JPS6242073Y2 - - Google Patents

Description

【考案の詳細な説明】 （産業上の利用分野） この考案は、バス（乗合自動車）や鉄道車両な
どの車両用窓に取付ける断熱窓に関する。[Detailed description of the invention] (Industrial application field) This invention relates to a heat insulating window that is attached to the window of a vehicle such as a bus (passenger vehicle) or a railway vehicle.

（従来技術） 従来のこの種断熱窓としては、車両本体（鋼
体）に取付ける周枠にパツキン嵌合溝を設け、こ
のパツキン嵌合溝に二重ガラスをパツキンを介し
嵌着し、この二重ガラスの対向間隙内に該間隙を
保持する間隙保持部材と該間隙内を乾燥状態に維
持するための吸湿剤を取付けるようにしたもので
あつた。(Prior art) Conventional insulated windows of this type have a gasket fitting groove provided in the peripheral frame attached to the vehicle body (steel body), and a double-glazed glass is fitted into this gasket fitting groove via the gasket. A gap holding member for holding the gap and a moisture absorbent for keeping the inside of the gap in a dry state were installed in the opposing gap between the heavy glass.

ところで車両用窓においては当然に使用中の振
動や衝撃に耐えるものでなければならない。特に
断熱窓にあつては、上述の間隙保持部材と吸湿剤
とを内蔵しなければならないが、振動などに耐え
るために間隙保持部材と吸湿剤を接着剤によつて
二重ガラスに固着するが、これでは不充分である
からさらに保持部材を周枠に設けた溝に係嵌する
ようにしていた。 By the way, vehicle windows must naturally withstand vibrations and shocks during use. In particular, for insulated windows, the above-mentioned gap retaining member and moisture absorbent must be built-in, but the gap retaining member and moisture absorbent are fixed to the double glass with adhesive to withstand vibrations, etc. Since this was insufficient, the holding member was further fitted into a groove provided in the peripheral frame.

しかし保持部材や吸湿剤を二重ガラスに接着し
たり、周枠に係嵌するだけでは、矢張り長期の使
用中の振動や衝撃あるいは室内外の温度差による
ひずみによつて二重ガラスから離脱して気密破壊
が生じやすく、特に吸湿剤はカプセル状のケース
に収納した状態で取付けられるから、これを二重
ガラスの間隙内に固定するためには接着による手
段以外になく、これがために上述のように短期間
に二重ガラス面より離脱し、ガラス自体のガタツ
キや破損の原因になつていた。なおまた窓ガラス
の破損などによつてこれを取替える場合に、吸湿
剤が窓ガラスに接着されているから、窓ガラスの
取外しの際にいちいち両者の接着部分を剥離しな
ければならず、その補修が面倒である。 However, simply gluing the holding member or moisture absorbent to the double-paned glass or fitting it to the surrounding frame will cause it to separate from the double-paned glass due to vibrations, shocks, or distortion caused by temperature differences between indoors and outdoors during long-term use. In particular, since the moisture absorbent is installed in a capsule-shaped case, the only way to fix it within the gap between the double-glazed windows is to use adhesive, which is why the above-mentioned In this case, the glass would separate from the double-glazed glass surface in a short period of time, causing rattling and damage to the glass itself. Furthermore, when replacing a window glass due to breakage, etc., the moisture absorbent is glued to the window glass, so each time the window glass is removed, the adhesive part between the two must be peeled off, making it difficult to repair. is troublesome.

さらにまたこの種断熱窓は、主に室内外の寒暖
の差の大きい寒冷地において使用されるが、室内
側ガラス面や室内側周枠あるいは室内側車両構体
に結露現象の発生を阻止するためには、できるだ
け冷気の室内側への伝導を阻止するようにしなけ
ればならない。この点の配慮も従来では欠けてい
た。 Furthermore, this type of insulated window is mainly used in cold regions where there is a large difference in temperature between indoors and outdoors, and is used to prevent condensation from forming on the indoor glass surface, the indoor frame, or the indoor vehicle structure. should be designed to prevent cold air from entering the room as much as possible. Consideration of this point has also been lacking in the past.

（考案の目的） 従つてこの考案は、二重ガラスの対向間隙に内
蔵する間隙保持部材（スペーサ部材）と吸湿剤と
を、過激な振動や衝撃を受けても二重ガラスの間
隙周縁に確実に固定することができ、かつ冷気の
室内側への電導をできるだけ阻止するようにし、
したがつて車両用として最適の断熱窓を提供する
ことにある。(Purpose of the invention) Therefore, this invention ensures that the gap retaining member (spacer member) and the moisture absorbent built into the opposing gap of the double-glazed glass are securely attached to the periphery of the gap even when subjected to extreme vibrations or shocks. and prevent the conduction of cold air to the indoor side as much as possible.
Therefore, it is an object of the present invention to provide an optimal heat insulating window for vehicles.

（考案の構成） このためにこの考案は、二重ガラス１ａ，１ｂ
の周縁部を囲繞する室内外側両周枠４ａ，４ｂの
うち室外側周枠４ａをアルミニウムまたはその合
金製とし、室内側周枠４ｂを合成樹脂製とし、該
室内側周枠４ｂに、二重ガラス１ａ，１ｂの対向
間隙２を保持する間隙保持用フランジ部３ａとこ
のフラン部３ａに対し概ねＴ字状に延びるウエブ
部３ｂとからなる断面概略Ｔ字状のスペーサ部材
３を一体形成し、室内外側両周枠４ａ，４ｂをボ
ルトまたはビスなどの緊締具５によつて一体的に
止着し、室内外両周枠４ａ，４ｂに嵌着する押さ
えゴム６ａ，６ｂと上記間隙保持用フランジ部３
ａとによつて二重ガラス１ａ，１ｂを密封状に支
持すると共に、このフランジ部３ａとウエブ部３
ｂと二重ガラス１ａ，１ｂと室内外両周枠４ａ，
４ｂとで囲まれる密閉中空室７に吸湿剤８を充填
し、二重ガラス１ａ，１ｂの対向間隙２と上記密
閉中空室７とを連通する細孔９を上記フランジ部
３ａに穿設してなる構成を採用するものである。(Structure of the invention) For this reason, this invention consists of double glass 1a, 1b
Of the indoor and outdoor frames 4a and 4b that surround the peripheral edge of the indoor and outdoor frames 4a and 4b, the outdoor frame 4a is made of aluminum or its alloy, and the indoor frame 4b is made of synthetic resin. A spacer member 3 having a generally T-shaped cross section is integrally formed, consisting of a gap-maintaining flange portion 3a that maintains the opposing gap 2 between the glasses 1a and 1b, and a web portion 3b extending approximately in a T-shape from the flange portion 3a, Both indoor and outdoor peripheral frames 4a and 4b are integrally fixed with a tightening tool 5 such as a bolt or screw, and presser rubbers 6a and 6b fitted to both indoor and external peripheral frames 4a and 4b and the above-mentioned gap-maintaining flange Part 3
The double-glazed glass 1a, 1b is supported in a sealed manner by the flange portion 3a and the web portion 3.
b, double glass 1a, 1b and both indoor and outdoor frames 4a,
4b is filled with a moisture absorbent 8, and a pore 9 is bored in the flange portion 3a to communicate the airtight hollow chamber 7 with the opposing gap 2 between the double glass panes 1a and 1b. The following configuration is adopted.

（実施例） 第１図および第２図において４ａ，４ｂは内外
一対のガラス板１ａ，１ｂを周枠状に囲み且つ両
ガラス板１ａ，１ｂを対向保持する室内外側両周
枠で、このうち室外側周枠４ａはアルミニウム又
はその合金製で、室内側周枠４ｂは合成樹脂製で
ある。室外側周枠４ａにはその内周面側の室外側
寄り位置に鳩尾状断面を有するガラス押さえゴム
嵌着溝１０ａが、又室内側周枠４ｂにはその内周
面側の室内側寄り位置に鳩尾状断面を有するガラ
ス押さえゴム嵌着溝１０ｂがそれぞれ凹設され、
又両周枠４ａ，４ｂにはその外周面の対向面側位
置に接続用突壁部１１ａ，１１ｂがそれぞれ延出
形成されており、両突壁部１１ａ，１１ｂをボル
トまたはビス・ナツトなどの緊締具５にて結合す
ることで、両周枠４ａ，４ｂが一体的に止着され
る。なお、緊締具５で止着する際に、車両構体の
取付片を前記突壁部１１ａ，１１ｂと重合し、三
者を一体に締結することによつて、一挙に断熱窓
を車両構体に取付けることができる。(Example) In FIGS. 1 and 2, 4a and 4b are indoor and outdoor frames that surround a pair of inner and outer glass plates 1a and 1b and hold both glass plates 1a and 1b facing each other. The outdoor side frame 4a is made of aluminum or its alloy, and the indoor side frame 4b is made of synthetic resin. The outdoor side frame 4a has a glass presser rubber fitting groove 10a having a dovetail cross section at a position closer to the outdoor side on its inner circumferential surface, and the indoor side frame 4b has a glass presser rubber fitting groove 10a at a position closer to the indoor side on its inner circumferential side. Glass presser rubber fitting grooves 10b each having a dovetail cross section are recessed in the glass presser rubber fitting grooves 10b.
Further, connecting projecting wall portions 11a, 11b are formed extending from the opposing surfaces of the outer peripheral surfaces of both peripheral frames 4a, 4b, respectively, and both projecting wall portions 11a, 11b are connected to bolts, screws, nuts, etc. By joining with the tightening tool 5, both peripheral frames 4a and 4b are fixed together. In addition, when fastening with the tightening tool 5, the mounting pieces of the vehicle body structure are overlapped with the projecting wall portions 11a and 11b, and the three parts are fastened together, thereby attaching the heat insulating window to the vehicle body structure at once. be able to.

そして室内外側両周枠４ａ，４ｂのうち室内側
周枠４ｂには二重ガラス１ａ，１ｂの対向間隙２
を保持するためのスペーサ部材３が一体形成され
る。 Of the indoor and outer circumferential frames 4a and 4b, the indoor and outer circumferential frames 4b have opposing gaps 2 between the double-glazed windows 1a and 1b.
A spacer member 3 for holding is integrally formed.

スペーサ部材３は間隙保持用フランジ部３ａと
このフランジ部３ａに対し概ねＴ字状に延びるウ
エブ部３ｂとからなり、全体の断面形状が概略Ｔ
字状を呈し、このフランジ部３ａを挾んでその前
後にガラス板１ａ，１ｂが配装されると共に、室
内外両周枠４ａ，４ｂのガラス押さえ嵌着溝１０
ａ，１０ｂにそれぞれガラス押さえゴム６ａ，６
ｂが嵌着され、此等ガラス押さえゴム６ａ，６ｂ
によつて各ガラス板１ａ，１ｂを上記フランジ部
３ａに押圧接当させている。そしてウエブ部３ｂ
の両側に該ウエブ部３ｂ、フランジ部３ａ、ガラ
ス板１ａ，１ｂおよび室内外両周枠４ａ，４ｂに
より囲繞される密閉中空室７，７が形成され、こ
の密閉中空室にシリカゲルなどの吸湿剤８を適宜
穴明きビニールチユーブ（カプセル）１２に包装
された状態で封入させると共に、これら密閉中空
室７，７が上記フランジ部３ａに適当間隔に貫設
し、または該フランジ部長手方向端部に切欠して
形成した細孔９，９によつてガラス板１ａ，１ｂ
間の対向間隙２に連通している。なお各ガラス板
１ａ，１ｂと室内外両周枠４ａ，４ｂとの突合わ
せ部分および室内外両周枠４ａ，４ｂ間にはブチ
ル系のシーリング１３，１４を接着して密閉中空
室７と二重ガラスの内部２とを気密状態に維持す
るようになつている。 The spacer member 3 consists of a gap-maintaining flange portion 3a and a web portion 3b extending approximately in a T-shape from the flange portion 3a, and has an overall cross-sectional shape approximately T-shaped.
The glass plates 1a and 1b are arranged in front and behind the flange portion 3a, and the glass retainer fitting grooves 10 of both the indoor and outdoor peripheral frames 4a and 4b are provided.
Glass presser rubbers 6a and 6 are attached to a and 10b, respectively.
b is fitted, and these glass presser rubbers 6a, 6b
As a result, each glass plate 1a, 1b is pressed into contact with the flange portion 3a. and web part 3b
Airtight hollow chambers 7, 7 surrounded by the web portion 3b, flange portion 3a, glass plates 1a, 1b, and both indoor and outdoor peripheral frames 4a, 4b are formed on both sides of the airtight chamber, and a moisture absorbent such as silica gel is filled in the airtight hollow chamber. 8 is appropriately packaged and enclosed in a perforated vinyl tube (capsule) 12, and these sealed hollow chambers 7, 7 are provided through the flange portion 3a at appropriate intervals, or at the longitudinal end of the flange portion. The glass plates 1a, 1b are formed by the pores 9, 9 cut out in the glass plates 1a, 1b.
It communicates with the opposing gap 2 between them. In addition, butyl-based sealants 13 and 14 are bonded between the butt parts of the glass plates 1a and 1b and the indoor and outdoor frames 4a and 4b, and between the indoor and outdoor frames 4a and 4b to seal the hollow chamber 7 and the two. The interior 2 of heavy glass is maintained in an airtight state.

しかして断熱窓の組立て状態において二重ガラ
スの内部２に含まれる水分は細孔９，９を通つて
密閉中空室７，７内の吸湿剤８，８に吸収される
から経時的に二重ガラス内部２の空気は乾燥さ
れ、曇りや結露現象を生起することがない。そし
て本考案においてはアルミニウムまたはその合金
製の室外側周枠４ａに対し、室内側周枠４ｂ及び
スペーサ部材３を熱電導率の悪い合成樹脂で一体
形成するようになつているため、断熱性能を一層
向上させることができ、室内側での結露の発生を
できるだけ阻止すると共に、スペーサ部材３は合
成樹脂特有の弾力性によつてガラス板に対する衝
撃を緩和する作用がある。 Therefore, when the insulated window is assembled, the moisture contained in the interior 2 of the double-glazed glass passes through the pores 9, 9 and is absorbed by the moisture absorbent 8, 8 in the sealed hollow chambers 7, 7, so that over time The air inside the glass 2 is dried and does not cause fogging or dew condensation. In the present invention, the indoor side frame 4b and the spacer member 3 are integrally formed with the outdoor side frame 4a made of aluminum or its alloy from a synthetic resin with poor thermal conductivity, so that the heat insulation performance is improved. In addition to preventing dew condensation on the indoor side as much as possible, the spacer member 3 has the effect of mitigating the impact on the glass plate due to the elasticity peculiar to the synthetic resin.

（考案の特有の効果） この考案によれば、二重ガラス１ａ，１ｂの対
向間隙２を保持する間隙保持用フランジ部３ａと
このフランジ部３ａに対し概ねＴ字状に延びるウ
エブ部３ｂとからなる断面概略Ｔ字状のスペーサ
部材３を室内外側両周枠４ａ，４ｂの一方の周枠
４ｂに一体形成し、室内外側両周枠４ａ，４ｂを
ボルトまたはビスなどの緊締具５によつて一体的
に止着してなるため、断熱窓に過激な衝撃を受け
ても当然にスペーサ部材３は定位置に保持され、
長期間安定して使用できる。特にスペーサ部材３
が室内側周枠４ｂに一体形成されることによつて
過激な振動を受けても従来のように挙動現象を生
じることがなく、二重ガラス内部の気密保持の面
においても良好な効果を発揮する。(Special effects of the invention) According to this invention, from the gap-maintaining flange part 3a that maintains the opposing gap 2 between the double-glazed windows 1a and 1b, and the web part 3b extending approximately in a T-shape to the flange part 3a, A spacer member 3 having a generally T-shaped cross section is integrally formed with one of the indoor and outer circumferential frames 4a and 4b, and the indoor and outer circumferential frames 4a and 4b are fastened together by fasteners 5 such as bolts or screws. Since it is integrally fixed, the spacer member 3 will naturally be held in place even if the insulating window receives a severe impact.
Can be used stably for a long period of time. Especially spacer member 3
By being integrally formed with the indoor peripheral frame 4b, even if subjected to extreme vibrations, behavior phenomena will not occur as in the conventional case, and it is also effective in maintaining airtightness inside the double-glazed glass. do.

また二重ガラスの内部に収容される吸湿剤８
は、スペーサ部材３のフランジ部３ａとウエブ部
３ｂと二重ガラス板１ａ，１ｂと室内外両周枠４
ａ，４ｂとで囲まれる密閉中空室７に充填され、
二重ガラス内部２と上記密閉中空室７とを連通す
る細孔９が上記フランジ部３ａに穿設されてなる
ため、吸湿剤８を接着剤で固着しなくとも、密閉
中空室７、特に上記フランジ部３ａに保持され
て、過激な振動や衝撃を受けても、二重ガラスの
内部周縁より離脱することがない。さらに窓ガラ
スの破損などによつてこれを取替える場合に、吸
湿剤８がガラス面に接着されていないことによつ
て、吸湿剤８を密閉中空室７に保持したまま、窓
ガラスだけを簡単に取外すことができ、その補修
が容易である。 Also, a moisture absorbent 8 housed inside the double glass.
The flange portion 3a, web portion 3b of the spacer member 3, double glass plates 1a, 1b, and both indoor and outdoor peripheral frames 4
a and 4b are filled in a sealed hollow chamber 7 surrounded by
Since the flange portion 3a is provided with a pore 9 that communicates the double glass interior 2 with the hermetically sealed hollow chamber 7, the moisture absorbent 8 does not have to be fixed with an adhesive. It is held by the flange portion 3a and will not come off from the inner periphery of the double-glazed glass even if subjected to extreme vibrations or shocks. Furthermore, when replacing the window glass due to breakage, etc., since the moisture absorbent 8 is not glued to the glass surface, it is possible to easily replace the window glass while keeping the moisture absorbent 8 in the sealed hollow chamber 7. It can be removed and repaired easily.

さらに室内外両周枠４ａ，４ｂを緊締具５によ
つて一体的に止着することによつて、スペーサ部
材３が両周枠の内周面定位置に突設された状態に
なるから、該スペーサ部材３を取付基準として吸
湿剤８，８、両ガラス板１ａ，１ｂ及び押さえゴ
ム６ａ，６ｂを順次組立てることができ、車両工
場など組立現場における組立作業あるいはガラス
破損時の取替作業を極めて容易に行うことができ
る。 Furthermore, by integrally fixing both the indoor and outdoor peripheral frames 4a and 4b with the fastener 5, the spacer member 3 is in a state of being protruded at a fixed position on the inner peripheral surface of both the peripheral frames. The moisture absorbers 8, 8, both glass plates 1a, 1b, and presser rubbers 6a, 6b can be assembled in sequence using the spacer member 3 as a mounting reference, and assembly work at an assembly site such as a vehicle factory or replacement work when glass is damaged can be performed. It is extremely easy to do.

さらにまたこの考案においては、室内外側両周
枠４ａ，４ｂのうち室内側周枠４ｂを熱伝導率の
悪い合成樹脂によつて形成するようにしたため、
室内外間の断熱性能を向上させることができ、特
に二重ガラス１ａ，１ｂの対向間隙２を保持する
スペーサ部材３も合成樹脂製室内側周枠４ｂに一
体形成されているため、室内外ガラス１ａ，１ｂ
間の熱伝導性がスペーサ部材３によつて抑制さ
れ、室内ガラス１ｂへの結露の発生をできるだけ
阻止することができると共に、合成樹脂特有の弾
力性によつてガラス板に対する衝撃を緩和するこ
とが可能である。 Furthermore, in this invention, the indoor side frame 4b of both the indoor and outside circumferential frames 4a, 4b is made of synthetic resin with poor thermal conductivity.
The insulation performance between the indoor and outdoor spaces can be improved, and in particular, the spacer member 3 that maintains the opposing gap 2 between the double-glazed windows 1a and 1b is also integrally formed with the synthetic resin indoor side peripheral frame 4b, so that the indoor-outdoor glass 1a can be improved. ,1b
The spacer member 3 suppresses the thermal conductivity between the interior glass plates 1b and 1b, thereby preventing dew condensation on the indoor glass 1b as much as possible, and the elasticity unique to the synthetic resin can reduce the impact on the glass plate. It is possible.

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

図面は、この考案の一実施例を示すもので、そ
のうち第１図は外観正面図、第２図は第１図にお
けるＡ−Ａ線断面図である。 １ａ，１ｂ……二重ガラス、２……対向間隙、
３……スペーサ部材、３ａ……間隙保持用フラン
ジ部、３ｂ……ウエブ部、４ａ……室外側周枠、
４ｂ……室内側周枠、５……緊締具、６ａ，６ｂ
……押さえゴム、７……密閉中空室、８……吸湿
剤、９……細孔。 The drawings show one embodiment of this invention, of which FIG. 1 is an external front view, and FIG. 2 is a sectional view taken along the line A--A in FIG. 1. 1a, 1b...Double glass, 2...Opposing gap,
3...Spacer member, 3a...Gap maintaining flange part, 3b...Web part, 4a...Outdoor side peripheral frame,
4b...Indoor side peripheral frame, 5...Tightening tool, 6a, 6b
... Presser rubber, 7 ... Sealed hollow chamber, 8 ... Moisture absorbent, 9 ... Pore.

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] 二重ガラス１ａ，１ｂの周縁部を囲繞する室内
外側両周枠４ａ，４ｂのうち室外側周枠４ａをア
ルミニウムまたはその合金製とし、室内側周枠４
ｂを合成樹脂製とし、該室内側周枠４ｂに、二重
ガラス１ａ，１ｂの対向間隙２を保持する間隙保
持用フランジ部３ａとこのフランジ部３ａに対し
概ねＴ字状に延びるウエブ部３ｂとからなる断面
概略Ｔ字状のスペーサ部材３を一体形成し、室内
外側両周枠４ａ，４ｂをボルトまたはビスなどの
緊締具５によつて一体的に止着し、室内外両周枠
４ａ，４ｂに嵌着する押さえゴム６ａ，６ｂと上
記間隙保持用フランジ部３ａとによつて二重ガラ
ス１ａ，１ｂを密封状に支持すると共に、このフ
ランジ部３ａとウエブ部３ｂと二重ガラス１ａ，
１ｂと室内外両周枠４ａ，４ｂとで囲まれる密閉
中空室７に吸湿剤８を充填し、二重ガラス１ａ，
１ｂの対向間隙２と上記密閉中空室７とを連通す
る細孔９を上記フランジ部３ａに穿設してなる断
熱窓。 Of both the indoor and outer peripheral frames 4a and 4b surrounding the peripheral edges of the double-glazed windows 1a and 1b, the outdoor peripheral frame 4a is made of aluminum or its alloy, and the indoor peripheral frame 4 is made of aluminum or its alloy.
b is made of synthetic resin, and the indoor side peripheral frame 4b includes a gap-maintaining flange portion 3a for holding the opposing gap 2 between the double-glazed windows 1a and 1b, and a web portion 3b extending approximately in a T-shape with respect to the flange portion 3a. A spacer member 3 having a generally T-shaped cross section consisting of is integrally formed, and both indoor and outdoor peripheral frames 4a and 4b are integrally fixed with tightening tools 5 such as bolts or screws. , 4b and the gap-maintaining flange portion 3a, the double-glazed glass 1a, 1b is supported in a sealed manner, and the flange portion 3a, the web portion 3b, and the double-glazed glass 1a are supported in a sealed manner. ，
1b and both indoor and outdoor peripheral frames 4a, 4b, a sealed hollow chamber 7 is filled with a moisture absorbent 8, and double glazed glass 1a,
A heat insulating window in which a pore 9 is bored in the flange portion 3a to communicate the opposing gap 2 of the flange 1b with the sealed hollow chamber 7.