくと共に、上下方向に延長する係止部
材51が一体に設けられ、その各係止部材51は、その
対向する基端部に、上下方向に延長する係止用半円形凹
溝55を備えていると共に押縁15のストッパ用の係止
板68を備えている。前記凹溝55にスイング式押縁1
5におけるフランジ52の先端部の係止フック53が嵌
合係止され、図6に示すように、このスイング式押縁1
5が開いている状態で、硝子板4が弾性体49および上
枠材1および下枠材2の凹溝34内に嵌合支承されると
共に弾性的に支承される。次いで、図7に示すようにス
イング式押縁15を回動して、硝子板の縦縁部を押縁1
1によりスポンジ状ゴム等の弾性体57を介して圧着保
持すると共に、隣り合う各スイング式押縁15間にスト
ッパばね13が押込まれると共に、ストッパばね13の
各係止用凹溝73が各スイング式押縁15の半円柱の係
止用突条69に係止されて抜止防止される。次いで、前
記各スイング式押縁15とストッパばね13により形成
された外側縦凹部内に、硬質ゴム等のバックアップ材8
1およびシール材82を充填する。
At the center of the front surface of the movable support member 10, there are integrally provided locking members 51 which are spaced apart in the left-right direction and extend in the up-down direction. The portion is provided with a locking semicircular groove 55 extending vertically and a locking plate 68 for stopper of the ridge 15. Swing type edge 1 in the groove 55
5, a locking hook 53 at the tip of the flange 52 is fitted and locked, and as shown in FIG.
In a state where 5 is open, the glass plate 4 is fitted and supported elastically in the elastic body 49 and the concave grooves 34 of the upper frame material 1 and the lower frame material 2. Next, as shown in FIG. 7, the swing type ridge 15 is rotated to set the vertical edge of the glass plate to the ridge 1.
1, the elastic member 57 made of sponge-like rubber or the like is pressed and held, the stopper spring 13 is pushed between the adjacent swing-type pressing edges 15, and the locking grooves 73 of the stopper spring 13 are moved by the respective swing grooves. The semi-cylindrical locking ridge 69 of the type ridge 15 is locked to prevent the removal. Next, a backup material 8 such as hard rubber is placed in the outer vertical recess formed by each of the swing type ridges 15 and the stopper spring 13.
1 and the sealing material 82 are filled.

【0011】図12はスイング式押縁15を示すもので
あって、断面ほぼ逆L字(またはL字)状の上下方向に
延長する押縁本体12の一辺の内側にゴム等の弾性体5
7が接着剤により固着されると共に、押縁本体12の他
辺の内側に硝子板ライナーゴムが接着剤により固着さ
れ、その押縁本体12の他辺の先端側には、フランジ5
2が一体に設けられ、そのフランジ52の先端部には、
半円柱状の係止フック53が一体に設けられ、また押縁
本体12の他辺の外面には、上下方向に延長する円弧状
の係止用突条69およびその係止用突条69の外側にお
いて係止段部70が設けられている。
FIG. 12 shows a swing type ridge 15 in which an elastic body 5 made of rubber or the like is provided inside one side of a ridge main body 12 having a substantially inverted L-shaped (or L-shaped) cross section and extending in the vertical direction.
7 is fixed by an adhesive, and a glass plate liner rubber is fixed to the inside of the other side of the ledge body 12 by an adhesive.
2 are provided integrally, and at the tip of the flange 52,
A semi-cylindrical locking hook 53 is integrally provided, and on the outer surface of the other side of the ridge body 12, an arc-shaped locking ridge 69 extending vertically and the outside of the locking ridge 69 are provided. , A locking step 70 is provided.

【0012】図13は本発明において使用されるストッ
パばね13を示すものであって、上下方向に延長するス
トッパばね本体71の左右両側に間隔をおいて脚板72
が一体に設けられ、各脚板72の外側に、上下方向に延
長する半円弧状の係止用凹溝73が設けられ、各脚板7
2は相互に接近および離反する方向に弾性変形できるよ
うに、ストッパばね13は例えば合成樹脂等の弾性材料
により製作される。
FIG. 13 shows a stopper spring 13 used in the present invention. The stopper spring 13 has a leg plate 72 on both left and right sides of a stopper spring body 71 extending vertically.
Are provided integrally. A semicircular arc-shaped locking groove 73 extending vertically is provided outside each leg plate 72.
The stopper spring 13 is made of, for example, an elastic material such as a synthetic resin so that the stopper spring 2 can be elastically deformed in directions approaching and moving away from each other.

【0013】図14ないし図20は、本発明の第2実施
例に係る硝子板支持方立を示すものであって、支持部材
10における各係止部材51が、縦支承板62の両端部
からほぼ45°の傾斜角により一体に連設された傾斜板
74と、その各傾斜板74の先端部に相互に平行に連設
された第1縦板75と、各第1縦板75を連結する前記
縦支承板62と平行な連結板76と、前記第1縦板75
の先端部に一体に連設された前記縦支承板62と平行な
第2縦板77と、その第2縦板77の先端部から外向き
に直角に屈折連設された第3縦板78と、その第3縦板
78にほぼ45°の傾斜角により中間部が一体に連設さ
れた係止板68とにより構成され、前記第3縦板78と
前記係止板68とにより形成され鋭角角部に、係止用円
弧状凹溝55が設けられ、前記連結板76の上下方向に
間隔を置いて、前記透孔63に対向する位置に、ビス5
9および回動工具挿通用の透孔79が設けられ、また硝
子板4を支持しているロック装置が窓枠の出隅部に配置
されているが、その他の構成は、本発明の第1実施例の
場合と同様である。面内外全方向に変位する免震ゴム6
は、出隅部コーナーに使用した場合、特にその特性が表
現される。
FIG. 14 to FIG. 20 show a glass plate supporting method according to a second embodiment of the present invention, in which each locking member 51 of the supporting member 10 is moved from both ends of a vertical supporting plate 62. An inclined plate 74 integrally connected at an inclination angle of approximately 45 °, a first vertical plate 75 connected to the tip of each inclined plate 74 in parallel with each other, and each first vertical plate 75 are connected. A connecting plate 76 that is parallel to the vertical bearing plate 62 and the first vertical plate 75
A second vertical plate 77 parallel to the vertical support plate 62 and a third vertical plate 78 bent outward at a right angle outward from the distal end of the second vertical plate 77; And a locking plate 68 whose middle portion is integrally connected to the third vertical plate 78 at an inclination angle of about 45 °. The third vertical plate 78 and the locking plate 68 are formed by the third vertical plate 78 and the locking plate 68. An arc-shaped concave groove 55 for locking is provided in the acute angle corner portion, and a screw 5 is provided at a position facing the through hole 63 at an interval in the vertical direction of the connecting plate 76.
9 and a through-hole 79 for inserting a rotary tool, and a lock device supporting the glass plate 4 is arranged at the protruding corner of the window frame. Other configurations are the same as those of the first embodiment of the present invention. This is the same as in the embodiment. Seismic isolation rubber 6 displaced in all directions in and out of plane
When used in the corner of the protruding corner, its characteristics are particularly expressed.

【0014】従来の硝子支持方立に対して、本発明の硝
子板14の外面の硝子板支持方立は、スウィング式押縁
15については、硝子施工に関しては、先付け部材はな
く、図6に示すように、バネ状クリップがない状態で、
硝子板4の嵌込みが可能である。 また隣り合うスウィ
ング式押縁15の間に、(バネ状クリップ)ストッパば
ね13を差込むことにより、スポンジ状板ゴムを有する
スウィング式押縁15が回動し、硝子板4の外面に対し
圧着させることにより、止水可能である。したがって、
一般的な硝子板4のシールは、上下枠の取合部だけで、
方立部の外観部スウィング式押縁15間の現場正面シー
ル以外不要であり、硝子面からの突起が少なく、意匠性
は一般的なものに比べて高まる。
In contrast to the conventional glass support system, the glass plate support system on the outer surface of the glass plate 14 according to the present invention has no swing member with respect to the swing type ridge 15 and is not shown in FIG. Like, without the spring-like clip,
The glass plate 4 can be fitted. Further, by inserting a (spring-like clip) stopper spring 13 between the adjacent swing-type pressing edges 15, the swing-type pressing edge 15 having the sponge-like plate rubber is rotated to be pressed against the outer surface of the glass plate 4. With this, water can be stopped. Therefore,
The general seal of the glass plate 4 is only at the joint of the upper and lower frames,
It is unnecessary other than the front seal at the site between the swing type ridges 15 of the external portion of the cubic portion, there are few projections from the glass surface, and the design is enhanced as compared with a general one.

【0015】方立に対して、スウィング式押縁15を固
定する各部材は、すべて組み合せ部材であるため、従来
工法と比べても、見付け寸法をより小さく納めることが
でき、例えば、反射硝子を使用した場合、問題になる映
像調整も、ビス59を回すことにより、図7および図8
に示すように内外方向に対しても調整可能である。また
面内外全方向に変位する免震ゴム6は、出隅部コーナー
に使用した場合、特にその特性が表現される。
Since the members for fixing the swing type ridge 15 with respect to the cubic are all combined members, the found size can be smaller than that of the conventional construction method. In this case, the problematic image adjustment is also performed by turning the screw 59, as shown in FIGS.
As shown in the figure, it can be adjusted also in the inward and outward directions. Further, when the seismic isolation rubber 6 which is displaced in all directions in and out of the plane is used in the corner of the protruding corner, its characteristics are particularly expressed.

【0016】静止状態の図14に対し、図18に90度
に相対する硝子板4と押縁15および附属部材が右下方
に変位した場合の図である。免震ゴム6の左方部材は原
形のままであるが、右方の免震ゴム6は中空部が変形
し、変位している。このため、変位吸収機能を免震ゴム
6の弾性変形にもたせ、その動きは、面内外の全方向に
弾性変形して、変位吸収するため、硝子板と押縁とのク
リアランスは施工誤差の範囲で考えればよく、押縁の最
小寸法の設定が可能で、外観の意匠性を高めることがで
きる。また、前記各実施例の場合は、免震ゴム6の中央
側の半分は中実形としているため、風圧荷重に対してT
型連結部材7を保持することができると共にそのT型連
結部材7の抜け出しを防止できる。
FIG. 18 is a view showing a case where the glass plate 4, the ledge 15 and the attached member are displaced downward to the right by 90 degrees with respect to FIG. 14 in a stationary state. Although the left member of the seismic isolation rubber 6 remains the original shape, the hollow part of the right seismic isolation rubber 6 is deformed and displaced. For this reason, the displacement absorbing function is given to the elastic deformation of the seismic isolation rubber 6, and the movement is elastically deformed in all directions in and out of the plane to absorb the displacement, so that the clearance between the glass plate and the ridge is within the range of construction error. The minimum dimension of the ridge can be set, and the design of the appearance can be enhanced. In each of the above embodiments, the center half of the seismic isolation rubber 6 has a solid shape.
The mold connecting member 7 can be held, and the T-shaped connecting member 7 can be prevented from coming off.

【0017】なお、各実施例において、上枠材1,下枠
材2,方立本体5,T型連結部材7,支持部材10およ
び押縁11はアルミニウム等の金属材料により製作され
る。
In each embodiment, the upper frame member 1, the lower frame member 2, the cubic main body 5, the T-shaped connecting member 7, the support member 10, and the ridge 11 are made of a metal material such as aluminum.

【0018】[0018]

【発明の効果】本発明によれば、それぞれ水平状態の上
枠材1および下枠材2の両端部を一体に連結する硝子板
4用の支持方立において、方立本体5に外向きに開口す
る縦溝3を設け、その縦溝3内に免震ゴム6を嵌合し、
前記免震ゴム6にT型連結部材7のフランジ8を嵌合す
ると共に、前記T型連結部材7のウエッブ9を外側に配
置し、前記T型連結部材7のウエッブ9側に支持部材1
0を取付け、前記支持部材10に、硝子板4に向かって
開閉移動する押縁11を設け、その押縁11を閉止位置
に配置した状態でその押縁11にストッパばね13を係
合したので、硝子板を支持する方立本体5が完全に正し
い位置に停止していなくても、外気の進入を確実に防止
することができ、かつ方立本体5が地震等により振動し
ても、免震ゴム6により硝子板4に直接振動が伝達する
のを防止することができ、また硝子板4を支持する方立
本体5に対し、硝子板4の位置が偏位しても、免震ゴム
6の弾性変形により、硝子板4およびこれを保持してい
る部材の偏位を吸収し、かつ押縁11を開いた状態で容
易に硝子板4を装着でき、また押縁11を閉じた状態で
ストッパばね13を係合することにより、押縁11が開
くのを防止することができる。
According to the present invention, in the support orifice for the glass plate 4 for integrally connecting both ends of the upper frame material 1 and the lower frame material 2 in a horizontal state, the support body 5 is directed outwardly from the support body 5. An open vertical groove 3 is provided, and a seismic isolation rubber 6 is fitted in the vertical groove 3,
A flange 8 of a T-shaped connecting member 7 is fitted to the seismic isolation rubber 6, and a web 9 of the T-shaped connecting member 7 is disposed outside, and a support member 1 is provided on the web 9 side of the T-shaped connecting member 7.
0, the supporting member 10 is provided with a ridge 11 for opening and closing movement toward the glass plate 4, and the stopper spring 13 is engaged with the ridge 11 in a state where the ridge 11 is arranged in the closed position. Even if the cubic main body 5 supporting the cubic body 5 is not completely stopped at the correct position, it is possible to reliably prevent the outside air from entering, and even if the cubic main body 5 vibrates due to an earthquake or the like, the seismic isolation rubber 6 The vibration can be prevented from being directly transmitted to the glass plate 4, and even if the position of the glass plate 4 is deviated with respect to the cubic body 5 that supports the glass plate 4, the elasticity of the seismic isolation rubber 6 can be improved. By the deformation, the deviation of the glass plate 4 and the member holding the glass plate 4 can be absorbed, and the glass plate 4 can be easily mounted with the ridge 11 opened, and the stopper spring 13 is closed with the ridge 11 closed. The engagement prevents the ridge 11 from opening. Can.

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

【図1】本発明の第1実施例に係る硝子板支持方立を示
す横断平面図である。
FIG. 1 is a cross-sectional plan view showing a glass plate support method according to a first embodiment of the present invention.

【図2】図1の上側部分を拡大して示す横断平面図であ
る。
FIG. 2 is an enlarged cross-sectional plan view showing an upper portion of FIG.

【図3】図1の下側部分を拡大して示す横断平面図であ
る。
FIG. 3 is an enlarged cross-sectional plan view showing a lower portion of FIG. 1;

【図4】本発明の第1実施例に係る硝子板支持方立を示
す縦断側面図である。
FIG. 4 is a longitudinal sectional side view showing a glass plate supporting method according to the first embodiment of the present invention.

【図5】図4の一部を拡大して示す縦断側面図である。5 is a longitudinal sectional side view showing a part of FIG. 4 in an enlarged manner.

【図6】本発明の第1実施例に係る硝子板支持方立にお
いて一方の押縁を開いた状態を示す縦断正面図である。
FIG. 6 is a longitudinal sectional front view showing a state where one of the ridges is opened in the glass plate supporting erection according to the first embodiment of the present invention.

【図7】本発明の第1実施例に係る硝子板支持方立にお
いて、ビスにより硝子板を室内側に位置調整した状態を
示す横断平面図である。
FIG. 7 is a cross-sectional plan view showing a state in which the glass plate is adjusted to the indoor side with screws in the glass plate supporting stance according to the first embodiment of the present invention.

【図8】本発明の第1実施例に係る硝子板支持方立にお
いて、ビスにより硝子板を室外側に位置調整した状態を
示す縦断正面図である。
FIG. 8 is a vertical cross-sectional front view showing a state in which the glass plate is adjusted to the outdoor side with screws in the glass plate support orienting according to the first embodiment of the present invention.

【図9】本発明の第1実施例に係る硝子板支持方立にお
いて、硝子板が変位した不正状態を示す縦断正面図であ
る。
FIG. 9 is a vertical sectional front view showing an incorrect state in which the glass plate is displaced in the glass plate supporting cubicle according to the first embodiment of the present invention.

【図10】免震ゴムを被覆したT型連結部材を示す横断
斜視図である。
FIG. 10 is a cross-sectional perspective view showing a T-shaped connecting member coated with seismic isolation rubber.

【図11】本発明の第1実施例において用いられる可動
支持部材を示す横断斜視図である。
FIG. 11 is a cross-sectional perspective view showing a movable support member used in the first embodiment of the present invention.

【図12】本発明の第1実施例において用いられるスイ
ング式押縁を示す横断斜視図である。
FIG. 12 is a cross-sectional perspective view showing a swing type edge used in the first embodiment of the present invention.

【図13】本発明において用いられるストッパばねを示
す横断斜視図である。
FIG. 13 is a cross-sectional perspective view showing a stopper spring used in the present invention.

【図14】本発明の第2実施例に係る硝子板支持方立を
示す横断平面図である。
FIG. 14 is a cross-sectional plan view illustrating a glass plate supporting method according to a second embodiment of the present invention.

【図15】本発明の第2実施例に係る硝子板支持方立の
上側部分を拡大して示す横断平面図である。
FIG. 15 is a cross-sectional plan view showing, on an enlarged scale, an upper portion of a glass plate supporting ridge according to a second embodiment of the present invention.

【図16】本発明の第2実施例に係る硝子板支持方立の
下側部分を拡大して示す横断平面図である。
FIG. 16 is a cross-sectional plan view showing, in an enlarged manner, a lower portion of a glass plate support ridge according to a second embodiment of the present invention.

【図17】本発明の第2実施例に係る硝子板支持方立を
示す縦断側面図である。
FIG. 17 is a longitudinal sectional side view showing a glass plate supporting ridge according to a second embodiment of the present invention.

【図18】本発明の第2実施例に係る硝子板支持方立に
おいて硝子板が変位した不正状態を示す横断平面図であ
る。
FIG. 18 is a cross-sectional plan view showing an illegal state in which a glass plate is displaced in a glass plate supporting cubic according to a second embodiment of the present invention.

【図19】本発明の第2実施例において用いられる可動
支持部材を示す横断斜視図である。
FIG. 19 is a cross-sectional perspective view showing a movable support member used in a second embodiment of the present invention.

【図20】本発明の第2実施例において用いられるスイ
ング式押縁を示す横断斜視図である。
FIG. 20 is a cross-sectional perspective view showing a swing type edge used in a second embodiment of the present invention.

【図21】従来の硝子板支持方立を示す縦断平面図であ
る。
FIG. 21 is a vertical sectional view showing a conventional glass plate supporting method.

【図22】従来の硝子板支持方立を示す縦断側面図であ
る。
FIG. 22 is a longitudinal sectional side view showing a conventional glass plate supporting method.

【図23】図21の一部を拡大して示す縦断側面図であ
る。
23 is a longitudinal sectional side view showing a part of FIG. 21 in an enlarged manner.

【符号の説明】[Explanation of symbols]

1 上枠材 2 下枠材 3 縦溝 4 硝子板 5 方立本体 6 免震ゴム 7 T型連結部材 8 フランジ 9 ウエッブ 10 (可動)支持部材 11 押縁 12 押縁本体 13 ストッパばね 14 硝子板 15 スウィング式押縁 16 溝状枠 17 方立 18 固定ボルト 19 固定ボルト 20 構造用シール材 21 T字型部分 22 フランジ 23 透孔 24 支承金具 25 支承金具 26 縦スリット 27 方立本体 28 第1アーム板 29 第1アーム板 30 第2アーム板 31 第2アーム板 34 凹溝 35 内部硝子シール 36 方立部材 37 中間仕切板 39 L型連結金具 40 中空室 41 係止金具 42 化粧板 43 V字型頭部 45 固定部材 46 係合部材 47 可動係合部材 48 後部弾性体 49 前部弾性体 51 係止部材 52 フランジ 53 係止フック 55 凹溝 56 環状突起 57 弾性体 59 ビス 60 基端板 61 雌ねじ孔 62 縦支承板 63 透孔 64 係止溝 65 支承フランシ 66 ビス 67 ビス 68 係止板 69 突条 70 係止段部 71 ストッパばね本体 72 脚板 73 係止用凹溝 74 傾斜板 75 第1縦板 76 連結板 77 第2縦板 78 第3縦板 79 透孔 80 弾性材料製支承体 81 バックアップ材 82 シール材 83 係止板 84 ブラケット DESCRIPTION OF SYMBOLS 1 Upper frame material 2 Lower frame material 3 Vertical groove 4 Glass plate 5 Square main body 6 Seismic isolation rubber 7 T-shaped connecting member 8 Flange 9 Web 10 (Movable) support member 11 Retaining edge 12 Retaining edge body 13 Stopper spring 14 Glass plate 15 Swing Type ridge 16 Slot frame 17 Square 18 Fixing bolt 19 Fixing bolt 20 Structural sealing material 21 T-shaped part 22 Flange 23 Through-hole 24 Support metal fitting 25 Support metal fitting 26 Vertical slit 27 Square body 28 First arm plate 29 First 1 arm plate 30 second arm plate 31 second arm plate 34 concave groove 35 internal glass seal 36 cubic member 37 intermediate partition plate 39 L-shaped connecting metal fitting 40 hollow chamber 41 locking metal fitting 42 decorative board 43 V-shaped head 45 Fixed member 46 Engaging member 47 Movable engaging member 48 Rear elastic body 49 Front elastic body 51 Locking member 52 Flange 53 Locking hook 5 concave groove 56 annular projection 57 elastic body 59 screw 60 base plate 61 female screw hole 62 vertical support plate 63 through hole 64 locking groove 65 support flange 66 screw 67 screw 68 locking plate 69 ridge 70 locking step 71 stopper Spring body 72 Leg plate 73 Locking groove 74 Inclined plate 75 First vertical plate 76 Connecting plate 77 Second vertical plate 78 Third vertical plate 79 Through hole 80 Elastic material support 81 Backup material 82 Sealing material 83 Locking plate 84 bracket

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 それぞれ水平状態の上枠材1および下枠
材2の両端部を一体に連結する硝子板4用の支持方立に
おいて、方立本体5に外向きに開口する縦溝3を設け、
その縦溝3内に免震ゴム6を嵌合し、前記免震ゴム6に
T型連結部材7のフランジ8を嵌合すると共に、前記T
型連結部材7のウエッブ9を外側に配置し、前記T型連
結部材7のウエッブ9側に支持部材10を取付け、前記
支持部材10に、硝子板4に向かって開閉移動する押縁
11を設け、その押縁11を閉止位置に配置した状態で
その押縁11にストッパばね13を係合した硝子板支持
方立。
1. A supporting groove for a glass plate 4 for integrally connecting both ends of an upper frame member 1 and a lower frame member 2 in a horizontal state, wherein a vertical groove 3 opening outward to a cubic main body 5 is formed. Provided,
A seismic isolation rubber 6 is fitted into the vertical groove 3, a flange 8 of a T-type connecting member 7 is fitted to the seismic isolation rubber 6, and
A web 9 of the mold connecting member 7 is arranged outside, a supporting member 10 is attached to the web 9 side of the T-shaped connecting member 7, and the supporting member 10 is provided with a ridge 11 that opens and closes toward the glass plate 4. A glass plate supporting orifice in which a stopper spring 13 is engaged with the ridge 11 with the ridge 11 in the closed position.
JP18194494A 1994-07-12 1994-07-12 Glass plate support Expired - Fee Related JP2630360B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18194494A JP2630360B2 (en) 1994-07-12 1994-07-12 Glass plate support

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP18194494A JP2630360B2 (en) 1994-07-12 1994-07-12 Glass plate support

Publications (2)

Publication Number Publication Date
JPH0828148A JPH0828148A (en) 1996-01-30
JP2630360B2 true JP2630360B2 (en) 1997-07-16

Family

ID=16109618

Family Applications (1)

Application Number Title Priority Date Filing Date
JP18194494A Expired - Fee Related JP2630360B2 (en) 1994-07-12 1994-07-12 Glass plate support

Country Status (1)

Country Link
JP (1) JP2630360B2 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4538159B2 (en) * 2001-02-22 2010-09-08 功 小島 Panel body mounting structure
JP4603507B2 (en) * 2006-05-19 2010-12-22 不二サッシ株式会社 Seismic isolation device for glass panel
CN105464259A (en) * 2015-12-24 2016-04-06 多维联合集团有限公司 Slot-type embedded part and application node structure of same
JP7503403B2 (en) * 2020-03-25 2024-06-20 株式会社Lixil curtain wall
CN113338499B (en) * 2021-06-21 2022-03-29 中国十七冶集团有限公司 Building curtain T type anti-drop connecting piece
CN115822202A (en) * 2022-11-18 2023-03-21 上海溢椿实业有限公司 Indoor wall decoration modular system and construction method

Also Published As

Publication number Publication date
JPH0828148A (en) 1996-01-30

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