DE1917877A1 - Method and device for the photoelectric testing of strip material - Google Patents

Description

DR. ELISABETH JUNG ₁ DR. VOLKER VOSSIUS. DIPL.-ING. GERHARD COLDEWEY

8MDNCHEN23 · SIEGESSTRASSE26 ■ TELEFON 345067. TELEGR AM M-AD RESSE; INVEN T / MONCHEN

TELEX S 29 686

8. AP R. 1969

Z .: E 200 + a

OMRON TATEISI ELECTRONICS CO.
Kyofco-eity, Japan

Method and device for testing close to photoelectrics of tape material.

Priority: April 8, 1968, Japan, No. 28109/68

The invention relates to a system for photoelectric Testing of tape material. She is for example Applicable to devices with which such defects or defects, such as folds, protrusions or sticking Fabrics, etc. in the manufacture of paper and textiles and various sheet-like materials photoelectrically detected, and then defective sheets or

to
Leaves from piles of fairy-eyed arches or leaves

can be removed with the aid of the display signal.

It is an object of the present invention to provide a method and apparatus for thoroughly Check for defects such as wrinkles, protrusions, or stuck materials. Other objects of the present invention

909845/1014

REAR ACCOUNT: MDNCHEN 50175. BANK ACCOUNT: DEUTSCHE BANK A. G. MDNCHEN. IEOPOLDSTR. 71, KTO. NH. 60/35794

liegöii in the creation of ο ines Verfahrana and a device 'sum checking for such errors, which parallel to the proof of a tape material llögan, or «to thoroughly check for elongated errors, v / 3.B, Palten, ^ There are places or adhesive materials that are parallel to the direction of movement of a band material, or else a thorough check for elongated defects, such as folds, protruding points or adhesive materials that extend lengthways parallel to the direction of movement of a bundle material , as well as such defects * as holes and verachiause.

In the following description, the expression "in a longitudinal direction" is used in the sense of 'in movement direction ^{1 of} the tape materials and the expression "in the transverse direction" in the sense of' in a direction perpendicular to the direction of movement * of the tape materials.

According to conventional methods, defects such as wrinkles, protrusions or adhering material on tape materials were detected, for example by means of a scraper arm that lightly touched the surface of the moving tape material and was connected to a cutter with a display signal. Such conventional methods have the disadvantage that defects or flaws which are angular in the longitudinal direction, that is, parallel to the direction of movement in the tape mafeayial, because of the slowly advancing occupancy; ύ% & ansea can hardly be discovered. In addition, it has such a similar scanning device a® low® _. . Sensitivity »

BATH ORIGINAL

With the method and apparatus of the invention, any determination can be made in the longitudinal direction liogoridfcii error or defect a display signal with sufficient amplitude * can be obtained so that a reliable proof of the errors ensured iat.

The device Eur photoelectric testing of strip material according to the present invention comprises at least ateno a light beam V emitter for emitting a narrowly b »w. limited light beam, which in a Direction perpendicular to the direction of movement of the tape metric and runs close to its surface at least a photoelectric converter for photoelectric detection a ßanaen or partial reflection of the an defective parts of the strip material reflected light j and at least one amplifier sum amplify the electrical signals coming from the photoelectric converter.

The narrow light strip or light beam is emitted in a direction perpendicular to the direction of movement of the tape material, i.e. in the transverse direction to this, and moves fairly close over the surface of the tape material, so that defective parts ₁ such as folds, protrusions or adhesive substances reliably intercept and reflect it . The light beam emitted in this way is reflected by the defective parts in such a way that each fault or defect, depending on its extent, intercepts the light beam in whole or in part and throws it back.The photo-electric converter wiedex * unt intercepts this light beam reflection and generates electrical signals corresponding to the defects in the strip material . In order to emit the light beam in such a way that it travels very close to the surface in the transverse direction over the entire strip material, this is done

9098A6 / 10U

preferably a light source used, for example is composed of Lasergaa and a converging optical device. The photoelectric converter is used for the photoelectric detection of changes in the light beam caused by a total or partial Interception and reflection of the light beam by the defective parts. Accordingly, the Transducers are operated to provide total or partial reflection or total or partial interception of the Detect light beam through defective parts. The amplifier is used to amplify the photoelectric Transducer originating output signal and enables such work as the marking of the strip material milüfceXö ink or the removal of the defective Parts comprising strip material from a pile of cut-to-size Leaves, sheets and the like. With consideration Weohoe! current amplifiers are a solid way of working To be preferred to the peer-flow amplifiers.

In the following, the invention will be explained on the basis of s (thematic Drawings of several exemplary embodiments explained in more detail.

Fig. 1 shows in a perspective view the main part of a first embodiment according to the invention.

Figs. 2 to 6 show in perspective views, respectively the main parts of other designs. · ■■■ -,

7 and 9 each show the main parts of further designs in side views.

Fig. 8 is a block diagram showing the main part of the electrical build-up of that shown in Figs Guide forines is shown.

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In the embodiment shown in FIG. 1, a strip material 1 is driven in a direction indicated by the arrow "** by means of a drive device (not attached) while it runs over a roller or roller Z. If there are no faults, So the strip material 1 runs in a bastimnten syiindrischen form over the roll 2. A narrow or limited light beam LV is emitted from a Liohtatstrahlemitter 6, sB a Lasorgas-Liohtquella combined with a convergent edge optical device to eioh in the over the roll 2 Part of the band material in the transverse direction is completely dioht to propagate on the surface of the band material over this. After the light beam LW has migrated in the transverse direction over the band material 1, it hits a photoelectric converter 7 »is.B, a solar battery or a phototransistor, which is arranged on the other side of the strip material 1, so that it can be guided by the light beam emitter 6, »The photoelectric converter 7 then generates electrical signals which correspond to the changes in the incident light beam.Above another part of the strip material there is a deocculation for a light source 3, which extends over the entire width of the strip material 1 and falls on this light Below the band material 1, opposite the light source 3, close to the band material 1 is a photoelectric «? Arranged transducer 4, which consists of adjacent photoelectric transducer elements Hl, 42, ... 4n, sB from solar batteries or phototransistors. A flaw or defect 8 extending in the longitudinal direction, for example a fold, a protruding point or a sticky substance, which is narrow or narrow perpendicular to this longitudinal direction. course does not cause a sufficiently strong change in the

90984S / 10U

Converter elements of the photoelectric converter Ί falling light, which is why a sufficiently strong electrical signal can not be generated. In contrast to this, the defect 8 located in the longitudinal direction has a pronounced effect on the narrow light beam LW emitted in the transverse direction to the strip material 1, in that it wholly or partially intercepts the light beam LW. Consequently, the photoelectric converter 7 generates a sufficient electrical signal that corresponds to the clear change in incident light ₉ that occurs when the longitudinal defect 8 crosses the light beam LW. If a flaw or defect extending in the transverse direction runs the strip material »1, ss.B. a hole or dirt, Upper ^j the photoelectric Wandlsr ", so an impulsive change in the incident light, which is caused by a gain or interruption of a portion of the penetrating through the band material 1 light LP and for producing results of the transducer elements of an impulsive electrical signal in the photoelectrisohen converter 1 leads. For example, defects such as holes or soiling, as well as defects lying in the longitudinal direction, such as folds, protruding points or adhering substances, can be detected by means of the above-mentioned test device.

In the second embodiment, shown in FIG. 2, »fora becomes a strip material 1 in a direction indicated by arrow "a" from a drive device (not shown) driven while it runs over a roller 2 · Lying If there are no defects, then the strip material 1 runs in a certain cylindrical path over the roll 2 · A narrow light beam LW is produced by a light beam smltter 6, e.g. a Laeergas-Liohtquelle combined with a converging optical device, broadcast,

9098A5 / 1014 BAD

In order to flan the part of the band material running over the roll 2 in the transverse direction very diof the surface of the band material 1 over it. Above the path of the light beam LW, a photoelectric converter 9 consisting of photo-electrical converter elements 91 »92, ... 9n is provided, which is in a position in which it covers the light path below As Z «B * a FaItS ₁ a protruding point or an adhering substance, the light beam LVi wholly or partially intercepts and thereby reflects the light ₄ so this reflected light hits the closest photoelectric converter element of the photoelectric converter 9 and causes that Wandisrelemant provides a sufficient electrical signal. Does a transverse defect 5, BB cross a fold, a protruding point or an adhesive one? Substance, the path of the light beam LW, the light beam is intercepted for a short time, the light is reflected, and the transducer 9 generates an impulsive electrical signal.

In the embodiment shown in FIG. 3, an in Transverse direction oblong light source 3 provided below a strip material 1 »which is indicated by the arrow "a" indicated moved longitudinally, and just above the The surface of the strip material 1 becomes a transverse direction running narrow light beam LW through a light beam emitter 6, Ä.B, a © combined laser gas light source with a converging optical device. Above the path of the light beam LW eats a photoelectric Wßsidlerelemsnten 91 * 92 "." 9n existing fot © electrical converter 9 arranged in a position in which it covers the path of the light beam LW. A Defect 5 extending in the transverse direction »as in B«

909845/1014 original bathroom

a hole or schvuts, reinforced or interrupted at its movement, the light penetrating from the light source 3 feet through the strip material 1 in advance and in part, caused thereby in some of the photoelectrons Conversion elements of the photoelectric converter 9 a Change in incident light and consequently submits an electrical signal. On the other hand, a defect 8 lying in the longitudinal direction, as s.B. a wrinkle, a protruding point or an adhesive material, the light beam LV whole or partially, reflects this Slightly while the tape material 1 advances, thereby causing a change in the view of the photoelectric conversion element closest to the photoelectric Handlers 9 falling light and, consequently, the generation an electrical signal. In this particular embodiment, the method of can be applied Light, as well as the transverse light beam method according to the present invention using a common photoelectric Converter are applied.

In the case of the in Flg. In the inclined embodiment, a strip material 1 is driven by drive means (not shown) as it ^{moves around a roll 2 in a direction indicated by the arrow n a "} Two light beam emitters 6 and 6 *, e.g. swel laser gas light sources combined with converging optical devices, are mounted close to the two longitudinally extending 'Xanten of the strip material 1 so that alternate narrow light beams LW and LW * are emitted, which calibrate in the transverse direction in opposite directions, but still

909845 / 10U

191787?

as close as possible next to one another and also serves as possible on the surface of the strip material 1 on the part of the strip material guided over the roll 2. Above the paths of the light beams LV and LW *, a photoelectric converter 9 consisting of photoelectric converter elements 91 »92 ·. If, consequently, defects 8 and 8 ^f lying in the longitudinal direction, such as folds, protruding points or adhesive substances, wholly or partially intercept the light beams LW and LW 'emitted by the respective light emitters 6 and 6' and thereby reflect the light, the reflected light hits to the closest photoelectric converter elements of the photoelectric converter 9 and in each case causes the converter elements to bend sufficient electrical signals.

In this embodiment, the light beams LW and LW * ausgestrahlti in opposite directions and in very closely spaced lines from in each case only some of the runs in the longitudinal direction Xanten of the strip material t removed intended light sources even if the surface of the roller 2 is not exactly straight, can therefore the light beams LW and LW * travel very close to the surface of the strip material 1 on the roll in the opposite direction so that at least half the width of the strip material 1 is subjected to a precise test. Such an embodiment is useful in the case where the middle part of the roll is made somewhat thicker than the two ends for reasons of stabilization, or in the case where the roll is several meters long and therefore sags slightly.

9Q98A5 / 1ÖU

1S17877

- ίο -

In the embodiment shown in Fig. 5, a strip material 1 is driven in a ^{direction indicated by an arrow "a n} by a drive device (not shown) while it is running over the roller 2. If there are no defects, the strip material 1 runs in of a certain cylindrical shape over the roll 2. A narrow light beam LVM is emitted from a light beam emitter 6, e.g. a laser gas light source combined with a converging optical device, in order to move at the point where the strip material 1 runs over the roll 2 Transverse direction fairly close to the surface of the strip material to be propagated over this * This light beam / is modulated by a rotating chopper or breaker plate 61, which has several openings and is driven by a motor 64 via a belt 63. Above the path of the light beam LWH is an off photoelectric converter elements 91, $ 2 ... 9n existing photoelectric converter 9 vorg see it. If, consequently, a longitudinal defect such as a fold, a protruding point or an adhesive substance, completely or partially intercepts the light beam LWM and thereby reflects the light, this reflected light hits the closest photoelectric converter element of the photoelectric converter 9 · Da If the light beam LWM is modulated, the reflected light is also modulated. Therefore, the photoelectric converter 9 can receive such modulated light even if the defect 8 is very long in the longitudinal direction, and accordingly the photoelectric converter 9 generates an AC electrical signal that persists while the long defect passes through the light beam LWM. Although only one modulated light beam emanating from a light beam emitter is used in this embodiment, two light beams can preferably also be used, each

909845/1014

- ii -

in the transverse direction in lines lying close to one another by Evei only shortly before each edge of the strip material arranged light shining tt em be sent out, as in the in the embodiment shown in Fig. 4, in which the tape material is exceptionally wide.

In the embodiment inclined in FIG. 6, a strip material 1 is driven in a direction indicated by the arrow "a" by means of a drive device while it runs over the roller 2. If there are no defects, the strip material 1 runs in a certain cylindrical shape around the roll 2. Two light beam emitters 6 and 6 ', e.g. two laser gas light sources combined with converging optical devices, are only around each longitudinal edge of the strip material 1 80 arranged that two narrow light beams LWH and LW * are emitted, which are opposite to each other in the transverse direction, but as close together as possible and also as close as possible to the surface of the strip material 1 at the part where it runs over the roll 2 , reproduce. The light beam LWM is modulated by the revolving chopper or breaker plate 61, which has various openings 62 and is driven by a motor 61 via a belt 63. The other light beam LW ¹ is not modulated, a photoelectric converter 9 consisting of photoelectric converter elements 91, 92... 9n is provided over the path of the light rays LWM and LVT protruding point or a sticky material, the rays of light. LWH and LW wholly or partially intercepts and thereby reflects the light, the reflected light strikes the closest photoelectric converter elements of the

0 9 8 4 5/101

photoelectric converter 9. Since the light beam LJfM is modulated, the reflected light is also modulated. Therefore, the photoelectric coil 9 can pick up this modulated light even if the longitudinal defect dl is very long, and accordingly the photoelectric converter 9 generates a WeeheelBtromsignal that lasts _s while the long defect 81 runs through the light beam LWM. On the other hand, a short one that is lying lengthways starts. Defect 82, such as a fold, a protruding point or an adhesive substance, reliably blocks the non-modulated light beam LW when it crosses the path of the light beam LW, even if the light beam LWM is interrupted by the surrounding chopper plate 61 , and thereby causes the transducer to generate an impulsive electrical signal. Accordingly, by amplifying the output signal coming from the transducer using an AC amplifier, short, longitudinal defects and long longitudinal defects can be reliably detected «

Xn of the embodiment shown in FIG. 7 becomes a Tape material 1 in one indicated by the arrow "a" Direction by means of a drive device (not shown) driven ^ while it runs over the Holle 2 « If there are no defects, the strip material 1 runs in a certain cylindrical shape About the roller 2 «A narrow light beam LW is emitted by a light beam emitter (not shown), e.g., a laser gas light source combined with a converging optical device, emitted to be very close to the transverse direction Surface of the strip material 1 on the one over the roll to propagate running part over this tape material. Above the path of the light beam LW is a photoelectrically heavy one Transducer 9 is provided, which is made from close together

909845 / IGU

-.13 *

arranged fofcoele Jet smell η transducer elements consists, over another part of the Banümafcerials 1 is one Light source 3 provided, which calibrate in the transverse direction the strip material 1 extends and a plate-shaped Luminous flux LR on the surface of the strip material 1 from * emits; just above that part of the surface of the strip material 1 on which the luminous flux LR falls is a photoelectric Wanäler 4 provided, which is made of tight juxtaposed photoelectric conversion elements consists. An oefect 8 lying in the longitudinal direction, E.g. a fold, a protruding point or an adhesive material that is perpendicular to this direction is, the light incident on the conversion elements of the photoelectric converter 4 does not change sufficiently, so that a sufficient electrical signal cannot be generated. In contrast, this has a longitudinal direction lying defect 8 but on the narrow light beam LW emitted in the transverse direction around the strip material 1 pronounced effect in that it intercepts the light beam LW in whole or in part and reflects the light while the strip material 1 moves on, and thereby the closest photoelectric converter photoelectric converter 9 changes incident light, bo that an electrical signal is generated. So Ee will from the photoelectrisohen converter 9 a display property based on the method with the transverse direction Get ray of light. A defect 5 lying in the transverse direction on the strip material 1, e.g. a hole or dirt, leads to an impulsive change in the incident on the converter elements of the photoelectric converter 4 reflected light resulting from a temporary change in part of the reflected light flux Lr caused when the defect is under the photoelectric

9O9845 / 10U

Transducer 4 passes through, and leads to the generation of an impulsive electrical signal in transducer 4 · Ss becomes an indication signal received from the photoelectric converter 4 by the method of the reflected light beam »

The electrical structure of this embodiment is shown in a block diagram in FIG. 8, in which the numbers 41, 42, 43, 44, 45, 46, 47 and 48 indicate photoelectric conversion elements which are arranged side by side in the transverse direction and which form the photoelectric converter 4 . The numbers 91 »92, 93» 94, 95 »96, 97 and 98 each designate photoelectric conversion elements which are arranged next to one another in the transverse direction and which form the photoelectric converter 9. The photoelectric transducer elements 41 and 91, 42 and 92, 43 and 93 etc. to 48 and 98 each form pairs of sun checking corresponding areas of the strip material 1 and are connected to each other via preamplifiers for variable amplitudes (variable amplitude pre-amplifiers) 101, 102, 103 »and so on to 108 connected. Every second of these elements is connected to a TOS anti- clamping of differential amplifiers 111, 112, 113 or 114. The output signals of the differential amplifiers 111, 112, 113 and 114 are respectively "given 122, 123 or 124 to the output signals Jn" of Diakriminatoren 121 produce su fl © k tiertn and Anseigeslgnele. The respective output signals of the discriminators 121, 122, 123 and 124 are fed to a common output cycle 130. Accordingly, the display signal is given when an electrical signal is generated by one of the photoelectric conversion elements 41 to 48, each paired with 91 to 98, on the basis of a detection of a change in the incident light. Since the fotoelectric® converter 9 can detect the defect by means of the Llctatattstrahl in the transverse direction

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electrical signals still generate noises if there is no defect »the photoelectric converter 9 has a very high signal-to-noise ratio. On the other hand, the output signal of the photoelectric converter k is associated with a considerable noise level, which is why its rauaoh-

niont

distance is inevitable / high. »Part of the converter 4 always reflects this;» Receives light Lr from the surface of the strip material B. The preamplifier for variable amplitudes 103 bia 108 serve to mix the output signals coming from the fotoeIektriecheη converter 4 with the electrical signals of the photoelectriachen converter 9 after setting, so that the coming from the converter U / not erroneously displayed by the discriminators 121 to 124 v ; ird. Because of the high noise level of the photoelectric converter 9, the mixing of the output signals of the converter 9 with those of the converter 4 does not lead to a reduction in the detection sensitivity of the converter U. By amplifying the output signals coming from the two transducers and 9 by means of the common differential amplifiers 111 to 114, it is possible to receive electrical signals from the output terminal 130 which are of all types. Correspond to defects.

In the embodiment shown in Fig. 9, a strip material 1 is art-driven in a direction indicated by the arrow "a" by means of a drive device (not shown) while it passes over the rollers 2 and 2. If there is a defect, the strip material 1 runs in a certain cylindrical shape over the roll 2 »A narrow light beam LW is emitted by a light beam emitter (right shown), aB« a Qaelaees light source combined with a converging optical device _for around itself close to the surface of the building material * on the part running over roller 2

909848/1014. _BATH

to propagate the tape material over its surface. A photoelectric converter 9 is provided above the path of the light beam IM iefc and consists of photoelectric converter elements arranged close to one another. Below another part of the strip material a light source 3 is provided which extends transversely over the strip material 1 and emits a plate-shaped light stream LF onto the rear side of the strip material 1; and above the strip material 1 in a position opposite the light source 3 near the surface of the strip material 1, a photoelectric converter 4 consisting of photoelectric transducer elements arranged close to one another is provided. A longitudinal defect 8, for example a fold, a protruding cleat or an adhesive substance, does not change the light falling on the transducer elements of the photoelectric transducer 4 sufficiently, and therefore a sufficient signal cannot be generated. In contrast, the defect lying in the longitudinal direction 8 has a pronounced effect on the emitted in the transverse direction to the strip material 1 is narrow beam LW ₁ by intercepting the light beam LW in whole or in part and reflected so that the light is reflected, while the strip material 1 is moved further , whereby the light incident on the closest photoelectric converter element of the photoelectric converter 9 changes and consequently an electrical signal is generated. A display signal is thus obtained from the photoelectric converter 9 according to the method with the light beam running in the transverse direction. A defect located in the transverse direction on the strip material 1, for example a hole or dirt, leads to an impulsive change in the light incident on the transducer elements of the photoelectric transducer M, which is caused by a temporary increase or interruption of a part

9098A5 / 1OU

of the light LP penetrating the strip material 1 is caused when the defect 5 passes under the photoelectric converter 4, and causes an impulsive electrical signal to be generated in the converter h The electrical structure of this embodiment can be arranged in the way it was described in FIG. 8 for the embodiment shown in FIG.

As different from the above description Aueführungsformen be seen, the method and apparatus ^r 5um photoelectric Inspect of BandmaterClien lying in the longitudinal direction of strip materials defects according to the present invention considered to be very useful) as they provide a way such as Palten, protuberances or Adhesive substances to thoroughly determine what has not been possible until now with conventional methods and devices «rare.

909845 / 1QU

Claims (1)

u. Z .: E 200 OMRON TATSISI ELECTRONICS CO. Kyoto city, Japan. Ans ρ r ü ο he IJ device for photoelectric testing of strip material, characterized by at least one light beam transmitter (6) for emitting a partial or limited light beam (LW) which runs in a direction perpendicular to the direction of movement of the strip material (1) and very close to its surface; at least one photoelectric candy (7 »9) for photoelectric« *! Detecting a total or partial reflection of the light reflected from defective parts (8, 81, 82) of the strip material *; and at least one amplifier (101-108) for amplifying the electrical signals coming from the photoelectric converter. 2. Device for photoelectric testing of strip material according to claim 1, characterized in that two Lichtsfcrahlaander (6, 6 ') in opposite positions each close to the longitudinal direction extending edges of the strip material 1 are provided to each one in an adjacent line to the other light beam to emit running narrow light beam (LW; LW '). 90984S / 10U 3. Device for photoelectric testing of strip material according to claim 1, characterized in that at least one (LVM) of the narrow light beams is modulated and that the amplifiers (101-108) are AC amplifiers are" 4. Apparatus for photoelectric testing of strip material according to claim 1, characterized in that ewei Lichtstrahüeender (6, 6 ¹ ) are provided to emit a modulated (LWM) and a non-modulated (LW) narrow light beam, the paths of the light beams tight are side by side, and that the amplifiers are alternating current amplifiers. 5. Apparatus for photoelectric testing of strip material according to claim 1, characterized in that the Photoelectric transducers (7) in the path of the light beam (LW) is arranged so that it catches the light beam (LW), which in a direction perpendicular only direction of movement des BancimateriaJ.8 1 runs close to its surface. 6. Device for photoelectric testing of strip material according to claim 1, characterized in that the photoelectrically © converter {9) is arranged so that it is calibrated in Transverse direction Extends over the width of the strip material 1 and the light beam (LW, LWM, LW *) is between the Band material and the transducer (9) is located. T. device for photoelectric testing of tape material according to claim 6, characterized in that a light source (3) extending in the transverse direction around the tape material in one of the photoelectrically «! Converter (Ί, 9) corresponding position which is arranged opposite one another and the strip material (1) is located between the light source (3) and the converter ( ^if , 9). _Λ , _, _{Λ Λ} „. 9 0 9 8 U 5/1 0 Τ Α §ÄD ORIGINAL «Ο 8. The apparatus for photoelectric testing of strip material according to claim 1, wherein the first light beam emitter from a Laser-LicfrbqueXle and a converging renden optical device, characterized in that the second light source (3) calibrated in transverse, Direction to the strip material (1) extends, the second photoelectric converter (4) calibrated in the transverse direction sum Tape material (i) extends and the reflection of the second light source (3) coming and from the strip material receives reflected light, and that means sum mixing the from the first and second fotoelectrisshen Converter (9, 4) coming electrical signals after setting the same to a suitable amplitude, as well Discriminators (121. - 124) r.ura detecting the mixed Signals and intended to generate error signals are. The apparatus for photoelectronic testing of strip material according to claim 1, wherein the first light beam emanates consists of a laser light source and a converging optical device, characterized in that the »wide light source extends in the transverse direction extends to the strip material, the wide photoelectric Transducer extends transversely to the strip material and receives the light penetrating through the strip material from the second light source, and that means for Mixing the signals coming from the first and second photoelectric converters after setting them to one suitable amplitude, Bowie discriminators (121-124) for capturing the mixed signals and generating Error signals are provided 909845/1014 10. A method for photoelectric testing of strip material, characterized in that at least one sohmaler or limited light beam (LW) is emitted in a direction perpendicular to the direction of movement of the strip material (1) and gana close to its surface and that eire photoelectrically © determination for Detection of reflections of the light beam reflected by defective parts on the strip material is carried out. 909 845 / 1OU