JPS61223637A - Aperture unit of x-ray ct device - Google Patents

Abstract

PURPOSE:To improve precisions of the degree of parallelism of sectorial parallel beams and the slice thickness by providing a quadric crank chain having two lead plates as one opposed links and rotating and driving the other opposed links to obtain a prescribed slit width. CONSTITUTION:The quadric crank chain which has lead plates 11a and 11b as one opposed links and has connecting plates 12a and 12b of the same length as the other opposed links is constituted with pins 13a-14d. The center of the connecting plate 12a is fixed to an output shaft 14a of a pulse motor 14 fixed to an aperture unit case, and the center of the connecting plate 12b is supported rotatably by a pin 15 stuck to the aperture unit case. Tension springs 16a and 16b are stretched between pins 19a and 19b and pins 20a and 20b respectively in parallel with connecting plates 12a and 12b to eliminate play of links. A slit width (w) can be changed continuously by rotation of the shaft 14a. Thus, precision of the degree of parallelism of sectorial parallel beams and the slice thickness are improved.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an aperture unit that shapes a conical X-ray beam emitted from an X-ray tube in an X-ray CTI device into a fan-shaped parallel beam.

(Prior art) When taking a CT image of a subject with an X-ray CT device,
An aperture unit, which is a collimator, restricts the X-ray beam to a certain width and irradiates the object with the X-ray beam.

Figure 4 is an explanatory diagram of the principle of the XIICT device, Figure 5
- and FIG. 6 are explanatory diagrams showing the configuration of a conventional aperture unit together with its peripheral configuration. In these figures, 1 is an X-ray tube, and an X-ray beam 2 is irradiated from this X-ray tube 1 toward a subject (patient) 3.

4 is arranged between the X-ray tube 1 and the subject 3, and the X-ray beam 2
This is an aperture unit that serves as a collimator. An aperture plate (1e plate) 5 for regulating slice thickness is rotatably supported by the aperture unit 4, and slits 51 and 52 are bored therein. This aperture plate 5 is rotationally driven by a motor 6, and the slit width (corresponding to the slice thickness) Wl*'2 of the slits 51 and 52 can be changed. , 7 is an X-ray detector that detects X-rays that have passed through the subject. In such a configuration, the conical Xta beam 2 irradiated from the X-ray tube 1 is focused by the aperture unit 4 to a slice thickness necessary for imaging, and is transmitted through the subject 3. Here, the slit width is changed by rotating the aperture plate 5 using the motor 6 and selecting a predetermined slit 51 or 52. Then, the X-rays that have passed through the subject 3 enter the X-ray detector 7. As mentioned above, the conventional aperture unit 4 is composed of an aperture plate 5 having two slits 51 and 52 and a motor 6, and the required slit width is obtained by rotating the aperture plate 5.

(Problems to be Solved by the Invention) In an X-ray CT apparatus, an X-ray tube 1. The aperture unit 4 and the XS detector 7 rotate around the subject 3, and once the rotation radius of the X-ray tube 1 and the radius of the space for the subject 3 (the opening diameter of the gantry) are determined, Length Ll (distance l1 from the focal point of the X-ray tube 1 to the tip of the aperture unit 4
l) is also determined. By the way, the length Ll in Figure 6
(The distance from the focal point of the XIIQ tube 1 to the aperture plate 5) needs to be long in order to increase the parallelism of the fan-shaped parallel beam, but in the conventional configuration, the aperture plate 5 rotates. However, there is a problem in that the length 1 must be shortened by at least the radius of rotation r. In addition, the inner surfaces of the slits 51 and 52 are required to have extremely high smoothness, but since the material is lead and the slits are formed, machining is troublesome and the cost is extremely high. Furthermore, the distance from the aperture plate 5 to the subject 3 has to be large due to the rotation space, which increases the scattering of X-rays.
There is a problem that a penumbra appears near the subject 3, and this also reduces the accuracy of slice thickness. In addition to the above-mentioned problems, the conventional configuration has the problem that only two types of slice thicknesses can be obtained because there are two types of slit widths.

The present invention has been made in view of these points, and its purpose is to provide an aperture unit that can increase the parallelism of a fan-shaped parallel beam, increase the precision of slice thickness, and reduce manufacturing costs. The object of the present invention is to provide a device that can obtain three or more types of slice thickness.

(Means for Solving the Problems) The present invention solves the above problems in an aperture unit that shapes a conical X-ray beam emitted from an X-ray tube in an X-ray CT apparatus into a fan-shaped parallel beam. , constitutes a four-section rotating chain in which two lead plates with equal lengths are used as one opposing link, rotatably supporting each center of the other opposing link of the four-section rotating chain, The present invention is characterized in that a predetermined slit width is obtained by rotationally driving the other opposing link.

(Function) According to the aperture unit of the present invention, since a four-bar rotation chain in which two lead plates are used as one opposing link is utilized, the lead plates move within a plane. The opposing end surfaces of this lead plate define the slit width. Further, the slit width is changed by rotating the opposing link that is not made of lead plate. Therefore, the part of the aperture unit that sets the slit width can be brought closer to the subject, and the accuracy of the parallelism and slice thickness of the fan-shaped parallel beam can be improved, and manufacturing costs can also be reduced. Moreover, an arbitrary slice thickness can be obtained by adjusting the rotational displacement of the opposing link that is not a lead plate.

(Example) Embodiments of the present invention will be described in detail below with reference to the drawings.

FIGS. 1 and 2 are schematic configuration diagrams showing one embodiment of the present invention.

In these figures 11a and 11b are XI! In the present invention, the slit width is determined by the interval between these two lead plates 11a and 11b. That is, the lead plates 11a and 11b are used as one opposing link, and the connecting plates 12a and 12b have the same length.
A four-bar rotational chain (a horizontal rank mechanism) with the other opposing link is constructed using the four bins 13a to 13d.

The center of the connecting plate 12a is fixed to the output shaft 14a of a pulse motor 14 fixed to the aperture unit case, and the center of the connecting plate 12b is rotatably supported by a bin 15 fixed to the aperture unit case. There is.

Reference numerals 16a and 16b are tension springs that are hooked between the bins 19a and 19b and between the pins 20a and 20b in parallel with the connecting plates 12a and 12b, respectively.
1b.

12a, 12b) for removing looseness. In addition, 17
is the transmission window (
fixed slit).

In the aperture unit configured in this manner, the slit width W can be continuously changed by applying a drive pulse to the pulse motor 14 and rotating its output shaft 14a. According to this configuration, the lead plates 11a, 11b can be moved within a plane, and the portions of the lead plates 11a, 11b that regulate the slit width are the end faces, so processing is easy.

Furthermore, the slit width can be changed continuously. Therefore, all the problems of the conventional device described above are solved.

Note that the present invention is not limited to the above embodiments, and various modifications are possible. For example, although the case where the pulse motor 14 is used for driving is shown, it is also possible to use a DC motor or the like. However, when using a DC motor, the connecting plates 12a, 12
A sensor that detects the rotation angle of b or equivalent to the slit width (
(rotary encoder, etc.) must also be used. or,
Although the case where the output shaft 14a of the pulse motor 14 is directly connected to the connection plate 12a is shown, it may be connected indirectly (for example, through a gear train).

Furthermore, as shown in FIG.
When the drive means such as a pulse motor is in the OFF state, the slit width may be forcibly reduced to zero to prevent dust from entering the inside.

(Effects of the Invention) As described above, according to the present invention, since a four-bar rotation chain in which two lead plates are used as one opposing link is used, the lead plates move within a plane. The opposing end surfaces of this lead plate define the slit width. Further, the slit width is changed by rotating the opposing link that is not made of lead plate. Therefore, the part of the aperture unit that sets the slit width can be brought closer to the subject, and the accuracy of the parallelism and slice thickness of the fan-shaped parallel beam can be improved, and manufacturing costs can also be reduced. Furthermore, an arbitrary slice thickness can be obtained by rotating the opposing link that is not made of lead plate.

[BRIEF DESCRIPTION OF THE DRAWINGS] FIG. 1 is a configuration diagram showing one embodiment of the present invention, and FIG.
3 is an explanatory diagram of another embodiment of the present invention, FIG. 4 is a conceptual diagram of a CT apparatus, and FIG. 5 is a diagram of a conventional aperture unit. The view corresponding to the AAli plane, FIG. 6, is also a view corresponding to the BB cross section of FIG. 4. 11a, 11tl - Lead plates 12a, 12b - Connection plates 13a to 13d, 15 - Bin 14... Pulse motor 14a... Output shaft 16.18... Tension spring 17... Transparent window

Claims (1)

[Claims] In an aperture unit that shapes a conical X-ray beam emitted from an X-ray tube in an X-ray CT device into a fan-shaped parallel beam, two lead plates with equal lengths are connected to one opposing link. A four-section rotating chain is configured, each center of the other opposing link of the four-section rotating chain is rotatably supported, and the other opposing link is rotationally driven to obtain a predetermined slit width. An aperture unit for an X-ray CT apparatus characterized by: