KR101303451B1 - Cargo inspection device having plural-energy electron accelerator and plural x-ray detector - Google Patents

Abstract

According to the disclosed cargo inspection apparatus according to the present invention, an electron acceleration unit for generating and accelerating a plurality of electron beams having different energy levels, a guide unit for converting the electron beam accelerated from the electron acceleration unit into an X-ray to guide the object, and the object It includes a detection unit for detecting the X-rays passed, the detection unit is provided with a plurality of three-dimensional detection of the cargo inside the object. According to such a configuration, it is possible to accurately detect the type of cargo inside the object, and to enable three-dimensional detection to improve inspection accuracy.

Description

CARGO INSPECTION DEVICE HAVING PLURAL-ENERGY ELECTRON ACCELERATOR AND PLURAL X-RAY DETECTOR with a multi-energy electron accelerator and a plurality of X-ray detectors

The present invention relates to a cargo inspection apparatus, and more particularly to a cargo inspection apparatus that can improve the inspection accuracy of the cargo through the electron acceleration unit and the plurality of X-ray detection unit for accelerating a plurality of electron beams having different energy size. It is about.

For international safety facilities, such as ports and airports, security screening of cargoes is intensifying for safety reasons. In particular, in recent years, developed countries such as the United States require a search for special nuclear materials as well as explosives in advance.

The inspection of the explosives and nuclear material is a general X-ray screening method. However, the inspection method using the X-ray has a problem that the accuracy of the material type and identification of the cargo loaded in a predetermined storage means such as a container is low. In addition, the inspection method using the X-ray has a disadvantage that the three-dimensional search of the inspected cargo is impossible.

The present invention has been made in view of the above problems, and provides a cargo inspection device having a plurality of energy acceleration and a plurality of X-ray detection unit that can improve the inspection accuracy for the cargo inside the object to be inspected. There is a purpose.

Cargo inspection apparatus according to an embodiment of the present invention for achieving the above object, an electron acceleration unit for generating and accelerating a plurality of electron beams having different energy magnitudes, converting the electron beam accelerated from the electron accelerator to X-rays And a guide unit for guiding the object to the object and a detection unit for detecting the X-ray passing through the object, wherein the detection unit is provided in plural to detect the cargo in the object in three dimensions.

According to one side, the detection unit is arranged in a plurality of parallel to the object.

According to one side, the electron accelerator accelerates the plurality of electron beams having different energy magnitudes alternately.

According to one side, the electron acceleration unit is provided in plurality to accelerate each of the plurality of electron beams having different energy magnitudes.

According to one side, the electron acceleration unit, the first electron acceleration unit for alternately accelerating a plurality of first electron beam having a different energy size, and at least one or more second electron beam of a different energy size than the first electron beam And a second electron accelerator for accelerating.

According to one side, the guide portion, the conversion unit for converting the electron beam generated by the electron accelerator to X-rays (X-ray) and a collimator for guiding the direction of the X-rays emitted to the object, the The converter includes a tungsten target.

An apparatus for inspecting cargo according to an embodiment of the present invention includes an electron accelerator which generates and accelerates a plurality of electron beams having different energy levels, a converter that converts the electron beam accelerated from the electron accelerator into an X-ray, and And a guide unit including a collimator unit for guiding an X-ray to an object to be examined, and a detection unit provided with a plurality of objects for detecting the X-ray passing through the object to detect a cargo inside the object.

According to one side, the electron acceleration unit, a plurality of electron beams having different energy magnitudes are alternately accelerated, or a plurality of electron beams having different energy magnitudes are provided in plurality.

According to one side, the electron acceleration unit, the first electron acceleration unit for alternately accelerating a plurality of first electron beam having a different energy size, and at least one or more second electron beam of a different energy size than the first electron beam And a second electron accelerator for accelerating.

According to one side, the conversion unit includes a tungsten (Tungsten) target.

According to the present invention having the configuration as described above, it is possible to accelerate the inspection of the cargo of the object by accelerating a plurality of electron beams having different energy size, it is possible to improve the inspection accuracy of the cargo, such as metal or organic matter.

In addition, by providing a plurality of detection units, it is possible to grasp the perspective of the cargo provided inside the object to inspect in three dimensions.

1 is a configuration diagram schematically showing a cargo inspection apparatus having a plurality of energy acceleration and a plurality of X-ray detection unit according to an embodiment of the present invention, and
2 is a block diagram schematically illustrating a cargo inspection apparatus having a plurality of energy acceleration and a plurality of X-ray detection unit according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Referring to Figure 1, the cargo inspection apparatus 1 according to a preferred embodiment of the present invention includes an accelerator 10, a guide 20 and a detector 30.

For reference, the cargo inspection apparatus 1 described in the present invention is installed in a facility where international cargoes enter and exit, such as a harbor and / or an airport, and perform inspection on cargo C. In this embodiment, as shown in Figure 1, the cargo inspection apparatus 1 is illustrated as inspecting the cargo (C) inside the predetermined object (O) such as a container.

The electron accelerator 10 generates and accelerates a plurality of electron beams B having different energy magnitudes. Specifically, the electron accelerator 10 alternately generates at least one or more electron beams B having different energy levels.

In the present exemplary embodiment, the electron acceleration unit 10 alternately generates electron beams B having energy of 6MeV and 9MeV. However, the present invention is not necessarily limited thereto, and the electron accelerator 10 sequentially generates an electron beam B having energy of 6MeV, 9MeV, and 15MeV, or alternately generates energy of 6MeV and 15MeV. It is natural that the change can be made in response to various conditions such as alternating generation of the electron beam B.

The guide unit 20 guides the accelerated electron beam B generated from the electron accelerator 10 to the object O. To this end, the guide unit 20 includes a converter 21 and a collimator 22.

The converter 21 converts and emits the electron beam B accelerated by the electron accelerator 10 into X-ray X. The conversion unit 21 includes a tungsten target formed of tungsten having high x-ray generating efficiency and long life.

The collimator 22 adjusts the direction of the X-ray X emitted from the converter 21 to guide the object O. FIG. In this case, the collimator unit 22 includes a slit 23 through which the X-ray X passes, for guiding the X-ray X through. In this case, the slit 23 of the collimator unit 22 faces the object O, whereby the X-ray X passing through the slit 23 is guided to the object O.

The detector 30 detects the X-ray X passing through the object O. Here, the detection unit 30 is provided in plural, three-dimensionally detect the cargo (C) in the object (O). In this embodiment, as illustrated in FIG. 1, the detectors 30 are arranged in a pair in parallel with each other, but the number of the detectors 30 is not limited to that illustrated in FIG. 1.

The inspection operation of the cargo inspection device 1 according to the present invention having the configuration as described above will be described with reference to FIG.

As shown in FIG. 1, the electron beams B having the energy of the size of 6MeV and 9MeV alternately generate an electron accelerator 10 to accelerate the guide 20. The accelerated electron beam B is converted into an X-ray X through the conversion unit 21 of the guide unit 20 and then guided to the object O through the collimator unit 22. The X-ray X passing through the object O is detected by a plurality of detectors 30, that is, a pair of detectors 30.

Here, the cargo C inside the object O is X-rays detected through the object O as the electron beam B having different energy magnitudes is alternately accelerated in the electron accelerator 10. By comparing the energy waveform of X), the kind of cargo C, such as metal C1 or organic substance C2, is examined. In addition, as the X-ray X passing through the object O is detected by the pair of detectors 30, the perspective of the cargo C inside the object O can be acquired to enable a three-dimensional inspection.

2, a cargo inspection apparatus 100 according to another embodiment of the present invention is shown.

Referring to FIG. 2, the cargo inspection apparatus 100 according to another embodiment includes an accelerator 110, a guide 120, and a detector 130, and the cargo inspection apparatus described above with reference to FIG. 1. Similar to 1). However, in the cargo inspection apparatus 100 according to another embodiment, a plurality of electron acceleration units 110 are provided to generate and accelerate electron beams B1 and B2 having different energy levels, respectively.

In another embodiment, the electron accelerator 110 is divided into first and second electron accelerators 111 and 112. Here, the first electron accelerator 111 accelerates by alternately generating the first electron beam B1 having energy of 6MeV and 9MeV, and the second electron accelerator 112 is the first electron beam B1. A second electron beam B2 having an energy of 15 MeV magnitude different from) is generated and accelerated.

For reference, in the present exemplary embodiment, the first electron acceleration part 111 alternately accelerates the first electron beam B1 having one energy magnitude, and the second electron accelerator 112 is one energy magnitude. Although illustrated as accelerating the second electron beam (B2) having, but is not necessarily limited thereto. That is, the first electron acceleration unit 111 accelerates the first electron beam B1 having three or more sizes, or the second electron acceleration unit 112 has the second electron beam B2 having two or more sizes. It is natural that modifications such as accelerating may be possible. In addition, a modification is also possible in which the first electron accelerator 111 accelerates the first electron beam B1 having one energy level.

The electron beams B1 and B2 accelerated through the first and second electron accelerators 111 and 112, respectively, are converted into X-rays X through a pair of guides 120 that face each other, and then the object Guided by (O). In this case, the pair of guides 120 includes a collimator 122 having a converter 121 and a slit 123 as in one embodiment. Since the configuration of the converter 121 and the collimator 122 is the same as the embodiment, a detailed description thereof will be omitted.

The X-rays X converted from the electron beams B1 and B2 having the plurality of energy magnitudes as described above are detected by the plurality of detection units 130 through the object O, whereby the metal C1 inside the object O is detected. ) And the kind of the cargo C such as the organic matter C2 can be inspected in three dimensions.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

1, 100: cargo inspection device 10, 110: electronic accelerator
20, 120: guide 21, 121: converter
22, 122: collimator unit 130: detection unit

Claims (10)

An electron accelerator for generating and accelerating a plurality of electron beams having different energy magnitudes;
A guide unit converting the electron beam accelerated from the electron accelerator into an X-ray and guiding the object to an object; And
A detector configured to detect the X-rays passing through the object, and provide a plurality of the X-rays to three-dimensionally detect a cargo inside the object;
Including;
The electron accelerator accelerates the plurality of electron beams having different energy magnitudes alternately,
The guide unit may include a tungsten target and a converting unit for converting and emitting the electron beam generated by the electron accelerator into an X-ray and a collimator unit for guiding the direction of the emitted X-ray to the object. Cargo inspection device including.
The method of claim 1,
The detection unit is a cargo inspection device arranged in parallel with respect to the object.
delete The method of claim 1,
And a plurality of electron accelerators provided to accelerate the plurality of electron beams having different energy levels.
The method of claim 1,
The electron accelerator further includes a first electron accelerator that alternately accelerates a plurality of first electron beams having different energy levels, and a second that accelerates at least one or more second electron beams having an energy size different from that of the first electron beam. Cargo inspection device including an electronic acceleration.
delete An electron accelerator for generating and accelerating a plurality of electron beams having different energy magnitudes;
A guide including a converter configured to convert the electron beam accelerated from the electron accelerator into an X-ray, and a collimator to guide the X-ray to an object to be inspected; And
A detector configured to detect a load inside the object by detecting a plurality of X-rays passing through the object;
Including;
The electron acceleration unit is provided with a plurality of cargo inspection device to alternately accelerate the plurality of electron beams having different energy magnitudes.
delete The method of claim 7, wherein
The electron accelerator further includes a first electron accelerator that alternately accelerates a plurality of first electron beams having different energy levels, and a second that accelerates at least one or more second electron beams having an energy size different from that of the first electron beam. Cargo inspection device including an electronic acceleration.
The method of claim 7, wherein
The conversion unit is a cargo inspection device comprising a tungsten (Tungsten) target.

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