RU2000128149A

RU2000128149A - DEVICE AND METHOD FOR DETECTING LUGGAGE NOT PERMITTED FOR CARRIAGE

Info

Publication number: RU2000128149A
Application number: RU2000128149/28A
Authority: RU
Inventors: Герман РИЗ; Патрисия ШАЛЛ; Франк КОРДЕЗ; Мартин ХАРТИКК
Original assignee: Хайманн Системс Гмбх
Priority date: 1999-11-13
Filing date: 2000-11-13
Publication date: 2002-12-10

Claims

1. A method for detecting unauthorized objects in objects, mainly in baggage, using X-ray, using a detector device with a lower control level, wherein at the lower control level the object is represented in at least a two-dimensional coordinate system, characterized in that a lower step (30.1) control transilluminated, considered unresolved object (6, 7) define and enter into memory a local zone (G _M) in the test object (5) described in the system of coordinates less least two coordinates, the coordinates that describe the position of the local area (G _M), is transmitted to a higher level (30.2) monitoring the detection device (30), and it is then not identified unambiguously object (6, 7) is subjected to a focused direct control, wherein said direct control is carried out using x-ray diffraction analysis.

2. The method according to p. 1, characterized in that one of the coordinates describing the indicated position (Y) is determined using a detector (D _1-n ), which detects a beam of a fan-shaped beam (FX) of x-rays propagating along the corresponding path (a) of the lower control level (30.1), and the second coordinate (X) describing the indicated position is determined based on the data on the initial position (X _AG ) of the conveyor belt recorded when the object (5) arrives at the higher control level (30.2).

3. The method according to p. 1, characterized in that the third coordinate (Z _G ) describing the indicated position is determined using an additional fan-shaped x-ray beam at a lower control level (30.1).

4. The method according to claim 2, characterized in that the electronograph (10) located at the higher control stage (30.2) and position-controlled is direct to the local area (G _M ) described by the lower control stage (30.1) and move along the path (a) of propagation determined at this lower stage (30.1) along the height and, if necessary, to the side, while the scattered radiation (FX ") that arises when an object is detected (6, 7) is converted into an analyzed signal, which is sent for processing and analysis.

5. The method according to p. 3, characterized in that the electronograph (10) located at a higher control stage (30.2) and adjustable in position directs directly to the point (G _M ) described by three coordinates (X _GM , Y _GM , Z _GM ) while scattered radiation (FX ") arising at this point (G _M ) is converted into an analyzed signal, which is sent for processing and analysis.

6. The method according to any one of paragraphs. 1-5, characterized in that on the basis of information about the coordinates within a higher level (30.2) of control, the local location and dimensions of the object (6, 7) in the object (5) are determined.

7. The method according to any one of paragraphs. 4-6, characterized in that, using the detector blocks (21, 22) located inside the electron diffractograph (10), the average value of the atomic nucleus charge of the material of the object is additionally determined (6, 7).

8. A device for detecting unauthorized objects in objects, mainly in baggage, having a detector device with a lower control level, including an X-ray source, a detector unit, as well as a conveyor and a marking unit, while the detection unit and the marking unit are electrically connected to the computer, characterized in that behind the lower control level (30.1) there is a higher (30.2) control level with an electronograph (10), which is made adjustable in position within this eni (30.2) control and electrically connected to the computer (31).

9. The device according to p. 8, characterized in that the electron diffractor (10) has another source (12) of x-ray radiation and a collimation-detector system (11), which is oriented to this source (12) of x-ray radiation and which has the ability to control it height position relative to the x-ray source (12) using appropriate devices (13) and the possibility of synchronously adjusting its lateral position with this x-ray source, for which the x-ray source (12) is emitted I is adapted to sliding movement in the lateral direction by the tool (14), and managing all the said devices (13, 14) by a computer (31).

10. The device according to claim 8 or 9, characterized in that the collimation-detector system (11) consists of a collimator (15) and a detector (16) located behind it, while the collimator (15) has a conically expanding circular slit (18) reproducing a given angle (θ _M ) and oriented to the surface (16.1) of the detector (16) sensitive to x-ray radiation.

11. The device according to p. 10, characterized in that the collimator (15) has a central blind hole (17) in which two detector blocks (21, 22) are sequentially located at a certain distance from each other.

12. The device according to p. 11, characterized in that the first detector unit (21) is made in the form of a detector for a lower one, and the second detector unit (22) is made in the form of a detector for a higher x-ray energy.

13. The device according to claim 11 or 12, characterized in that the collimation-detection system (11) is oriented by the detection unit (21) and the detection unit (22) to the primary beam (FX ') from the x-ray source (12).