Nonintrusive inspection apparatus

X-ray or gamma ray systems or devices – Specific application – Computerized tomography

Reexamination Certificate

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Details

C378S057000, C378S197000

Reexamination Certificate

active

06707875

ABSTRACT:

BACKGROUND TO THE INVENTION
1.) Field of the Invention
This invention relates to an x-ray technique-based nonintrusive inspection apparatus. An x-ray technique-based nonintrusive inspection apparatus according to the invention may, for example, be used for nonintrusively inspecting closed containers before being loaded into a loading bay of an aircraft, or may include technologies which may find application in other similar or different inspection apparatus.
2.) Discussion of Related Art
Inspection apparatus are commonly used for nonintrusively inspecting luggage and other closed containers before being loaded into a loading bay of an aircraft. Older generation inspection apparatus relied merely on conventional x-ray technology for nonintrusively inspecting closed containers. More recently, inspection apparatus which rely on computer tomography (CT) scanning technology have also been utilized. An inspection apparatus utilizing CT scanning technology is described in U.S. Pat. Nos. 5,182,764 and 5,367,552 by Peschmann et al. which are assigned to the assignee of the present case and which are hereby incorporated by reference.
SUMMARY OF THE INVENTION
The invention provides an x-ray technique-based nonintrusive inspection apparatus which allows for “radiation locking” as will be described in more detail in the description that follows. The inspection apparatus includes loading inspection and unloading tunnel sections, first, second and third conveyor apparatus, an x-ray source, first, second, third and fourth actuation devices, and first, second, third and fourth radiation resistant closure members.
Each tunnel section has a respective first end and a respective second end opposing the first end thereof. The inspection tunnel section is located in line after the loading tunnel section so that the second end of the loading tunnel section is adjacent the first end of the inspection tunnel section. The unloading tunnel section is located in line after the inspection tunnel section so that the second end of the inspection tunnel section is located adjacent the first end of the unloading tunnel section.
The first conveyor apparatus has at least one conveyor belt which is at least partially located within the loading tunnel section and which, upon movement, is capable of moving an object from the first end of the loading tunnel section to the second end of the loading tunnel section. The second conveyor apparatus has at least one conveyor belt which is at least partially located within the inspection tunnel section and which, upon movement, is capable of moving an object from the first end of the inspection tunnel section to the second end of the inspection tunnel section. The third conveyor apparatus has at least one conveyor belt which is at least partially located within the unloading tunnel section and which, upon movement, is capable of moving an object from the first end of the unloading tunnel section to the second end of the unloading tunnel section.
The x-ray source, when operated, creates radiation within the inspection tunnel section.
The first closure member is movable by the first actuation device between an open position wherein the first end of the loading tunnel section is open, and a dosed position wherein the first closure member closes the first end of the loading tunnel section. The second closure member is movable by the second actuation device between an open position wherein the second end of the loading tunnel section is in communication with the first end of the inspection tunnel section to allow for movement of an object from the loading tunnel section to the inspection tunnel section, and a dosed position wherein the second closure member substantially closes off communication between the first and inspection tunnel sections. The third closure member is movable by the third actuation device between an open position wherein the second end of the inspection tunnel section is in communication with the first end of the unloading tunnel section to allow for movement of an object from the inspection tunnel section to the unloading tunnel section, and a closed position wherein the third closure member substantially doses off communication between the second and unloading tunnel sections. The fourth closure member is movable by the fourth actuation device between an open position wherein the second end of the loading tunnel section is open, and a dosed position wherein the fourth closure member closes the second end of the unloading tunnel section.
The inspection apparatus may further include first, second, third and fourth curtain rollers, each being rotatable by a respective one of the actuation devices. The closure members may be curtains and each curtain may be secured to a respective curtain roller so as to be rolled onto or from the curtain roller upon rotation of the curtain roller.
The inspection apparatus may further include a controller which controls power supplied to the respective actuation devices. The controller may be programmed to synchronize the actuation devices so that, at least when the x-ray source creates radiation within the inspection tunnel section, at least one of the first and second closure members is in its respective closed position and at least one of the third and fourth closure members is in its respective dosed position. The controller may turn the radiation source off when both the first and second closure members are not entirely in their respective dosed positions, or when both the third and fourth closure members are not entirely in their respective dosed positions.
The invention also provides a method of nonintrusively inspecting an object in a “radiation locking” manner, utilizing an x-ray technique-based nonintrusive inspection apparatus, that permits x-rays generated in an inspection tunnel section thereof to remain on continuously. A first radiation resistant closure member is moved into an open position wherein a first end of a loading tunnel section is open, while a second radiation resistant closure member is in a closed position wherein it doses a second end of the loading tunnel section opposing the first end of the loading tunnel section. An object is moved through the first end of the loading tunnel section into the loading tunnel section while the second closure member remains in its closed position. The first closure member is then moved into a dosed position wherein the first closure member doses the first end of the first tunnel. After movement of the first closure member into its dosed position, the second closure member is moved into an open position wherein the second end of the loading tunnel section is in communication with a first end of a inspection tunnel section. The object is then moved from the loading tunnel section into the inspection tunnel section. After movement of the object into the inspection tunnel section, the second closure member is moved into its closed position so as to substantially close off communication between the first and inspection tunnel sections. The object is then radiated within the inspection tunnel section.
The confines of the inspection tunnel section may be radiated while the object is moved into the loading tunnel section.
The first closure member may remain in its closed position while the object is moved into the inspection tunnel section. The confines of the inspection tunnel section may be radiated while the object is moved into the inspection tunnel section.
The invention also provides a method of nonintrusively inspecting an object by simultaneously utilizing an x-ray line scanner subsystem and a CT scanner subsystem, in an x-ray technique-based nonintrusive inspection apparatus, which may be in a dose relationship relative to one another. A front portion of the object is first scanned utilizing the x-ray line scanner subsystem. A section within the front portion of the object is scanned utilizing a CT scanner subsystem. A rear portion of the object is then scanned, utilizing the x-ray line scanner subsystem, after the section in the front portion is scanned utiliz

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