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JP6148083B2 - Manufacturing method of opening building materials - Google Patents
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JP6148083B2 - Manufacturing method of opening building materials - Google Patents

Manufacturing method of opening building materials Download PDF

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JP6148083B2
JP6148083B2 JP2013130973A JP2013130973A JP6148083B2 JP 6148083 B2 JP6148083 B2 JP 6148083B2 JP 2013130973 A JP2013130973 A JP 2013130973A JP 2013130973 A JP2013130973 A JP 2013130973A JP 6148083 B2 JP6148083 B2 JP 6148083B2
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glass
auxiliary member
frame
secondary seal
horizontal
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JP2015004242A (en
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喜幸 関
喜幸 関
谷口 則良
則良 谷口
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Sankyo Tateyama Inc
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Description

本発明は、複層ガラスを用いる開口部建材の製造方法に関する。 The present invention relates to a method for manufacturing an opening building material using a multilayer glass.

近年、住宅やビルの窓ガラスには、断熱性や遮音性の向上のため、複層ガラスを用いることが多くなっている。一般に複層ガラスは、枠(框)のガラス保持溝にグレチャンで保持されている。
特許文献1には、框のガラス保持溝の底面に凸部を設け、ガラス保持溝にガラスを接着剤で接着したものが記載されている。この場合、障子は組み立てた状態で工場から出荷することになり、複層ガラスと組立前の框とをサッシ業者の工場や施工現場等へと搬入し、そこで障子を組み立てるいわゆるノックダウン方式に対応できない。
In recent years, double-glazed glass is often used for window glass of houses and buildings in order to improve heat insulation and sound insulation. In general, the multi-layer glass is held in the glass holding groove of the frame (框) with grechant.
Patent Document 1 describes a method in which a convex portion is provided on the bottom surface of a glass holding groove of a ridge and glass is bonded to the glass holding groove with an adhesive. In this case, the shoji will be shipped from the factory in an assembled state, and the so-called knock-down method will be adopted in which the double-glazed glass and the pre-assembly kite are brought into the sash contractor's factory or construction site, where the shoji is assembled. Can not.

特開2010−281073号公報JP 2010-281073 A

本発明は以上に述べた実情に鑑み、枠を兼用して複層ガラスの取付け方を選択できる開口部建材の製造方法の提供を目的とする。 In view of the above-described circumstances, an object of the present invention is to provide a method for manufacturing an opening building material that can be used to select a method of attaching a multilayer glass using a frame.

上記の課題を達成するために請求項1記載の発明による開口部建材の製造方法は、四周の枠と、複層ガラスとを備える開口部建材の製造方法であって、補助部材又はグレチャンの何れかを選択することができ、補助部材を選択した場合は、補助部材をガラス保持溝に取付けた枠を複層ガラスの周囲から押し付けることで、スペーサーの外周側に充填されたシール材により複層ガラスを補助部材と接着し、グレチャンを選択した場合は、複層ガラスをグレチャンで枠のガラス保持溝に保持することを特徴とする。ここで「枠」には、複層ガラスの周囲に設けられるあらゆる部材が含まれ、窓枠に限らず、障子の框、方立や無目等であってもよい。 In order to achieve the above object, a manufacturing method of an opening building material according to the invention described in claim 1 is a manufacturing method of an opening building material comprising a frame of four circumferences and a multi-layer glass, which is either an auxiliary member or a Grechan. or to be able to select, if you select the auxiliary member, the auxiliary member by pressing a frame attached to the glass holding groove from the periphery of the insulating glass, multi-layer with a sealing material filled in the outer periphery of the spacer When the glass is bonded to the auxiliary member and the Grechan is selected, the multilayer glass is retained in the glass holding groove of the frame with the Grechan . Here, the “frame” includes all members provided around the multi-layer glass, and is not limited to the window frame, and may be a shoji screen, a stand or an invisible eye.

請求項1記載の発明による開口部建材の製造方法は、補助部材又はグレチャンの何れかを選択することができ、補助部材を選択した場合は、補助部材をガラス保持溝に取付けた枠を複層ガラスの周囲から押し付けることで、スペーサーの外周側に充填されたシール材により複層ガラスを補助部材と接着し、グレチャンを選択した場合は、複層ガラスをグレチャンで枠のガラス保持溝に保持することで、共通の枠を用いながら組立完成品での出荷とノックダウン方式の何れにも対応することができる The manufacturing method of the opening part building material by the invention of Claim 1 can select either an auxiliary member or a Grechan, and when an auxiliary member is selected, the frame which attached the auxiliary member to the glass holding groove was multilayered. By pressing from the periphery of the glass, the double-layer glass is adhered to the auxiliary member by the sealing material filled on the outer periphery of the spacer, and when the Grechan is selected, the multi-layer glass is held in the glass holding groove of the frame with the Grechan. As a result, it is possible to cope with both the shipment of the completed assembly product and the knockdown method while using a common frame .

本発明の開口部建材の一実施形態を示す縦断面図である。It is a longitudinal cross-sectional view which shows one Embodiment of the opening part building material of this invention. 同開口部建材の横断面図である。It is a cross-sectional view of the opening construction material. 同開口部建材の外障子の室内側正面図である。It is a room inner side front view of the shoji of the opening construction material. 外障子の組立て方を示す室内側正面図である。It is a room side front view which shows how to assemble the shoji. (a)(b)は外障子の組立て手順を示す縦断面図である。(A) (b) is a longitudinal cross-sectional view which shows the assembly procedure of a shoji. (a)(b)は外障子の組立て手順を示す横断面図である。(A) (b) is a cross-sectional view which shows the assembly procedure of a shoji. 竪框と横框の接合部を示す分解斜視図である。FIG. 上框部の縦断面図であって、複層ガラスの空気層の厚みを変更する場合を示す。It is a longitudinal cross-sectional view of an upper collar part, Comprising: The case where the thickness of the air layer of a multilayer glass is changed is shown. 上框と複層ガラスとの接着状態の他の例を示す縦断面図であって、(a)はシール材の量を多くした場合、(b)はシール材の量を少なくした場合を示す。It is a longitudinal cross-sectional view which shows the other example of the adhesion state of a top glass and a multilayer glass, Comprising: (a) shows the case where the quantity of a sealing material is decreased, (b) shows the case where the quantity of a sealing material is reduced. . 複層ガラスをグレチャンで框のガラス保持溝に保持した場合の開口部建材の縦断面図である。It is a longitudinal cross-sectional view of the opening part building material at the time of hold | maintaining a multi-layer glass in the glass holding groove | channel of a gutter with a glean. 同開口部建材の横断面図である。It is a cross-sectional view of the opening construction material.

以下、本発明の実施の形態を図面に基づいて説明する。図1,2は、本発明の開口部建材の一実施形態であって、住宅の窓開口部に設置される引違いサッシに適用した場合を示している。本サッシは、躯体開口部に取付けたサッシ枠11と、サッシ枠11内に引違い状に開閉自在に収めた外障子12a及び内障子12bを備えている。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 and 2 show an embodiment of an opening building material according to the present invention, which is applied to a sliding sash installed in a window opening of a house. The sash includes a sash frame 11 attached to the housing opening, and a shroud 12a and an inner pouch 12b that are housed in the sash frame 11 so as to be freely opened and closed.

サッシ枠11は、上枠13と下枠14と左右の竪枠15,15とを枠組みして構成してある。上枠13と下枠14には、外障子12aと内障子12bをそれぞれ案内する外レール16aと内レール16bが、内周側に突出して形成されている。上枠13と下枠14と竪枠15の室内側の内周部には、樹脂製のアングル17が設けてある。   The sash frame 11 is configured by an upper frame 13, a lower frame 14, and left and right eaves frames 15, 15. On the upper frame 13 and the lower frame 14, an outer rail 16a and an inner rail 16b for guiding the outer obstacle 12a and the inner obstacle 12b are formed so as to protrude to the inner peripheral side. Resin-made angles 17 are provided on the inner periphery of the upper frame 13, the lower frame 14, and the collar frame 15 on the indoor side.

外障子12aと内障子12bは、図1,2に示すように、スペーサー9を挟んで2枚のガラス8,8を室内外方向に間隔をおいて保持した複層ガラス5を、アルミニウム合金の押出形材よりなる上下の横框1,2と左右の竪框3,4とで四周枠組みして構成してある。2枚のガラス8,8の間には、約18mmの空気層18が形成されている。スペーサー9は、ステンレスの薄い板をロールフォーミングにより筒状に形成してあり、4本のスペーサー9を矩形に枠組みしてガラス8,8間に配置し、ガラス8,8の内側面に一次シール19で接着してある。スペーサー9の内部には乾燥剤が入れられ、スペーサー9の内周側面には多数の通気孔(図示省略)が形成してあり、これによりガラス間の空気層18が乾燥した状態に保たれる。   As shown in FIGS. 1 and 2, the outer panel 12 a and the inner panel 12 b are made of an aluminum alloy made of a double-layer glass 5 that holds two glasses 8, 8 spaced apart from each other with a spacer 9 in between. The upper and lower horizontal ridges 1 and 2 and the left and right ridges 3 and 4 made of an extruded profile are configured as a four-round frame. An air layer 18 of about 18 mm is formed between the two glasses 8 and 8. The spacer 9 is formed by forming a thin stainless steel plate into a cylindrical shape by roll forming, and the four spacers 9 are arranged in a rectangular shape between the glasses 8 and 8, and are primarily sealed on the inner surfaces of the glasses 8 and 8. It is adhered at 19. A desiccant is placed inside the spacer 9, and a large number of ventilation holes (not shown) are formed on the inner peripheral side surface of the spacer 9, so that the air layer 18 between the glasses is kept in a dry state. .

横框1,2は、図1に示すように、室外側と室内側に対向して設けた一対の見付壁20a,20bと見込み壁21とで内周側が開口したガラス保持溝22が形成され、ガラス保持溝22に複層ガラス5の上下端部を呑み込ませてある。見込み壁21には、室内外方向の中間部にタッピングホール23が内周側に開口して設けてある。
ガラス保持溝22の底部には、横框補助部材6が横框1,2の長手方向に沿って取付けてある。横框補助部材6は、内周側に向かって幅狭となった台形状の中空部24と、中空部24の外周側に突設した係合部25とを有しており、係合部25をタッピングホール23内に係合して取付けてあり、タッピングホール23の開口縁が中空部24の外周側面に当接することで、傾きが規制されている。中空部24は、スペーサー9の外周側に離間し、且つガラス8,8間の隙間に位置している。
スペーサー9の外周側のガラス保持溝22内の隙間には二次シール10が充填してあり、この二次シール10によりガラス8,8を横框1,2及び横框補助部材6と接着し、横框1,2と複層ガラス5を一体化している。
As shown in FIG. 1, the horizontal ridges 1 and 2 are formed with a glass holding groove 22 having an inner peripheral side opened by a pair of finding walls 20 a and 20 b and a prospective wall 21 provided facing the outdoor side and the indoor side. The upper and lower ends of the multilayer glass 5 are swallowed into the glass holding groove 22. In the prospective wall 21, a tapping hole 23 is provided in the middle part in the indoor / outdoor direction so as to open to the inner peripheral side.
On the bottom of the glass holding groove 22, the side iron auxiliary member 6 is attached along the longitudinal direction of the side irons 1 and 2. The recumbent auxiliary member 6 has a trapezoidal hollow portion 24 that becomes narrower toward the inner peripheral side, and an engaging portion 25 that projects from the outer peripheral side of the hollow portion 24. 25 is engaged with and attached to the tapping hole 23, and the opening edge of the tapping hole 23 abuts on the outer peripheral side surface of the hollow portion 24 so that the inclination is regulated. The hollow portion 24 is separated from the outer peripheral side of the spacer 9 and is located in the gap between the glasses 8 and 8.
The gap in the glass holding groove 22 on the outer peripheral side of the spacer 9 is filled with a secondary seal 10, and the glass 8, 8 is bonded to the horizontal rod 1, 2 and the horizontal rod auxiliary member 6 by the secondary seal 10. The horizontal planes 1 and 2 and the multilayer glass 5 are integrated.

竪框3,4は、図2に示すように、室外側と室内側に対向して設けた一対の見付壁26a,26bと見込み壁27とで内周側が開口したガラス保持溝22が形成され、ガラス保持溝22に複層ガラス5の側端部を呑み込ませてある。見込み壁27には、室外側と室内側の2か所にアリ溝28が内周側に開口して設けてある。
ガラス保持溝22の底部には、竪框補助部材7が竪框3,4の長手方向に沿って取付けてある。竪框補助部材7は、見込み壁27に沿って配置される板状部29と、内周側に向かって幅狭となった台形状の中空部30と、板状部29の外周側に突設した係合部31とを有しており、係合部31を見込み壁27のアリ溝28に係合して取付けてある。中空部30は、スペーサー9の外周側に離間し、且つガラス8,8間の隙間に挿入されている。
スペーサー9の外周側のガラス保持溝22内の隙間には二次シール10が充填してあり、この二次シール10によりガラス8,8を竪框補助部材7と接着し、竪框3,4と複層ガラス5を一体化している。
As shown in FIG. 2, the eaves 3 and 4 are formed with a glass holding groove 22 having an inner peripheral side opened by a pair of finding walls 26 a and 26 b and a prospective wall 27 provided facing the outdoor side and the indoor side. Then, the side end portion of the multilayer glass 5 is squeezed into the glass holding groove 22. In the prospective wall 27, dovetail grooves 28 are provided at two locations, the outdoor side and the indoor side, so as to open to the inner peripheral side.
On the bottom of the glass holding groove 22, the heel auxiliary member 7 is attached along the longitudinal direction of the ridges 3 and 4. The heel auxiliary member 7 protrudes on the plate-shaped portion 29 arranged along the prospective wall 27, the trapezoidal hollow portion 30 narrowed toward the inner peripheral side, and the outer peripheral side of the plate-shaped portion 29. The engaging portion 31 is engaged with the dovetail groove 28 of the prospective wall 27 and attached. The hollow portion 30 is spaced apart from the outer peripheral side of the spacer 9 and is inserted into the gap between the glasses 8 and 8.
The gap in the glass holding groove 22 on the outer peripheral side of the spacer 9 is filled with a secondary seal 10, and the glass 8, 8 is bonded to the heel auxiliary member 7 by this secondary seal 10, and 竪 框 3, 4 And the multilayer glass 5 are integrated.

横框1,2と竪框3,4とは、図3,7に示すように、横框1,2の長手方向端部を竪框3,4のガラス保持溝22内に呑み込ませ、横框1,2の長手方向端面を竪框3,4の見込み壁27に当接し、側方から挿入したネジ32を横框1,2のタッピングホール23に捩じ込むことで固定されている。横框補助部材6は、横框1,2のほぼ全長にわたって配置されており、竪框補助部材7は竪框3,4と横框1,2を接合するのに邪魔にならないように、竪框3,4の全長よりも短くしてある。両補助部材6,7は、アルミニウム合金の押出形材を切断するだけで形成でき、加工が容易である。   As shown in FIGS. 3 and 7, the horizontal reeds 1 and 2 and the reeds 3 and 4 have the longitudinal ends of the horizontal reeds 1 and 2 squeezed into the glass holding grooves 22 of the reeds 3 and 4. The longitudinal ends of the flanges 1 and 2 are brought into contact with the prospective wall 27 of the flanges 3 and 4 and fixed by screwing the screws 32 inserted from the side into the tapping holes 23 of the horizontal flanges 1 and 2. The recumbent auxiliary member 6 is arranged over substantially the entire length of the recumbent reeds 1 and 2, and the reed assisting member 7 does not interfere with joining the reeds 3 and 4 and the recumbent reeds 1 and 2. It is shorter than the total length of the ridges 3 and 4. Both auxiliary members 6 and 7 can be formed simply by cutting an extruded shape of an aluminum alloy and can be easily processed.

次に、障子12a,12bの組立て方を説明する。まず、ガラス8,8間にスペーサー9を一次シール19で接着して配置する。その後、スペーサー9の外周側のガラス8,8間に二次シール10を塗布する(図5(a)、図6(a)参照)。一方、横框1,2と竪框3,4には、ガラス保持溝22の底部に横框補助部材6と竪框補助部材7をそれぞれ予め取付けておく。横框補助部材6と竪框補助部材7の取付けは、横框1,2と竪框3,4の小口から長手方向にスライド係合させて行う。竪框補助部材7を取付ける際、予め竪框3,4の下部でアリ溝28をマイナスドライバー等の工具で潰しておき、竪框補助部材7を竪框3,4の上方から係合取付し、その後に竪框3,4の上部でアリ溝28を潰すことで、竪框補助部材7を所定の高さ位置に位置決めできる。その後、二次シール10が固まらないうちに、図4と図5(a),図6(a)に示すように、ガラス8,8の周囲から横框1,2と竪框3,4を押し付ける。すると、図5(b),図6(b)に示すように、二次シール10が竪横框補助部材6,7の台形状の中空部24,30に押されて中空部24,30の周囲に回り込み、ガラス8,8が横框1,2及び竪横框補助部材6,7と二次シール10で接着され、複層ガラス5が竪横框1,2,3,4と一体化される。その後、竪框3,4の側方より挿入したネジ32を横框1,2のタッピングホール23に捩じ込んで締付け、竪横框1,2,3,4を固定する。   Next, how to assemble the shoji 12a and 12b will be described. First, the spacer 9 is disposed between the glasses 8 and 8 by being bonded with a primary seal 19. Thereafter, a secondary seal 10 is applied between the glass 8 and 8 on the outer peripheral side of the spacer 9 (see FIGS. 5A and 6A). On the other hand, the horizontal iron auxiliary member 6 and the auxiliary iron member 7 are previously attached to the bottom of the glass holding groove 22 in the horizontal irons 1, 2 and 3, 4, respectively. The recumbent auxiliary member 6 and the reed auxiliary member 7 are attached by slidingly engaging in the longitudinal direction from the fore ends of the reeds 1, 2 and the reeds 3, 4. When attaching the heel auxiliary member 7, the dovetail groove 28 is previously crushed with a tool such as a flathead screwdriver at the lower part of the heel 3, 4, and the heel auxiliary member 7 is engaged and attached from above the ridge 3, 4. Then, by crushing the dovetail groove 28 at the upper part of the hooks 3 and 4, the hook assisting member 7 can be positioned at a predetermined height position. Thereafter, before the secondary seal 10 is hardened, the horizontal ribs 1, 2, and 3, 4 are removed from the periphery of the glass 8, 8 as shown in FIGS. 4, 5 (a), 6 (a). Press. Then, as shown in FIGS. 5B and 6B, the secondary seal 10 is pushed by the trapezoidal hollow portions 24, 30 of the heel side auxiliary members 6, 7, so that the hollow portions 24, 30 Around the periphery, the glasses 8 and 8 are bonded to the horizontal rods 1 and 2 and the horizontal rod auxiliary members 6 and 7 with the secondary seal 10, and the multi-layer glass 5 is integrated with the horizontal rods 1, 2, 3 and 4. Is done. Thereafter, the screws 32 inserted from the sides of the ridges 3 and 4 are screwed into the tapping holes 23 of the horizontal ridges 1 and 2 and tightened to fix the horizontal ridges 1, 2, 3 and 4.

以上に述べたように本サッシの障子12a,12bは、四周の框1,2,3,4のガラス保持溝22に框補助部材6,7をそれぞれ取付け、複層ガラス5は、スペーサー9の外周側に充填された二次シール10により横框1,2及び竪横の框補助部材6,7と接着したことで、四周の框1,2,3,4と複層ガラス5とが二次シール10で一体化している。これにより、框1,2,3,4自体にそれほど剛性を持たせる必要がなくなり、またガラス保持溝22内に排水用の空間を設ける必要もないため、框1,2,3,4を細くすることができる(特に、框1,2,3,4の見付寸法を小さくすることができる。)。また、スペーサー9の外周側に充填された二次シール10により、雨水が室内側に浸入するのを阻止できるので、水密性も優れている。また、二次シール10がガラス8,8を框補助部材6,7と接着すると共に、横框1,2(特に下框2)とも接着していることで、水密性が一層向上している。さらに本障子12a,12bは、グレチャンを介在させないことで、ガラス8,8の外側面と框1,2,3,4の見付け面との間の段差を小さくでき、障子12a,12bの室外側面と室内側面がほぼフラットになり、ガラス8,8と框1,2,3,4との間にゴム質の部材が露出することもないため、框1,2,3,4を細くできることと相まって、意匠性を向上できる。さらに、グレチャンを介在させないことで、框1,2,3,4の見込み寸法を抑えつつガラス間の空気層18の厚みを大きくすることができ、これにより断熱性能が向上する。
さらに本障子12a,12bは、ガラス8,8間のスペーサー9の外周側に二次シール10を塗布し、横框1,2と竪框3,4に予め横框補助部材6と竪框補助部材7を取付けておき、横框1,2と竪框3,4をガラス8,8の周囲から押し付けて接着することで、障子12a,12bの組立が容易に行え、しかも二次シール10を框補助部材6,7の周囲に回り込ませることで、接着力を高められる。框補助部材6,7に台形状の中空部24,30を設けたことで、框補助部材6,7の周囲への二次シール10の回り込みを促進し、接着力を高めることができる。各框1,2,3,4に框補助部材6,7を予め取付けることで、横框1,2と竪框3,4とをインロウ結合(横框1,2の端部を竪框3,4のガラス保持溝22に呑み込ませて結合)することができる。また、障子12a,12bの組立を複層ガラス5の製作と連続して行うことで、製作コストや輸送コストを削減できる。横框1,2のタッピングホール23に横框補助部材6を係合して取付けることで、横框1,2に横框補助部材6のための係合部を別途設ける必要が無く、合理的である。
As described above, the shojis 12a and 12b of this sash are provided with the scissors auxiliary members 6 and 7 in the glass holding grooves 22 of the scissors 1, 2, 3 and 4 on the four sides, respectively, Since the secondary seal 10 filled on the outer peripheral side is bonded to the horizontal rods 1 and 2 and the horizontal rod auxiliary members 6 and 7, the rounded circular frames 1, 2, 3, 4 and the double-glazed glass 5 are separated from each other. The next seal 10 is integrated. As a result, it is not necessary to give the ridges 1, 2, 3, 4 themselves so rigid, and it is not necessary to provide a space for drainage in the glass holding groove 22, so that the ridges 1, 2, 3, 4 are narrowed. (Especially, the size of the rods 1, 2, 3, and 4 can be reduced). Further, since the secondary seal 10 filled on the outer peripheral side of the spacer 9 can prevent rainwater from entering the indoor side, the watertightness is also excellent. In addition, the secondary seal 10 bonds the glasses 8 and 8 to the heel auxiliary members 6 and 7 and also to the horizontal tubs 1 and 2 (particularly the lower heel 2), thereby further improving the watertightness. . Furthermore, this shoji 12a and 12b can make the level | step difference between the outer surface of the glass 8 and 8 and the finding surface of the eaves 1, 2, 3, and 4 small by not interposing a glean, and the outdoor side surface of shoji 12a and 12b And the interior side is almost flat, and no rubber member is exposed between the glass 8,8 and the glass 1,2,3,4, so that the glass 1,2,3,4 can be made thin. Together, the design can be improved. Further, by not interposing the Grechan, the thickness of the air layer 18 between the glasses can be increased while suppressing the expected dimensions of the ridges 1, 2, 3, and 4, thereby improving the heat insulation performance.
Further, the shoji 12a and 12b are coated with a secondary seal 10 on the outer peripheral side of the spacer 9 between the glasses 8 and 8, and the recumbent assisting member 6 and reed assisting are preliminarily placed on the reeds 1, 2 and 3 and 4, respectively. By attaching the member 7 and pressing and adhering the horizontal rods 1 and 2 and the rods 3 and 4 from the periphery of the glass 8 and 8, the shojis 12a and 12b can be easily assembled, and the secondary seal 10 can be attached. The adhesive force can be increased by wrapping around the auxiliary members 6 and 7. By providing the trapezoidal hollow portions 24 and 30 on the heel assist members 6 and 7, the secondary seal 10 can be promoted around the heel assist members 6 and 7 and the adhesive force can be increased. By attaching the hook auxiliary members 6 and 7 in advance to the hooks 1, 2, 3 and 4, the horizontal hooks 1 and 2 and the hooks 3 and 4 are connected in-row (the ends of the horizontal hooks 1 and 2 are connected to the hook 3). , 4 can be inserted into the glass holding groove 22 and bonded together. Further, by assembling the shojis 12a and 12b continuously with the production of the multi-layer glass 5, production costs and transportation costs can be reduced. By engaging and attaching the side support member 6 to the tapping holes 23 of the side guides 1 and 2, there is no need to separately provide an engaging portion for the side guide support member 6 on the side guides 1 and 2, and it is reasonable. It is.

図8(a),(b)は、複層ガラス5の空気層18の厚みが異なる場合の実施形態を示している。同図に示すように、共通の框1,2,3,4を使用しながら框補助部材6,7を変更することで、複層ガラス5の空気層18の厚みの違いに対応できる。   8A and 8B show an embodiment in which the thickness of the air layer 18 of the multilayer glass 5 is different. As shown in the figure, it is possible to cope with the difference in the thickness of the air layer 18 of the multilayer glass 5 by changing the scissors auxiliary members 6 and 7 while using the common scissors 1, 2, 3, and 4.

図9(a),(b)は、スペーサー9の外周側に充填する二次シール10の量を変化させた場合の実施形態を示している。図9(a)は二次シール10の量を多くした場合で、二次シール10が框1の見込み壁21まで隙間なく充填され、またガラス8,8の小口と見込み壁21の隙間にまで二次シール10が充填されている。これにより、水密性、気密性が、さらに向上する。同様に、二次シール10の量を多くすることで、竪框3,4を二次シール10でガラス8,8と直接接着することもできる。
図9(b)は二次シール10の量を少なくした場合で、二次シール10はガラス8,8と框補助部材6とを直接接着し、ガラス8,8と框1とは間接的に接着している。この場合でも、室外側からガラス保持溝22内に浸入した雨水はタッピングホール23により堰き止められるため、水密性を確保できる。このように二次シール10は、ガラス8,8を少なくとも框補助部材6と直接接着していればよく、框1とは框補助部材6を介して間接的に接着したものでもよい。もっとも二次シール10は、框補助部材6の台形状の中空部24が押し付けられることで中空部24の周囲に回り込むため、実際には二次シール10の外周側の縁は図5(b)に示すようにフラットにはならず、波打つような形となって部分的に框1と接着されることもある。四周の框1,2,3,4のうち、下框2のみを二次シール10でガラス8,8と接着させ、他の三方の框1,3,4には二次シール10が接着しない(補助部材6,7とだけ接着)ものとすることもできる。
FIGS. 9A and 9B show an embodiment in which the amount of the secondary seal 10 filled on the outer peripheral side of the spacer 9 is changed. FIG. 9A shows the case where the amount of the secondary seal 10 is increased, and the secondary seal 10 is filled up to the prospective wall 21 of the ridge 1 without a gap, and further up to the gap between the small opening of the glass 8 and 8 and the prospective wall 21. The secondary seal 10 is filled. Thereby, watertightness and airtightness are further improved. Similarly, by increasing the amount of the secondary seal 10, the eaves 3 and 4 can be directly bonded to the glasses 8 and 8 with the secondary seal 10.
FIG. 9B shows a case where the amount of the secondary seal 10 is reduced. The secondary seal 10 directly bonds the glass 8, 8 and the heel assisting member 6, and the glass 8, 8 and the heel 1 are indirectly connected. Glued. Even in this case, rainwater that has entered the glass holding groove 22 from the outdoor side is blocked by the tapping hole 23, so that water tightness can be secured. As described above, the secondary seal 10 only needs to directly bond the glasses 8 and 8 to at least the heel assisting member 6, and may be indirectly bonded to the heel 1 through the heel assisting member 6. However, since the secondary seal 10 wraps around the hollow portion 24 when the trapezoidal hollow portion 24 of the heel assisting member 6 is pressed, the edge on the outer peripheral side of the secondary seal 10 is actually shown in FIG. As shown in FIG. 4, the shape does not become flat but may be partly bonded to the ridge 1 in a wavy shape. Of the four-sided ridges 1, 2, 3 and 4, only the lower ridge 2 is adhered to the glass 8 and 8 with the secondary seal 10, and the secondary seal 10 is not adhered to the other three ridges 1, 3 and 4. It can also be (adhered only to the auxiliary members 6 and 7).

図10,11は、複層ガラス5をグレチャン33で框1,2,3,4のガラス保持溝22に保持した場合の実施形態を示している。横框1,2及び竪框3,4は、これまでに説明した図1,2の実施形態のものと同一のものを使用している。横框1,2と竪框3,4には、横框補助部材6と竪框補助部材7を取付けないで、通常の複層ガラスを組み込んだ障子と同様に、複層ガラス5の周囲をグレチャン33を介して框1,2,3,4のガラス保持溝22に嵌め込んで保持している。このように複層ガラス5をグレチャン33で框1,2,3,4のガラス保持溝22に保持する場合も、先の実施形態と同様に、横框1,2と竪框3,4とをインロウ結合している。グレチャン33は、従前のものを使用してもよいが、材質や厚みを調節したり、ガラス保持溝22の見付壁20a,20b,26a,26bの先端部34との引っ掛かりを強くするなどして、框1,2,3,4から外れ難くしたものを使用することが好ましい。框1,2,3,4自体は先の実施形態のものと共通のため、框1,2,3,4が細く意匠性が良い。   10 and 11 show an embodiment in which the multi-layer glass 5 is held in the glass holding grooves 22 of the ridges 1, 2, 3, and 4 by the Grechan 33. FIG. The horizontal rods 1 and 2 and the horizontal rods 3 and 4 are the same as those of the embodiment shown in FIGS. In the horizontal planes 1 and 2 and 3 and 4, the horizontal axis auxiliary member 6 and the vertical axis auxiliary member 7 are not attached, and the periphery of the multilayer glass 5 is provided in the same manner as a shoji incorporating a normal multilayer glass. It is fitted and held in the glass holding grooves 22 of the ridges 1, 2, 3, 4 via the Grechan 33. As described above, when the multi-layer glass 5 is held in the glass holding grooves 22 of the ridges 1, 2, 3 and 4 with the Grechan 33, the horizontal ridges 1 and 2 and the ridges 3, 4 and The in-row is joined. As the Grechan 33, a conventional one may be used. However, the material and thickness of the Grechan 33 may be adjusted, or the catching of the glass holding groove 22 with the leading end 34 of the wall 20a, 20b, 26a, 26b may be strengthened. Thus, it is preferable to use those which are not easily detached from the ridges 1, 2, 3, 4. Since the ridges 1, 2, 3, and 4 themselves are the same as those of the previous embodiment, the ridges 1, 2, 3, and 4 are thin and have good design properties.

図1,2に示すように、複層ガラス5を框1,2,3,4とシール材(二次シール10)で接着する場合は、障子12a,12bを組み立てた状態で工場から出荷することになるが、図10,11に示すように、複層ガラス5をグレチャン33で框1,2,3,4のガラス保持溝22に保持する場合は、複層ガラス5と組立前の框1,2,3,4とをサッシ業者の工場や施工現場等へと搬入し、そこで障子12a,12bを組み立てるいわゆるノックダウン方式に対応できる。すなわち本サッシの障子12a,12bは、框1,2,3,4を共通化しながら、框補助部材6,7を取付けるか取付けないかを選択することにより、複層ガラス5の取付け方を選択でき、組立完成品での出荷とノックダウン方式の何れにも対応できる。   As shown in FIGS. 1 and 2, when the multi-layer glass 5 is bonded with the rods 1, 2, 3, 4 and the sealing material (secondary seal 10), the shoji 12 a, 12 b is assembled and shipped from the factory. However, as shown in FIGS. 10 and 11, when the multi-layer glass 5 is held in the glass holding grooves 22 of the eaves 1, 2, 3, and 4 with the Grechan 33, the multi-layer glass 5 and the pre-assembly glass 1, 2, 3 and 4 can be carried into a sash contractor's factory, construction site, or the like, and a so-called knockdown system in which the shojis 12a and 12b are assembled there can be handled. In other words, the shoji 12a and 12b of this sash selects the mounting method of the multi-layer glass 5 by selecting whether or not to install the coffin auxiliary members 6 and 7 while making the coffins 1, 2, 3, and 4 common. Yes, it can be used for both finished shipments and knockdown systems.

本発明は以上に述べた実施形態に限定されない。障子は、引違い状に開閉するものに限らず、回動ないしすべり出して開閉するものや、サッシ枠に固定した嵌め殺し障子であってもよい。枠は、複層ガラスの周囲を枠組みするものであればよく、実施形態のような竪框と横框に限らず、竪枠、横枠、方立、無目等であってもよい。枠や補助部材の断面形状は、適宜変更することができる。補助部材は、ガラス保持溝の見付け壁に取付けることもできる。ガラスは、3枚以上とすることもできる。本発明の開口部建材は、建物の窓に限らず、電車等の乗り物の窓等に用いることもできる。   The present invention is not limited to the embodiments described above. The shoji is not limited to the one that opens and closes in a sliding manner, but may be one that pivots or slides to open and close, or a fitting kill that is fixed to a sash frame. The frame may be any frame as long as it surrounds the multilayer glass, and is not limited to a ridge and a horizontal reed as in the embodiment, and may be a horizontal frame, a horizontal frame, a vertical, an invisible, or the like. The cross-sectional shapes of the frame and the auxiliary member can be changed as appropriate. The auxiliary member can also be attached to the finding wall of the glass holding groove. Three or more glasses can be used. The opening construction material of the present invention is not limited to a building window, but can be used for a window of a vehicle such as a train.

1,2 横框(枠)
3,4 竪框(枠)
5 複層ガラス
6 横框補助部材(補助部材)
7 竪框補助部材(補助部材)
8 ガラス
9 スペーサー
10 二次シール(シール材)
22 ガラス保持溝
33 グレチャン
1, 2 bubo (frame)
3, 4 竪 框 (frame)
5 Multi-layer glass 6 Recumbent auxiliary member (auxiliary member)
7 竪 框 Auxiliary member (auxiliary member)
8 Glass 9 Spacer 10 Secondary seal (seal material)
22 Glass retaining groove 33 Grechan

Claims (1)

四周の枠と、複層ガラスとを備える開口部建材の製造方法であって、補助部材又はグレチャンの何れかを選択することができ、補助部材を選択した場合は、補助部材をガラス保持溝に取付けた枠を複層ガラスの周囲から押し付けることで、スペーサーの外周側に充填されたシール材により複層ガラスを補助部材と接着し、グレチャンを選択した場合は、複層ガラスをグレチャンで枠のガラス保持溝に保持することを特徴とする開口部建材の製造方法It is a manufacturing method of the opening part building material provided with a frame of four laps and a multi-layer glass, and either an auxiliary member or a Grechan can be selected. When an auxiliary member is selected, the auxiliary member is used as a glass holding groove. By pressing the attached frame from the periphery of the multi-layer glass, the multi-layer glass is adhered to the auxiliary member by the sealing material filled on the outer periphery of the spacer . The manufacturing method of the opening part building material characterized by hold | maintaining to a glass holding groove .
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