DE102017209062B4 - Detection of dry defects on oiled steel strips using UV light - Google Patents

Abstract

Method for detecting the degree of wetting of both the top and the bottom of a longitudinally moving band of at least one material by irradiating both of the surfaces to be examined continuously and over their entire width with UV light and detecting the radiation reflected or emitted by each of the surfaces by means of at least one sensor each over the entire width of the surface, characterized in that both a UV light source and the at least one sensor are arranged statically both on the top and on the bottom, and the band moves between them past these , wherein the at least one sensor is a camera and the detected image of an oil film is evaluated for drawing conclusions from the detected color values on the layer thickness of the oil film.

Description

Technical field

The present invention relates to a method for detecting the degree of wetting of the surface of a longitudinally moving strip of at least one material by irradiating the surface to be examined over its entire width with UV light and detecting the radiation reflected from the surface by means of a sensor over the entire width the surface, wherein the UV light source and the at least one sensor are fixed to each other and to the moving belt, a corresponding device and the use of this device.

It is known to oil steel strips after they have been manufactured and before they are wound into a so-called coil. This is generally done by continuously spraying the steel strips with oil through two nozzle bars just before winding up on the top and bottom. As additional corrosion protection, the oiling preferably counteracts the premature aging of the material and can be helpful in further processing as a deformation aid when reshaping into corresponding components. The amount of oil on the steel strip is generally 0.3 to 2.0 g / m ² . It is desirable that the oil film is complete over the entire length and width of the belt, ie that the degree of wetting is as high as possible and that there are no dry spots. Furthermore, the oil film should be applied as evenly as possible, ie with the same thickness as possible. It is also important to avoid applying too much oil to the tape. This so-called over-oiling can take place, for example, by the spraying process in the oil machines, in particular over-oiling in the edge areas of the belt is possible.

Methods for monitoring such an oil layer are known from the prior art. In the DE 10 2008 050 598 A1 discloses a system for the detection of media, such as oil, on surfaces. For this purpose, the surface is irradiated with radiation from a radiation source. The reflected radiation is then detected and evaluated with a sensor in order to determine the wetting on the surface. In this method, the radiation source and sensor are arranged to be movable so that they traverse across the surface during the measurement, since a complete detection of the entire area is not possible with this method.

From the US 5,001,353 shows a method and an apparatus with which the thickness of coatings of metal plates is determined, using a highly sensitive TV camera.

Of the JP 2002333310 A A method can be found in which an oil quantity on a band is recorded on one side, for which purpose stroboscopic emitted UV light is used.

In oil machines known to those skilled in the art, it is possible that dry, i.e.. Oil-free, streaks or areas remain. Furthermore, there may be residual emulsions (water-oil mixtures) from the previous work steps on the surface, which lead to undesirable irregularities in the oil layer. With such irregularities, i.e. oil-free areas or irregularly wetted areas are process errors. Such process errors reduce the quality of the surface to be processed and should therefore be avoided.

The object of the present invention is therefore to provide a method by means of which the degree of wetting of the surface of a strip, in particular a steel strip, can be detected in order to be able to recognize whether there is a sufficient film from a medium, in particular an oil film, on the surface. is present. It should be possible to be able to continuously observe a section of a tape across the entire width so that the corresponding information is accessible as quickly as possible. Furthermore, it should be possible that the method can be carried out directly in an oil machine known to the person skilled in the art.

These tasks are solved by the method according to the invention. Furthermore, the tasks are solved by a corresponding device according to the invention and by the use according to the invention.

The present invention therefore relates to a method for detecting the degree of wetting of the surface of a longitudinally moving belt made of at least one material by irradiating the surface to be examined over its entire width with UV light and detecting the radiation reflected from the surface by means of at least one sensor via the the entire width of the surface, the UV light source and the at least one sensor being attached to one another and to the moving belt.

It is essential to the invention that the UV light source and the at least one sensor are attached in a stationary manner to one another and to the moving belt. These features according to the invention result in the advantages that the band moving in the longitudinal direction can be observed continuously and over the entire width. On the one hand, this significantly increases the speed of the method according to the invention compared to methods of the prior art. Furthermore, the The method according to the invention includes the step in which an image of the surface over the entire width must be created from a plurality of individual images, so that it is less prone to errors. Furthermore, there are fewer moving components compared to the prior art, so that overall the maintenance effort and the risk of accidents are significantly reduced.

The method according to the invention determines the degree of wetting of a belt moving in the longitudinal direction from at least one material. According to the invention, the at least one material is preferably metallic surfaces such as steel, aluminum, copper alloys or stainless steel. The material is preferably steel, i. H. According to the invention, the surface of a flat steel product, in particular a steel strip, is preferably determined. The present invention therefore preferably relates to the method according to the invention, the strip consisting of at least one material being a flat steel product, more preferably a steel strip.

The dimensions of the strip to be examined are not critical according to the invention. According to the invention, the width of the band is preferably 550 to 2200 mm and the thickness of the band is 0.4 to 4.0 mm. The present invention therefore preferably relates to the method according to the invention, the width of the band 550 to 2200 mm and the thickness of the band 0. 4 to 4 mm. The length of the band is, for example, 100 to 7000 m. It should be noted that the method according to the invention is preferably carried out continuously, i. H. a very long belt is moved in the longitudinal direction while the method according to the invention is carried out. Therefore, only a section of the total length of the tape is preferably observed with the method according to the invention.

By means of the method according to the invention, it is also possible according to the invention to observe the top and bottom of a wetted band simultaneously, a corresponding device according to the invention having to be attached to the top and bottom.

In a preferred embodiment of the method according to the invention, the moving strip which is observed according to the invention has been obtained by corresponding methods known to the person skilled in the art, for example hot and / or cold rolling. The method according to the invention is preferably carried out after oiling the surface of the steel strip. The method according to the invention is very particularly preferably carried out in an oil machine known to the person skilled in the art directly after oiling the steel strip.

According to the invention, the degree of wetting of the surface is defined as the ratio of the unwetted surface of the belt to the total surface of the belt to be examined. According to the invention, it is preferably detected whether the surface to be examined is completely covered with a medium. A complete covering of the surface with the oil corresponds to a degree of wetting of 1. If there are spots on the surface that are not covered with the medium, the degree of wetting is less than 1. Wetting degrees of less than 1 are undesirable and should be detected by the method according to the invention .

Those skilled in the art designate spots on the surface that are not completely wetted with the medium, in particular an oil, as so-called dry spots. The method according to the invention is preferably used to dry areas, i.e. not completely wetted spots to be detected on the surface of a belt made of at least one material which is moved in the longitudinal direction.

The present invention therefore preferably relates to the method according to the invention, dry spots, i.e. not completely wetted spots on the surface of a belt moving in the longitudinal direction of at least one material are detected.

It is also possible according to the invention that the layer thickness of the medium is determined by the method according to the invention, for example the detected image of the medium film, in particular of the oil film, can be evaluated using suitable software, so that the detected gray or color values allow conclusions to be drawn Allow layer thickness, wherein according to the invention the detected image of the oil film is evaluated for a conclusion from the detected color values on the layer thickness of the oil film.

According to the invention, a medium is preferably understood to mean a liquid which is applied as a film to the surface of the belt. The film thickness is preferably 0.30 μm to 2.5 μm, particularly preferably 0.33 μm to 2.2 μm. Media preferred according to the invention are selected, for example, from hydrophobic media, for example oils, or aqueous compositions, for example emulsions. The medium present on the surface is preferably a hydrophobic medium, preferably an oil.

The present invention therefore preferably relates to the method according to the invention, the surface being wetted with a hydrophobic medium, preferably an oil.

The amount of medium, preferably oil, which is present on the surface is not restricted according to the invention, preferably 0.3 to 2 g / m ^{2 of} the medium, preferably the oil, is present on the surface.

According to the invention, the surface to be examined is irradiated with UV light over its entire width. More preferably, the entire width of the tape is irradiated as evenly as possible with UV light, i.e. the intensity of the UV light preferably differs in individual sections of the width of the band by no more than 5% with respect to the maximum value of the intensity during the measurement.

According to the invention, the surface to be examined is irradiated with UV light, in particular with UV-A light. Therefore, the present invention preferably relates to the method according to the invention, the surface to be examined being irradiated with UV-A light. The radiation type UV-A light preferred according to the invention is known per se to the person skilled in the art. UV-A light has a wavelength of 380 to 315 nm. Suitable radiation sources for UV light, in particular UV-A light, are known to the person skilled in the art, for example UV-LED, in particular UV-A-LED or standard UV lamps, in particular standard UV-A lamps.

According to the invention, the surface to be examined is irradiated with UV light and the radiation reflected or emitted by the surface is then detected by means of at least one sensor over the entire width of the surface. Suitable sensors are known per se to the person skilled in the art, for example photo sensors.

According to the invention, a camera is used. The present invention therefore relates to the method according to the invention, a camera being used as at least one sensor.

According to the invention, the reflected radiation is understood to mean that part of the radiation applied to the surface which is reflected by the medium present on the surface or by the surface. According to the invention, the emitted radiation is understood to mean the radiation which is emitted from the medium present on the surface or from the surface after excitation by irradiation with UV light. According to the invention, this emission is preferably fluorescence.

Fluorescence is known per se to the person skilled in the art. The fluorescence is excited by irradiating the medium present on the surface, for example the oil, with UV light. If this UV light strikes a medium, for example oil, depending on the medium and the amount of medium applied, part of the emitted UV light is absorbed and re-emitted as fluorescence. A sensor that can measure reflected and emitted radiation at the same time is therefore preferably used in the method according to the invention. According to the invention, two sensors can also be used, one being able to detect the reflected and the second the emitted radiation.

According to the invention, the detection of the radiation reflected or emitted by the surface of the band by the at least one sensor is preferably followed by an evaluation of the data obtained. The present invention therefore preferably relates to the method according to the invention, with an evaluation following the detection of the radiation reflected from the surface. Methods for evaluating corresponding data are known to the person skilled in the art and are preferably carried out using appropriate evaluation software. If the method according to the invention determines that the degree of wetting on the surface of the belt is insufficient, i.e. is below a certain predetermined value, for example at least 0.90, preferably at least 0.93, more preferably at least 0.97, a further method step can be initiated, for example stopping the belt and oiling in order to be able to correct the error that has occurred, For example, by rinsing the oil machine, in particular the oil bar in the oil machine, an improvement, ie an increased degree of wetting without dry spots can be obtained.

It is furthermore essential to the invention that the UV light source and the at least one sensor are attached in a stationary manner to one another and to the moving belt. In the context of the present invention, “stationary with respect to one another and to the moving belt” means that UV light source and at least one sensor are attached in such a way that UV light source and at least one sensor are arranged statically and the belt moves past them, prefers to move among them. This feature according to the invention has the advantage that detection with a static measuring arrangement is possible more easily and precisely.

It is preferred that the at least one sensor and the UV light source are mounted on a carrier which is arranged in relation to the moving belt so that the belt can move freely and at the same time it is possible for the entire width of the belt to pass through the UV light source is irradiated and can be observed with the at least one sensor. Methods to fix the UV light source and the at least one sensor on a carrier and to attach them according to the present invention with respect to the moving belt are known to the person skilled in the art. The UV light source and the at least one sensor, more preferably on a common carrier, are preferably attached in the immediate vicinity of the oil machine, preferably directly in the oil machine, so that the method according to the invention is carried out immediately after the application of the medium, in particular the oiling , can be done.

The method according to the invention is further preferably carried out in such a way that a protective housing against extraneous light is present around the UV light source and the at least one sensor. This preferred embodiment has the advantage that the measurement accuracy is significantly increased by the absence of extraneous light.

Another advantage of the method according to the invention is that it can be carried out with significantly less effort in comparison with the methods known from the prior art and is therefore considerably less expensive.

The present invention also relates to a device for detecting the degree of wetting of the surface of a longitudinally moving belt made of at least one material, comprising a UV light source which irradiates the entire width of the belt and at least one sensor which detects the entire width of the surface, wherein the UV light source and the at least one sensor are fixed to one another and to the moving belt. Details and preferred embodiments of the device according to the invention have already been mentioned with regard to the method according to the invention and apply accordingly here.

The device according to the invention is preferably installed in the immediate vicinity of, for example after the oil machine, or directly in an oil machine known to the person skilled in the art. The present invention therefore preferably relates to the device according to the invention, which is attached in the immediate vicinity of, for example after the oil machine, or directly in an oil machine.

The present invention also relates to the use of the device according to the invention for detecting the degree of wetting of the surface of a belt made of at least one material and moved in the longitudinal direction. Details and preferred embodiments of the use according to the invention have already been mentioned with regard to the method according to the invention and apply accordingly here.

Industrial applicability

The method according to the invention and the device according to the invention can advantageously be used in quality control in the oiling of steel strips and in the deformation of oiled steel strips.

Figure list

1. 1 Richtung des Bandlaufs
2. 2 UV-Flächenpaneel
3. 3 Kamera mit UV-Sensor
4. 4 Schutzgehäuse gegen Fremdlicht
5. 5 Stahlband

In 1 A preferred device according to the invention for performing the method according to the invention is shown. The reference symbols have the following meanings:

1. 1 direction of the belt run
2. 2 UV surface panels
3. 3 camera with UV sensor
4. 4 protective housing against extraneous light
5. 5 steel band

Claims (9)

Method for detecting the degree of wetting of both the top and the bottom of a longitudinally moving band of at least one material by irradiating both of the surfaces to be examined continuously and over their entire width with UV light and detecting the radiation reflected or emitted by each of the surfaces by means of at least one sensor each over the entire width of the surface, characterized in that both a UV light source and the at least one sensor are arranged statically both on the top and on the bottom, and the band moves between them past these , wherein the at least one sensor is a camera and the detected image of an oil film is evaluated for a conclusion from the detected color values on the layer thickness of the oil film. Procedure according to Claim 1 , characterized in that the degree of wetting is the ratio of the unwetted surface of the belt to the total examined surface of the belt. Procedure according to one of the Claims 1 or 2nd , characterized in that the band is a flat steel product. Procedure according to one of the Claims 1 to 3rd , characterized in that the surface to be examined is irradiated with UV-A light. Procedure according to one of the Claims 1 to 4th , characterized in that the width of the band is 550 to 2200 mm and the thickness of the band is 0.4 to 4 mm. Procedure according to one of the Claims 1 to 5 , characterized in that dry places, ie not completely wetted places, on the Surface of the belt moving in the longitudinal direction can be detected from at least one material. Device for detecting the degree of wetting of the surface of a longitudinally moving strip made of at least one material, both on the top and on the underside of the steel strip, each comprising a UV light source that continuously irradiates the entire width of the strip and at least one sensor that continuously detects the entire width of the surface to be examined, characterized in that the respective UV light source and the at least one sensor are arranged statically, and the band moves between them, the at least one sensor being a camera and the detected image of an oil film is evaluated for a conclusion from the detected color values on the layer thickness of the oil film. Device after Claim 7 , characterized in that it is mounted in close proximity to or directly in an oil machine. Use of the device after Claim 7 or 8th to detect the degree of wetting of the surface of a belt made of at least one material and moved in the longitudinal direction.

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