Air cross grids for X-ray imaging

US 6,075,840 A
Filed: 02/10/1998
Issued: 06/13/2000
Est. Priority Date: 05/09/1995
Status: Expired due to Term

First Claim

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1. An air cross grid shaped as a flat panel having a length and width to be interposed between an image receptor and an object in the path of an a radiation bean traveling from a radiation source to the image receptor, absorbing scattered secondary radiation while transmitting primary radiation traveling from the radiation source toward the image receptor, the grid comprising:

a first plurality of closely spaced partition walls generally parallel to each other and arrayed across the width of the flat panel,a second plurality of closely-spaced partition walls generally parallel to each other and arrayed across the length of the flat panel in a direction substantially transverse to the first partition walls,said transverse pluralities of partition walls intersecting each other at a plurality of cross junctions and defining between themselves a plurality of independent open air passages extending completely through the thickness of said flat panel, said panel comprising a stacked plurality of metallic foil sheets bonded together forming a laminated integral stack,each foil sheet having a plurality of air passage openings extending therethrough defined by intersecting partition segments positioned to comprise the portions of said partition walls formed by that foil sheet,the partition segments in each foil sheet being substantially aligned with the partition segments of the adjacent foil sheet in said stack at a focal point centrally located near one edge of said panel, and slightly offset in progressively increasing misalignment at progressively greater distances from said focal point,said open air passages having central axes generally perpendicular to said panel and all converging at a radiation source focus positioned on a line perpendicular to said panel passing through said focal point thereon,whereby said bonded foil sheets form a sturdy, rigid air cross grid panel presenting said plurality of unobstructed open independent air passages all having central axes converging at said source focus and said air passages thus all transmit therethrough primary radiation from said source focus to said image receptor without substantial attenuation, while the intersecting metallic partition walls bounding said air passages absorb scattered secondary radiation traveling along paths not parallel to said converging central axes.

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Abstract

Air cross grids, for absorbing scattered secondary radiation and improving radiation imaging in general radiography and in mammography, are provided with a large plurality of open air passages extending through each grid panel. These passages are defined by two large pluralities of substantially parallel partition walls, respectively extending transverse to each other. Each grid panel is made by laminating a plurality of thin metal foil sheets photo-etched to create through openings defined by partition segments. The etched sheets are aligned and bonded to form the laminated grid panel, which is moved edgewise during the radiation exposure to pass primary radiation through the air passages while absorbing scattered secondary radiation arriving along slanted paths.

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14 Claims

1. An air cross grid shaped as a flat panel having a length and width to be interposed between an image receptor and an object in the path of an a radiation bean traveling from a radiation source to the image receptor, absorbing scattered secondary radiation while transmitting primary radiation traveling from the radiation source toward the image receptor, the grid comprising:
- a first plurality of closely spaced partition walls generally parallel to each other and arrayed across the width of the flat panel,a second plurality of closely-spaced partition walls generally parallel to each other and arrayed across the length of the flat panel in a direction substantially transverse to the first partition walls,said transverse pluralities of partition walls intersecting each other at a plurality of cross junctions and defining between themselves a plurality of independent open air passages extending completely through the thickness of said flat panel, said panel comprising a stacked plurality of metallic foil sheets bonded together forming a laminated integral stack,each foil sheet having a plurality of air passage openings extending therethrough defined by intersecting partition segments positioned to comprise the portions of said partition walls formed by that foil sheet,the partition segments in each foil sheet being substantially aligned with the partition segments of the adjacent foil sheet in said stack at a focal point centrally located near one edge of said panel, and slightly offset in progressively increasing misalignment at progressively greater distances from said focal point,said open air passages having central axes generally perpendicular to said panel and all converging at a radiation source focus positioned on a line perpendicular to said panel passing through said focal point thereon,whereby said bonded foil sheets form a sturdy, rigid air cross grid panel presenting said plurality of unobstructed open independent air passages all having central axes converging at said source focus and said air passages thus all transmit therethrough primary radiation from said source focus to said image receptor without substantial attenuation, while the intersecting metallic partition walls bounding said air passages absorb scattered secondary radiation traveling along paths not parallel to said converging central axes.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The air cross grid defined in claim 1, wherein each of the partition walls has a wall thickness between about five percent (5%) and about ten percent (10%) of the minimum dimension of each of the open air passages, measured in the plane of the grid.
  - 3. The air cross grid defined in claim 1 wherein each of the partition walls has a wall thickness of at least seven percent (7%) of the minimum dimension of each of the open air passages measured in the plane of the grid.
  - 4. The air cross grid defined in claim 1 wherein the minimum dimension of each of the open air passages measured in the plane of the grid is between about fifteen percent (15%) and about thirty-five percent (35%) of the overall thickness of the air cross grid panel.
  - 5. The air cross grid defined in claim 1 wherein the minimum dimension of each of the open air passages measured in the plane of the grid is no greater than twenty-five percent (25%) of the overall thickness of the air cross grid panel.
  - 6. The air cross grid defined in claim 1 wherein the partition segments in each foil sheet are slantingly aligned by progressively greater angular amounts at progressively greater distances from said focal point, said partition segments thereby lying in planes substantially parallel to the converging central axes of the adjacent open air passages flanking each said segment, whereby said slight offset misalignments between partition segments of adjacent foil sheets are minimized.
  - 7. The air cross grid defined in claim 1 wherein the metallic foil sheets are formed of a beryllium-copper alloy having a thickness of about 0.004 inches.
  - 8. The air cross grid defined in claim 7 wherein the overall grid thickness is between about 0.050 inches and about 0.100 inches.
  - 9. The air cross grid defined in claim 7 wherein the overall grid thickness does not exceed 0.080 inches.
  - 10. The air cross grid defined in claim 1, wherein the grid panel has a rectangular peripheral shape, with said two pluralities of partition walls intersecting at substantially right angles, one plurality of partition walls all extending in a direction (45) angularly displaced by an acute angle (A), measured from a direction (44) parallel to said focal point edge of said panel, whose trigonometric tangent can be expressed as a ratio of two integers, each integer being less than 20.
  - 11. The air cross grid defined in claim 10, wherein the trigonometric tangent ratio is 11:
    - 16, or 0.688, corresponding to an acute angle of 34.6.
  - 12. The air cross grid defined in claim 1, wherein each partition segment of each foil sheet is encased in a thin metal plated coating.
  - 13. The air cross grid defined in claim 12, wherein the substantially aligned partition segments of the adjacent metallic foil sheets in said stack have their metal plated coatings heat-fused together to form said laminated integral stack.
  - 14. The air cross grid defined in claim 12, wherein each foil sheet is formed of a beryllium-copper alloy, and the thin metal plated coating on each partition segment incorporates a first plated coating of copper, covered by an overlying plated coating of lead.

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Current Assignee
Hologic Incorporated
Original Assignee
Trex Medical Corp. (Thermo Fisher Scientific Incorporated)
Inventors
Lieb, David P., Pellegrino, Anthony J., Lyke, Daniel N, Appleby, Michael P., Buturlia, Joseph A.
Primary Examiner(s)
Porta, David P.

Application Number

US09/021,655
Time in Patent Office

854 Days
Field of Search

378/37, 378/154, 378/155, 378/147, 378/149, 378/150, 250/505.1
US Class Current

378/154
CPC Class Codes

A61B 6/502 for diagnosis of breast, i....

G21K 1/025 using multiple collimators,...

Air cross grids for X-ray imaging

First Claim

10 Assignments

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Abstract

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14 Claims

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Air cross grids for X-ray imaging

First Claim

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Abstract

Citations

14 Claims

Specification

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