The present invention relates to the radiation detecting technical field, and more particularly, to a collimator for adjusting X-ray beam.
In some radiation detecting systems, such as CT imaging systems, X-ray tubes are used to generate X-ray. The X-ray is usually emitted in a conical shape from a focal spot. Since application modes of X-ray are diversified, it is required to employ a collimator to define profiles of X-ray. In the conventional techniques, a linear collimator, a rectangular collimator, or combination thereof is employed to define profiles of X-ray.
The conventional collimator has a large volume and a complicated structure, in which an upper sliding stop and a lower sliding stop can only be opened or closed simultaneously when adjustment is performed, and a left stop and a right stop are usually stationary and are not adjustable. If target points of an X-ray generator are not symmetrically formed between the upper and lower sliding stops, it is required to adjust the position of one of the upper and lower sliding stops and the target points of the X-ray generator, in order to ensure an effective adjustment of the upper and lower sliding stops. Thus, the conventional collimator is disadvantageous in that a larger space is occupied and the adjustment precision is low.
Accordingly, in order to overcome the defects in the prior art, an object of this invention is to provide a collimator for adjusting X-ray beam. The collimator can symmetrically perform adjustments along an up-and-down direction and along a left-and-right direction around target points of a fixed X-ray generator, so that X-ray beams with different field angles can be obtained.
An object of the invention is to provide an adjustment device for adjusting a collimator that can separately adjust respective sliding stops of the collimator.
In order to achieve the above object of the invention, one aspect of this invention provides a collimator for adjusting X-ray beam, comprising: an up-and-down adjustment mechanism; a left-and-right adjustment mechanism; a supporting member; and an adjusting plate connected with the supporting member, wherein: the up-and-down adjustment mechanism comprises upper and lower first rotating nuts, upper and lower moving leading screws threadedly connected with the upper and lower first rotating nuts, and upper and lower sliding stops located in the supporting member, wherein each of the upper and lower leading screws is connected with the upper and lower sliding stops to drive the upper and lower sliding stops, respectively, to vertically move; and the left-and-right adjustment mechanism comprises left and right second rotating nuts, left and right horizontally moving leading screws connected with the second rotating nuts, and left and right sliding stops located in the supporting member, wherein each of the horizontally moving leading screws is connected with the left and right sliding stops to drive the left and right sliding stops, respectively, to horizontally move. The up-and-down adjustment mechanism further comprises first upper and lower limiting gland covers, and the first upper and lower limiting gland covers are fixed to upper and lower wall surfaces of the supporting member and confine the respective first rotating nuts to rotate within the respective first limiting gland covers.
With the above arrangement, symmetrical adjustments along an up-and-down direction and along a left-and-right direction can be obtained. With rotating nuts, the leading screws move linearly rather than rotate, so that X-ray beams with different field angles can be obtained.
Preferably, the left-and-right adjustment mechanism further comprises left and right second limiting gland covers. The second limiting gland covers are fixed to left and right wall surfaces of the supporting member and confine the respective second rotating nuts to rotate within the respective second limiting gland covers.
Preferably, each of the up-and-down moving leading screws is provided at ends thereof with opening grooves. The opening grooves are connected with the upper and lower sliding stops provided in a longitudinal sliding slot of the supporting member.
Preferably, the horizontally moving leading screw is provided at ends thereof with abutting surfaces. The abutting surfaces are connected with left and right sliding stops provided in the supporting member.
Preferably, the first rotating nut and the second rotating nut are marked with scales and numerals.
Preferably, the up-and-down moving leading screw and the horizontally moving leading screw are marked at ends thereof with scales and numerals corresponding to the first rotating nut and the second rotating nut.
Preferably, a fixed stop is provided behind the upper and lower sliding stops in the supporting member.
Preferably, the upper and lower sliding stops and the left and right sliding stops are made of tungsten alloy or lead alloy.
In order to achieve the above objects of the invention, another aspect of this invention provides an adjustment device for adjusting collimator, comprising:
an up-and-down adjustment mechanism; a left-and-right adjustment mechanism; and a supporting member; wherein:
an up-and-down adjustment mechanism; a left-and-right adjustment mechanism; and a supporting member, wherein: the up-and-down adjustment mechanism comprises upper and lower first rotating nuts, up-and-down moving upper and lower leading screws threadedly connected with the upper and lower first rotating nut, and upper and lower sliding stops located in the supporting member, wherein each of the upper and lower leading screws are connected with the upper and lower sliding stops to drive the upper and lower sliding stops, respectively, to vertically move; and the left-and-right adjustment mechanism comprises left and right second rotating nuts, horizontally moving left and right leading screws connected with the rotating nuts, and left and right sliding stops located in the supporting member, wherein each of the horizontally moving leading screws are connected with the left and right sliding stops to drive the left and right sliding stops, respectively, to horizontally move. The up-and-down adjustment mechanism further comprises first upper and lower limiting gland covers, and the first upper and lower limiting gland covers are fixed to upper and lower wall surfaces of the supporting member and confine the respective first rotating nuts to rotate within the first limiting gland covers.
With the above technical schemes, the following benefits are achieved:
A preferred embodiment of the present invention will be described herein below with reference to the accompanying drawings. It is to be understood that the following preferred embodiment is only illustrative and will not intend to limit the protection scope of the present invention.
Referring to
A certain gap is formed between the first rotating nut 13 and the first limiting gland cover 14 so as to form a clearance fit therebetween. Clearance fit also can be formed at a position where the T-type leading screw 12 goes through the supporting member 15.
The T-type leading screw 12 is provided on ends thereof with opening grooves. The upper and lower sliding stops 18 provided in a longitudinal sliding slot 19 of the supporting member 15 are inserted into the opening grooves 30 of the T-type leading screw 12 vertically moved up and down, and are fixed by screws 31. With rotation of the first rotating nut 13, the T-type leading screw 12 is driven to longitudinally and linearly move, so that a slit formed between the upper and lower sliding stops 18 can be adjusted.
A fixed stop 16 provided behind the upper and lower sliding stops 18 is used to shield slits exposed from upper and lower ends when the upper and lower sliding stops 18 are adjusted to be closed.
The left-and-right adjustment mechanism 21 comprises a second limiting gland cover 24, a second rotating nut 23, a horizontally and left-and-right moving leading screw 22 threadedly connected with the second rotating nut 23, and left and right sliding stops 25. The second limiting gland cover 24 is fixed to a left wall surface and a right wall surface of the supporting member 15, and confines the second rotating nut 23 to rotate within the second limiting gland cover 24. The horizontally moving leading screw 22 linearly moves by the second rotating nut 23.
The horizontally moving leading screw 22 is provided in the inner ends thereof with abutting surfaces. The abutting surfaces are connected with the left and right sliding stops 25 provided in the supporting member 15. The horizontally moving leading screw 22 brings the left and right sliding stops to move along a left-to-right direction (a horizontal direction).
Furthermore, in order to observe the adjustment amount of the upper and lower sliding stops 18 and the left and right sliding stops 25, scales and numerals are marked on the first rotating nut 13 and the second rotating nut 23. Scales and numerals readable and corresponding to the first rotating nut 13 and the second rotating nut 23 are marked on the ends of the T-type leading screw 12 and the horizontally moving leading screw 22.
While the invention has been shown and described with reference to the preferred embodiment thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
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2005 1 0086456 | Sep 2005 | CN | national |
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20070064877 A1 | Mar 2007 | US |