JP2654733B2 - Collimator for X-ray CT system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a high energy X-ray CT.
(Computerized Tomography) More specifically, the present invention relates to a collimator for an X-ray CT apparatus having a structure in which a number of strip-shaped tungsten alloy blocks having grooves formed on one tapered surface are arranged. This collimator is a high energy X-ray capable of satisfying image performance (high resolution) required for a post-irradiation test by using a radioactive material such as an irradiated fuel assembly that is hardly penetrated by X-rays as a test object. It is useful for CT devices.

[0002]

2. Description of the Related Art An example of a high energy X-ray CT apparatus is shown in FIG.
Shown in The high-energy X-rays generated by the X-ray accelerator 10 are narrowed down according to the intended slice width (thickness of the cross section), shaped into a fan shape, and transmitted through the subject 12. The transmitted X-rays are prevented from entering scattered rays by the collimator 14, have directivity, and are converted into electric signals by the high-energy X-ray detector 16. Since X-ray CT requires transmission data from multiple directions, the apparatus rotates around the object to be inspected 12 and obtains transmission data at predetermined sampling pitches (small angles). Based on the transmission data, a cross-sectional image of the inspection object 12 is formed by an image reconstruction / display system, and the cross-sectional image is displayed on a CRT display device. The geometrical arrangement of the X-ray accelerator 10, the inspection object 12, and the X-ray detector 16 is set mainly according to the imaging region, the spatial resolution, the performance and conditions of the X-ray source and the X-ray detector.

A point to be noted in a high-energy X-ray CT apparatus is to prevent crosstalk between scattered X-rays between the X-ray detectors 16 and to arrange the X-ray detectors 16 densely. The collimator 14 is provided to sufficiently attenuate unnecessary X-rays. In order to improve the spatial resolution of the cross-sectional image, it is necessary to reduce the dimensions of the X-ray focal point and the collimator slit and make the sampling pitch fine.

The first condition is that the collimator material is a material having a high shielding effect (high density) in order to prevent the incidence of extra high energy X-rays. Therefore, a tungsten alloy (90% tungsten, 7.5% nickel, 2.5% copper) is usually used. This collimator 14 has a narrow slit (for example, 0.2 mm in width and 3 mm in depth) having a length of 10 cm or more in a block made of a tungsten alloy.
Are precisely arranged radially from the X-ray focal point. The conventional high-energy X-ray CT collimator 14 has a plate-like block made of a tungsten alloy and has a horizontal two-part structure. ing.

[0005]

In order to reduce the slit width by using a tungsten alloy plate-like block having a horizontal two-part structure, it is necessary to reduce the width of the processing groove. However, in general, the electric discharge machining method effective for micromachining cannot precisely process a narrow groove and a deep groove in a tungsten alloy block. Absent.

[0006] Therefore, there is a disadvantage that a high processing technique is required and the processing cost is increased. In other words, in the prior art,
Radial angle indexing technology, measures to prevent deflection of carbide metal saws, and advanced machining skills were required, and an angle indexing rotary table and feature arbor for groove machining were also required as dedicated jigs. Furthermore, in the prior art, even if a precise collimator having a finer slit dimension is required,
There was also a drawback that it was extremely difficult to achieve that.

An object of the present invention is to provide a collimator for an X-ray CT apparatus having a structure capable of coping with extremely fine slit dimensions without requiring a special processing technique.

[0008]

SUMMARY OF THE INVENTION The present invention is a collimator for an X-ray CT apparatus in which a number of tapered strip-shaped tungsten alloy blocks are combined. Each tungsten alloy block has a structure in which one tapered surface has a groove extending in the longitudinal direction and the other tapered surface is a flat surface. Such tungsten alloy blocks are arranged and fixed such that the grooved tapered surface and the grooveless tapered surface are in close contact with each other, and the extension lines of the slits formed thereby are gathered substantially at one point.

The tungsten alloy block assembly is sandwiched between a pair of holders, and scintillators are arranged opposite the slit opening ends located on the wide side of the block, and a shield is interposed between the scintillators. . Each shield is fitted and positioned in a groove formed in the holder, and the scintillator is also positioned and fixed accordingly.

[0010]

The necessary slit is formed by the grooved tapered surface and the grooveless tapered surface of the adjacent tungsten alloy block. Therefore, the slit shape corresponds to the groove shape, and the slit width and height are the groove depth and width. In order to form a slit having a small width and a high height, a shallow and wide groove may be provided. Processing of such a groove shape can be easily performed even by mechanical processing. The direction of slit formation is
Since the shape depends on the shape (outer shape) of each tungsten alloy block, slits can be arranged radially and accurately by finishing the shape with high precision.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a diagram showing a main part of a collimator for an X-ray CT apparatus according to the present invention. 2 is a transverse sectional view (BB section of FIG. 3) in an assembled state, and FIG. 3 is a longitudinal sectional view (AA section of FIG. 2). The collimator 20 has a configuration in which a number of tapered strip-shaped tungsten alloy blocks 22 are combined. This tungsten alloy block 2
2 is made of, for example, tungsten (W) 90
%, Nickel (Ni) 7.5%, and copper (Cu) 2.5%.

The tapered strip-shaped tungsten alloy block 22 has a structure in which one tapered surface is provided with a groove 26 extending along the central longitudinal direction, and the other tapered surface is a flat surface. . That is, one tapered surface is the grooved tapered surface 24, and the other tapered surface is the grooveless tapered surface 28. Each groove 26 has a depth and a width dimension corresponding to the width and height of a slit required as a collimator, and has a wide and shallow shape. For example, if the required slit has a width of 0.2 mm and a height of 3 mm, the groove depth is 0.2 mm and the width is 3 mm, and such groove processing can be easily formed by polishing.

The plurality of tungsten alloy blocks 20 as described above are arranged such that the grooved tapered surface 24 and the grooveless tapered surface 28 are in close contact with each other, and the extension lines of the slits 30 formed thereby gather at one point. To be installed accurately. Here, as shown in FIGS. 2 and 3, an assembly of a large number of tungsten alloy blocks 20 is sandwiched by a pair of holders 32, 34, positioned by guide pins 36 and fixed by fixing bolts 38. Both holders 32 and 34 are made of general carbon steel and are processed with high precision.

A scintillator 40 is disposed opposite to each slit opening end located on the wide side of the tungsten alloy block 22, and a shield 42 is provided between the scintillators 40.
Attach with. Each shield 42 has a holder 32,
34, the scintillator 40 is also positioned. These are also two holders 3.
It is clamped between 2 and 34 and fixed by bolting.

Each tungsten alloy block 20 has the same shape, and is not limited to a groove, but is also accurately processed on both tapered surfaces, taper angles, and the like. The holders 32 and 34 are also manufactured with high processing accuracy. The positioning of the tungsten alloy block 20 is achieved by ensuring the mechanical accuracy of the block alone and the holder. The position of the scintillator 40 is also determined mechanically. The overall positioning is such that the entire holder moves.

The scintillator 40 has a structure in which a photodiode is combined with a scintillator main body, and an LED for operation check is housed in a scintillator case.
The material of the scintillator body is cadmium tungstate (CdWO ₄ ). The shield 42 is also made of a tungsten alloy.

[0017]

As described above, the present invention has a structure in which grooves are formed in a tapered tungsten alloy block and a plurality of blocks are arranged in close contact with each other as described above. Can be easily manufactured. At that time, no special machining technique is required, and a dedicated jig for machining is not required, so that machining cost can be reduced.

[Brief description of the drawings]

FIG. 1 is a main part configuration diagram of a collimator for an X-ray CT apparatus according to the present invention.

FIG. 2 is a cross-sectional view showing one embodiment of the X-ray CT apparatus according to the present invention.

FIG. 3 is a longitudinal sectional view thereof.

FIG. 4 is an overall explanatory diagram showing an example of an X-ray CT apparatus.

[Explanation of symbols]

 Reference Signs List 20 collimator 22 tungsten alloy block 24 tapered surface with groove 26 groove 28 tapered surface without groove

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Yasushi Kawashima 4002 Narita-cho, Oarai-machi, Higashiibaraki-gun, Ibaraki Power reactor and nuclear fuel development corporation Oarai Engineering Center (56) References JP-A-2-201188 (JP, A JP-A-2-198386 (JP, A) JP-A-4-13999 (JP, A) Jpn.

Claims (2)

(57) [Claims] 1. A large number of tungsten alloy blocks having a tapered strip shape, one tapered surface of which has a groove extending in the longitudinal direction and the other tapered surface of which is a flat surface. And a collimator for an X-ray CT apparatus in which the grooved tapered surface and the grooveless tapered surface are in close contact with each other, and the extension lines of the slits formed thereby are gathered substantially at one point. 2. The block assembly made of a tungsten alloy,
A scintillator is sandwiched between a pair of holders, and a scintillator is arranged facing each slit opening end located on the wide side of each block.
2. The X-ray CT apparatus according to claim 1, wherein a shield is interposed between the scintillators, and each shield is fitted and positioned in a groove formed in the holder, and the scintillator is also positioned and fixed accordingly. Collimator.