DE1962594A1 - Device for scanning sheet or band-shaped, continuous material - Google Patents

Description

Device for scanning curved or band-shaped, continuous Good The invention relates to a device for scanning arcuate or ribbon-shaped, continuous goods, in which the goods are illuminated and through what has passed and / or reflected light hits one or more photoelectric receivers are arranged behind the good in the direction of the emitted light Rod-shaped light guide, which is provided with a slit-shaped aperture Housing is located and a longitudinal strip of fluorescent or light Contains diffuse reflective material and a receiver on one end face is arranged.

In the case of known devices for checking material brackets for errors, like spots, holes, folds, streaks or inclusions, the web is going through one reciprocating light beam scanned in lines. The light beam is through a light source, a condenser lens system, a transmission slit and an optical system are generated and a rotating mirror, a plane and a hollow mirror and a cylinder lens steered onto the track.

The light reflected from the web passes through the same elements back into a receiving slit, which is followed by an optical system and a photomultiplier is. The photomultiplier converts the light fluctuations generated by errors in StroiiEgulso around. Below the track, only the direction of bowing is vertical Arranged in a light guide rod, the transverse to its longitudinal direction on its Surface transmits incident light through total internal reflection in the longitudinal direction. A photomultiplier is located on a face of the light guide rod, which allows the translucent Converts light into current impulses (ZZ-B 17th year (1965) left 21, pages 706-? 11).

The light guide rod can contain a groove in the longitudinal direction, which with a light strongly and diffusely reflective powder is filled. The light guide rod is aligned to incident light so that the light rays initially in the Enter the rod and, after passing through the rod, fall onto the groove. The diffusely reflected Rays hit the rod surface for the most part at angles that are greater than the angle of total reflection. The rays of light can therefore do not leave the bar and are forwarded in its axial direction CDP 1 235 021).

The light guide rod is located in another known device in a housing provided with a cover. The aperture is covered by a filter. The light guide rod has a strip on its side facing the screen a material that fluoresces when light hits it (DAS 1 270 840).

With wide material webs and the associated long light guide rods the light emanating from the end of the rod will oppose that of the photomultiplier is strongly attenuated by absorption and scattering on the surface of the rod. the in the event of defects in the web of material at one end or the other sm the photomultiplier appearing light impulses therefore have great differences in intensity. Although similar errors occur in the material web, occur at the output of the Photomultiplier different sized current pulses. But this is a uniform Evaluation of the errors through the classification following the photomultiplier not possible anymore.

The invention is based on the object of providing a device as described in the introduction mentioned kind so that with identical errors in different places of the material web regardless of the length of the light guide rod Light intensity at the receiver are about the same.

The task is solved according to the invention in that in the longitudinal direction of the strip oraeqte the sound of the incident light and on the width of the strip related light intensity starting from the end face facing the receiver steadily increasing.

By this .measure, the absorption and reflection the surface of the rod resulting losses mainly compensated. At different Incident light of the same intensity along the rod is generated by the photoelectric Receiver of the same type of current impulses. This is a reliable and similar Evaluation of errors by the downstream of the photoelectric receiver Establishment guaranteed.

In a preferred embodiment it is provided that the central axis the slit-shaped screen perpendicular to the direction of movement of the goods passing through and the central axis of the strip is inclined therefrom. The axis of the light guide rod and the center line of the slit-shaped aperture can be in the through the center of the Housing extending plane lie. The distance between the two straight lines is then larger on the end face of the rod facing the recipient than on the other face. With this arrangement, the result is at the individual points in the longitudinal direction of the reflective or fluorescent strip differs depending on the incidence of light Illuminance levels. The light intensity of the strip decreases with incident light different values at these points with the same intensity.

The axis of the light guide rod runs outside of the middle of the housing going level, arise as a result of the lateral displacement of the Strip against the aperture partially covered zones. Result from it different light incidence of the same intensity at different points on the rod Illumination levels across the width of the strip.

The resulting light intensities are therefore also different. The angle of inclination can be adjusted so that the same intensity when incident light occurs at various points along the rod despite absorption and reflection losses the illuminance levels occurring on the photoelectric 1F $ rpiHnger almost match, at An expedient embodiment takes the opening of the diaphragm in the longitudinal direction to. With this embodiment can be in the longitudinal direction of the strip with incidence of light cause a different light intensity in different places.

Differences in illuminance at the photoelectric receiver, that arise from absorption or reflection in the rod can thus be balanced will. The diaphragm can be designed to be adjustable for carrying out the adjustment be.

Another favorable embodiment is that the width of the strip increases in the longitudinal direction. The increase in the stripe width can be adjust to the absorption or reflection losses in the rod.

The one on the photoelectric receiver with incidence of light on different Illuminance occurring in places of the rod often depends in a non-linear manner Disregard the distance to the point of incidence of light. In another expedient Embodiment is the increase in the width of the aperture or the strip executed stronger first and then weaker. The particular advantage of this measure consists in a largely uniform illuminance at the receiver at light of the same intensity incident at different points along the rod.

In another preferred embodiment the strip runs in the longitudinal direction in the manner of a helical line on the surface of the light guide rod. As a result of the inclination, there is a different size on the plane of the aperture projected area of the strip. This results in an equalization of the illuminance on the receiver even with different paths that the light travels in the rod must * This embodiment is particularly advantageous because the inclination is caused by rotation the light guide rod can be adjusted by simple means.

An additional, very favorable embodiment is designed in such a way that that the strip consists of a fluorescent layer and on which the incidence direction of the light opposite side of the rod is arranged0 This embodiment avoids the disadvantage of air inclusions between one a Light guide rod glued bar and the rod. Such air inclusions direct when they are hit by incident light, the rays of light in undesirable Way off.

As a result, irregular ones appear on the photoelectric receiver Fluctuations in illuminance that make it difficult to evaluate the light signals or make it impossible.

Embodiments of the invention are given below with reference to a Drawing shown.

1 shows a section through a scanning device with a adjustable light guide rod, FIG. 2 shows a section along the line I - I of FIG. 1, Fig. 3 shows a light guide rod with a strip, the width of which in the longitudinal direction increases, in plan view, Fig. 4 shows a light guide rod with a strip, the one Has helical slope, in perspective view.

A material web 1 is moved by rollers 2, 3 and runs on one Housing 4 over which the material web 1 faces a slit-shaped screen 5. The screen 5 is arranged perpendicular to the direction of movement of the web 1. Within the housing 4 is a light guide rod 6, one end face 7 with is coated with a reflective layer. On the other end face 8 of the rod 6 a photoelectric receiver, a photomultiplier 9, is attached.

Sleeves 10, 11 concentrically surround the ends of the rod 6. The inner diameter of the sleeves 10, 11 is larger than the outer diameter of the rod 6 in order to have total internal reflection of the light rays falling on the rod surface in the area of the sleeves disturb. The gap between the sleeves 10, 11 and the rod 6 can be threaded through of the sleeves 10, 11 insertedq, unspecified screws maintained will. 8pi * ^ zen 12 of two pins 13 fastened in the wall of the housing 4 grip in diametrically opposed tapered bearings on of the sleeve 10. The sleeve 11 lies on a surface 13 of a fixed in the housing 4 Plate 14 on. A fixed in the wall of the housing 4 pin 15 protrudes with his End a little way into the interior of the housing 4. The axis of the pin 15 runs parallel to the surface 13. About the protruding into the interior of the housing 4 end of the Pin 15 is pushed a spring 16, one end of which is attached to the inner wall of the Housing 4 is supported, while the other end rests against the sleeve 11.

The spring 16 presses the sleeve 11 against a tip of a threaded hole of the housing 4 inserted screw 17, the screw-in depth by a screwed Mother 18 is determined. The axes of the pin 16 and screw 17 are approximate arranged along the same straight line.

By changing the screw-in depth of the screw 17, the sleeve 11 together with the rod 6 moved on the surface 13. The rod 6 rotates around the axis defined by pins 12.

The axis defined by the pins 12 is that through the center the aperture 5 and the housing 4 laid plane. By pivoting the rod 6 to the axes 12 is the central axis of the rod more or less from the through deflected the center of the diaphragm 5 and the housing 4 laid plane. The central axis of the rod 6 therefore changes its inclination towards this plane.

The rod 6 carries on its aperture 5 opposite Side a strip 19 of fluorescent material. On the axis 12 At a certain point, the strip 19 is symmetrical with respect to its width the plane laid through the center of the diaphragm 5 and the housing 4. The stripe 19 takes at the point adjacent to the pin 15 and the screw 17 by adjustment the screw 17 no longer has a symmetrical position in relation to this plane. One side of the The strip 19 is thereby from the aperture 5 against the incident in the aperture 5 Light covered more than the other side.

The aperture 5 can be filled by a filter that only is transparent to light of a limited range of wavelengths.

It is assumed that the holes 20, 21 are located in the web 1. Light 23 coming from a cylindrical lens 43 falls through the hole 20 and arrives after passing through the aperture 5 to the rod 6, - in which it enters. After going through of the rod 6, the light 22 hits the layer 19 and excites it to fluoresce at. This creates light 24 which falls into the interior of the rod 6. The light 24 hits on the surface of the rod 6 at angles which are greater than the angle total reflection. The light is therefore reflected into the inside of the rod and arrives to the end face 8 in front of the photomultiplier 9.

Light 25 falls through the hole 21 and arrives after passing through it the diaphragm 5 to the rod 6, which it traverses up to the layer 19 giving rise to fluorescence is stimulated. This creates light 26 thrown into the interior of the rod 6, which on hits the surface of the rod 6 at angles greater than the angle total reflection. After multiple total reflection on the surface of the rod 6 the light 26 reaches the photomultiplier 9. Due to absorption losses in the rod 6 and reflection losses on the rod surface increases the intensity of the light 26, that travels a longer path in the rod 6 than the light 24, stronger than that Intensity of the light 24. By shifting the strip 19 with respect to the aperture 5 the light intensity of the light 24 arising on the strip 19 can be compared the luminous intensity of the light 26 decrease. This compensates for the absorption and reflection losses of light 26. A corresponding shift of the strip 19 provides the same intensity of light 23 and 25 at the end face 8 approximately matching illuminance levels of the light 24 and 26.

The light guide rod 27 shown in FIG. 3 is at an end face 28 coated with a reflective layer. At the other end face 29 is a Photomultiplier 30 attached. A fluorescent or light diffusely reflective layer 31 increases in width, starting from the end face 29 Dls to the end face 28. The increase in the width of layer 31 is at the end adjacent surface 29 of the rod 27 stronger than at the end facing the surface 28.

In Fig. 4, a light guide rod 32 is shown, which is attached to a End face 33 adjacent end in clamping jaws 34, 35 is not with a designated housing are connected. At the other end 36 of the rod is in front a photomultiplier 37 a square sleeve 38 on the rod 32 raised. In order to avoid light losses at the from the sleeve 38 or the clamping jaws 34, To prevent covered areas of the rod surface, the rod surface can these places be provided with a reflective layer. The rod surface can also be provided with sleeves shown in Fig. 1 and 2, which to form a Space around the rod 32 concentrically.

The sleeve 38 is fastened in clamping jaws 39, 40, which are rigidly connected to a unmarked machine frame are connected. The rod 32 carries a fluorescent one Strip 41 of constant width. The plane of the diaphragm opening is denoted by 42. The rod 32 can be rotated over the square of the sleeve 38. The twist will fixed by tightening the jaws 39, 40. The strip 41 then describes on the circumference of the rod 32 has a dome-shaped path. This is the projection of the area of the strip 41 in the plane of the diaphragm opening 42 on the one adjacent to the face 36 The end is smaller than at the end facing the end face 33. On different parts of the rod 32 are therefore of different sizes to the light falling through the diaphragm Areas on the strip 41 are available. The light intensity is that of the strips 41 in Longitudinal direction with the same intensity of the incident light is therefore different sizes,

Claims (7)

Claims 0 device for scanning arcuate or ribbon-shaped, passing goods, in which the goods are illuminated and through the passed and / or reflected light is applied to one or more photoelectric receivers, with a rod-shaped element arranged behind the material in the direction of the emitted light Light guide, which is in a housing provided with a slit-shaped aperture and a longitudinal strip of fluorescent or diffuse light Contains reflective material and arranged on one end face of a receiver is, characterized in that in the longitudinal direction of the strip (19; 31; 41) the generated by incident light of the same intensity and on the width of the strip related light intensity starting from the end face facing the receiver (9, 3d, 3) (8, 29, 36) increases steadily. 2. Apparatus according to claim 1, characterized in that the central axis of the slit-shaped diaphragm (5) perpendicular to the direction of movement of the continuous Guts (1) arranged and the central axis of the strip (19) inclined with respect to this is. 3. Vorrichtug according to claim 2, characterized in that the opening the aperture increases lengthways. 4. Apparatus according to claim 1, characterized in that the 3rtt of the strip (31.) increases in the longitudinal direction. 5. Apparatus according to claim 3 or 4, characterized in that the increase is strong at first and then weaker. 6. Apparatus according to claim 1, characterized in that the strip (41) in the longitudinal direction in the manner of a helical line on the surface of the rod (: 32) is arranged. 7. Apparatus according to claim 1 or one of the following, characterized in that that the strip consists of a fluorescent layer and that of the direction of incidence of the light opposite side of the rod is attached.