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JPH0824003B2 - Light emitting point position adjustment method for short arc discharge lamps - Google Patents
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JPH0824003B2 - Light emitting point position adjustment method for short arc discharge lamps - Google Patents

Light emitting point position adjustment method for short arc discharge lamps

Info

Publication number
JPH0824003B2
JPH0824003B2 JP62166665A JP16666587A JPH0824003B2 JP H0824003 B2 JPH0824003 B2 JP H0824003B2 JP 62166665 A JP62166665 A JP 62166665A JP 16666587 A JP16666587 A JP 16666587A JP H0824003 B2 JPH0824003 B2 JP H0824003B2
Authority
JP
Japan
Prior art keywords
discharge lamp
short arc
arc discharge
reflecting mirror
adapter
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 - Lifetime
Application number
JP62166665A
Other languages
Japanese (ja)
Other versions
JPS6410501A (en
Inventor
和人 河合
勇二郎 清
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.)
Hamamatsu Photonics KK
Original Assignee
Hamamatsu Photonics KK
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 Hamamatsu Photonics KK filed Critical Hamamatsu Photonics KK
Priority to JP62166665A priority Critical patent/JPH0824003B2/en
Publication of JPS6410501A publication Critical patent/JPS6410501A/en
Publication of JPH0824003B2 publication Critical patent/JPH0824003B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Description

【発明の詳細な説明】 「産業上の利用分野」 本発明は分光光度計、液体クロマトグラフ、顕微鏡用
光源などの測光用光源として用いられるショートアーク
放電灯の発光点位置調整方法に関するものである。
TECHNICAL FIELD The present invention relates to a light emitting point position adjusting method for a short arc discharge lamp used as a light source for photometry such as a spectrophotometer, a liquid chromatograph, and a light source for a microscope. .

「従来の技術」 一般に、キセノンショートアークランプ、水銀キセノ
ンランプ、超高圧水銀ランプなどのショートアーク型放
電灯は、点光源で輝度、色温度が高く、紫外から可視、
赤外にわたって連続スペクトルを放射するので、分光光
度計をはじめとする各種測光用光源に多用されてきてい
る。
"Prior art" In general, short arc discharge lamps such as xenon short arc lamps, mercury xenon lamps, and ultra-high pressure mercury lamps are point light sources with high brightness and high color temperature,
Since it emits a continuous spectrum in the infrared, it has been widely used in various photometric light sources such as a spectrophotometer.

しかるに、ショートアーク型放電灯を、楕円面反射鏡
などの集光用光学装置と組合せてショートアーク型放電
灯の光を集光する場合、反射鏡と放電灯間のセッティン
グには、非常に高い精度を必要とし、例えば第6図に示
すように、楕円面反射鏡(1)の第1焦点位置(F1
に、アーク発光点(A)が位置するように、ショートア
ーク放電灯(2)の正極側口金(3)をランプホルダ
(4)の取付け孔(5)に差込み、ねじ(6)で固定す
る。光を精度よく集光するには、セッティング精度は楕
円面反射鏡(1)の設計条件(第1焦点位置F1、第2焦
点位置F2、楕円面反射鏡径Dなど)によって変化する
が、一般に、X,Y,Zの3軸ともに0.2〜0.3mmを必要とす
る。このような精度は部品の製造時や装置の組立時の精
度だけで出すことはほとんど不可能である。
However, when the short arc type discharge lamp is combined with an optical device for condensing such as an ellipsoidal reflecting mirror to collect the light of the short arc type discharge lamp, the setting between the reflecting mirror and the discharge lamp is very expensive. Precision is required, and for example, as shown in FIG. 6, the first focal point position (F 1 ) of the elliptical reflecting mirror ( 1 )
The positive electrode side cap (3) of the short arc discharge lamp (2) is inserted into the mounting hole (5) of the lamp holder (4) and fixed with the screw (6) so that the arc emission point (A) is located at the position. . In order to collect light accurately, the setting accuracy changes depending on the design conditions of the elliptical reflecting mirror (1) (first focal position F 1 , second focal position F 2 , elliptical reflecting mirror diameter D, etc.). Generally, 0.2 to 0.3 mm is required for all three axes of X, Y and Z. It is almost impossible to obtain such accuracy only by accuracy at the time of manufacturing parts or assembling the device.

そこで、従来は、第6図および第7図に示すように、
ランプホルダ(4)のランプ固定位置を中心にして中心
角120度ずつに3個の位置調整用第1、第2、第3ねじ
(7a)(7b)(7c)を挿入し、それぞれコイルばね(8
a)(8b)(8c)を介して反射鏡ハウジング(9)に進
退自在に取付けていた。
Therefore, conventionally, as shown in FIGS. 6 and 7,
Insert the three position adjusting first, second and third screws (7a) (7b) (7c) at 120 ° center angles around the lamp fixing position of the lamp holder (4) and coil springs respectively. (8
It was attached to the reflecting mirror housing (9) via a) (8b) and (8c) so as to move back and forth.

このような構成において、 (1)Z軸方向の調整は第1、第2、第3の3本のねじ
(7a)(7b)(7c)を同一方向に進退する。
In such a configuration, (1) adjustment in the Z-axis direction moves the three screws (7a), (7b) and (7c) of the first, second and third in the same direction.

(2)Y軸方向の調整は第1の1本のねじ(7a)の方向
と第2、第3の2本のねじ(7b)(7c)の方向を互いに
逆方向に進退する。
(2) Adjustment in the Y-axis direction is performed by moving the first screw (7a) and the second and third screws (7b) (7c) in opposite directions.

(3)X−Y軸方向の調整は、第2の1本のねじ(7b)
の方向と第1、第3の2本のねじ(7a)(7c)の方向、
または第3の1本のねじ(7c)の方向と第1、第2の2
本のねじ(7a)(7b)の方向とを互いに逆方向に進退す
る。
(3) Adjust the X-Y axis direction by using the second single screw (7b).
Direction and the directions of the first and third screws (7a) and (7c),
Or the direction of the third screw (7c) and the first and second screws
The screws (7a) and (7b) are moved back and forth in opposite directions.

「発明が解決しようとする問題点」 以上のような調整方法は精度よく位置出しができる反
面、装置が容量的にも重要的にも大がかりとなるという
問題点があった。また、製造されたショートアーク放電
灯は、発光点の位置精度が個々に異なるため、放電灯の
交換の都度上述のような面倒な調整をしなければならな
かった。なお、放電灯の交換は使用者が行なわなければ
ならないが、パワーメータで計測しながら調整したり、
集光点ではかなり大きなパワーとなって極めて危険を伴
うなど不慣れな者にとっては調整が困難である。
[Problems to be Solved by the Invention] While the above adjustment method enables accurate positioning, there is a problem in that the device is large in terms of capacity and importance. Further, since the manufactured short arc discharge lamps have different light emitting point position accuracy, the above-mentioned troublesome adjustment had to be performed every time the discharge lamp was replaced. The user must replace the discharge lamp, but make adjustments while measuring with a power meter,
It is difficult for an unfamiliar person to adjust because the power is quite large at the focal point and it is extremely dangerous.

「問題点を解決するための手段」 本発明は、上述のような問題点を解決するためになさ
れたもので、反射鏡のハウジングに着脱自在に取り付け
られた標準ショートアーク放電灯を点灯し、その光出力
が最大となるように前記反射鏡の位置を調整し、この位
置調整後に前記反射鏡を前記ハウジングに固定するとと
もに前記標準ショートアーク放電灯を離脱して標準反射
鏡装置を作成し、この標準反射鏡装置に位置調整用のア
ダプタを着脱自在に取り付け、このアダプタに未調整シ
ョートアーク放電灯の一方の端子を臨ませ、前記未調整
ショートアーク放電灯を点灯し、その光出力が最大とな
るように前記未調整ショートアーク放電灯の発光点位置
を調整し、この位置調整後に前記未調整ショートアーク
放電灯の一方の端子を前記アダプタに固着してアダプタ
付ショートアーク放電灯を形成してなることを特徴とす
るものである。
"Means for Solving Problems" The present invention has been made to solve the above problems, and lights a standard short arc discharge lamp detachably attached to the housing of the reflecting mirror, The position of the reflecting mirror is adjusted so that the light output becomes maximum, and after the position adjustment, the reflecting mirror is fixed to the housing and the standard short arc discharge lamp is removed to create a standard reflecting mirror device, An adapter for position adjustment is detachably attached to this standard reflector device, one terminal of the unadjusted short arc discharge lamp is exposed to this adapter, and the unadjusted short arc discharge lamp is lit up, and its optical output is maximum. Adjust the light emitting point position of the unadjusted short arc discharge lamp so that, and after adjusting this position, fix one terminal of the unadjusted short arc discharge lamp to the adapter. Then, a short arc discharge lamp with an adapter is formed.

「作用」 予め標準のショートアーク放電灯(例えば発光点位置
を精度よく合わせた放電灯)を用意し、この標準ショー
トアーク放電灯を反射鏡のハウジングに取り付ける(例
えば位置調整用のアダプタを用いて取り付ける)。そし
て、この標準ショートアーク放電灯を点灯し、その光出
力が最大となるように反射鏡の位置を調整し、この位置
調整後に反射鏡をハウジングに固定するとともに標準シ
ョートアーク放電灯をハウジングから離脱して標準反射
鏡装置を作成する。この標準反射鏡装置の予め決定され
た位置(例えば標準ショートアーク放電灯取付用のアダ
プタの位置)に、位置調整用のアダプタを着脱自在に取
り付ける。つぎに、このアダプタに未調整ショートアー
ク放電灯の一方の端子を臨ませ(例えばアダプタの中心
取付孔にショートアーク放電灯の正極側の口金を挿入
し)、この状態で未調整ショートアーク放電灯を点灯
し、その光出力が最大となるように未調整ショートアー
ク放電灯の発光点の位置を調整し、この位置調整後に未
調整ショートアーク放電灯の一方の端子をアダプタに固
着してアダプタ付ショートアーク放電灯を形成する。す
ると、ショートアーク放電灯は正確に位置決めされた状
態でアダプタに取付けられる。このアダプタ付きのショ
ートアーク放電灯はそのまま他の反射鏡装置に取付けれ
ば正確に位置が設定される。
"Operation" Prepare a standard short arc discharge lamp (for example, a discharge lamp whose light emitting point position is accurately adjusted) in advance, and attach this standard short arc discharge lamp to the housing of the reflecting mirror (for example, using an adapter for position adjustment). Install). Then, turn on this standard short arc discharge lamp, adjust the position of the reflecting mirror so that the light output is maximized, and after this position adjustment, fix the reflecting mirror to the housing and remove the standard short arc discharge lamp from the housing. Then, a standard reflecting mirror device is created. An adapter for position adjustment is detachably attached to a predetermined position (for example, the position of the adapter for attaching the standard short arc discharge lamp) of this standard reflecting mirror device. Next, face one terminal of the unadjusted short arc discharge lamp to this adapter (for example, insert the positive side cap of the short arc discharge lamp into the center mounting hole of the adapter), and in this state, adjust the unadjusted short arc discharge lamp. Light up, adjust the position of the light emitting point of the unadjusted short arc discharge lamp so that the light output becomes maximum, and after this position adjustment, fix one terminal of the unadjusted short arc discharge lamp to the adapter and attach the adapter. Form a short arc discharge lamp. Then, the short arc discharge lamp is attached to the adapter while being accurately positioned. The position of this short arc discharge lamp with an adapter can be set accurately by directly attaching it to another reflecting mirror device.

「実施例」 以下、本発明の一実施例を図面に基づき説明する。[Example] Hereinafter, an example of the present invention will be described with reference to the drawings.

第1図において、(2)は発光点の位置調整を必要と
するショートアーク放電灯で、このショートアーク放電
灯(2)を正極側口金(3a)と負極側口金(3b)のう
ち、一方、例えば正極側口金(3a)には位置調整用アダ
プタ(10)が正確に位置調整を行った後無機質の接着剤
(11)で固定されている。この位置調整用アダプタ(1
0)は口金(3a)の直径の数倍の直径を有する基板部(1
2)とこの基板部(12)の中心部に一体に形成された支
持筒部(13)とからなり、この支持筒部(13)の貫通孔
(14)は口金(3a)よりやや大きく突設され、また、こ
の支持筒部(13)には約120度間隔で3本の仮止めねじ
(15a)(15b)(15c)が設けられている。前記基板部
(12)には、反射鏡(1)のハウジング(9)への取付
けねじ(16a)(16b)(16c)とバナナジャック(17)
が取付けられている。
In FIG. 1, (2) is a short arc discharge lamp that requires adjustment of the position of the light emitting point, and this short arc discharge lamp (2) is used for one of the positive electrode side cap (3a) and the negative electrode side cap (3b). For example, a position adjusting adapter (10) is fixed to the positive electrode side base (3a) with an inorganic adhesive (11) after the position is adjusted accurately. This position adjustment adapter (1
0) is a substrate part (1 having a diameter several times that of the die (3a)
2) and a supporting cylinder part (13) integrally formed in the central part of the substrate part (12), and the through hole (14) of the supporting cylinder part (13) projects slightly larger than the base (3a). The support cylinder portion (13) is provided with three temporary fixing screws (15a) (15b) (15c) at intervals of about 120 degrees. On the board portion (12), screws (16a) (16b) (16c) for attaching the reflecting mirror (1) to the housing (9) and a banana jack (17).
Is installed.

つぎに、各放電灯(2)に位置調整用アダプタ(10)
を正確に固着する順序を説明する。
Next, position adjustment adapter (10) for each discharge lamp (2)
The order of accurately fixing will be described.

(1)まず、第4図に示すように、予め発光点位置が精
度良く出るように位置調整用アダプタ(18)を放電灯
(19)の正極側口金(20)に固着した標準の放電灯(1
9)を用意する。
(1) First, as shown in FIG. 4, a standard discharge lamp in which a position adjusting adapter (18) is fixed to a positive side cap (20) of a discharge lamp (19) so that a light emitting point position can be accurately obtained in advance. (1
9) Prepare.

(2)この標準の放電灯(19)を、反射鏡(1)のハウ
ジング(9)に鎖線のように取付ける。この状態で放電
灯(19)を点灯する。
(2) The standard discharge lamp (19) is attached to the housing (9) of the reflecting mirror (1) as shown by a chain line. In this state, the discharge lamp (19) is turned on.

(3)放電灯(19)の安定後、ハウジング(9)内の反
射鏡(1)の位置を左右に動かし、石英ファイバ(21)
の出力端にて最大出力となるように調整する。調整後、
この反射鏡(1)をハウジング(9)に接着剤等で固着
する。このようにして標準の反射鏡装置(22)を構成す
る。この標準の反射鏡装置(22)を用いて以下の方法に
より未調整の各ショートアーク放電灯(2)の発光点の
位置決めを行う。
(3) After stabilizing the discharge lamp (19), the position of the reflecting mirror (1) in the housing (9) is moved to the left and right, and the quartz fiber (21) is moved.
Adjust so that the maximum output is obtained at the output end of. After adjustment,
The reflecting mirror (1) is fixed to the housing (9) with an adhesive or the like. In this way, the standard reflecting mirror device (22) is constructed. Using this standard reflecting mirror device (22), the light emitting point of each unadjusted short arc discharge lamp (2) is positioned by the following method.

(4)まず、第5図に示すように、前記標準の反射鏡装
置(22)のハウジング(9)に、位置調整用アダプタ
(10)をねじ(16a)(16b)(16c)で固定する。
(4) First, as shown in FIG. 5, the position adjusting adapter (10) is fixed to the housing (9) of the standard reflecting mirror device (22) with screws (16a) (16b) (16c). .

(5)つぎに、発光点未調整の放電灯(2)を第5図の
鎖線位置のようにX,Y,Zステージ(23)に取付けて前記
アダプタ(10)に設けた支持筒部(13)の貫通孔(14)
に向って実線のように移動して遊嵌する。
(5) Next, the discharge lamp (2) whose emission point is not adjusted is attached to the X, Y, Z stages (23) as shown by the chain line position in FIG. Through hole of 13) (14)
Move toward and move like a solid line to loosely fit.

(6)この状態で放電灯(2)を点灯し、点灯が安定し
た後、放電灯(2)のX軸、Y軸、Z軸方向の調整をし
て最大出力位置を決定する。決定した後仮止めねじ(15
a)(15b)(15c)で放電灯(2)の口金(3a)を仮固
定する。
(6) The discharge lamp (2) is lit in this state, and after the lighting is stabilized, the discharge lamp (2) is adjusted in the X-axis, Y-axis, and Z-axis directions to determine the maximum output position. After deciding, temporarily set screw (15
a) Temporarily fix the base (3a) of the discharge lamp (2) with (15b) and (15c).

(7)仮固定後、放電灯(2)を消灯し、放電灯(2)
が冷却してから、アダプタ付き放電灯(2)を標準の反
射鏡装置(22)から外し、貫通孔(14)と口金(3a)と
の隙間に耐熱性を有する無機接着剤(11)を流し込み硬
化させて完全に固着させたものが放電灯カートリッジと
なる。
(7) After temporarily fixing, the discharge lamp (2) is turned off, and the discharge lamp (2)
After cooling, the discharge lamp with adapter (2) is removed from the standard reflector device (22), and a heat-resistant inorganic adhesive (11) is placed in the gap between the through hole (14) and the base (3a). The discharge lamp cartridge is made by pouring and curing and completely fixed.

前記実施例では、円筒形の口金(3a)を円筒形の支持
筒部(13)に遊嵌し、3本のねじ(15a)(15b)(15
c)で仮固定した。しかし、これに限られるものではな
く、第3図に示すように、口金(3a)を4角形とし、4
本のねじ(15a)(15b)(15c)(15d)で保持すること
もでき、この方がねじ(15a)…と口金(3a)との接触
面積が増えセッティングが容易になるとともに、セッテ
ィング後のずれがなくなる。
In the above-mentioned embodiment, the cylindrical base (3a) is loosely fitted to the cylindrical support cylinder (13), and the three screws (15a) (15b) (15) are attached.
It was temporarily fixed in c). However, the present invention is not limited to this, and as shown in FIG.
The screws (15a) (15b) (15c) (15d) can also be used to hold them, which increases the contact area between the screws (15a) ... and the mouthpiece (3a), making setting easier and The gap disappears.

前記実施例では口金(3a)をアダプタ(10)に固定す
るのに、予め仮止めねじ(15a)…を用いたが、この仮
止めねじを用いずに、紫外線硬化接着剤、瞬間接着剤な
ど硬化が迅速に行なわれる接着剤を用いて最初から完全
固着するようにしてもよい。
In the above-mentioned embodiment, the temporary fixing screw (15a) was used in advance to fix the base (3a) to the adapter (10), but without using the temporary fixing screw, an ultraviolet curing adhesive, an instant adhesive, etc. An adhesive that cures quickly may be used to completely fix the adhesive from the beginning.

前記実施例では反射鏡を楕円面としたが、これに限ら
れるものではなく、放物面反射鏡、レンズなど、光学的
精度を必要とする光学系に、ショートギャップを有する
光源として使用した場合でも同様に利用できる。
Although the reflecting mirror is an elliptical surface in the above-mentioned embodiment, the present invention is not limited to this, and is used as a light source having a short gap in an optical system such as a parabolic reflecting mirror or a lens that requires optical accuracy. But you can use it as well.

「発明の効果」 本発明は上述のように構成したので、ショートアーク
放電灯における発光点の位置がそれぞれの放電灯によっ
て異なっていても、個々に位置調整してアダプタを取付
けることによってすべて規格化された放電灯が得られ
る。したがって、ショートアーク放電灯の発光点を反射
鏡の所定位置(例えば焦点位置)に設定する場合、従来
のように複雑な装置を用いた発光点の位置調整をする必
要がなく、素人でも精度よくセッティングできる。ちな
みに、本発明の方法によれば、20本の放電灯の光出力強
度をそれぞれ石英ファイバの出力端にて測定したとこ
ろ、すべての放電灯において、平均値±10%の範囲であ
った。
[Advantages of the Invention] Since the present invention is configured as described above, even if the position of the light emitting point in the short arc discharge lamp is different for each discharge lamp, it is standardized by individually adjusting the position and mounting the adapter. A discharge lamp is obtained. Therefore, when the light emitting point of the short arc discharge lamp is set at a predetermined position (for example, the focus position) of the reflecting mirror, there is no need to adjust the position of the light emitting point using a complicated device as in the conventional case, and even an amateur can accurately Can be set. By the way, according to the method of the present invention, when the light output intensity of 20 discharge lamps was measured at the output end of each quartz fiber, the average value was ± 10% in all the discharge lamps.

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

第1図は本発明によるショートアーク放電灯の発光点位
置調整方法の一実施例を実施する装置を示す断面図、第
2図は第1図における位置調整用アダプタの正面図、第
3図はアダプタの他の例の正面図、第4図は標準の反射
鏡装置の断面図、第5図は発光点位置調整方法の説明
図、第6図は従来装置の断面図、第7図は第6図のラン
プホルダの正面図である。 (1)……反射鏡、(2)……ショートアーク放電灯、
(3)(3a)(3b)……口金、(4)……ランプホル
ダ、(5)……取付け孔、(6)(7a)(7b)(7c)…
…ねじ、(8a)(8b)(8c)……コイルねじ、(9)…
…反射鏡ハウジング、(10)……位置調整用アダプタ、
(11)……接着剤、(12)……基板部、(13)……支持
筒部、(14)……貫通孔、(15a)(15b)(15c)(15
d)……仮止めねじ、(16a)(16b)(16c)……取付け
ねじ、(17)……バナナジャック、(18)……標準の位
置調整用アダプタ、(19)……標準の放電灯、(20)…
…口金、(21)……石英ファイバ、(22)……標準の反
射鏡装置、(23)……X,Y,Zステージ。
FIG. 1 is a sectional view showing an apparatus for carrying out an embodiment of a method for adjusting a light emitting point position of a short arc discharge lamp according to the present invention, FIG. 2 is a front view of a position adjusting adapter in FIG. 1, and FIG. FIG. 4 is a front view of another example of the adapter, FIG. 4 is a sectional view of a standard reflecting mirror device, FIG. 5 is an explanatory diagram of a light emitting point position adjusting method, FIG. 6 is a sectional view of a conventional device, and FIG. FIG. 6 is a front view of the lamp holder of FIG. 6. (1) …… Reflector, (2) …… Short arc discharge lamp,
(3) (3a) (3b) ... base, (4) ... lamp holder, (5) ... mounting hole, (6) (7a) (7b) (7c) ...
… Screws, (8a) (8b) (8c) …… Coil screws, (9)…
… Reflector housing, (10) …… position adjustment adapter,
(11) …… adhesive, (12) …… substrate part, (13) …… supporting cylinder part, (14) …… through hole, (15a) (15b) (15c) (15
d) …… Temporary set screw, (16a) (16b) (16c) …… Mounting screw, (17) …… Banana jack, (18) …… Standard position adjustment adapter, (19) …… Standard release Electric light, (20) ...
… Mouthpiece, (21) …… Quartz fiber, (22) …… Standard reflector device, (23) …… X, Y, Z stage.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】反射鏡のハウジングに着脱自在に取り付け
られた標準ショートアーク放電灯を点灯し、その光出力
が最大となるように前記反射鏡の位置を調整し、この位
置調整後に前記反射鏡を前記ハウジングに固定するとと
もに前記標準ショートアーク放電灯を離脱して標準反射
鏡装置を作成し、この標準反射鏡装置に位置調整用のア
ダプタを着脱自在に取り付け、このアダプタに未調整シ
ョートアーク放電灯の一方の端子を臨ませ、前記未調整
ショートアーク放電灯を点灯し、その光出力が最大とな
るように前記未調整ショートアーク放電灯の発光点位置
を調整し、この位置調整後に前記未調整ショートアーク
放電灯の一方の端子を前記アダプタに固着してアダプタ
付ショートアーク放電灯を形成してなることを特徴とす
るショートアーク放電灯の発光点位置調整方法。
1. A standard short arc discharge lamp, which is detachably attached to a housing of a reflecting mirror, is lit, the position of the reflecting mirror is adjusted so that the light output thereof is maximized, and after the position adjustment, the reflecting mirror is adjusted. To the housing and remove the standard short arc discharge lamp to create a standard reflecting mirror device.A standard position adjusting adapter is removably attached to this standard reflecting mirror device, and an unadjusted short arc discharge lamp is attached to this adapter. One terminal of the electric lamp is faced, the unadjusted short arc discharge lamp is lit, the light emitting point position of the unadjusted short arc discharge lamp is adjusted so that the light output is maximized, and after the position adjustment, the unadjusted short arc discharge lamp is adjusted. A short arc discharge lamp, wherein one terminal of an adjusted short arc discharge lamp is fixed to the adapter to form a short arc discharge lamp with an adapter. Emission point position adjusting method of the lamp.
JP62166665A 1987-07-03 1987-07-03 Light emitting point position adjustment method for short arc discharge lamps Expired - Lifetime JPH0824003B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP62166665A JPH0824003B2 (en) 1987-07-03 1987-07-03 Light emitting point position adjustment method for short arc discharge lamps

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP62166665A JPH0824003B2 (en) 1987-07-03 1987-07-03 Light emitting point position adjustment method for short arc discharge lamps

Publications (2)

Publication Number Publication Date
JPS6410501A JPS6410501A (en) 1989-01-13
JPH0824003B2 true JPH0824003B2 (en) 1996-03-06

Family

ID=15835460

Family Applications (1)

Application Number Title Priority Date Filing Date
JP62166665A Expired - Lifetime JPH0824003B2 (en) 1987-07-03 1987-07-03 Light emitting point position adjustment method for short arc discharge lamps

Country Status (1)

Country Link
JP (1) JPH0824003B2 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103528026B (en) * 2012-07-06 2019-02-22 海洋王(东莞)照明科技有限公司 Light source adjustment device and the illuminator for using the device

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5032014Y2 (en) * 1971-09-25 1975-09-18
DE2316429A1 (en) * 1972-04-05 1973-10-11 Sandoz Ag Fungal metabolite sesquicillin - with anti-hypertensive activity
JPS5776399U (en) * 1980-10-30 1982-05-11
JPS59103361U (en) * 1982-12-28 1984-07-11 京立電機株式会社 light source device

Also Published As

Publication number Publication date
JPS6410501A (en) 1989-01-13

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