JP2006093159A - Manufacturing method for electrode of excimer lamp - Google Patents

Manufacturing method for electrode of excimer lamp Download PDF

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JP2006093159A
JP2006093159A JP2005342352A JP2005342352A JP2006093159A JP 2006093159 A JP2006093159 A JP 2006093159A JP 2005342352 A JP2005342352 A JP 2005342352A JP 2005342352 A JP2005342352 A JP 2005342352A JP 2006093159 A JP2006093159 A JP 2006093159A
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electrode
tube
outer tube
excimer lamp
manufacturing
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JP3913764B2 (en
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Shuichi Mishiro
修一 見代
Norio Ishibashi
紀雄 石橋
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Orc Manufacturing Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To inexpensively and surely provide a manufacturing method for an electrode of an excimer lamp for manufacturing an external electrode. <P>SOLUTION: The manufacturing method for an electrode of an excimer lamp which includes a discharge tube 10, consisting of an inner tube 11 and an outer tube formed in a coaxial tubular shape, applies high voltage between an inner electrode 13 inside the inner tube 10 and an external electrode 14 disposed on the external surface of the outer tube 12, and causes a gas to be discharged and emitted being filled in the discharge space 15 between the inner tube 11, and the outer tube 12 is provided. The method comprises a first process of forming an electrode pattern 14c with a conductive substance on a transfer paper 30, of which the surface is applied with starch 31, in advance; a second process of forming a cover coat 17 covering the starch 31 and the electrode pattern 14c; a third process of wetting the transfer paper 3 produced in the second process to paste it on the surface of the outer tube 11; a fourth process of peeling off the transfer paper 3 to remain the electrode pattern 14 together the cover coat 17 on the surface of the outer tube 11; and a fifth proces of calcining the electrode pattern 14c remained in the fourth process and make it into an electrode 14. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

本発明は、エキシマランプ(誘電体バリア放電ランプ)の製造方法に関し、特にエキシマランプの外管の外表面に形成する網状の外側電極の製造方法に関する。   The present invention relates to a method for manufacturing an excimer lamp (dielectric barrier discharge lamp), and more particularly to a method for manufacturing a net-like outer electrode formed on an outer surface of an outer tube of an excimer lamp.

エキシマランプは、半導体集積回路、液晶表示パネルおよびプリント回路基板などの電子部品の製造工程における紫外線露光装置等に広く使用されている。エキシマランプに関する従来技術は、例えば特許文献1に記載の「高輝度光照射装置」および特許文献2に記載の「誘電体バリア放電ランプ」などに開示されている。   Excimer lamps are widely used in ultraviolet exposure apparatuses and the like in the manufacturing process of electronic components such as semiconductor integrated circuits, liquid crystal display panels, and printed circuit boards. Conventional techniques relating to excimer lamps are disclosed in, for example, “High-Brightness Light Irradiation Device” described in Patent Document 1, “Dielectric Barrier Discharge Lamp” described in Patent Document 2, and the like.

従来のエキシマランプは、基本的には、同軸の内管および外管よりなる放電管を備え、内管の内表面の内側電極と外管の外表面の外側電極との間に高電圧を印加して、内管と外管との間の空間に封入された希ガスをエキシマ放電させて発光させる。   A conventional excimer lamp basically includes a discharge tube composed of a coaxial inner tube and an outer tube, and a high voltage is applied between the inner electrode on the inner surface of the inner tube and the outer electrode on the outer surface of the outer tube. Then, the rare gas sealed in the space between the inner tube and the outer tube is caused to emit light by excimer discharge.

従来のエキシマランプの外側電極は、例えば穿孔した金属板を放電管に螺旋状に巻きつけて密着している。このような電極では巻き付け時の緩み、電極の一部の盛り上がりなどが不可避的に生じて、電極と放電管の表面との間に隙間が生じる。   The outer electrode of a conventional excimer lamp is in close contact with, for example, a perforated metal plate spirally wound around a discharge tube. In such an electrode, loosening at the time of winding, swell of a part of the electrode inevitably occurs, and a gap is generated between the electrode and the surface of the discharge tube.

このように隙間において放電が発生すると、電力を浪費させ、発光効率を低下させる。また、金属線を編組したシームレス状の網状電極を使用しても金属線の交差部に隙間が生じ、放電管と電極を密着させることは困難である。また、金属線のように太さのある電極を使用すると、角度を有する放射光線に対して障壁となり、発光効率を低下させる。
特開2000-223078号公報 特開2001- 23577号公報
When discharge occurs in the gap as described above, power is wasted and light emission efficiency is reduced. In addition, even when a seamless mesh electrode braided with metal wires is used, a gap is generated at the intersection of the metal wires, and it is difficult to make the discharge tube and the electrode adhere to each other. In addition, when a thick electrode such as a metal wire is used, it becomes a barrier against the radiation beam having an angle, and the luminous efficiency is lowered.
JP 2000-223078 Japanese Patent Laid-Open No. 2001-23577

このような不具合を解決するために、エキシマランプにおいて、金属薄膜を放電管に密着させて電極を形成している。この金属薄膜は、印刷、メッキ、蒸着、スパッタ技法などで形成している。これらの技法のうち、蒸着およびスパッタ技法は、作業が煩雑であり高価なものとなる。また、印刷技術では、オフセット印刷が一般的であるが、曲面の印刷には曲面印刷機を使用しなければならない。しかし、長尺の放電管になると作業性が非常に悪く、高価になるとともに電極の精度が著しく低下する。さらに、インクの種類によっては、膨張係数の違いによりマイクロクラックを生じ、ランプ点灯中に電極が剥がれてランプの寿命を低下させる。   In order to solve such a problem, in an excimer lamp, an electrode is formed by bringing a metal thin film into close contact with a discharge tube. The metal thin film is formed by printing, plating, vapor deposition, sputtering technique, or the like. Among these techniques, the vapor deposition and sputtering techniques are complicated and expensive. In printing technology, offset printing is generally used, but a curved surface printing machine must be used for curved surface printing. However, when a long discharge tube is used, the workability is very poor, the cost becomes high, and the accuracy of the electrode is remarkably lowered. Furthermore, depending on the type of ink, a microcrack is generated due to a difference in expansion coefficient, and the electrode is peeled off while the lamp is lit to shorten the lamp life.

また、導電性物質とガラス(二酸化珪素)とを混合した複合体を使用した導電性インクは、ガラス質が存在するために、放電管に使用されている誘電体内に極度に接合し、食い込み、密着性を向上させることができる。この極度の食い込みにより、この誘電体と膨張率の異なる導電性物質も同様に食い込んで、放電管にマイクロクラックなどを生じ、破損を促進することがあるので、ランプの寿命を低下させる。また、ガラス質が混合された複合体では、印刷電極の焼結時にガラス質が電極の開口部に残留して、ランプの照度を低下させる。   In addition, the conductive ink using a composite material in which a conductive substance and glass (silicon dioxide) are mixed has a vitreous nature, so it is extremely bonded and bite into the dielectric used in the discharge tube, Adhesion can be improved. Due to this extreme encroachment, the conductive material having a different expansion coefficient from that of the dielectric material may also encroach on the discharge tube, thereby causing micro cracks and the like to promote breakage, thereby reducing the lamp life. Moreover, in the composite in which the vitreous is mixed, the vitreous remains in the opening of the electrode when the printed electrode is sintered, and the illuminance of the lamp is lowered.

本発明は、このような従来技術の課題を解決するために考えられたものであって、作業性が優れ、製造したランプ寿命および発光効率の低下を阻止可能なエキシマランプの電極製造方法を提供することを目的としている。   The present invention has been conceived in order to solve the above-described problems of the prior art, and provides an electrode manufacturing method for an excimer lamp that is excellent in workability and can prevent a decrease in lamp life and luminous efficiency. The purpose is to do.

本発明のエキシマランプの電極製造方法は、同軸円筒状に形成された内管および外管よりなる放電管を含み、前記内管の内側に配置された内側電極と前記外管の外表面に配置された外側電極との間に高電圧を印加し、前記内管と前記外管との間の空間に封入されたガスを放電発光させるエキシマランプの電極製造方法であって、表面に予め澱粉質を塗布した転写紙に導電性物質により電極パターンを形成する第一の工程と、前記澱粉質および電極パターンを覆うカバーコートを形成する第二の工程と、前記第二の工程で得た転写紙を湿らせて前記外管の表面に貼り付ける第三の工程と、転写紙を剥離して前記外管の表面に前記カバーコートととともに電極パターンを残存させる第四の工程と、前記第四の工程で残存させた電極パターンを焼成する第五の工程を経る方法である。   An electrode manufacturing method for an excimer lamp according to the present invention includes a discharge tube including an inner tube and an outer tube formed in a coaxial cylindrical shape, and is disposed on an outer surface of the outer tube and an inner electrode disposed on the inner tube. An excimer lamp electrode manufacturing method in which a high voltage is applied between the outer electrode and the gas enclosed in the space between the inner tube and the outer tube to discharge light. A first step of forming an electrode pattern on a transfer paper coated with a conductive material, a second step of forming a cover coat covering the starch and the electrode pattern, and a transfer paper obtained in the second step A fourth step of moistening and adhering to the surface of the outer tube, a fourth step of peeling the transfer paper and leaving the electrode pattern together with the cover coat on the surface of the outer tube, and the fourth step Firing the electrode pattern left in the process It is a method to go through the fifth step that.

本発明の電極製造方法における電極パターンは、金、銀、プラチナ、ニッケル、クロムの金属またはこれら2以上の金属の合金で形成される。   The electrode pattern in the electrode manufacturing method of the present invention is formed of a metal of gold, silver, platinum, nickel, chromium or an alloy of these two or more metals.

本発明のエキシマランプの電極製造方法によると、外側電極は、転写紙に印刷された電極パターンを放電管の外表面に転写して焼き付けるので、製造工程が極めて簡単である。また、転写シートの幅および長さを変更することにより、任意の長さおよび直径の放電管に簡単に対応可能である。さらに、外側電極を放電管の外表面に対して密着形成が可能であるから、良好な発光特性が得られるという実用上の顕著な効果を奏することができる。   According to the excimer lamp electrode manufacturing method of the present invention, the outer electrode transfers the electrode pattern printed on the transfer paper onto the outer surface of the discharge tube and burns it, so that the manufacturing process is very simple. Further, by changing the width and length of the transfer sheet, it is possible to easily cope with a discharge tube having an arbitrary length and diameter. Furthermore, since the outer electrode can be formed in close contact with the outer surface of the discharge tube, a remarkable practical effect that good light emission characteristics can be obtained can be achieved.

以下、本発明によるエキシマランプの電極製造方法の実施形態を添付図面に基づいて説明する。   Embodiments of an excimer lamp electrode manufacturing method according to the present invention will be described below with reference to the accompanying drawings.

図1は、本発明の電極製造方法を適用するエキシマランプの縦断面図であり、図2は、エキシマランプの外側電極の一部を拡大して示した図である。このエキシマランプは、図1に示すように、同軸状に配置された内管11および外管12よりなり、その両端を接合部16により接合して閉端とした放電管10、内管11の内表面に設けた内側電極13および外管12の外表面に設けた外側電極14により構成される。   FIG. 1 is a longitudinal sectional view of an excimer lamp to which an electrode manufacturing method of the present invention is applied, and FIG. 2 is an enlarged view of a part of an outer electrode of the excimer lamp. As shown in FIG. 1, this excimer lamp is composed of an inner tube 11 and an outer tube 12 arranged coaxially, and both ends of the discharge tube 10 and the inner tube 11 are joined by joining portions 16 to form closed ends. The inner electrode 13 is provided on the inner surface and the outer electrode 14 is provided on the outer surface of the outer tube 12.

これら内側電極13および外側電極14の間に、高電圧交流電源9から高電圧を印加することにより、放電管10の内部空間15に封入された放電用ガス(アルゴン、クリプトン、キセノンなどの希ガス)をエキシマ放電させて紫外線を発光させる。   By applying a high voltage from the high voltage AC power source 9 between the inner electrode 13 and the outer electrode 14, a discharge gas (rare gas such as argon, krypton, xenon, etc.) sealed in the inner space 15 of the discharge tube 10 is obtained. ) Is excimer discharged to emit ultraviolet light.

図2に示すように、外側電極14は、例えば6角形の細線14bによる多数の開口14aを有するハニカム構造の網状電極である。この外側電極14は、好ましくは金、銀、プラチナ、ニッケルまたはクロムなどの金属またはこれら2種類以上の金属の合金により形成される。また、この外側電極14の開口率は、70%以上に選定される。   As shown in FIG. 2, the outer electrode 14 is a network electrode having a honeycomb structure having a large number of openings 14 a formed by, for example, hexagonal thin wires 14 b. The outer electrode 14 is preferably formed of a metal such as gold, silver, platinum, nickel or chromium or an alloy of two or more kinds of these metals. The aperture ratio of the outer electrode 14 is selected to be 70% or more.

図1に示すエキシマランプの一例においては、放電管10は、透明な石英で形成され、その全長が約380mmであり、内管11の外径は約20mmおよび外管12の外径は約30mmである。そして、エキシマランプの発光長は、約300mmである。   In the example of the excimer lamp shown in FIG. 1, the discharge tube 10 is made of transparent quartz and has an overall length of about 380 mm. The outer diameter of the inner tube 11 is about 20 mm and the outer diameter of the outer tube 12 is about 30 mm. It is. The light emission length of the excimer lamp is about 300 mm.

次に、図3(a)〜(f)に基づいて、図2に示すエキシマランプの外側電極14の製造工程を説明する。   Next, a manufacturing process of the outer electrode 14 of the excimer lamp shown in FIG. 2 will be described based on FIGS.

図3(a)に示すように、表面に予め澱粉質31を塗布した転写紙3を用意し、 図3(b)に示すように、澱粉質31の表面に導電性物質により電極パターン14cをガリ版印刷またはシルク印刷により印刷する。   As shown in FIG. 3 (a), a transfer paper 3 having a surface coated with starch 31 is prepared. As shown in FIG. 3 (b), an electrode pattern 14c is formed on the surface of starch 31 with a conductive substance. Print by galleries or silk printing.

図3(c)に示すように、電極パターン14cを印刷した表面にカバーコート17を形成して澱粉質31を覆う。   As shown in FIG. 3C, a cover coat 17 is formed on the surface on which the electrode pattern 14c is printed to cover the starch 31.

図3(d)に示すように、カバーコート17で覆われた転写紙3を湿らせて外管12に巻回して貼り付ける。   As shown in FIG. 3D, the transfer paper 3 covered with the cover coat 17 is moistened and wound around the outer tube 12 and attached.

水に漬けると、澱粉質31が溶けて、転写紙3を剥離することができる。転写紙3を剥離すると、図3(e)に示すように、カバーコート17ととともに電極パターン14cが外管12の表面に残存する。   When immersed in water, the starch 31 is dissolved and the transfer paper 3 can be peeled off. When the transfer paper 3 is peeled off, the electrode pattern 14c remains on the surface of the outer tube 12 together with the cover coat 17, as shown in FIG.

そして、電極パターン14cが転写された放電管10を600℃〜700℃の高温炉内で焼き付け(焼成)すると、カバーコート17が燃焼して消失し、図3(f)に示すように、網状電極14を形成することができる。   When the discharge tube 10 to which the electrode pattern 14c has been transferred is baked (baked) in a high-temperature furnace at 600 ° C. to 700 ° C., the cover coat 17 burns and disappears, and as shown in FIG. Electrode 14 can be formed.

以上の工程を経て形成したエキシマランプの網状電極14の膜厚は約2.0〜2.5μmであり、線幅は約400μmである。従って、この網状電極14の開口率は、約77%である。   The thickness of the mesh electrode 14 of the excimer lamp formed through the above steps is about 2.0 to 2.5 μm, and the line width is about 400 μm. Therefore, the aperture ratio of the mesh electrode 14 is about 77%.

次に、図4(A)に示す従来の金属線を編組して形成した電極を有するエキシマランプと、図4(B)に示す本発明の電極製造方法により形成した網状電極を有するエキシマランプの動作を比較する。   Next, an excimer lamp having an electrode formed by braiding the conventional metal wire shown in FIG. 4 (A) and an excimer lamp having a mesh electrode formed by the electrode manufacturing method of the present invention shown in FIG. 4 (B). Compare behavior.

図4(A)に示す従来の網状電極においては、放電管10の外管12の外表面に金属線40が配置されている。また、交差部では、この金属線40上に破線で示すように交差する金属線41が重ねられる。交差部以外の場所では、角度θ1で示す角度の放射光線が外部に放射可能であるが、交差部では、θ1より狭いθ2の放射光線のみが外部へ放射されることになり、発光量が制限され、発光効率が低下する。 In the conventional mesh electrode shown in FIG. 4A, a metal wire 40 is disposed on the outer surface of the outer tube 12 of the discharge tube 10. Further, at the intersecting portion, the intersecting metal lines 41 are superimposed on the metal lines 40 as indicated by broken lines. At places other than the intersection, the radiation beam with the angle indicated by the angle θ 1 can be emitted to the outside, but at the intersection portion, only the radiation beam of θ 2 narrower than θ 1 is emitted to the outside, and light emission The amount is limited and the luminous efficiency is reduced.

一方、図4(B)に示す本発明の網状電極14においては、放電管10の外径に対して網状電極14の厚みが約0.1mm以下に抑えられるので、図示するように広い放射角度θ3までの光線が外部へ放射可能であり、発光効率が大幅に改善される。 On the other hand, in the mesh electrode 14 of the present invention shown in FIG. 4B, since the thickness of the mesh electrode 14 is suppressed to about 0.1 mm or less with respect to the outer diameter of the discharge tube 10, a wide radiation angle as shown in the figure. Light up to θ 3 can be emitted to the outside, and the luminous efficiency is greatly improved.

本発明の電極製造方法を適用するエキシマランプの一例の構成を示す縦断面図、The longitudinal cross-sectional view which shows the structure of an example of the excimer lamp which applies the electrode manufacturing method of this invention, 図1に示すエキシマランプに適用する外側電極の拡大図、The enlarged view of the outer electrode applied to the excimer lamp shown in FIG. 本発明によるエキシマランプの電極製造工程を示す断面図、Sectional drawing which shows the electrode manufacturing process of the excimer lamp by this invention, 従来の金属線の編組電極を使用した外側電極(A)と本発明により製造したエキシマランプの外側電極(B)との特性比較図である。It is a characteristic comparison figure of the outer electrode (A) using the braided electrode of the conventional metal wire, and the outer electrode (B) of the excimer lamp manufactured by this invention.

符号の説明Explanation of symbols

10 放電管
11 内管
12 外管
13 内側電極
14 外側電極(網状電極)
14a 開口
14b 細線
14c 電極パターン
17 カバーコート
3 転写紙

10 discharge tube
11 Inner pipe
12 outer pipe
13 Inner electrode
14 Outer electrode (mesh electrode)
14a opening
14b fine wire
14c Electrode pattern
17 Cover coat 3 Transfer paper

Claims (2)

同軸円筒状に形成された内管および外管よりなる放電管を含み、前記内管の内側に配置された内側電極と前記外管の外表面に配置された外側電極との間に高電圧を印加し、前記内管と前記外管との間の空間に封入されたガスを放電発光させるエキシマランプの電極製造方法であって、
表面に予め澱粉質を塗布した転写紙に導電性物質により電極パターンを形成する第一の工程と、
前記澱粉質および電極パターンを覆うカバーコートを形成する第二の工程と、
前記第二の工程で得た転写紙を湿らせて前記外管の表面に貼り付ける第三の工程と、
転写紙を剥離して前記外管の表面に前記カバーコートととともに電極パターンを残存させる第四の工程と、
前記第四の工程で残存させた電極パターンを焼成する第五の工程を経ることを特徴とするエキシマランプの電極製造方法。
A discharge tube including an inner tube and an outer tube formed in a coaxial cylindrical shape, and a high voltage is applied between an inner electrode disposed inside the inner tube and an outer electrode disposed on the outer surface of the outer tube. An excimer lamp electrode manufacturing method for applying and discharging a gas enclosed in a space between the inner tube and the outer tube,
A first step of forming an electrode pattern with a conductive material on a transfer paper having a starch applied beforehand on the surface;
A second step of forming a cover coat covering the starch and the electrode pattern;
A third step of moistening the transfer paper obtained in the second step and attaching it to the surface of the outer tube;
A fourth step of peeling the transfer paper and leaving the electrode pattern together with the cover coat on the surface of the outer tube;
An excimer lamp electrode manufacturing method comprising a fifth step of firing the electrode pattern left in the fourth step.
前記電極パターンは、金、銀、プラチナ、ニッケル、クロムの金属またはこれら2以上の金属の合金で形成されることを特徴とする請求項1に記載のエキシマランプの電極製造方法。
2. The method of manufacturing an electrode of an excimer lamp according to claim 1, wherein the electrode pattern is made of a metal of gold, silver, platinum, nickel, chromium or an alloy of two or more metals.
JP2005342352A 2005-11-28 2005-11-28 Excimer lamp electrode manufacturing method Expired - Lifetime JP3913764B2 (en)

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WO2023035612A1 (en) * 2021-09-11 2023-03-16 朗升光电科技(广东)有限公司 Cylindrical ultraviolet lamp capable of reducing ozone generation

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023035612A1 (en) * 2021-09-11 2023-03-16 朗升光电科技(广东)有限公司 Cylindrical ultraviolet lamp capable of reducing ozone generation

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