DE102011007666A1 - fluorescence control - Google Patents

Abstract

An arrangement and a method for fluorescence control for quality control of organic raw material, such as grain, tea or tobacco, are specified. The organic raw material is to be examined for contamination by oil. For this purpose, its inherent property is used to emit fluorescent radiation when excited by UV radiation. This can be detected without great technical effort, for example by means of a camera. This method can also be used to localize contaminated material.

Description

The invention relates to a device and a method for fluorescence control.

For the production of foods or stimulants from an organic material, such as tea, cereals or tobacco, it is important to check the raw material for contamination, especially oil-based contaminants, before further processing. Oil traces can get into the organic material at the time of harvest by the harvesting machines or during transport. These are z. As to lubricating oils or hydraulic oils that are used in agricultural machinery. But food-harmless oils, such as those used in the machinery of processing companies, are not always safe and should not end up in the final product. If an oil spill is not visible on the organic source material, but on the final product, this represents a risk or at least possible health impairment for the consumer during consumption or consumption. Oils in particular can often have toxic or carcinogenic components or constituents that are higher in a production step Temperature are converted to toxic or carcinogenic oil compounds.

Previously used raw material inspection systems can not distinguish organic substances such as oil from the organic raw material. In particular, so far optical inspection systems have been used which can detect packaging parts, machine parts, insects or also parts of unwanted plants. These inspection systems work on the basis of color and contrast-based image recognition methods.

So far, when identifying an oil spill in an end product, this means that the entire production made in the relevant period of time has to be destroyed and also means a costly cleaning of all machine parts used, which can also lead to economic damage to the manufacturer.

It is an object of the present invention to provide an improved inspection system and an associated inspection method.

The object is achieved by an arrangement according to the patent claim 1. An associated method is specified in claim 10. Further developments of the method and advantageous embodiments of the arrangement are the subject of the dependent claims.

The inventive arrangement is used for fluorescence control of organic raw material. The arrangement comprises a light source, a detector and an evaluation unit. The light source is designed so that it emits suitable electromagnetic radiation, which excites fluorescence in olbasierten contaminants. The arrangement has the advantage that oil-based contaminants can be detected in organic raw material.

In an advantageous embodiment of the invention, the detector of the arrangement is a camera, in particular a color camera. This embodiment has the advantage that a large image information can be recorded.

In a further advantageous embodiment of the invention, the evaluation unit comprises an image evaluation software. Thus, the olbasierten contaminants can be clearly detected in a detection area. In particular, this allows a spatially resolved evaluation.

For example, the image analysis software is designed to identify oil-based contaminants in the organic raw material based on their higher fluorescence intensity. This has the advantage that an automatic contamination control can take place.

In a further advantageous embodiment of the invention, the arrangement comprises a spectral filter which is mounted in front of the detector. In this case, this spectral filter for electromagnetic radiation of wavelength 350 nm to 550 nm is transparent. This can be limited in particular to 400 nm to 450 nm to further improve the measurement. This has the advantage that, in addition to the significant fluorescence radiation, the detector is not yet flooded with ambient light, which would make detection more difficult.

In a particularly advantageous embodiment of the invention, the light source of the arrangement is a UV light source. In particular, the light source is designed so that it emits electromagnetic radiation of a wavelength between 300 nm and 400 nm, preferably from 350 nm to 400 nm. As a UV light source are, for example, particularly UV LEDs or semiconductor lasers in the UV range with different emission wavelengths suitable. This has the advantage that this radiation excites the fluorescence of the organic raw material and the contaminants without itself z. B. contribute in reflection to the disturbing background radiation in the detector.

In a further advantageous embodiment of the invention, the light source is a broadband UV light source. In particular, this light source is designed such that it emits electromagnetic radiation different wavelengths between 300 nm and 400 nm emits. This means that the light source not only emits a wavelength, but that the broadband UV light source with its spectrum between 300 and 400 nm covering such a large energy range that any kind of contamination in this area can excite fluorescence ,

In particular, a plurality of light sources, in particular different wavelengths, can also be included in one arrangement.

To an industrially usable, d. H. To provide long-lasting, effective and quickly switchable on and off light source are preferably UV LEDs or semiconductor lasers used in the UV range.

Conveniently, the assembly also includes an assembly line configured to pass a sample of organic raw material past the light source and past the detector. This has the advantage that the organic raw material can be spread on the assembly line and so on detection of contaminants they can be sorted out directly from the remaining material. For example, then a certain pipeline section is determined on which the contaminated material is present and removes it. The assembly line also allows a high sample throughput. In particular, an arrangement of the detection unit with light source and detector on a conveyor belt for processing or packaging of the raw material is possible.

In the fluorescence control method according to the invention, a sample of organic raw material is irradiated with UV light, which detects fluorescence radiation emanating from the irradiated sample of the organic raw material and evaluates the detected brightness values. This has the advantage that the detection of a contaminated area of organic raw material can be sorted out without having to completely destroy a large amount of sample.

In an advantageous embodiment of the invention, in the method for fluorescence control, the evaluation of the detected brightness values is carried out by means of an image processing program. This has the advantage of being able to work with commercially available sophisticated programs that can process large amounts of data from camera images, in particular color camera images. In particular, an automatic identification of contaminated regions of the organic raw material is possible by means of an image processing program. For example, then an optical or audible warning signal can be sent out.

In a further advantageous embodiment of the invention, in the method the mean value of the fluorescence radiation of the sample of organic raw material is determined and subtracted from all measured pixels, so that the higher intensity of the fluorescence radiation emanating from the oil-based contaminants is significantly visualized.

In a further advantageous embodiment of the invention, in the method with the detector, a first image without UV excitation, d. H. when the light source is off, and a second image taken under UV excitation. The images are subtracted from each other so that the measured intensity is independent of the ambient light.

In a further advantageous embodiment of the invention, only the blue channel of the detector, which is in particular a color camera, is read out in the method. This has the advantage that only the relevant fluorescence light range is passed on to the image evaluation unit.

In a further advantageous embodiment of the invention, a spectrometer for detecting the fluorescence radiation of the sample of organic raw material is used in the method.

Embodiments of the present invention will be described by way of example with reference to FIGS 1 to 3 described the drawing. Showing:

1 a schematic view of the arrangement for fluorescence control,

2 a fluorescence image of pure organic raw material,

3 a fluorescence image of contaminated organic raw material.

1 shows schematically an example of a structure for the detection of Olkontaminanten 20 in organic raw material 10 , As organic raw material 10 are for example tobacco, tea or grain to understand. In these cases, contamination by oil 20 a health hazard to the consumer during consumption or consumption.

The 1 shows first a filing 1 for the organic raw material to be investigated 10 , In this case, a section of a flow or conveyor belt 1 shown on which the organic raw material 10 is spread out and at the detection unit 4 can be moved past. Above the assembly line 1 is the light source 3 , in particular, the UV light source arranged so that these are exactly the area 2 of the assembly line 1 illuminated by the detection unit 4 is detected. The detector 4 is in particular a camera, z. B. a color camera. A favorable realization of the structure is z. B. with a web camera possible. This captures the fluorescence radiation 40 that from the UV light 30 in the organic material 10 as well as in the contaminants 20 is stimulated. Both, the organic raw material 10 as well as the oil 20 , show a fluorescence 60 , The fluorescence intensity 43 of the oil 20 however, is significantly higher than that of the organic raw material 10 , so that an oil contamination 20 can be clearly detected.

The detection area 2 includes the sample amount of organic material 10 in the case of identification of contaminants 20 had to be sorted out. This spatially resolved control thus reduces the loss volume.

The 1 further shows that the camera signal to an evaluation unit 5 is passed on, in particular to a computer, for. B. a PC. There, the evaluation of the camera image is carried out by means of an image processing program. The result of the analysis, for example, on a monitor 6 output and / or by a sensor signal, eg. As an acoustic signal to be supported.

The 3 and 4 show the camera image of a clean sample 10 and a sample with oil spots 20 , In particular, one recognizes in the 3 and 4 the detection area 2 that by the UV radiation 30 for fluorescence 40 is excited. The natural property for fluorescence 42 of organic material 10 stands out from the backlight 41 from. The fluorescence 43 the oil stains 20 however, it is opposite to fluorescence 42 of organic material 10 once again significantly higher and can be localized accordingly with an image processing program. So does not have the entire sample 10 not even the entire detection area 2 but it could be this contaminated area 20 can be removed from the remaining pure sample. This spatially resolved measurement provides a major advantage of the method over spectrometer assays, which are advantageous in identifying the contaminant, but do not allow for spatially resolved measurement.

Claims (15)

Arrangement for the fluorescence control of organic raw material ( 10 ) with - a light source ( 3 ), - a detector ( 4 ) and - an evaluation unit ( 5 ), the light source ( 3 ) is oil-based contaminants ( 20 ) to fluorescence ( 40 ). Arrangement according to claim 1, wherein the detector ( 4 ) is a camera, in particular a color camera. Arrangement according to claim 1 or 2, wherein the evaluation unit ( 5 ) comprises image evaluation software. Arrangement according to one of the preceding claims, wherein the image evaluation software is designed, oil-based contaminants ( 20 ) in the organic raw material ( 10 ) based on their higher fluorescence intensity ( 43 ) to identify. Arrangement according to one of the preceding claims with a spectral filter in front of the detector ( 4 ), the spectral filter for electromagnetic radiation ( 30 ) of wavelength 350 nm to 550 nm, in particular in the range 400 nm to 450 nm is permeable. Arrangement according to one of the preceding claims, wherein the light source ( 3 ) is a UV light source, in particular a UV LED or a UV semiconductor laser, and in particular is configured to emit electromagnetic radiation of a wavelength between 300 nm and 400 nm, in particular between 350 nm and 400 nm. Arrangement according to one of the preceding claims, wherein the light source ( 3 ) is a broadband UV light source and in particular is configured, electromagnetic radiation ( 30 ) of different wavelengths between 300 nm and 400 nm. Arrangement according to one of the preceding claims, wherein a plurality of light sources ( 3 ) are included. Arrangement according to one of the preceding claims, comprising a conveyor belt which is configured as a sample of organic raw material ( 10 ) at the light source ( 3 ) and at the detector ( 4 ) pass by. Method for fluorescence control in which - a sample of organic raw material ( 10 ) with UV light ( 30 ) is irradiated, - the fluorescence radiation ( 40 ) the sample of organic raw material ( 10 ) is detected and - the detected brightness values are evaluated. The method of claim 10, wherein the evaluation of the detected brightness values is performed by means of an image processing program. Method according to one of claims 10 or 11, in which the mean value of the fluorescence radiation ( 40 ) the sample of organic raw material ( 10 ) and subtracted from all measured pixels so that the higher intensity ( 43 ) of fluorescence radiation ( 40 ) derived from the olbasic contaminants ( 20 ), is visualized significantly. Method according to one of claims 10 or 11, in which with the detector ( 4 ) a first image without UV excitation, that is with the light source ( 3 ), and a second image is taken under UV excitation, the images being subtracted from one another such that the measured intensity is independent of ambient light. Method according to one of claims 10 or 11, in which only the blue channel of the detector ( 4 ), which is in particular a color camera, is read out. Method according to one of the preceding claims 10 to 14, in which a spectrometer ( 4 ) for the detection of fluorescence radiation ( 40 ) the sample of organic raw material ( 10 ) is used.

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