JPH0682103B2 - Visual inspection system for copper-clad wiring boards - Google Patents
Visual inspection system for copper-clad wiring boardsInfo
- Publication number
- JPH0682103B2 JPH0682103B2 JP62271070A JP27107087A JPH0682103B2 JP H0682103 B2 JPH0682103 B2 JP H0682103B2 JP 62271070 A JP62271070 A JP 62271070A JP 27107087 A JP27107087 A JP 27107087A JP H0682103 B2 JPH0682103 B2 JP H0682103B2
- Authority
- JP
- Japan
- Prior art keywords
- light
- light source
- copper
- inspected
- color
- 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
Links
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/84—Systems specially adapted for particular applications
- G01N21/88—Investigating the presence of flaws or contamination
- G01N21/89—Investigating the presence of flaws or contamination in moving material, e.g. running paper or textiles
- G01N21/8901—Optical details; Scanning details
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Investigating Materials By The Use Of Optical Means Adapted For Particular Applications (AREA)
Description
【発明の詳細な説明】 [技術分野] 本発明は、銅張配線板の表面に生じる打痕、傷、しみ等
の欠陥を検査する銅張配線板の外観検査装置に関するも
のである。Description: TECHNICAL FIELD The present invention relates to a copper-clad wiring board appearance inspection device for inspecting defects such as dents, scratches, and stains generated on the surface of a copper-clad wiring board.
[背景技術] 従来よりこの種の外観検査装置としては、被検査物とし
ての銅張配線板の表面に光を照射する1つの光源と、こ
の光源に対して被検査物の表面での正反射光と拡散反射
光とをそれぞれ受光する2つの受光部とを設けたものが
提供されている。BACKGROUND ART Conventionally, as a visual inspection apparatus of this type, one light source that irradiates the surface of a copper-clad wiring board as an inspection object with light, and regular reflection on the surface of the inspection object with respect to this light source. There is provided one provided with two light receiving portions for respectively receiving light and diffuse reflected light.
この構成の外観検査装置では、両受光部は被検査物の同
じ位置からの情報を得なければならないから、両受光部
の光軸が被検査物の表面で交差するように光軸の位置合
わせをする必要があり、この調節作業が非常に面倒であ
るという問題がある。また、両受光部の光軸が少しずれ
ただけでも、被検査物の表面の同じ位置からの情報が得
られなくなり、表面状態の正確な情報が得られなくなる
という問題がある。さらに、銅張配線板のような被検査
物では一度に多項目の検査を要求されることがあり、上
述のように正反射光と拡散反射光との2種類の情報を分
離して監視するだけでは、この要求には対応することが
できないものである。In the appearance inspection apparatus with this configuration, both light receiving parts must obtain information from the same position of the object to be inspected, so the optical axes of both light receiving parts are aligned so that they intersect on the surface of the object to be inspected. There is a problem in that this adjustment work is very troublesome. Further, even if the optical axes of both light receiving parts are slightly deviated, there is a problem in that information cannot be obtained from the same position on the surface of the object to be inspected, and accurate information on the surface state cannot be obtained. Further, an inspection object such as a copper-clad wiring board may be required to inspect a large number of items at a time, and as described above, two types of information of specular reflection light and diffuse reflection light are separately monitored. This alone cannot meet this demand.
[発明の目的] 本発明は上述の点に鑑みて為されたものであって、その
目的とするところは、受光部の光軸合わせが不要で、銅
張配線板の表面の凹凸やしみ等の欠陥を精度よく検出で
きるようにした銅張配線板の外観検査装置を提供するこ
とにある。[Object of the Invention] The present invention has been made in view of the above points, and an object of the present invention is to eliminate the need for optical axis alignment of a light receiving portion and to provide unevenness or stains on the surface of a copper clad wiring board. An object of the present invention is to provide a visual inspection apparatus for a copper clad wiring board capable of accurately detecting the above defects.
[発明の開示] (構成) 本発明は、互いに異なる光軸を有し銅張配線板である被
検査物の銅張面に光を照射する第1の光源および第2の
光源と、第1の光源に対して被検査物の表面での正反射
光を受光するとともに第2の光源に対して被検査物の表
面での拡散反射光を受光できる位置に配設され受光量の
変化を電気信号に変換する受光部とを具備した銅張配線
板の外観検査装置において、第1の光源から青色光を放
射し第2の光源から赤色と緑色との混合色を放射すると
ともに、青色光と赤色光と緑色光とをそれぞれ独立して
受光する複数の受光素子を受光部に設け、さらに赤色と
緑色とに対応した受光素子の出力に基づいて被検査物の
表面の色を識別する色認識部と、色認識部で識別した色
と青色に対応した受光素子での受光光量とを組み合わせ
て被検査物の表面状態の種類を分別判定する判定部とを
設けたものである。DISCLOSURE OF THE INVENTION (Structure) The present invention relates to a first light source and a second light source that irradiate light onto a copper-clad surface of an object to be inspected, which is a copper-clad wiring board, having optical axes different from each other; Is placed at a position where it can receive the specularly reflected light on the surface of the object to be inspected and the second light source to receive the diffusely reflected light on the surface of the object to be inspected. In a copper-clad wiring board appearance inspection device including a light receiving unit for converting into a signal, a blue light is emitted from a first light source, a blue light is emitted, and a second light source emits a mixed color of red and green. Color recognition that identifies the color of the surface of the object to be inspected based on the output of the light receiving elements corresponding to red and green by providing a plurality of light receiving elements that receive red light and green light independently Section, the color identified by the color recognition section and the amount of light received by the light receiving element corresponding to blue. In which the type of the surface condition of the object to be inspected is provided a fractional determination unit combined.
この構成によれば、2つの光源と1つの受光部とで銅張
配線板の銅張面の表面状態を検出するので、受光部の光
軸合わせが不要であり、しかも、受光部に対して拡散反
射光を入射させる光源は赤色と緑色との混合色であっ
て、受光部では正反射光の青色と分離できるのはもちろ
んのこと、この混合色から銅張配線板の銅張面の色の状
態を識別することができる。このように、被検査物の表
面の色を認識することで、単に正反射光と拡散反射光と
の2種類の情報の組み合わせに加えて、色の情報を用い
ることができ、一度に検査することができる検査項目の
多項目化が可能になる。しかも、赤色と緑色との混合色
を用いて色を識別するからとくに銅張配線板の検査に適
合することになる。According to this configuration, since the surface state of the copper-clad surface of the copper-clad wiring board is detected by the two light sources and the one light-receiving section, it is not necessary to align the optical axis of the light-receiving section, and moreover, with respect to the light-receiving section. The light source that makes diffuse reflected light incident is a mixed color of red and green, and of course it can be separated from the blue of specular reflected light at the light receiving part. The state of can be identified. In this way, by recognizing the color of the surface of the object to be inspected, color information can be used in addition to the combination of two types of information of specular reflection light and diffuse reflection light, and inspection can be performed at once. It is possible to increase the number of inspection items that can be performed. Moreover, since the color is identified by using the mixed color of red and green, it is particularly suitable for the inspection of the copper clad wiring board.
(実施例) 第1図および第2図に示すように、第1の光源10aと第
2の光源10bとが設けられており、各光源10a,10bは、そ
れぞれ直管状のランプ11a,11bと、反射板12a,12bと、フ
ィルタ13a,13bとを備えた線状光源であって、ランプ11
a,11bは白色光を放射するようになっている。第1の光
源10aと第2の光源10bとは、互いに略平行となるように
配設されている。また、被検査物1は銅張配線板であっ
て第1の光源10aおよび第2の光源10bと略平行な方向に
移動する。第1の光源10aの光軸は被検査物1の表面に
対して角度θだけ傾斜しており、第2の光源10bの光軸
は被検査物1の表面に対して略直交するように配設され
ている。また、第1の光源10aのフィルタ13aは青色光が
透過するように設定され、第2の光源10bのフィルタ13b
は赤色光と緑色光との混合色が透過するように設定され
ている。(Example) As shown in FIGS. 1 and 2, a first light source 10a and a second light source 10b are provided, and each of the light sources 10a and 10b is a straight tube lamp 11a and 11b. A linear light source including the reflectors 12a and 12b and the filters 13a and 13b.
The a and 11b emit white light. The first light source 10a and the second light source 10b are arranged so as to be substantially parallel to each other. The inspection object 1 is a copper-clad wiring board and moves in a direction substantially parallel to the first light source 10a and the second light source 10b. The optical axis of the first light source 10a is inclined by an angle θ with respect to the surface of the inspection object 1, and the optical axis of the second light source 10b is arranged so as to be substantially orthogonal to the surface of the inspection object 1. It is set up. In addition, the filter 13a of the first light source 10a is set to transmit blue light, and the filter 13b of the second light source 10b is set.
Is set to transmit a mixed color of red light and green light.
一方、第1の光源10aに対して第2の光源10bを挟んで反
対側には、受光部20が設けられる。受光部20は、赤色
光、緑色光、青色光をそれぞれ受光する受光素子21R,21
G,21Bを一直線上に多数配列したカラーイメージセンサ2
1であって、各色の受光量に応じた電気信号を出力する
ようになっている。受光部20はこのように一直線上に形
成されているのであって、その方向は第1の光源10aお
よび第2の光源10bと略平行になっており、また、受光
部20の光軸は被検査物1の表面に対して角度θだけ傾斜
している。ここに、第1の光源10aの光軸と受光部20の
光軸とはおおよそ上の関係を満たすように配設すればよ
いのであり、第1の光源10aからの光束はある程度拡散
するから、受光部20では必ず第1の光源10aからの正反
射光が受光できるのである。また、第2の光源10bの光
軸は被検査物1の表面に対して略直交しているから、受
光部20では第2の光源10bの拡散反射光を受光すること
になる。ここに、受光部20の焦点位置を被検査物1の表
面に略一致させておくだけで、第1の光源10aと第2の
光源10bとは光軸を完全に調節していなくても、正反射
光と拡散反射光とが受光部20で受光されるのであり、従
来のような厳密な光軸合わせが不要となるのである。以
上のようにして青色光の受光素子21Bからは正反射光に
対応する電気信号が得られ、赤色光と緑色光の受光素子
21R,21Gからは拡散反射光に対応する電気信号が得られ
ることになる。On the other hand, a light receiving unit 20 is provided on the opposite side of the first light source 10a with the second light source 10b interposed therebetween. The light receiving section 20 includes light receiving elements 21 R , 21 for receiving red light, green light, and blue light, respectively.
Color image sensor with a large number of G and 21 B arranged in a straight line 2
It is 1 and outputs an electric signal according to the amount of received light of each color. The light receiving section 20 is thus formed in a straight line, its direction is substantially parallel to the first light source 10a and the second light source 10b, and the optical axis of the light receiving section 20 is not covered. It is inclined by an angle θ with respect to the surface of the inspection object 1. Here, the optical axis of the first light source 10a and the optical axis of the light receiving unit 20 may be arranged so as to approximately satisfy the above relationship, and since the light flux from the first light source 10a diffuses to some extent, The light receiving section 20 can always receive the specularly reflected light from the first light source 10a. Further, since the optical axis of the second light source 10b is substantially orthogonal to the surface of the inspection object 1, the light receiving section 20 receives the diffuse reflected light of the second light source 10b. Even if the optical axes of the first light source 10a and the second light source 10b are not completely adjusted, the focus position of the light receiving unit 20 is substantially aligned with the surface of the inspection object 1 here. Since the specularly reflected light and the diffusely reflected light are received by the light receiving section 20, strict optical axis alignment as in the conventional case is unnecessary. As described above, an electric signal corresponding to the specular reflection light is obtained from the blue light receiving element 21 B , and the red light and green light receiving elements are received.
From 21 R and 21 G , an electric signal corresponding to the diffuse reflection light can be obtained.
以上のようにして得られた電気信号は、第3図に示すよ
うに、信号処理部30に入力される。信号処理部30では、
赤色、緑色、青色に応じた各信号R,G,Bをそれぞれ増幅
する増幅回路31R,31G,31Bと、赤色と緑色とに対応する
増幅回路31R,31Gの出力を受けて色を識別する色認識部3
2と、色認識部32の出力と青色に対応する増幅回路31Bの
出力とから、被検査物1の表面状態を判定する判定部33
とを備えており、判定部33では6状態が判定できるよう
になっている。すなわち、受光部20の出力により、次の
ような判定が行なえるのである。The electric signal obtained as described above is input to the signal processing unit 30, as shown in FIG. In the signal processing unit 30,
Upon receiving the red, green, and the signal R corresponding to the blue, G, and amplifier circuit 31 R, 31 G, 31 B for amplifying each B, and the output of the amplifier circuit 31 R, 31 G, corresponding to the red and green Color recognition part 3 for identifying colors
2 and the output of the color recognition unit 32 and the output of the amplification circuit 31 B corresponding to blue, the determination unit 33 that determines the surface state of the inspection object 1.
And the determination unit 33 can determine 6 states. That is, the following determination can be made based on the output of the light receiving unit 20.
ただし、上表において、1は正常部分に対して明るい方
向への変化、0は正常部分に対して暗い方向への変化、
φは正常部分に対して明るい方向と暗い方向との変化が
混在することを示す。 However, in the above table, 1 is a change in the bright direction with respect to the normal part, 0 is a change in the dark direction with respect to the normal part,
φ indicates that the change in the bright direction and the change in the dark direction are mixed with respect to the normal portion.
以上のようにして、正反射光と拡散反射光との状態に応
じて被検査物1の表面状態を知ることができるのであ
り、また、正反射光と拡散反射光とを色で識別し、しか
も、拡散反射光に2色を用いることにより、被検査物1
の表面の色の状態も識別することができ、被検査物1の
表面状態の分類数を増やすことができるのである。互い
に異なる光軸を有し銅張配線板である被検査物の銅張面
に光を照射する第1の光源および第2の光源と、第1の
光源に対して被検査物の表面での正反射光を受光すると
ともに第2の光源に対して被検査物の表面での拡散反射
光を受光できる位置に配設され受光量の変化を電気信号
に変換する受光部とを具備した銅張配線板の外観検査装
置において、第1の光源から青色光を放射し第2の光源
から赤色と緑色との混合色を放射するとともに、青色光
と赤色光と緑色光とをそれぞれ独立して受光する複数の
受光素子を受光部に設け、さらに赤色と緑色とに対応し
た受光素子の出力に基づいて被検査物の表面の色を識別
する色認識部と、色認識部で識別した色と青色に対応し
た受光素子での受光光量とを組み合わせて被検査物の表
面状態の種類を分別判定する判定部とを設けたものであ
り、2つの光源と1つの受光部とで銅張配線板の銅張面
の表面状態を検出するので、なお、信号処理部において
パターンを認識できるようにしておけば、被検査物1の
表面に形成されているパターンの認識も可能となるもの
である。この場合、色情報を含めることも可能であるの
はいうまでもない。As described above, the surface state of the inspection object 1 can be known according to the states of the specular reflection light and the diffuse reflection light, and the specular reflection light and the diffuse reflection light are distinguished by color, Moreover, by using two colors for the diffuse reflection light, the inspection object 1
The state of the color of the surface can be identified, and the number of classifications of the surface state of the inspection object 1 can be increased. A first light source and a second light source for irradiating the copper-clad surface of the inspection object, which is a copper-clad wiring board, with light beams different from each other, and a surface of the inspection object for the first light source. A copper clad having a light receiving portion arranged to receive the specularly reflected light and to receive the diffusely reflected light on the surface of the object to be inspected with respect to the second light source and convert a change in the amount of received light into an electric signal. In a visual inspection device for a wiring board, blue light is emitted from a first light source, a mixed color of red and green is emitted from a second light source, and blue light, red light and green light are independently received. A plurality of light receiving elements are provided in the light receiving section, and a color recognition section for identifying the color of the surface of the object to be inspected based on the outputs of the light receiving elements corresponding to red and green, and the color recognized by the color recognition section and the blue color. The type of surface condition of the object to be inspected A determination unit for determining classification is provided, and since the surface state of the copper-clad surface of the copper-clad wiring board is detected by the two light sources and one light-receiving unit, the signal processing unit can still recognize the pattern. By doing so, it becomes possible to recognize the pattern formed on the surface of the inspection object 1. In this case, it goes without saying that it is possible to include color information.
[発明の効果] 本発明は上述のように、互いに異なる光軸を有し被検査
物の表面に光を照射する第1の光源および第2の光源
と、第1の光源に対して被検査物の表面での正反射光を
受光するとともに第2の光源に対して被検査物の表面で
の拡散反射光を受光できる位置に配設され受光量の変化
を電気信号に変換する受光部とを具備し、第1の光源か
ら放射される光線と第2の光源から放射される光線とは
互いに異なる識別要素を含み、受光部で受光された反射
光に対する電気信号を上記識別要素に基づいて第1の光
源に対する電気信号と第2の光源に対する電気信号とに
分離して処理することにより被検査物の表面状態に応じ
た情報を出力する信号処理部を備えているものであり、
2つの光源と1つの受光部とを用い、両光源から放射さ
れて被検査物の表面で反射された正反射光と拡散反射光
とに関する情報を受光部で検出し、信号処理部でこの情
報から被検査物の表面状態を検出するので、第1の光源
から放射され被検査物の表面で正反射された光線が受光
部で受光でき、第2の光源から放射され被検査物に表面
で拡散反射された光線が受光部で受光できるように、3
者の位置関係をだいたい設定しておけば、従来のような
厳密な調整を行なわずに大まかな調整のみで被検査物の
表面の状態を正確に検出することができるという利点を
有するのである。EFFECTS OF THE INVENTION As described above, the present invention provides a first light source and a second light source which have different optical axes and irradiate the surface of an object to be inspected with light, and the first light source to be inspected. A light receiving portion which is arranged at a position where the specularly reflected light on the surface of the object can be received and the diffusely reflected light on the surface of the object to be inspected can be received by the second light source, and which converts the change in the received light amount into an electric signal. And a light ray emitted from the first light source and a light ray emitted from the second light source include different identification elements, and an electric signal for the reflected light received by the light receiving unit is based on the identification element. A signal processing unit that outputs information according to the surface state of the inspection object by processing the electric signal for the first light source and the electric signal for the second light source separately.
Using two light sources and one light receiving unit, the light receiving unit detects information about specular reflection light and diffuse reflection light emitted from both light sources and reflected on the surface of the object to be inspected, and this information is detected by the signal processing unit. Since the surface condition of the object to be inspected is detected from, the light beam emitted from the first light source and specularly reflected on the surface of the object to be inspected can be received by the light receiving section, and is emitted from the second light source to the surface of the object to be inspected. 3 so that the light beam diffusely reflected can be received by the light receiving unit.
If the positional relationship of the person is roughly set, there is an advantage that the surface condition of the object to be inspected can be accurately detected by only rough adjustment without performing strict adjustment as in the conventional case.
しかも、受光部に対して拡散反射光を入射させる光源は
赤色と緑色との混合色であって、受光部では正反射光の
青色と分離できるのはもちろんのこと、この混合色から
銅張配線板の銅張面の色の状態を識別することができ
る。このように、被検査物の表面の色を認識すること
で、単に正反射光と拡散反射光との2種類の情報を組み
合わせに加えて、色の情報を用いることができるのであ
り、一度に検査することができる検査項目の多項目化が
可能になるという利点を有する。しかも、赤色と緑色と
の混合色を用いて色を識別するからとくにに銅張配線板
の検査に適合するという利点もある。Moreover, the light source for making diffuse reflected light incident on the light receiving section is a mixed color of red and green, and it is of course possible to separate it from the blue of regular reflected light at the light receiving section. The color condition of the copper-clad surface of the plate can be identified. Thus, by recognizing the color of the surface of the object to be inspected, it is possible to use the color information in addition to the combination of the two types of information of the specular reflection light and the diffuse reflection light. It has an advantage that the number of inspection items that can be inspected can be increased. Moreover, since the color is identified by using the mixed color of red and green, there is an advantage that it is particularly suitable for inspection of a copper clad wiring board.
第1図は本発明の一実施例を示す概略構成を示す側面
図、第2図は同上の概略構成を示す斜視図、第3図は同
上に用いる信号処理回路を示すブロック図である。 1は被検査物、10aは第1の光源、10bは第2の光源、20
は受光部、21はカラーイメージセンサ、21R,21G,21Bは
受光素子、30は信号処理回路である。FIG. 1 is a side view showing a schematic configuration showing an embodiment of the present invention, FIG. 2 is a perspective view showing a schematic configuration of the same, and FIG. 3 is a block diagram showing a signal processing circuit used in the same. 1 is an object to be inspected, 10a is a first light source, 10b is a second light source, 20
Is a light receiving unit, 21 is a color image sensor, 21 R , 21 G and 21 B are light receiving elements, and 30 is a signal processing circuit.
Claims (2)
被検査物の銅張面に光を照射する第1の光源および第2
の光源と、第1の光源に対して被検査物の表面での正反
射光を受光するとともに第2の光源に対して被検査物の
表面での拡散反射光を受光できる位置に配設され受光量
の変化を電気信号に変換する受光部とを具備した銅張配
線板の外観検査装置において、第1の光源から青色光を
放射し第2の光源から赤色と緑色との混合色を放射する
とともに、青色光と赤色光と緑色光とをそれぞれ独立し
て受光する複数の受光素子を受光部に設け、さらに赤色
と緑色とに対応した受光素子の出力に基づいて被検査物
の表面の色を識別する色認識部と、色認識部で識別した
色と青色に対応した受光素子での受光光量とを組み合わ
せて被検査物の表面状態の種類を分別判定する判定部と
を設けて成ることを特徴とする銅張配線板の外観検査装
置。1. A first light source and a second light source which have different optical axes and irradiate light onto a copper-clad surface of an object to be inspected, which is a copper-clad wiring board.
And a first light source for receiving specularly reflected light on the surface of the object to be inspected and a second light source for receiving diffusely reflected light on the surface of the object to be inspected. In a visual inspection apparatus for a copper clad wiring board, comprising: a light receiving unit for converting a change in the amount of received light into an electric signal, a first light source emits blue light and a second light source emits a mixed color of red and green. In addition, a plurality of light receiving elements that receive blue light, red light, and green light independently of each other are provided in the light receiving unit, and the surface of the object to be inspected based on the outputs of the light receiving elements corresponding to red and green. A color recognition section for identifying a color and a determination section for discriminating the type of the surface state of the object to be inspected by combining the color identified by the color recognition section and the amount of light received by the light receiving element corresponding to blue are provided. A visual inspection device for copper-clad wiring boards, which is characterized in that
って互いに略平行に配設され、被検査物は第1の光源お
よび第2の光源に略直交する方向に移動し、受光部は青
色光と赤色光と緑色光とをそれぞれ独立して受光する複
数の受光素子を第1の光源および第2の光源と略平行な
一直線上に配列したカラーイメージセンサであることを
特徴とする特許請求の範囲第1項記載の銅張配線板の外
観検査装置。2. The first light source and the second light source are linear light sources and are arranged substantially parallel to each other, and the inspection object moves in a direction substantially orthogonal to the first light source and the second light source, The light receiving unit is a color image sensor in which a plurality of light receiving elements that receive blue light, red light, and green light independently of each other are arranged on a straight line substantially parallel to the first light source and the second light source. The appearance inspection device for a copper-clad wiring board according to claim 1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP62271070A JPH0682103B2 (en) | 1987-10-27 | 1987-10-27 | Visual inspection system for copper-clad wiring boards |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP62271070A JPH0682103B2 (en) | 1987-10-27 | 1987-10-27 | Visual inspection system for copper-clad wiring boards |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH01113639A JPH01113639A (en) | 1989-05-02 |
JPH0682103B2 true JPH0682103B2 (en) | 1994-10-19 |
Family
ID=17494969
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP62271070A Expired - Lifetime JPH0682103B2 (en) | 1987-10-27 | 1987-10-27 | Visual inspection system for copper-clad wiring boards |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0682103B2 (en) |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO1992000517A1 (en) * | 1990-06-22 | 1992-01-09 | Alcan International Limited | Illumination system for high speed surface inspection of rolled aluminum sheet |
FR2817964B1 (en) | 2000-12-11 | 2003-03-14 | Usinor | DEVICE FOR AUTOMATIC INSPECTION OF THE SURFACE OF A TRAVELING STRIP |
JP4826750B2 (en) | 2005-04-08 | 2011-11-30 | オムロン株式会社 | Defect inspection method and defect inspection apparatus using the method |
JP4719284B2 (en) * | 2008-10-10 | 2011-07-06 | トヨタ自動車株式会社 | Surface inspection device |
KR101538696B1 (en) * | 2014-05-23 | 2015-07-29 | 주식회사 포스코 | Apparatus for detecting surface crack of hot slab |
CN113027668A (en) * | 2021-03-16 | 2021-06-25 | 北京天地玛珂电液控制系统有限公司 | Hydraulic motor |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6238348A (en) * | 1985-08-14 | 1987-02-19 | Mitsubishi Metal Corp | Optical inspecting method for surface defect |
-
1987
- 1987-10-27 JP JP62271070A patent/JPH0682103B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPH01113639A (en) | 1989-05-02 |
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