JP2012211898A - Flat panel imager for x-ray detector and method for disposing module - Google Patents

Abstract

PROBLEM TO BE SOLVED: To miniaturize an X-ray detector without requesting a remodeling of designs of existing data module and scanning module.SOLUTION: The flat panel imager for X-ray detectors includes a data module and a scanning module. A first part of the data module is disposed at one side of the flat panel imager, and a second part of the data module is disposed at an opposite side of the first part of the data module. A first part of the scanning module is disposed at one side of the residual sides of the flat panel imager and a second part of the scanning module is disposed at the opposite side of the first part of the scanning module.

Description

  The present invention relates to flat panel imagers for x-ray detectors, and in particular to module placement in flat panel imagers for x-ray detectors.

  A prior art arrangement of data modules and scanning modules in a flat panel imager for an X-ray detector is shown, for example, in FIG. In general, the data module 200 is disposed on one side of the flat panel imager 100 via a flexible circuit board, and the scanning module 300 is disposed on an adjacent side of the flat panel imager. As a result, the data module 200 and the scanning module 300 overlap at the corners of the flat panel imager as shown in FIG. A larger space is required to avoid overlapping modules.

  Therefore, a new module arrangement in a flat panel imager for an X-ray detector that prevents the modules from overlapping at any corner of the flat panel imager when folded and placed in the detector envelope. There is a need to provide.

  The object of the present invention addresses the deficiencies present in the related prior art by providing a flat panel imager for x-ray detectors and a method for placing modules in a flat panel imager for x-ray detectors. In particular, the data module and the scanning module are not folded at any corner of the flat panel imager when folded simultaneously into the detector envelope. To achieve this purpose, the present invention uses the following technical solution.

  According to a first aspect of the first embodiment of the present invention, a flat panel imager for an X-ray detector including a data module and a scanning module is disclosed, wherein a first portion of the data module is a flat module. Placed on one side of the panel imager, the second part of the data module is placed on the opposite side of the first part of the data module, and the first part of the scanning module is on the remaining side of the flat panel imager And the second part of the scanning module is arranged on the opposite side of the first part of the scanning module.

  According to one aspect, the respective portions of both the data module and the scanning module are disposed adjacent to the same azimuth end of each side of the flat panel imager. Optionally, respective portions of both the data module and the scan module are disposed adjacent to the left edge of each side of the flat panel imager. Alternatively, respective portions of both the data module and the scanning module are disposed adjacent to the right edge of each side of the flat panel imager.

  According to another aspect, the respective portions of both the data module and the scanning module are arranged such that the data module and the scanning module are spaced from the end of each side of the flat panel imager. Is done. Preferably, the respective parts of both the data module and the scanning module are arranged in the middle of each side of the flat panel imager.

  According to yet another aspect, each portion of the data module and the scan module includes the same number of modules.

  According to a second embodiment, the present invention provides an X-ray detector including a flat panel imager according to the first embodiment of the present invention.

  According to a third embodiment of the present invention, there is provided a method of placing a data module and a scanning module on a flat panel imager for an X-ray detector, the method comprising a first part of the data module. Disposing a flat panel imager on one side, disposing a second portion of the data module on the opposite side of the first portion of the data module; and a first portion of the scanning module on the flat panel imager. Disposing on one of the remaining sides of the imager and disposing a second portion of the scanning module on the opposite side of the first portion of the scanning module.

  According to one aspect, the respective portions of both the data module and the scanning module are disposed adjacent to the same azimuth end of each side of the flat panel imager. Optionally, respective portions of both the data module and the scan module are disposed adjacent to the left edge of each side of the flat panel imager. Alternatively, respective portions of both the data module and the scanning module are disposed adjacent to the right edge of each side of the flat panel imager.

  According to another aspect, the respective portions of both the data module and the scanning module are arranged such that the data module and the scanning module are spaced from the end of each side of the flat panel imager. Is done. Preferably, the respective parts of both the data module and the scanning module are arranged in the middle of each side of the flat panel imager.

  According to yet another aspect, each portion of the data module and the scan module includes the same number of modules.

  By using the flat panel imager and module arrangement method of the X-ray detector proposed in the present invention, the size of the X-ray detector can be further reduced, and the existing data module and scanning module can be reduced. No modification to the design is required.

  Hereinafter, the present invention will be described in more detail with reference to the drawings. In the drawings, similar or similar elements are denoted by similar reference numerals.

FIG. 2 shows overlapping modules present with a prior art flat panel imager of an X-ray detector. FIG. 2 shows a flat panel imager for an X-ray detector according to one embodiment of the invention. FIG. 2 shows a flat panel imager for an X-ray detector according to an embodiment of the invention placed on the detector envelope.

  FIG. 2 illustrates a flat panel imager 100 for an X-ray detector according to one embodiment of the present invention. The flat panel imager 100 includes a plurality of data modules 200 and a plurality of scanning modules 300. Data module 200 is divided into two parts. The first portion is disposed on one side of the flat panel imager 100 and the second portion is disposed on the opposite side of the first portion. Similarly, the scanning module 300 is also divided into two parts. The first part is located on one of the remaining sides of the flat panel imager and the second part is located on the opposite side of the first part.

  In one aspect of the invention, the respective portions of both the data module 200 and the scanning module 300 are located at the same azimuth end of each side of the flat panel imager 100, as shown in FIG. For example, they are arranged adjacent to the left end of each side in the same orientation. Similarly, these portions may be disposed adjacent to the right edge of each side of the flat panel imager 100 in the same orientation.

  According to another aspect of the invention, the respective portions of the data module 200 and the scanning module 300 are spaced from the end (either the left end or the right end) of each side of the flat panel imager. It is arranged. Preferably, the respective portions of both the data module 200 and the scanning module 300 are disposed in the middle of each side of the flat panel imager 100.

  More preferably, in one aspect of this embodiment, each portion of data module 200 and scan module 300 includes the same number of modules. For example, both parts of the data module 200 include four data modules. Similarly, as shown in FIG. 2, both portions of scanning module 300 include four scanning modules.

  When placed in a flat panel imager 100 for an X-ray detector as proposed in the present invention, the data module 200 and the scanning module 300 are folded at the same time as shown in FIG. Even when they are stored in the cover 400, they do not overlap each other. Further, by using the module arrangement proposed in the present invention, the X-ray detector can be manufactured in a small size, and there is no need to modify the design of existing data modules and scanning modules.

  The flat panel imager 100 according to this embodiment of the invention can be applied to various X-ray detectors in a manner readily conceived by those skilled in the art. Therefore, the details of this viewpoint are omitted.

  According to another embodiment, the present invention provides a method of placing a data module and a scanning module in a flat panel imager for an x-ray detector. The method includes disposing a first portion of the data module on one side of the flat panel imager and disposing the second portion of the data module on the opposite side of the first portion of the data module; Disposing the first portion of the scanning module on one of the remaining sides of the flat panel imager and disposing the second portion of the scanning module on the opposite side of the first portion of the scanning module; Contains.

  Preferably, in one aspect of the invention, the respective portions of the data module and the scanning module are located at the same azimuth end of each side of the flat panel imager, e.g. Located adjacent to the right edge.

  In another aspect of the invention, the respective portions of the data module and the scanning module are arranged to be spaced from the end (either the left end or the right end) of each side of the flat panel imager. The Preferably, the respective parts of the data module and the scanning module are arranged in the middle of each side of the flat panel imager.

  More preferably, in one aspect, each portion of the data module and the scan module includes the same number of modules.

  However, while the foregoing description has set forth numerous features and advantages of the present invention, the present disclosure is illustrative only. Those skilled in the art will appreciate that various modifications and equivalent substitutions may be made within the scope of the principles of the present invention, and that these modifications and equivalent substitutions are also included within the scope of the present invention. Also, the terms “left” and “right” as used in the specification and claims should be regarded as illustrative only and not limiting. Furthermore, the above “one embodiment” and “another embodiment” are considered to represent various embodiments, and these embodiments are incorporated in whole or in part into one embodiment. It goes without saying that it can be done.

100: Flat panel imager 200: Data module 300: Scan module 400: Detector envelope

Claims (15)

  A flat panel imager for an X-ray detector comprising a data module and a scanning module, wherein a first portion of the data module is disposed on one side of the flat panel imager, A second portion is disposed on the opposite side of the first portion of the data module, and a first portion of the scanning module is disposed on one of the remaining sides of the flat panel imager, A flat panel imager in which a second part of the module is arranged opposite the first part of the scanning module.   The flat portion for an X-ray detector according to claim 1, wherein each portion of the data module and the scanning module is disposed adjacent to the same azimuth end of each side of the flat panel imager. Panel imager.   The flat panel for an X-ray detector according to claim 2, wherein each portion of the data module and the scanning module is disposed adjacent to the left edge of each side of the flat panel imager. Imager.   3. The flat panel for an X-ray detector according to claim 2, wherein each portion of the data module and the scanning module is disposed adjacent to the right edge of each side of the flat panel imager. Imager.   The respective portions of the data module and the scanning module are arranged such that the data module and the scanning module are spaced from the end of each side of the flat panel imager. A flat panel imager for the X-ray detector described in 1.   6. The flat panel for an X-ray detector according to claim 5, wherein respective portions of both the data module and the scanning module are arranged in the middle of each side of the flat panel imager. Imager.   The flat panel imager for an X-ray detector according to any one of claims 1 to 6, wherein each portion of the data module and the scanning module includes the same number of modules.   An X-ray detector comprising the flat panel imager according to any one of claims 1 to 4. A method of placing a data module and a scanning module on a flat panel imager for an x-ray detector comprising:
Disposing a first portion of the data module on one side of the flat panel imager and disposing a second portion of the data module on the opposite side of the first portion of the data module; When,
A first portion of the scanning module is disposed on one of the remaining sides of the flat panel imager, and a second portion of the scanning module is disposed on the opposite side of the first portion of the scanning module. And a step comprising:   The method of claim 9, wherein each portion of the data module and the scanning module is disposed adjacent to the same azimuthal end of each side of the flat panel imager.   The method of claim 10, wherein respective portions of the data module and the scanning module are disposed adjacent to the left edge of each side of the flat panel imager.   The method of claim 10, wherein respective portions of the data module and the scanning module are disposed adjacent to the right edge of each side of the flat panel imager.   The respective portions of the data module and the scanning module are arranged such that the data module and the scanning module are spaced from the end of each side of the flat panel imager. The method described in 1.   14. The method of claim 13, wherein respective portions of the data module and the scanning module are disposed in the middle of each side of the flat panel imager.   15. A method according to any one of claims 9 to 14, wherein each portion of the data module and the scanning module includes the same number of modules.