DE3708843A1 - X-ray testing device - Google Patents

Abstract

X-ray testing device having a high-voltage generating device (4a, b), an X-ray source device (5A, B) which, when a high voltage has been applied by the high-voltage generating device (4a, b), emits X-rays, a detector device (7a, b) which receives the X-rays which have passed through an object to be tested, and which generates an electrical signal which corresponds to the intensity of the received X-rays, an image processing unit (8a, b) for converting the electrical signal into an image signal, a display unit (9a, 9b) for displaying an image which corresponds to the image signal, and a conveying device (3) for conveying the object to be tested to a region between the X-ray source device (5A, 5B) and the detecting device (7a, 7b). The detecting device (7a, 7b) comprises two detectors, each of which is provided with a multiplicity of detector elements which are arranged side by side along each arm of an L-shape, the two detectors (7a, 7b) being arranged such that they envelope the object to be tested. The X-ray source device (5A, 5B) comprises two X-ray tube devices which emit X-rays to each of the L-shaped detectors. The display device (9a, 9b) comprises two displays for displaying the X-ray information which ... by the two L-shaped detectors ... Original abstract incomplete. <IMAGE>

Description

The invention relates to an X-ray test device, which in particular the content of a piece of luggage with X-ray radiate checks by a traveler at an airport or in a port on an airplane or on a ship is taken.

X-ray inspection devices of the type described above are already being used at airports or similar facilities Check the baggage related to X-rays and have proven their ability to avoid hijacking. Such an X-ray test device is so out forms an x-ray source and an x-ray detector on opposite sides of the conveyor tion, for example a conveyor belt or the like Device for transporting the luggage are arranged, so that the baggage carried by it with the X-rays be is shining and those that have passed through the luggage X-rays into an electrical signal through the X-ray radiation detector can be converted. The electrical signal is used in an image processing device of an operating subjected to work and the output signal of the image processing Processing device is on a cathode ray tube device tion displayed in the form of a picture, so that a dangerous Item in a baggage can be checked using the picture.

The conventional design of the X-ray source and X-ray detector, i.e. the way in which the output information is obtained that comes from the X-rays, that are dropped on the luggage will be shown in fol described in detail.  

In order to take an X-ray image, conventionally Two main methods are used:

• 1) In one method, an X-ray source and X-ray detector pair is used and the X-ray source and the X-ray detector are arranged opposite one another, as shown in Fig. 1 of the accompanying drawing.
• 2) In the other method, two pairs of X-ray sources and X-ray detectors are used, the X-ray source and the X-ray detector in each pair being opposed to each other so that X-rays collected in a fan-shaped beam are emitted in two directions (see Fig. 2).

The device, which works according to the first method, consists of an X-ray source 50 , which is arranged in such a way that it emits X-rays in a fan-like manner from a location above a conveyor belt 30 to the conveyor belt 30 , and from an X-ray detector 70 in the form of a line sensor , which is arranged under the conveyor 30 and is provided with a number of linearly aligned devices, each of which consists of a phosphor which can emit light due to the X-rays and a photosensor which converts the light received by the phosphor into an electrical signal converts.

The device that works according to the second method is similar to the device that works according to the first method, but with the exception that the X-rays are emitted by the respective X-ray sources 50 a and 50 b so that the in two directions go the x-rays intersect each other.

The conventional devices described above are included the following difficulties.

The device operating according to the above-mentioned first method is provided with only one pair of X-ray sources and detectors, so that sometimes there is a difficulty in judging an object in a piece of luggage based on the original image. For example, if two elongated objects A and B are present in the luggage, as shown in Fig. 1, the object A is projected in the form of an elongated rod-like object, while the shape of the object B , which extends along the direction of propagation of the X-rays it stretches, is difficult to assess, so that the orientation of the piece of luggage must be changed by 90 ° in order to check it again. In this device, it also inevitably happens that an object to be checked, which is present at a location outside the fan-shaped X-ray beam, can not be checked even if the luggage is arranged over the X-ray detector, so that the size of the luggage is limited to dimensions that are considerably smaller than those of the X-ray detector.

These difficulties in the device that works according to the above-mentioned first method can be partially eliminated by the device that works according to the above-mentioned second method. If an elongated object C in the piece of luggage has such a position that it extends along the fan-shaped x-ray beam of the x-ray source 50 b , as shown in FIG. 2, the shape of the object C can be based on the information from the x-ray source 50 b not judged, but it can, based on the information judged by the way, which is obtained from the X-ray source 50 a.

However, the assessment can only be made in the case in which the object is located on a part where the respective x-rays from the two x-ray sources 50 a and 50 b are present at the same time, while the situation is the same as that after The first method of working device is when the object is outside such a part. In the device operating according to the second method, it is possible to check a larger object compared to the device using the first method, but it is not possible to check the entire area of a rectangle, the adjacent sides of which correspond to two detectors which are arranged in an L-shape.

The invention is therefore intended to describe those described above Difficulties of the conventional devices are eliminated an X-ray test device should and should be created which has a wide test area and with which the shape of an object contained in a piece of luggage that can be safely assessed.

For this purpose, the X-ray test device according to the invention comprises device a high voltage generator device, an X-ray radiation source device, the x-rays on the on insert a high voltage from the high voltage generator emits a detector device that detects the x-rays radiate picks up through an object to be tested passed and passed an electrical signal, that corresponds to the intensity of the recorded X-rays speaks, an image processing device that the electri cal signal converted into an image signal, a display device device that displays an image corresponding to the image signal and a conveyor that holds the object to be inspected to an area between the X-ray source device device and the detector device, and he is  Device according to the invention, characterized in that the Detector device has two detectors, each of which comprises a plurality of detector elements, the side Side along each arm of an L shape, where the two detectors are arranged so that they are to be tested surrounding object that the x-ray source comprises two x-ray tube devices, the x-ray emit radiation to the L-shaped detectors, and that the display device has two displays for displaying the X-ray information includes that of the two L-för detectors is obtained in each case.

The two L-shaped detectors are preferably U-shaped or arranged in the form of a rectangle so that the surrounding the object being examined.

Preferably the two x-ray tube devices are gene arranged in such places that the of each X-ray X-rays emitted by a gene tube tube device, who pass through and pass the object to be inspected, are picked up by detector elements that run along the arms the L-shape of the corresponding detector are arranged.

The following are special with the accompanying drawing described preferred embodiments of the invention in more detail ben. Show it

Fig. 1 a diagram showing the arrangement of an X-ray source and a detector at a ago conventional device,

Fig. 2 a diagram showing the arrangement of the X-Ray lenquellen and detectors in another conventional apparatus,

Fig., In a partially sectioned perspective view of the training processing of an embodiment of the present invention Röntgenstrahlenprüfvorrich 3,

FIG. 4 shows the block diagram of the device shown in FIG. 3,

Fig. 5 in a graph lenquellen the arrangement of the X-Ray and detectors, in the embodiment shown in Fig. 3 means

FIGS. 6 and 7 in each diagrams the arrangement of the X-ray source and the detector in Fig. 4, in which said array is divided into two parts, and

FIGS. 8 and 9 in genstrahlenquellen charts respectively the arrangements of Rönt and detectors in a wide ren embodiment of the invention.

In the following, an exemplary embodiment of the device according to the invention is described with reference to the drawing. Fig. 3 shows the structure of the embodiment of the inventive X-ray test device. This Ausführungsbei game of the X-ray test device according to the invention consists of a conveyor belt 3 for conveying the luggage in a test device housing 1 , which is provided with an X-ray shield, high-voltage generator devices 4 a and 4 b , which apply a high voltage to X-ray tubes, X-ray tube devices 5 A and 5 B , the A direction 5 A is shown only by its focal point 5 a , which are each seen with x-ray tubes and collimators to emit the x-rays in a fan shape, a controller 6 for controlling the start and end of the emission of the x-rays and for controlling the drive of the conveyor belt , X-ray detectors 7 a and 7 b for receiving the X-rays that have passed through the baggage after being sent out by the X-ray tube devices 5 A and 5 B , image processing devices 8 a and 8 b for processing the signals from the X-ray gene beam detectors 7 a and 7 b and for generating image signals as a result of the signal processing in each case and cathode ray tube devices 9 a and 9 b for displaying the image signals in the form of images (see FIG. 4).

The housing 1 of the device is with a protective curtain 10 , which prevents the X-rays at the inlet and at the outlet for the carried baggage, an emergency button switch 11 , which interrupts the entire operation of the device in an emergency, an observation window 12 , the is provided in a side surface of the housing 1 to view the inside, and three position detectors 13 ( Fig. 4) are provided, which are arranged inside the housing 1 to detect the fact that a piece of luggage in a certain position, in which is to start the X-ray exposure and has reached another specific position in which the X-ray exposure is to be ended.

Each of the X-ray detectors 7 a and 7 b in the structure described above is designed so that a plurality of detector elements, for example devices, each of which consists of a phosphor and a photodiode, are arranged side by side along the respective arms of an L-shape, to receive the respective fan-like X-ray beams on two straight lines of the respective arms of the L-shape, which are emitted by the corresponding X-ray tube device 5 A or 5 B. Of the two straight lines, one runs perpendicular to the conveyor belt and the other parallel to it. The two X-ray detectors 7 a and 7 b are attached to the housing 1 of the device so that they are above the conveyor belt 3 and are arranged in the form of an inverted U in the forward direction of the luggage. The arrangement is described in more detail below with reference to FIGS. 5 to 7. Fig. 5 shows the relative position of the respective focal points 5 a and 5 b of the X-ray tube devices 5 A and 5 B , the X-ray detectors 7 a and 7 b and the conveyor belt 3 to each other. The X-ray detectors 7 a and 7 b are arranged in the form of an inverted U above the conveyor belt 3 so that they surround the conveyor belt 3 , so that a rectangular space is limited by the detectors 7 a and 7 b and the conveyor belt 3 . The X-ray tube devices 5 A and 5 B are each arranged opposite the X-ray detector 7 a and 7 b . In each x-ray detector 7 a and 7 b , 512 detector elements are arranged close together in a line. With this arrangement of the sub-arrangements shown in FIGS . 6 and 7, each point of the entire area, which is surrounded by the detectors 7 a and 7 b , can be irradiated with X-rays which emanate in two directions.

Fig. 4 shows the block diagram of the device shown in FIG. 3. The operation of this device is described below with reference to FIG. 4. A piece of luggage 2 is placed on the conveyor belt 3 at the inlet on the left in Fig. 3. The piece of luggage 2 is conveyed to the right by the conveyor belt 3 . If a position detector 13 a determines that the luggage 2 has arrived at the first X-ray detector position (X-ray irradiation start position), which is provided with the X-ray tube device 5 A and the detector 7 a , a command to the high voltage generator device 4 a from the controller 6 transmits conditions so that an output high voltage of the high voltage generator device 4 a is placed on the X-ray tube device 5 A. When the high voltage at the Röntgenstrahlenröh reneinrichtung 5 A is present, are the focus of the X-ray tube 5 a X-rays emitted, the emitted X-rays are bundled bunch to a fan-shaped beams, so that the piece of baggage 2 is irradiated with the fan-shaped X-ray beam. The bundle of X-rays passed through the luggage 2 strikes the X-ray detector 7 a . Each of the 512 detector elements of the X-ray detector 7 a generates an electrical signal in accordance with the intensity of the X-rays falling on the detector element. The electrical signal is directly proportional to the instantaneous amount of X-rays, which passes through a cross section of an object to be inspected in the item of luggage 2 , and is transmitted to the image processing device 8 a in the next stage. In the image processing device 8 a , the electrical signal, which is an analog signal, is subjected to an analog / digital conversion, is subjected to operational or image processing and is then briefly stored in an internal memory as image data. The image processing device 8 a reads the stored image data from the memory while it repeats the above-mentioned instantaneous information formation while the baggage item 2 is being advanced, and converts the read digital image data into an analog image signal, which in turn is transmitted to the cathode ray tube device 9 a . The cathode ray tube device 9 a displays a series of images on the basis of the successively received analog image signals.

On the other hand, a position detector 13 b the fact determines that the piece of baggage 2 lendetektorposition a second X-Ray (X-ray irradiation start position) has been reached, the 5 B and the X-ray detector is provided b 7 to the X-ray tube device, a command from the controller 6 to the high voltage generator means 4 b transmitted and an output high voltage of the high voltage generator device 4 b to the X-ray tube device 5 B is placed. Upon application of the high voltage, the X-ray tube device 5 B emits a fan-shaped X-ray beam to the X-ray detectors 7 B. Upon receipt of the X-ray beam passed through the piece of luggage 2 , the X-ray detector 7 b generates an electrical signal which corresponds to the intensity of the X-rays recorded. The electrical signal is subjected to image processing by the image processing device 8 b and is displayed on the cathode ray tube device 9 b . If the luggage piece 2 has passed a position detector 13 c , the transmission of the X-rays is interrupted.

In the following, details of the arrangement and training of the X-ray tube devices and the X-ray detectors according to the invention will be described. It is assumed that there is in an item of luggage 2 , which is located on the conveyor belt 3 , an elongated object 14 , which extends in the direction of an X-ray beam X ₁ , which is emitted by the X-ray tube device 5 B , as shown in Fig . 5 is illustrated. Then the object is projected b to the X-ray detector 7 14, as shown in Fig. 5, so that only the information on the transverse part of the subject Stan can be obtained 14 from the x-rays that are irradiated onto the object 14. It is difficult to identify the shape of the object 14 on the basis of only the Informa tion, which is obtained from the X-ray detector 7 b. On the other hand, the object 14 is simultaneously projected onto the X-ray detector 7 a , as shown in FIG. 6. The object 14 can be identified as elongated on the basis of the information obtained from the X-ray detector 7 a . That is, the X-ray detector 7 a in this case provides a larger amount of information than the X-ray detector 7 b . It is understood that a common consideration based on the x-ray information from both x-ray detectors 7 a and 7 b is necessary to make the final assessment of the shape of the object more accurate. From Fig. 5 it can be seen that any piece of luggage passing through any position in the area delimited by the x-ray detectors above the conveyor belt 3 can be exposed to x-rays emitted in two directions.

The embodiment of the invention described above can of course be modified in various ways. For example, the two L-shaped x-ray detectors 7 a and 7 b can be arranged in a rectangle, as shown in FIG. 8. The conveyor belt 3 can also be arranged on the bottom of a U-shaped arrangement which is formed from the two L-shaped x-ray detectors 7 a and 7 b , as shown in FIG. 9. However, it should be noted that the identification of the object can be carried out more precisely, the smaller the angle between the two X-ray beams that intersect an object to be tested. This means that the identification of an object can be carried out the more precisely the further the object to be tested is from the conveyor belt in the exemplary embodiments 8 and 9 and the closer the object to be tested comes to the conveyor belt in the exemplary embodiment of FIG. 5. The possibility that an object to be tested comes close to the conveyor belt is very large, so that the arrangement shown in FIG. 5 is therefore preferred.

The various embodiments of the invention have been described to illustrate the case where the x-ray radiation detector device from a combination of two X-ray detectors are made, each of which is L-shaped is trained. However, these embodiments have been only described to illustrate the case in which the X-ray  gene radiation detector device can be easily manufactured can. If the cost of the X-ray detectors is unbe the X-ray beam can therefore be taken into account detector device from any detector element stand as long as they are essentially a U-shape or a Rectangular shape to enclose the object to be checked sen.

In comparison to the modified embodiments of FIGS. 8 and 9, the size of the first embodiment shown in FIG. 5 can be made compact since the X-ray tube devices are arranged below the conveyor belt and the X-ray detectors above the conveyor belt.

As described above, according to the invention there are two L-shaped X-ray detectors U-shaped or in shape of a rectangle arranged so that it is one to be checked Object surrounded on a conveyor, and will be X-rays emitted to the L-shaped detectors so that a rectangular area is created in which the two X-rays bundle each other over the conveyor cut, and thus an identification of the Ge to be tested object can be done safely and even if the testing subject is great since testing on any Can be done in the entire rectangular area.

Claims (6)

1. X-ray test device with a high-voltage generator device, an X-ray source device that emits X-rays upon application of a high voltage from the high-voltage generator device, a detector device that receives the X-rays that have passed through and around the object to be tested, and an electrical one Generated signal that corresponds to the intensity of the recorded X-rays, an image processing device that converts the electrical signal into an image signal, a display device that displays an image that corresponds to the image signal, and a conveyor that converts the object to be inspected into one Conveyed area between the X-ray source device and the detector device, characterized in that the detector device comprises two detectors ( 7 a , 7 b ), each of which is provided with a plurality of detector elements, side by side along each arm of an L-shape are arranged, wherein the two detectors ( 7 a , 7 b ) are arranged so that they enclose the object to be tested ( 2 ), the X-ray source device comprises two X-ray tube devices ( 5 A , 5 B ) which Send out X-rays to the L-shaped detectors ( 7 a , 7 b ), and the display device comprises two displays ( 9 a , 9 b ) that display the x-ray information, each of the two L-shaped detectors ( 7 a , 7 b ) is obtained. 2. Device according to claim 1, characterized in that the two L-shaped detectors ( 7 a , 7 b ) are arranged in a U-shape so that they enclose the object to be tested. 3. Apparatus according to claim 1, characterized in that the two L-shaped detectors ( 7 a , 7 b ) are arranged in the form of a rectangle so that they enclose the object to be tested. 4. The device according to claim 1, characterized in that the two Röntgenstrahlenröhreneinrich obligations (5 A, 5 B) are arranged at such positions that of each X-ray tube device (5 A, 5 B) transmitted and to be tested through the article Gegan Gene X-rays detected by the detector elements who who are arranged in a line along the arms of the L-shape of the respective detector ( 7 a , 7 b ). 5. The device according to claim 1, characterized records that the X-ray source on a Be arranged richly below the surface of the conveyor to which the item to be checked is placed. 6. The device according to claim 1, characterized records that the x-ray source has a package Mator, which out from the X-ray source sent X-rays to a fan-shaped beam del forms.