DE2208372A1 - Device for the determination of defects in thin sheets or foils - Google Patents

Description

"Device for the detection of faults in d'innen Blochen or Foils "The invention relates to a device for determining pitches in thin sheets or foils with one arranged on a width of the foil Light source with one to draw the light onto the surface of the follie and rn-it one on the opposite side of the follie in an orderly light-responsive manner Furnishings.

The invention is essentially seen in the fact that the light appealing facility several laterally shielded from each other, each by one going through a hole in the foil. Beam of light generating a Signal excited light receiving devices and signal processing devices to identify such a fault location urid to distinguish between them Faults tind ron has signals generated by other causes, wherein the signals of each light receiving device independently to determine the position of a Defect are processed at least with respect to the width of the film.

Such a device according to the invention is particularly suitable for Determination of small pores or openings, which follow uniformly as "holes" are referred to, in thin sheets, the z. B. tinplate, galvanized steel, tin-free steel and in particular internal metal foils made of copper, for example, Brass, aluminum or any other opaque strip-shaped material, such as B.

Plastics. The device is particularly useful because where the thin sheets or foils are cut lengthways into strips or bands.

An exemplary embodiment of the invention is described below with reference to FIG Drawing explained.

The device has a control unit 1, the necessary Energy supply devices and controllers for a light source and a light receiving device and includes an electronic detector. With the control unit 1 is an on Production line for the material to be examined - in the present case a self moving foil strip 2 made of brass - arranged transducer connected to the from a lamp housing (not shown) with an overlay over the film strip 2 arranged light source 5 and a scanning housing, also not shown consists, which contains several photoelectron multipliers 4, which are below the to be tested film strip 2 are arranged.

The light source 5 is preferably an ultra-violet fluorescent lamp educated. The device works so that the ultraviolet radiation component of the light that passes through cracks in the film strip 2 and on one Photoelectron multiplier 4 falls, is scanned. Each ray creates a Signal that is processed and used, for example, for counter, memory or to operate other quality control devices, such as alarm devices.

A system of light screens, not shown, prevents both Ambient light as well as directional light a photoelectron multiplier 4 au @ an ege around the edge of the polishing strip 2 is achieved. To incorrect measurements or The light source 3 is also used to further reduce false displays due to ambient light modulated at a frequency that is much higher than normally measured frequencies is. A possible frequency is, for example, travel @ 000 Hz. Every single ray of UV light which passes through a hole in the film strip 2, reaches the scanning housing and then into the receiver circuit through an entry window 6, which is in the present case it is an ultraviolet band-pass filter. The receiver circuit only responds to the modulation frequency. In addition, there are electrical filter devices provided, which together with the optical filters have a good signal-to-noise ratio (signal-to-noise ratio) guarantee.

Between the light source 3 itfl lamp housing and that of the light source facing surface of the film strip 2, a can 7 is arranged to ensure that the rays of the modified UV light are perpendicular to the film strip 2, and to ensure that each light beam only has a single photoelectron multiplier tube 4 reached.

The inlet window 6 of the scanning housing is preferably close to the Surface of the strip of material arranged, advantageously the window consists of a filter, cer nu the selected part of the light spectrum to the receiver circuit can get. Therefore, in the case of using modulated UV light only let this light through to the receiver circuit.

Under the window 6 are a plurality of photoelectron multiplier tubes 4 arranged across the width of the film strip 2, and the entry window 6 for the emitted light contains a narrow one extending in the same direction Slot. The photoelectron multiplier tubes 4 are connected to preamplifiers 8. Signals from voids and the photoelectron multiplier tubes 4 reaching signals are generated, are fed back to the control unit 1, where each signal corresponds to a hole or a crack in the material and each a count of the holes and an indication of their location in terms of the width of the Material causes. This is especially important when the material is in several parallel strips are divided.

That in the box in which the light receiving devices are arranged Incoming light is divided into discrete subsets by means of adjustable partitions 5, which are arranged between the photosensitive elements. Farther Protective screens, light traps or the like are provided that prevent light passes from one light-sensitive unit to another. The foil strip 2 and the partition walls 5 are kept close to the inlet window 6 in order to minimize the visual appearance Dispersion between the photosensitive device or Vorrihhtungen upright to get that used to make different width areas of the strip define.

The signals are processed in the electronic detector and can be counted by appropriate facilities provided that sequential Do not follow each other too closely.

In addition to the activity of simple counting devices or alarm devices, the signal processing detector can be designed so that it has holes of different Size classified and X or counts. This can create a large number of holes or similar defects are determined and counted, either in total and'or in size-dependent groups. Continuous storage of the imperfections is also possible possible, and the device can be equipped with devices for indicating the location of holes be provided in the strip to locate the incorrect length.

It has been found that that emitted from the light source 3 Light is advantageously ultraviolet and of a sufficiently high frequency from Z. B. 8,000 Hz is modulated. The device can, however, also to that effect modified to work with other parts of the spectrum, and frequency modulation can be omitted. The, use of the can 7 to the parallel direction of the light can also be omitted if this turns out to be under special operating conditions should prove desirable.

In a modified embodiment of the invention are edge scanners intended. Preferably these edge sensing devices do not touch the material and serve to light screens or light traps arranged at each edge of the strip to control, by means of which it is prevented that stray light around the edges of the film strip 2 enters the light receiving circuit.

The device can also be connected to the inlet window 6 devices through which the window is kept clean and dust-free. These bodies can, for example, consist of a transparent film strip that is placed over the Entrance window of the detector is running, with the speed at which the strei en runs over the window, can be set to adapt to the operating conditions to reach.

The device is primarily intended for use in longitudinal cutting machines, the device being used to determine the location, size and X or number of holes to be determined in each band into which the film strip 2 is cut, wherein the above-mentioned partition walls 5 in the same position over the width of the strip are arranged like the longitudinal cutting knife. The device can also be equipped with facilities ground out to distinguish between holes and other defects, where such other defects are broken or torn edges can, where the length of the break or tear is used to between to distinguish such cracks and holes.

Test lamps 9 can be provided to ensure the functionality each photoelectron multiplier 4 and its associated circuit check. The test lamps are, for example, argon lamps that are manual or automatic put into operation in order to allow light to pass through a defect in the sheet metal to simulate so that signals.

generated in the associated photoelectron multiplier tubes 4 , whereby the rest of the signal processing equipment is checked, if this should prove necessary. This part of the device can also can be used to troubleshoot a failure or failure of the device.

Claims (13)

Expectations Device for determining imperfections in its metal sheets or Films with a light source arranged on one side of the film with devices to direct the light on the surface of the film and with one on the opposite Side of the film arranged on light-responsive device, characterized in that that the light-responsive device r several laterally shielded from each other, In each case by a light beam passing through a hole in the film (2) Generation of a signal excited light receiving devices and signal processing devices to identify such a fault location and to differentiate between them Faults and signals generated by other causes, the signals Each light receiving device dependent on one another to determine the position of a Defect are processed at least with respect to the width of the film. 2. Apparatus according to claim 1, characterized in that the light source (3) has a UV lamp. 3. Apparatus according to claim 1 or 2, characterized in that the light source (3) with one that differs from ambient light or electrical interference Frequency is modulated. 4. Vor-device according to one of claims 1 to 3, characterized in that that light from the light source (5) only to the corresponding light receiving devices impinging light shields (5) are provided. 5. Device according to response 1 to 4, characterized in that that light traps are provided at the edges of the film (2). 6. Device according to one of claims 1 to 5, characterized in that that between the light source (3) and the surface of the film (2) a light is provided perpendicular to the width of the film on this directing device (7). 7. Device according to one of claims 1 to 6, characterized in that that the light responsive device has an entrance window (() for the light rays has, which is designed as a spectral filter. 8. Device according to one of claims 1 to 7, characterized in that that means for counting the signals generated by defects in the film (2) are provided. 9. Device according to one of claims 1 to 8, characterized in that that partition walls (5) are provided between the individual light receiving devices are to prevent light directed onto a light receiving device is received by another. lo. Device according to claim 9, characterized in that the partition walls (5) are adjustable. 11, device according to one of claims 1 to lo, characterized by means of classifying those generated by defects in the folic (2) Signals according to the size of the flaws. 12. Device according to one of claims 1 to 11, characterized in that that edge scanning devices for controlling light traps on the edges of the film are provided. 13. Device according to one of claims 1 to 12, characterized in that that facilities for cleaning the entry window (6) are provided.