AT501020B1 - SORTING DEVICE AND SORTING METHOD FOR PIECE GOODS - Google Patents

Abstract

A loose goods (1) sorting unit has an energy dispersive detector (5) unit (5) with single channel analyser (6) set to the characteristic X ray (4) emission line of a chemical element in the part and producing an analogue signal to control (7) the sorter (8) by comparison with a reference channel (11).

Description

2 AT 501 020 B1

The invention relates to a sorting device and a sorting method for piece goods, which is introduced via a conveyor belt or the like, wherein the piece goods are exposed to X-radiation and emitted from the unit X-ray radiation is measured, the measurement on one or a few characteristic X-ray emission lines of a predetermined 5 chemical element in General cargo is limited, whose radiation intensity is detected with a single-channel measurement and from an analog measurement signal is derived and wherein on the basis of a predetermined threshold value of the analog measurement signal, the sorting process is initiated. From US Pat. No. 6,506,991 B1, for example, a sorting system for various types of waste paper is known, which supplies the pieces of paper with a conveyor belt to an irradiation device. This has two radiation sources, as well as a detector which detects the radiation emanating from the sample. For the radiation source both visible light, infrared radiation and X-rays can be used. Adjusted to the radiation source, the detector can be a simple camera, but also a device with which the wavelength of the emitted measuring radiation can be detected. Depending on the measurement signal detected by the analysis device, for example, an air nozzle is actuated with which the piece goods are conveyed into different containers. 20 Furthermore, from US 3,872,306 a sorting plant for crops is known, with which, for example, potatoes from stones and other impurities can be separated. The mixture of rocks, crops, and soil is fed to a well in which it passes through the radiation field of a radiation source (e.g., X-rays). The different attenuation of the output radiation due to the different material densities is measured and used as a control signal for deflecting elements, which sort out the stones and impurities. The sorting method is suitable only for piece goods with sufficiently different material density or for materials with distinguishable absorption coefficients for the radiation used. From US 5,339,962 a separator for wastes (including polyester and PVC) is known which has an electromagnetic radiation source, for example an X-ray tube, and is based on different absorption values and penetration depths of the radiation used in the different materials. From EP 1 004 367 A2 a complex system for the sorting of plastic waste is known, which inter alia contains a section in the sorting sequence in which the presence of chlorine in the piece goods is used as a criterion for the sorting process. After excitation with a radioactive source, a detector measures the secondary fluorescence radiation, limiting the measurement to the energy range of 2.8 keV. The detector output signal is used to control a sorting device with which the piece goods are sorted with regard to the chlorine content.

WO 02/063286 A2 describes an X-ray fluorescence analyzer with which metals and metal alloys can be investigated. As a radiation site, a radioactive element (243Am) is used and the secondary radiation emanating from the sample is measured. To eliminate the superimposed Rayleigh and Compton radiation, a low energy emission line of the excitation source is used, comparing the intensity of this line with that of a calibration measurement for the pure metal. Furthermore, the detected background radiation over the entire energy range of 12 keV to 20 keV is eliminated, so in WO 02/063286 A2 a complex spectral analysis is applied, which is in contrast to the object underlying the invention, after which the analysis effort is kept low should.

US Pat. No. 4,136,778 A and US Pat. No. 4,848,590 A likewise show sorting methods which utilize the characteristic X-ray secondary radiation of the articles to be sorted, but do not exceed the state of the art disclosed by EP 1 004 367 A2.

The object of the invention is, starting from known sorting and sorting devices to propose improvements that allow sorting material with very similar values 5 for the density of material or similar penetration depth for the ionizing radiation used safely separated even at a rapid throughput, the analysis effort is kept low should.

This object is achieved according to the invention in that at least one reference measured value io is detected in the emission spectrum outside the energy range of the characteristic X-ray emission line with a single-channel measurement and at least one analog reference signal is derived therefrom, wherein the measuring signal is normalized with the aid of the reference signal. The advantage is that a reference measured value in the emission spectrum of the sample outside the energy range of the characteristic X-ray emission line is detected with a single-channel measurement 15 and an analog reference signal is derived therefrom. In the invention, therefore, no complex X-ray fluorescence analysis over a wide spectral range must be carried out, but it is sufficient two single-channel measurements, one at the characteristic emission line and outside this energy range, the ratio of these measurements directly results in the sorting signal. Furthermore, no calibration measurement of a pure material is necessary in the invention. In the separation of PET bottles and vinyl bottles is sufficient, for. the measurement of the intensity of the CI Κα-line and a measurement outside this energy range in order to obtain a clear sorting signal.

It is advantageous if the reference signal is obtained in the region of the anode radiation. 25

A sorting device according to the invention is characterized in that the detector is followed by at least one further single-channel analyzer, which is set to a region outside the energy range of the characteristic X-ray emission line whose analog reference signal is used to normalize the measurement signal. 30

According to an advantageous development of the sorting device according to the invention, a linear sequence of detectors and x-ray sources is provided, which are arranged transversely or obliquely with respect to the direction of movement of the conveyor belt. The invention is explained in more detail below with reference to schematic illustrations and diagrams.

2 shows a detail from FIG. 1 in a schematic illustration, FIG. 3 shows a variant of the sorting device according to the invention in a view transversely to the conveyor belt, FIG. 4 shows the diagram of a measurement result, Fig. 5 shows the spectra of samples with and without chlorine, and Fig. 6 shows a diagram for determining the minimum detection level (MDL) for chlorine. The sorting device for piece goods 1 shown in FIG. 1 has a conveying device (not shown) with a conveyor belt 2, with which the piece goods 1 are moved in the direction of movement 3. The conveyor belt 2 is an X-ray source 4 for exciting the piece goods 1 with X-radiation, and associated with a detection device 5 for detecting the output of the piece goods 1 measuring radiation. The detection device 5 has at least one energy-dispersive detector 5 ', which is followed by a Einkanalanalysator 6, which is set to a characteristic X-ray emission line of a predetermined chemical element in the article 1. The analogue output signal of the single-channel analyzer 6 is fed either directly or via a control and evaluation device 7 to a sorting device 8. The sorting device 8 has a drive 9 for a pivotable flap 10 55, so that upon reaching a predetermined threshold value in the analog measurement signal of

Claims (6)

4 AT 501 020 B1 Sorting process can be triggered. Of course, other known sorting devices can be used, for example, air nozzles, which are controlled by the signal of the control and evaluation device 7. According to FIG. 1, the energy-dispersive detector 5 'is followed by at least one further single-channel analyzer 11, which is set to a region outside the energy range of the characteristic X-ray emission line whose analog reference signal is used to normalize the measurement signal. For example, a ratio signal can be formed in the control and evaluation unit 7 from the measurement signal and the reference signal. According to a specific embodiment variant (FIG. 2), the output signal of the detector 5 'is fed via a preamplifier 12 to a discriminator circuit, which in the example illustrated decomposes the fluorescence spectrum into six energy windows. One of the single-channel measurements is made in the area of the Cl emission line, others in the area of the flanks or the top of the 15 Fe line. The single-channel measurements outside the Cl line are used to standardize the measurement signal. Fig. 3 shows a section of the sorting device transverse to the width b of the conveyor belt 2, wherein in a linear sequence detectors 5 'and X-ray sources 4 are arranged so that the 20 cargo 1 on the conveyor belt 2 as low as possible exposed to radiation exposure to the environment as homogeneously exposed to X-rays can be. In Fig. 4 is shown as a measurement example, the measurement of a vinyl-plastic bottle containing chlorine. In the field of view of the detector field, the bottle generates a Cl signal whose signal height depends on the distance between the measuring spot on the bottle and the detectors, as well as on the different thickness of the material in the neck and bottom area. In comparison, a PET plastic bottle would not generate a signal, so that a sorting process can be initiated due to the analog measurement signal from the detectors. FIG. 5 shows a fluorescence spectrum of a sample with chlorine, as well as a sample without chlorine, wherein the energy in the keV is plotted on the x-axis. The chlorine Ka line is clearly recognizable at 2.6 keV, which is absent in the sample without chlorine (solid line). The peak to the right of the chlorine line comes from the Bremsstrahlung of the X-ray tube. Finally, FIG. 6 shows the attainable detection limit (minimum detection level) for chlorine, whereby an MDL of less than 1% can be achieved. 1st sorting method for piece goods (1), which is introduced via a conveyor belt (2) or the like, wherein the piece goods (1) acted upon by X-rays and the general cargo (1) outgoing X-radiation is measured, the measurement on a or a few characteristic X-ray emission lines of a predetermined chemical element in the article (1) is limited whose radiation intensity is detected with a single-channel measurement and an analog measurement signal is derived therefrom, and the sorting process is initiated on the basis of a predetermined threshold value of the analog measurement signal, characterized in that at least one reference measured value in the emission spectrum outside the energy range of the characteristic X-ray emission line is detected with a single-channel measurement and at least one analog reference signal is derived therefrom, wherein the measuring signal is normalized with the aid of the reference signal. 2. Sorting method according to claim 1, characterized in that the reference signal is obtained in the region 55 of the anode radiation. 5 AT 501 020 B1 3. Sorting method according to claim 1 or 2, characterized in that for the determination of chlorine in the article (1) in a known manner, the intensity of the CI Κα-line is measured. 4. sorting device for piece goods (1) with a conveyor belt (2) having conveying 5 direction for the cargo (1), the conveyor belt (2) associated X-ray source (4) for exciting the piece goods (1) with X-radiation, a detection device (5) for detecting the measuring radiation emitted by the piece goods (1), wherein the detection device (5) has at least one energy-dispersive detector (5 '), which is followed by at least one single-channel analyzer (6), which points to a characteristic X-ray emission line a predetermined chemical element in the article (1) is set, the analog measuring signal if necessary via a control and evaluation device (7) controls a sorting device (8), characterized in that the detector (5 ') at least one further single-channel analyzer ( 11), which is set to a region outside the energy range of the characteristic X-ray emission line, 15 de ssen analog reference signal for normalization of the measurement signal is used. 5. Sorting device according to claim 4, characterized in that a linear sequence of detectors (5 ') and X-ray sources (4) is provided, which is arranged transversely or obliquely with respect to the direction of movement (3) of the conveyor belt (2). 20 6. Sorting apparatus according to claim 4 or 5, characterized in that the set on a characteristic X-ray emission line single-channel analyzer (6) is set to the CI Ka line. 25 For this 3 sheets of drawings 30 35 40 45 50 55