KR20060132469A - X-ray inspection equipment - Google Patents

Abstract

X-ray inspection equipment is provided to remove necessity of a long space by disposing inspection lines from a conveyance direction to a discharge direction in a non-straight manner. X-ray inspection equipment includes a management region(3). The management region is surrounded by a shield wall(6), and has an inlet shield door(5a) and an outlet shield door(5b). An object to be inspected is inspected through an X-ray inspection position(18) in the management region. One of a conveyance direction of the object from the inlet shield door to the management region and a discharge direction of the object from the outlet shield door to the exterior of the management region is disposed on a straight line opposite to a direction in which the object moves along the X-ray inspection position.

Description

X-ray inspection equipment {X-RAY INSPECTION EQUIPMENT}

1 is a plan view showing an X-ray inspection equipment according to Embodiment 1 of the present invention,

FIG. 2 is a schematic cross-sectional view showing the A-A cross section of FIG. 1;

3 is a schematic cross-sectional view showing a cross-sectional view taken along line B-B in FIG. 1;

4 is a schematic cross-sectional view showing a C-C cross section in FIG. 1;

5 is a schematic cross-sectional view showing a D-D cross section of FIG. 1;

6 is a plan view showing an X-ray inspection equipment according to Embodiment 2 of the present invention;

7 is a plan view showing an X-ray inspection equipment according to Embodiment 3 of the present invention;

8 is a side view showing a preferred embodiment of the X-ray inspection method according to the conventional invention,

9 is a perspective view showing an X-ray inspection equipment according to the conventional invention.

Explanation of symbols for the main parts of the drawings

3: management area 5a: entrance side shielded door

5b: Exit side shield door 7: Carry-in / out area

8a: inlet side first movement means 8b: outlet side first movement means

10: pallet 12a, 12b: drive roller

15a: inlet-side second moving means 15b: outlet-side second moving means

20: container vehicle 21: container

25: horizontal bogie

The present invention provides an X-ray inspection facility for irradiating X-rays to the inspected object and inspecting the loaded cargo in the container or the vehicle itself while passing the inspected object such as a vehicle or a vehicle equipped with a container to the X inspection position in the management area. It is about.

Vehicles equipped with containers (hereinafter referred to as "container vehicles") or vehicles (hereinafter referred to as inspectors) as a means of detecting social evil substances such as firearms and drugs hidden in containers or vehicles for import and export cargo, or illegal import / export declaration items. The inspection apparatus which carries in to the X-ray examination position of the management area | region which shielded X-rays, and irradiates X-rays or the like and inspects a to-be-tested object is introduced also in Korea.

This inspection facility can inspect the inside of the container cargo while being mounted on the vehicle, and can inspect the inside of the container without opening or dismantling it even in a large container for ships or automobiles. Therefore, demand is expected to increase gradually in the future.

As an X-ray inspection method which can be used for this purpose, for example, there is an X-ray inspection method according to the conventional invention of FIG. According to this conventional embodiment, in the method for X-ray inspection of the container 33 mounted in the vehicle 32 while the vehicle 32 having the container 33 is passed through the shielding chamber 34, the shielding chamber is provided. A bogie passage 36 is formed below the vehicle passage 35 of 34 in the longitudinal direction thereof.

At the same time, the shielding doors 37a and 37b which are freely opened and closed in the front and rear portions near the center of the vehicle passage 35 and the bogie passage 36 are closed to shield the vehicle passage 35 and the bogie passage 36. The seal 34 is partitioned. The vehicle 32 to which the rail 38 is provided in the trolley | bogie passage 36, and the conveyance trolley 40 which runs freely on the rail 38 is installed, and X-ray inspection should be carried out with the conveyance trolley 40. X-ray inspection is performed by passing the vehicle 32 through the shielding chamber 34 at a constant speed while lifting the wheel 39.

In the X-ray inspection method described above, the vehicle 32 equipped with the container 33 passing through the shielding chamber 34 is used by the X-ray irradiation apparatus 31 provided above the shielding chamber 34. X-rays are irradiated at predetermined intervals at intervals and transmitted X-rays are detected by an X-ray detector 42 provided below the shielded chamber 34. At the same time, it is an X-ray inspection method which performs X-ray inspection from the scanned image of the detected transmission X-ray.

In order to further understand the X-ray inspection according to the conventional embodiment, the flow of the inspection will be described below with reference to FIG. 9, which is a perspective view of the X-ray inspection equipment [Ishikawajima Harima Technical Bulletin]. 43, No. 3, pp. 92-95 (203-5)].

First, in FIG. 9, the driver of the container vehicle 50 entering the entry yard 51 from the right side of the building is the entrance shielding door 53a of the X-ray inspection tunnel (shield) 52. Stop the container vehicle 50 from the front and get off.

Then, the above-mentioned conveying bogie (first conveying bogie) lifts the front wheel part of the vehicle, opens the entrance shielding door 53a, and then automatically opens the inside of the X-ray inspection tunnel 52 at a speed of about 20 m per minute. Drive At the center of the inspection tunnel 52, the container vehicle 50 is once stopped and opened from the first conveying bogie so that the bogie returns to the entry yard. After the inlet-side shielding door 53a is closed, the container vehicle 50 is lifted by the second conveyance bogie at the center of the inspection tunnel 52 to start automatic traveling toward the unloading yard 54.

After a while, X-rays are irradiated to the container of the container vehicle 50 from the horizontal X-ray generator 55a and the vertical X-ray generator 55b, and the horizontal X-ray detector 56a and the vertical X-ray detector 56b. By this, transmission X-rays are detected and image data is collected.

After the X-ray irradiation is finished, the exit side shield door 53b is opened, and the container vehicle 50 is moved to the unloading yard 54. After the container vehicle 50 has moved to the predetermined position of the discharging yard 54, the second conveyance bogie is stopped and opened from the second conveyance bogie, which returns to the center of the inspection tunnel 52 and the exit side shield door. 53b can be closed. In the meantime, the 1st conveyance trolley conveys the next vehicle to the inspection tunnel 52 center part.

First, the driver who once got off in the entry yard 51 passes the dedicated passage and waits at the discharge yard 54. After the exit side shield door 53b is closed, the vehicle 50 is taken back and moved out of the building. Wait at the site's parking lot until the X-ray examination reveals the results. After the X-ray irradiation of one container vehicle is finished, the inspector analyzes the X-ray image data by the computer terminal in the central control inspection room and determines the presence or absence of the illegal article. By repeating the above cycle periodically, the X-ray inspection task is executed.

In the X-ray inspection apparatus according to the conventional embodiment, as shown in FIG. 9, inspection lines from the entry yard of the container vehicle to the inspection tunnel and the discharge yard are arranged in a straight line shape. Therefore, a very long site in the longitudinal direction is required. That is, if the container vehicle includes a zone for entering / exiting the entry and exit yards, the required length in the longitudinal direction of the site is 150 to 200 m.

In addition, as described above, since the inspection lines are arranged in a straight line shape, the irradiated X-rays are primarily reflected to directly reach the inlet-side shielding door and the outlet-side shielding door. Therefore, when these doors are made of iron, a thickness of about 100 mm is required because of X-ray shielding, and the weight is 30 to 40 tons per door.

On the other hand, the standard inspection capability means of this inspection facility is required to be able to inspect 20 container vehicles per hour. From this, the opening and closing time of the shielding door needs to be about 10 seconds, but the drive motor capacity required for opening and closing is several tens of kW due to the weight as described above.

In addition, as described with reference to FIG. 9, the driver of the container vehicle needs to move a long distance to the carrying out area in order to get on the vehicle that has finished the inspection after getting off from the entry area before the inspection. In addition, since the entry side and the exit side are separated through the shielded chamber, it is necessary to arrange monitoring personnel for monitoring the driver on each of the entry side and the export side.

Accordingly, an object of the present invention is to provide an X-ray inspection apparatus for irradiating X-rays and X-rays of an inspected object while passing the inspected object to an X-ray inspection position in a management area having an entrance shield door and an exit shield door. To provide an X-ray inspection system that does not require a long site, the shielding door is lighter, the driver's moving distance is small, and the number of monitoring personnel is reduced.

In order to achieve the above object, the means employed by the X-ray inspection apparatus according to claim 1 of the present invention has a management area surrounded by a shielding wall and having an entrance side shield door and an exit side shield door, An X-ray inspection apparatus in which X-ray inspection is carried out by X-rays irradiated from an X-ray irradiation apparatus while the carried-in inspected object moves an X-ray inspection position in the management area, wherein the inspected object opens the inlet shielding door. At least one of a carrying-in direction carried in into the said management area | region and the carrying-out direction which the said to-be-tested object is taken out of the said management area via the said exit side shield door differs from the direction which the said to-be-tested object moves to the said X-ray inspection position It is characterized by being in a straight line.

Means employed by the X-ray inspection apparatus according to claim 2 of the present invention are that the carry-in direction is in a straight line different from the direction in which the inspected object moves the X-ray inspection position, and is carried in the management area. And said inlet-side moving means for moving the inspected object to a position in which the inspected object moves the X-ray inspection position and to a position entering toward the X-ray inspection position.

Means employed by the X-ray inspection apparatus according to claim 3 of the present invention are that the carrying out direction is on a straight line different from the direction in which the inspected object moves the X-ray inspection position, and the X-ray inspection is completed. It has an exit side moving means which moves a to-be-tested object in the said carrying out direction and to the position which faces the said exit side shielding door. It is characterized by the above-mentioned.

Means employed by the X-ray inspection apparatus according to claim 4 of the present invention are the X-ray inspection apparatus according to any one of claims 1 to 3, wherein the main shielding surrounds the X-ray irradiation apparatus. It has a wall, It is characterized in that at least one of the said entrance side shielding door and the said exit side shielding door is provided in the position which can block the primary reflection X-ray by the said main shielding wall.

Means employed by the X-ray inspection equipment according to claim 5 of the present invention are the X-ray inspection equipment according to any one of claims 1 to 3, which are outside the management area and are different from the entrance side difference. It is characterized by the fact that the driver of the inspected object waits in the vicinity of the closed door and the shielded exit door, and the waiting and monitoring room presided by the monitoring personnel is installed.

The inspection target of the X-ray inspection equipment of the present invention is a container vehicle or a vehicle as described above. However, in the following description, the inspected object is described as a container vehicle for easy understanding.

First, the whole structure of the X-ray inspection apparatus which concerns on Embodiment 1 of this invention is demonstrated below using FIG. 1 which shows the top view.

In FIG. 1, the X-ray inspection apparatus 1 which concerns on this invention is installed in the inspection building 2. As shown in FIG. Reference numeral 3 shows a management area surrounded by the shielding wall 6 in order to block the influence of the X-rays from the outside, and has an inlet-side shielding door 5a and an outlet-side shielding door 5b. . In Fig. 1, the shielding doors 5a and 5b show an open state.

Then, the carry-in direction through which the inspected object is carried into the management area 3 through the entrance side shield door 5a, and the inspected area through the exit side shielded door 5b through the entrance side shield door 5b and the management area 3 ), The carrying out direction is carried out.

Reference numeral 7 is adjacent to the inlet-side shielding door 5a and the outlet-side shielding door 5b of the management area 3, and the carrying-in / out area for carrying the inspected object into the management area 3 and carrying it out after the inspection. To show. The entrance / exit area 7 faces the inlet-side shielding door 5a and the outlet-side shielding door 5b and includes an inlet-side first moving means 8a and an inlet-side second moving means 15a. The outlet movement means which consists of a movement means, the exit side 1st movement means 8b, and the exit side 2nd movement means 15b is arrange | positioned toward the inlet side pivot center 14a and the outlet side pivot center 14b, respectively. .

The drive roller 12a which is rotationally driven by the drive motor 11a is attached to the upper surface of these inlet side 1st movement means 8a and the outlet side 1st movement means 8b. And the pallet 10 is mounted in the upper surface of the drive roller 12a, 12b of either the inlet side 1st movement means 8a or the outlet side 1st movement means 8b.

FIG. 2: is a schematic cross section which shows the A-A cross section in the state in which the pallet 10 which mounted the container vehicle was mounted in the upper surface of the drive roller 12a of the entrance-side 1st moving means 8a. 3 is sectional drawing which shows the B-B cross section of FIG. 1 in the said state.

In FIG. 2 and FIG. 3, the driver drives the container vehicle 20 which consists of the uninspected container 21 and the vehicle 22 which mounted this, and carried in and out of the slope plate 13a shown in FIG. It enters into the area | region 7, and loads on the pallet 10 on the drive roller 12a, and stops. Here, the driver gets off and waits as will be described later.

In addition, in FIG. 1, the untested container vehicle 20 mounted on the pallet 10 has the entrance side first door in the state which opened both the entrance side shield door 5a and the exit side shield door 5b. By rotating the drive roller 12a of the moving means 8a, it is carried in to the management area | region 3 for every pallet 10 via the entrance side shielding door 5a.

In addition, at the same time, the drive vehicle 12b of the exit-side second moving means 15b and the exit-side first moving means 8b, which is loaded on a separate pallet and finished inspection, is described later. By rotation of, it is carried out from the management area 3 to the carry-in / out area 7 via the exit side shielded door 5b.

The container vehicle (not shown) which has been inspected is carried out to the loading / unloading area 7 for each pallet by the drive roller 12b of the exit-side first moving means 8b shown in Figs. As described above, the waiting driver rides on the vehicle again and operates the steel plate to take out the inclined plate 13b and take it out of the carry-in / out area 7.

Thereafter, the pallet 10 on the exit side first moving means 8b is suspended from the driving roller 12b to a predetermined height by a lifting mechanism not shown, which raises the horizontal traverser 25. By the traveling of the horizontal trolley | bogie 25, it is conveyed on the entrance side 1st movement means 8a transversely. The pallet 10 conveyed onto the inlet side first moving means 8a lowers the lateral bogie 25 by the elevating mechanism, and is conveyed onto the drive roller 12a.

The horizontal trolley | bogie 25 is comprised by the endless chain 23, the sprocket 24, the lifting mechanism, and a drive motor (not shown). And in FIG. 3, by rotating the sprocket 24 counterclockwise, it moves to the position of the entrance side 1st movement means 8a in the state suspended on the chain 23. As shown in FIG.

In this way, the pallet 10 for loading the container vehicle 20 can be transferred from the outlet side first transfer means 8b to the inlet side first transfer means 8a by the horizontal bogie 25. The pallet 10 can be reused, so that the required number of pallets can be minimized.

The conveying method of the pallet 10 mentioned above raises the said horizontal trolley | bogie 25 to predetermined height by the elevating mechanism attached to the horizontal trolley | bogie 25, and moves the pallet 10 on the exit side 1st moving means 8b. Although it suspended on the horizontal trolley | bogie 25 and conveyed to the position of the inlet side 1st moving means 8a, it demonstrated as a structure which conveys the pallet 10 by lowering the horizontal trolley 25 to predetermined height, but the said moving means The same effect can be obtained also by providing a lifting mechanism on the side of (8a, 8b).

That is, the said pallet 10 on the exit side 1st movement means 8b is once moved to the horizontal trolley | bogie 25 by the descent | fall of the lifting mechanism which was installed. Then, this pallet 10 is conveyed and moved on the inlet side 1st moving means 8a by the run of this horizontal trolley | bogie 25. Then, as shown in FIG. And the inlet side 1st movement means 8a is raised by the elevating mechanism of the inlet side 1st movement means 8a, and the said pallet 10 is drive roller 12a of the inlet side 1st movement means 8a. Move up.

On the other hand, the management area | region 3 of FIG. 1 is provided with the turning center 14a on the extension line of the arrangement | positioning of the inlet side 1st moving means 8a, and has an uninspected container from the inlet side 1st moving means 8a. The inlet side second moving means 15a for receiving the pallet 10 on which the vehicle 20 is placed is disposed. At the same time, the exit side which includes the pivot center 14b on the extension line of the arrangement | positioning of the exit side 1st moving means 8b, and receives the pallet 10 loaded with the container vehicle which completed the inspection from the relay moving means mentioned later. The second moving means 15b are arranged in parallel.

On the upper surfaces of these inlet-side second moving means 15a and outlet-side second moving means 15b, the drive having the same structure as the above-described inlet-side first moving means 8a and outlet-side first moving means 8b. The rollers 12a and 12b are provided, respectively, and these drive rollers 12a and 12b are rotationally driven by a drive motor, and conveyance of the pallet 10 is carried out by these drive rollers 12a and 12b.

Then, the inlet-side second moving means 15a receives the pallet 10 on which the container vehicle 20 is uninspected, and the outlet-side second moving means 15b receives the finished container vehicle ( When 20 is guided to the exit-side first moving means 8b of the carry-in / out area 7, these inlet-side second moving means 15a and the exit-side second moving means 15b are respectively With the pivot centers 14a and 14b as the center, it rotates to the position which becomes a linear form with the to-be-tested object moving direction in the X-ray inspection position 18 mentioned later.

That is, when viewed from above the surface of FIG. 1, the inlet-side second moving means 15a is rotated clockwise around the pivot center 14a, and the outlet-side second moving means 15b is the pivot center 14b. In the counterclockwise rotation about the X-ray inspection position 18 to be described later. The 2nd moving means 15b becomes a linear form.

In addition, the driving roller 12c has an upper surface at the X-ray inspection position 18 between the pivot centers 14a and 14b of the inlet-side second moving means 15a and the outlet-side second moving means 15b. The relay moving means 19 arranged in the front side is provided, and the said inlet side 2nd moving means 15a and the exit side 2nd moving means 15b sandwich this relay movement means 19 after completion | finish of turning mentioned above. Left in a straight line.

Next, the swing mechanism of the inlet-side second moving means 15a and the outlet-side second moving means 15b will be described. As shown in FIG. 1, one of the swing mechanisms of the inlet-side second moving means 15a is located on the bottom surface in the management area 3 at a position away from the swing center 14a. The track 17a which has the radius of curvature centered on this is provided.

4 is a cross-sectional view showing a C-C plane of the inlet-side second moving means 15a of FIG. And as shown in FIG. 4, the wheel 16a driven by the drive device which does not show on the said track 17a rotates, and the said inlet side 2nd moving means 15a is turning center 14a. Move around the center.

As for the swinging mechanism of the outlet-side second moving means 15b, only the point in which the turning direction is reverse is different from the inlet-side second moving means 15a, and the other mechanism is the inlet-side second moving means 15a described above. Since it is the same as the turning mechanism, the description is omitted.

As described above, the inlet-side second moving means 15a and the outlet-side second moving means 17b have a straight line with the X-ray inspection position 18 (the relay moving means 19) interposed therebetween. When the drive rollers 12a, 12c, 12b are provided on the inlet second moving means 15a, the relay moving means 18 and the outlet second moving means 15b, The pallet 10 on which the container vehicle 20 is loaded is sequentially moved from the inlet-side second moving means 15a to the outlet-side second moving means 15b via the relay moving means 18.

FIG. 5 is a cross-sectional view illustrating a D-D cross section of FIG. 1. In FIG. 5, the inlet side 2nd moving means 15a and the outlet side 2nd moving means 15b show the previous state which performs turning as mentioned above.

Reference numeral X ₂ in the figure shows a vertical X-ray irradiation apparatus, moves on the pallet 10 by mounting the drive roller 12c of the relay moving means 18 on the pallet vehicle 20. In order to inspect the inside of the container 21, it arrange | positions so that the X-ray of a vertical direction may be irradiated. The vertical X-ray detection device D ₂ detects the X-rays in the vertical direction transmitted through the container 21.

Similarly, the horizontal X-ray irradiation device (X _1), and move not be loaded to the drive roller (12c) of the relay transfer means 18 to the pallet 10, the vehicle 20 of the container as shown in Fig. 1 It is arrange | positioned so that the X-ray of a horizontal direction may be irradiated toward the container 21 mounted in the inside. And, is configured to detect the X-rays, transmitted through the container 21, the horizontal direction by the horizontal X-ray detection device (D _1).

1 and 5, the main shielding surrounds these horizontal and vertical X-ray irradiation apparatuses X ₁ and X ₂ and the horizontal and vertical X-ray detection apparatuses D ₁ and D ₂ . The walls 4 are three-dimensionally constructed to prevent leakage of X-rays to the outside. The main shield wall 4 is a horizontal and vertical X-ray irradiation apparatus (X ₁ , X ₂ ), the horizontal X and vertical X-rays irradiated toward the container 21 at least the entrance side shielding door (5a) And primary reflection on the exit shielding door 5b.

That is, by constructing the main shielding wall 4 as shown in FIG. 1, at least the entrance-side shielding door 5a and the exit-side shielding door 5b are disposed in an angle α at which the primary reflected X-rays are not reflected. It is molest. The main shielding wall 4 is usually made of concrete or iron, but by the configuration as described above, since the primary reflected X-rays do not reach, the thickness of both of these shielding doors 5a and 5b can be reduced.

Moreover, the weight of the said shielding door 5a, 5b becomes light, and the motor capacity which drives these opening and closing can also be made small. In addition, the shielding doors 5a and 5b on the inlet side and the outlet side are arranged in close proximity, and the weight reduction of these shielding doors 5a and 5b enables common driving motors.

In addition, the X-ray irradiation apparatuses X ₁ and X ₂ used for this purpose can usually use a high-energy electron ray accelerator, and the acceleration energy can use the thing of the capacity | capacitance of 9 MeV (megaelectron volts) normally. As the X-ray detection apparatuses D ₁ and D ₂ , those in which a scintillator for exchanging X-rays with light are in close contact with the surface of a photodiode can be used. The transmission X-rays detected by the X-ray detection apparatus are converted into electrical signals, and are transmitted to an image processing apparatus (not shown).

In addition, in FIG. 1, the container vehicle 20 which finished inspection by X-ray irradiation at the X-ray inspection position 18 (relay moving means 19) while loading and moving on the pallet 10 is an exit side. The movement to the second moving means 15b is completed. Then, the exit second moving means 15b, along with the inlet second moving means 15a, are rotated at the same time as the turning positions 14b and 14a to the original positions (positions in Fig. 1), both of which were arranged in parallel at the same time. Turn around.

When the turning is completed, the inlet side shielding door 5a and the outlet side shielding door 5b are opened, and the inspected container vehicle 20 is the drive roller 12b of the outlet side second moving means 15b. It is led to the exit side 1st movement means 8b of the loading / unloading area 7 for every pallet by the rotation of. At the same time, the pallet in which the untested container vehicle 20 waited on the inlet side first moving means 8a is guided to the inlet side second moving means 15a of the management area 3.

As described above, since the entire inspection line reaching the export direction from the carry-in direction through the X-ray inspection position is not a straight line but the X-ray inspection facility is configured as a reciprocating inspection line, the length corresponding to the inspection building is 50 to It was possible to shorten it to about 60m and no longer site was needed.

In addition, the driver of the container vehicle loads the unchecked container vehicle 20 on the pallet 10 of the first moving means 8a on the inlet side of the loading-in / out area 7 and then gets off and shows the result shown in FIG. 3. It enters into the waiting and monitoring room 26, and waits until an inspection is complete | finished and is led to the exit side 1st moving means 8b of the loading-in / out area 7 by it. Then, when the inspection of the container vehicle 20 is finished and brought out to the exit-side first moving means 8b, the driver rides again on the container vehicle 20 after the inspection and drives the steel plate to drive the inclined plate 13b. It is carried out outside the sea-loading / exporting area 7.

Such an atmosphere / monitoring room 26 has an entrance-side shielding door 5a between the inlet-side first movement means 8a and the outlet-side first movement means 8b of the carry-in / out area 7 as shown in FIG. 3. ) And the exit side shield door 5b are installed at the upper position of the horizontal trolley 25 so as not to interfere with the pallet 10 carried by the horizontal trolley 25. That is, this waiting / monitoring room 26 is not built by the support | pillar supported from the floor, but it is necessary to support by the girders of the up-down direction of the ground of FIG. 1, or to hang it from the ceiling of the building 2 Do.

In addition, the monitoring personnel who monitor these drivers can also reside in this waiting / monitoring room 26 and monitor the situation. At this time, since the driver always waits in this waiting / monitoring room 26, one monitoring agent can fully respond.

By repeating the inspection cycle as described above, the X-ray inspection of the container 21 can be executed sequentially without time loss.

As mentioned above, in Embodiment 1 of this invention, the entrance side shielding door 5a and the exit side shielding door 5b are simultaneously opened and closed, and the pallet 10 of the container vehicle 20 to the management area 3 is mounted. Although embodiment which carries out import / export is shown at the same time, the opening-closing time of the former both doors 5a and 5b does not necessarily need to be simultaneous.

In addition, the inlet second moving means 15a receives the pallet 10 on which the untested container vehicle 20 is loaded, and the container vehicle 20 on which the outlet second moving means 15b has completed the inspection is loaded. Although the embodiment which takes in the pallet 10 which were made into the said 2nd moving means 15a and the exit side 2nd moving means 15b at the same time was shown, turning of the former both moving means 15a and 15b is shown. Does not necessarily need to be concurrent.

Moreover, it consists of the entry line comprised by the said inlet side 1st movement means 8a and the inlet side 2nd movement means 15a, and the said outlet side 1st movement means 8b, and the outlet side 2nd movement means 15b. In the arrangement | positioning before the said inlet side and the outlet side 2nd moving means 15a, 15b turn, it does not necessarily need to arrange in parallel, as shown in FIG. 1, in the situation of the site to be installed. In addition, both lines may be comprised in arbitrary directions rather than a straight line.

In addition, X-ray detection device for detecting the X-ray to X-ray irradiation unit and transmitted through the X-ray irradiating in order to check the container vehicle 20 is horizontal and the second direction in the vertical X-ray irradiation device (X _1, X ₂ ) and the X-ray detection apparatuses D ₁ and D ₂ , which are illustrated in the embodiment, the inspection from two horizontal and vertical directions is not necessarily required.

That is, as long as it is perpendicular to the inspection object moving direction in the X-ray inspection position 18, an apparatus capable of X-ray irradiation and detection from any two directions may be provided. In some cases, an inspection from two directions is not necessarily required, and an apparatus capable of X-ray irradiation and detection from any one direction perpendicular to the moving direction of the inspection object may be provided.

Moreover, as an apparatus for conveying the mounted pallet 10 of the said container vehicle 20, the inlet side and the outlet side 1st movement means 8a, 8b which fixed the drive roller on the upper surface, the relay movement means 18, Although the inlet side and the outlet side second moving means 15a and 15b were used, a conveyor function such as a belt conveyor or a chain conveyor may be used instead of these moving means. In this case, the pallet 10 is not necessarily essential, and the inspection object may be directly mounted on the conveyor and conveyed.

Moreover, in Embodiment 1 of this invention, although the form which comprised the relay movement means 19 in the X-ray inspection position 18 was shown, the upper end of each of the said inlet side and the outlet side 2nd movement means 15a, 15b, respectively. By extending the surface to an appropriate length above the pivot centers 14a and 14b, the turning of the inlet and outlet side second moving means 15a and 15b is completed and both moving means 15a and 15b are examined by the X-ray. When the straight line is formed with the position 18 therebetween, the upper surfaces of the moving means 15a and 15b may face each other. In other words, the relay moving means 19 is unnecessary by this configuration.

In the above, the effect of the X-ray inspection equipment which concerns on Embodiment 1 of this invention which irradiates an X-ray to a to-be-tested object and performs an X-ray inspection to be described as a provision is as follows.

(1) A reciprocating line which is different from the direction in which the inspected object moves from the carry-in / out area to the management area, and the carry-out direction in which the inspected object is taken out of the management area, is different from the direction in which the inspected object moves the X-ray inspection position. As a result, long site became unnecessary.

(2) Since the main shielding wall is configured to prevent reflection of the primary reflection X-rays to at least the inlet shielding door and the outlet shielding door, the thickness of the shielding door can be reduced.

(3) In addition, the door weight is lighter, and the motor capacity for driving the door can be reduced, and the shielding doors on the inlet side and the outlet side are close to each other, so that the driving motor can be used in common.

(4) Since the pallet mounting the container vehicle can be returned from the exit first moving means to the inlet first moving means by the horizontal bogie, the pallet can be reused and the number of required pallets can be kept to a minimum. .

(5) Since the waiting / monitoring chamber is provided above the horizontal trolley between the exit first moving means and the entrance first moving means, the container vehicle driver can wait in this room without moving from the inspection start to the inspection end.

⑥ Furthermore, as monitoring place became one place, monitoring agent became available in one.

Next, the whole structure of the X-ray inspection apparatus which concerns on Embodiment 2 of this invention is demonstrated below using FIG. 6 which shows the typical top view. Since Embodiment 2 of this invention differs from the said Embodiment 1 from the relationship of the site to install, there is a main difference in the relative arrangement structure of an import direction and an export direction, and since it is almost the same structure other than that, it is the same as that of Embodiment 1 The same reference numerals are assigned to the same elements, and the description of the differences will no longer be given.

That is, in FIG. 6, the carrying out line is arrange | positioned in the reverse direction instead of parallel direction with respect to an entry line, and is a big difference with Embodiment 1. Specifically, about the center of the X-ray inspection position 18, the entry line consisting of the inlet-side first moving means 8a and the inlet-side second moving means 15a is rotated 180 degrees to a position of rotational symmetry. The carry-out line which consists of an exit side 1st movement means 8b and an outlet side 2nd movement means 15b is arrange | positioned, respectively.

In addition to the above, the track 17a for the inlet-side second moving means 15a is placed on the track 17b for the outlet-side second moving means 15b, and the management area 3a and the carry-in / out area (on the inlet side) The building to be added 7a) and the building to be added to the management area 3b and the loading / unloading area 7b on the exit side are disposed at positions of rotational symmetry rotated by 180 °, respectively. Another difference is that, in FIG. 6, there is no horizontal truck 25 and the waiting and monitoring chamber 26.

However, an area surrounded by the main shielding wall 4 in which the X-ray irradiation apparatuses X ₁ and X ₂ and the X-ray detection apparatuses D ₁ and D ₂ are provided is not different from FIG. 1. In addition, as shown in FIG. 6, the exit side shielding door 5b is arrange | positioned in the range of the angle (beta) which at least a primary reflection X-ray does not reflect.

Therefore, if the effect of the X-ray inspection apparatus which concerns on Embodiment 2 of this invention is described as a provision, although it is somewhat less than the effect of the X-ray inspection apparatus of Embodiment 1 mentioned above, it is as follows.

(1) Since the carry-in direction and carry-out direction leading to the X-ray inspection position became a rotationally symmetric inspection line centering on the X-ray inspection position, the direction toward the site having the deformed shape as shown in FIG.

(2) The thickness of the said shielding door can be made thin by making the main shielding wall the structure which prevents the 1st reflected X-ray to at least an entrance side shielding door and an exit side shielding door.

(3) In addition, the door weight becomes lighter, and the motor capacity for driving this can be made smaller.

Next, the whole structure of the X-ray inspection apparatus which concerns on Embodiment 3 of this invention is demonstrated below using FIG. 7 which shows the schematic top view. Where Embodiment 3 of this invention differs from the said Embodiment 1, the carrying out direction is linear in the same direction as the inspection object moving direction of the X-ray inspection position 18 (relay moving means 19) from the relationship of the site to install. There is a difference in the point of fixed arrangement, and since it is almost the same structure other than that, the same code | symbol is attached | subjected to the same thing as the said Embodiment 1, and the description about the difference is no longer given.

That is, in FIG. 7, the said carrying out direction which consists of the exit side 1st movement means 8b and the exit side 2nd movement means 15b is located in the X-ray inspection position 18 (relay movement means 18). The point of being fixedly arranged in a straight line in the same direction as the inspection object moving direction in is a great difference from the first embodiment. As a result, the track 17b for the exit second moving means 15b becomes unnecessary, the absence of the horizontal trolley | bogie 25 and the waiting and monitoring chamber 26, and the exit side shielding door 5b are at least 1st order. It is different from Embodiment 1 mentioned above that arrange | positioning out of the range of the angle (alpha) and (beta) which a reflected X-ray does not reflect.

Therefore, when the effect of the X-ray inspection apparatus which concerns on Embodiment 3 of this invention is described as a provision, although it is less than the effect of the X-ray inspection apparatus of Embodiment 1 mentioned above, it is as follows.

(1) Since the carrying out direction is fixedly arranged in a straight line in the same direction as the inspection object moving direction in which the X-ray inspection position can be placed, it is headed toward an L-shaped site as shown in FIG.

(2) The thickness of the entrance-side shielding door can be reduced by setting the main shielding wall to at least block the primary reflected X-rays to the entrance-side shielding door.

(3) In addition, the door weight at the entrance becomes lighter, and the motor capacity for driving the door can be made smaller.

In addition, in the said Embodiment 1-Embodiment 3 which concerns on this invention, as shown in FIG. 1, FIG. 6, and FIG. 7, the carrying direction of the to-be-tested object is X-ray inspection position 18 (relay movement). Although the embodiment arrange | positioned at right angle or a straight line with respect to the to-be-tested object moving direction in the means 19 is shown, it does not limit to arrange | positioning in a right angle or a straight line form, but both are in the X-ray inspection position 18. FIG. It can arrange | position to arbitrary angle with respect to the to-be-tested object moving direction.

However, the inlet-side second moving means 15a and the outlet-side second moving means 15b are arranged in a straight line with respect to the inspection object moving direction at the X-ray inspection position 18 (relay moving means 19). If not, when the inspected object is brought into the X-ray inspection position 18 and undergoes X-ray examination, at least one of the inlet-side second moving means 15a and the outlet-side second moving means 15b is It is necessary to set it as the structure which moves to the position to which the to-be-tested object movement direction and a linear form in the X-ray inspection position 18 are. The movement of the inlet side and outlet side moving means 15a, 15b is not limited to the turning movement, but includes arbitrary movements such as other parallel movement.

According to the X-ray inspection apparatus according to claim 1 of the present invention, a carrying-in direction in which the inspected object is carried into the management area via the inlet shielding door, and the inspected object is passed through the outlet shielding door. At least one of the carrying out directions to be carried out of the management area is on a straight line different from the direction in which the inspected object moves the X-ray inspection position, so that all inspection lines that reach the X-ray inspection position and the carrying out direction from the carry-in direction, It is not necessary to make one linear line, and long site is unnecessary.

Further, according to the X-ray inspection apparatus according to claim 2 of the present invention, the carry-in direction is on a straight line different from the direction in which the inspected object moves the X-ray inspection position, and is carried in the management area. Since the inspection object was specifically determined to have an inlet-side movement means for moving the inspected object in a direction in which the inspected object moves the X-ray inspection position and to a position entering toward the X-ray inspection position, the inspected object is The structure which carried in to an X-ray inspection position was specified.

Moreover, according to the X-ray inspection apparatus of Claim 3 of this invention, the test | inspection which the said carrying out direction is in a straight line different from the direction to which the said inspection object moves the said X-ray inspection position, and the X-ray inspection is complete | finished Since it was specifically determined by the structure which has an exit side moving means which moves a thing to the said carrying out direction and to the position which faces the said exit side shielding door, it carries out the said to-be-tested object which finished X-ray inspection from an X-ray inspection position. The composition was specified.

Moreover, according to the X-ray inspection apparatus of Claim 4 of this invention, it has a main shielding wall surrounding the said X-ray irradiation apparatus, and at least one of the said entrance side shielding door and the said exit side shielding door is a primary reflection. Since the provided X-rays are provided at a position where the main shielding wall can be blocked, the thickness of the shielding door which can block the primary reflected X-rays can be reduced, resulting in a light weight of the door.

Moreover, according to the X-ray inspection apparatus of Claim 5 of this invention, the driver of a test object waits in the position outside of the said management area and in the vicinity of the said entrance side shield door and the exit side shield door, and a monitoring agent presides. Since the waiting and monitoring room is set up, the driver of a container vehicle or a vehicle can wait in this room without moving from the start of the inspection to the end of the inspection. And since monitoring place became one place, monitoring person became available in one person.

Claims (5)

X, which is surrounded by a shielding wall and has a management area having an inlet shield door and an outlet shield door, wherein an inspected object carried in the management area moves an X-ray inspection position within the management area. In X-ray inspection equipment which is inspected by X-rays, At least one of a carrying-in direction in which the inspected object is carried into the management area through the entrance side shield door and at least one of a carrying direction in which the inspected object is taken out of the management area through the exit side shielded door is the test object. Characterized in that it is on a straight line different from the direction of moving the X-ray inspection position X-ray inspection equipment. The method of claim 1, The carry-in direction is on a straight line different from the direction in which the inspected object moves the X-ray inspection position and the direction in which the inspected object moves the X-ray inspection position to the inspected object carried in the management area. And an entrance side moving means for moving to the position entering toward the X-ray inspection position. X-ray inspection equipment. The method of claim 1, The said carrying out direction exists in the straight line different from the direction to which the said to-be-tested object moves the said X-ray inspection position, and is a position which faces to the said exit side shielding door the said to-be-tested object in which the X-ray inspection was completed, in the said carrying out direction Characterized by having an outlet-side moving means for moving to X-ray inspection equipment. The method according to any one of claims 1 to 3, It has a main shielding wall surrounding the said X-ray irradiation apparatus, At least one of the said entrance side shielding door and the said exit side shielding door is installed in the position which can block the reflection of a primary reflection X-ray by the said main shielding wall. Characterized X-ray inspection equipment. The method according to any one of claims 1 to 3, In the position outside of the said management area and in the vicinity of the said entrance side shield door and the exit side shield door, the driver of a to-be-tested object waits and the waiting and monitoring room which a monitoring agent presides is provided, It is characterized by the above-mentioned. X-ray inspection equipment.

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