JP3805401B2 - X-ray equipment - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an X-ray imaging apparatus for imaging a subject using X-rays, and more particularly to an X-ray imaging apparatus capable of changing an X-ray transmission filter that reduces X-ray energy.
[0002]
[Prior art]
In recent years, various X-ray imaging apparatuses for imaging a heart and blood vessels using X-rays have been proposed. A typical example of such an X-ray imaging apparatus is shown in FIG. As shown in FIG. 6, the X-ray imaging apparatus 100 is provided with a bed 101 on which a patient is placed, a main body 105 that holds a C arm 103, and one end of the C arm 103 that emits X-rays. An X-ray image that is bonded to the tube 107, the X-ray irradiation side of the X-ray tube 107, is provided at the other end of the C-arm 103, and an X-ray image passing through the subject is provided as an optical image. Image intensifier (hereinafter referred to as I.I) 111 to be converted into I.I. I111 is joined to the optical image output side (the side opposite to the X-ray image incident side), and an optical system 113 including a lens, and a TV camera 115 provided on the optical image output side of the optical system 113 for capturing an optical image; The display unit 117 displays an optical image picked up by the TV camera 115 on the screen.
[0003]
In such an X-ray imaging apparatus 100, when an examination site is X-rayed or X-rayed, an I.D. Since the X-ray energy incident on I111 is too large, halation is caused and the inspection is hindered. In order to prevent the halation, an X-ray transmission filter is formed inside the X-ray diaphragm 109, and the X-ray transmission filter is rotated using an operation unit 119 provided on the bed 101 while observing a fluoroscopic image. As shown in Fig. 2, the optimal position is set so as to match the shape of the heart.
[0004]
At this time, since the shape of the heart and the X-ray transmittance are particularly different between adults and children, it is necessary to change the shape of the X-ray transmission filter and the X-ray transmittance. For this reason, an X-ray imaging apparatus 100 including an X-ray diaphragm 109 that can replace the X-ray transmission filter has also been proposed.
[0005]
As shown in FIG. 8, the X-ray diaphragm 109 capable of exchanging the X-ray transmission filter is provided on a surface orthogonal to the X-ray on the X-ray emission side of the X-ray diaphragm 109 and transmits X-rays. A plate 121, an acrylic cover 125 that protects the X-ray transmission filter 123 in a state where the X-ray transmission filter 123 is mounted on the mounting plate 121, and an upper surface provided on the upper surface on the X-ray emission side of the X-ray diaphragm 109 And a cover 127.
[0006]
Note that the X-ray transmission filter 123 has a metal plate bonded to the side in contact with the mounting plate 121, and is fixed to the mounting plate 121 by a magnet provided around the mounting plate 121. In order to set the X-ray transmission filter 123 on the mounting plate 121, the upper surface cover 127 and the acrylic cover 125 are opened, and after placing the desired X-ray transmission filter 123 on the mounting plate 121, the acrylic cover 125 and the upper surface of the mounting plate 121. This is done by closing the cover 127.
[0007]
[Problems to be solved by the invention]
However, in the conventional X-ray imaging apparatus 100, since the X-ray diaphragm 109 is located below the bed 101, when replacing the X-ray transmission filter 123, the operator enters the lower part of the bed 101 or rotates the C arm 103. There was a need. Further, when replacing the X-ray transmission filter 123, the operator opens the top cover 127 and the acrylic cover 125, takes out the X-ray transmission filter 123, and places the desired X-ray transmission filter 123 on the mounting plate 121. The acrylic cover 125 and the top cover 127 have to be closed. For these reasons, the replacement work of the X-ray transmission filter 123 is complicated.
[0008]
The present invention has been made in view of the above problems, and an object thereof is to provide an X-ray imaging apparatus that can be easily changed to an X-ray transmission filter suitable for the X-ray transmittance of a subject.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 reduces the X-ray energy exposed from the X-ray tube by opening and closing a pair of filters and an X-ray tube that exposes the X-ray. And an X-ray transmission filter formed so that each filter of the pair of filters has a filter portion having at least two kinds of thicknesses;
The gist of the invention is that it comprises switching means for switching according to the size of the object to be photographed by moving the filter portions having different thicknesses in the respective filters in the opening and closing direction.
[0010]
The invention according to claim 2 reduces the X-ray energy exposed from the X-ray tube by opening and closing a pair of filters and an X-ray tube that exposes the X-ray, and the pair of filters. Each filter of the filter has an X-ray transmissive filter formed so as to have at least two types of filter parts, and the size of the object to be imaged by moving the filter parts of different materials in the respective filters in the opening and closing direction. The gist of the present invention is to include switching means for switching according to the above.
[0015]
[Action]
According to the X-ray imaging apparatus of claim 1, while reducing the X-ray energy exposed from the X-ray tube by opening and closing the X-ray tube that exposes the X-ray and the pair of filters, Each filter of the pair of filters rotates an X-ray transmission filter formed so as to have at least two types of filter portions, and a filter portion having a different thickness in each filter in accordance with the size of an imaging target. By providing the switching means for switching, the X-ray transmission filter suitable for the X-ray transmittance of the subject can be easily changed.
[0016]
According to the X-ray imaging apparatus of claim 2, the X-ray energy exposed from the X-ray tube is reduced by opening and closing the X-ray tube that exposes the X-ray and the pair of filters. In addition, each filter of the pair of filters has an X-ray transmission filter formed so as to have at least two kinds of filter parts, and filter parts of different materials in each of the filters according to the size of the object to be imaged. And a switching means for switching by rotating it can be easily changed to an X-ray transmission filter suitable for the X-ray transmittance of the subject.
[0018]
【Example】
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the X-ray diaphragm of the X-ray imaging apparatus according to the first embodiment of the present invention. In the embodiment, a case where an X-ray transmission image of the heart is obtained as a subject will be described as an example. Further, since the external configuration of the X-ray imaging apparatus according to the present invention is the same as that of the conventional X-ray imaging apparatus 100 shown in FIG. 4, illustration and description thereof are omitted.
[0019]
As shown in FIG. 1, the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment includes a disk-shaped table 11 provided with a square hole 11 a through which X-rays pass in the center, and a periphery on the table 11. And a pair of moving units 13-1 and 13-2 provided in the unit.
[0020]
Each of the moving parts 13-1 and 13-2 is provided with a female screw on the annular body 15, and the female screw is screwed onto a male screw provided on a rod-shaped lead screw 21 to which rotation is transmitted from the motor 19 via gears 17a and 17b. Composed together. In addition, a fixed portion 25 that removably holds an X-ray transmission filter (hereinafter referred to as a filter) 23 that reduces the amount of X-ray transmission is joined to the subject side of the annular body 15. Furthermore, the fixed part 25 has different heights for holding the filter 23 between the moving part 13-1 and the moving part 13-2. For this reason, in the moving parts 13-1 and 13-2, the pair of filters 23 held by the fixed part 25 can be crossed.
[0021]
A gear (not shown) is provided on the outer periphery of the table 11 and is rotated by the table motor 27 via a gear (not shown) provided on the rotation shaft of the table motor 27. The table 11 is rotatably fixed by a fixing member (not shown) joined to the cover body of the X-ray diaphragm 10.
[0022]
The rotation control of the motor 19 and the table motor 27 is performed by a movement control unit 29 provided in the X-ray diaphragm 10. The movement control unit 29 determines the rotation amounts of the motor 19 and the table motor 27 based on a command supplied from the operation unit 119.
[0023]
Next, a filter used in the X-ray imaging apparatus of the first embodiment will be described with reference to FIG. As shown in FIG. 2, the filters used in the X-ray imaging apparatus of the first embodiment are a left adult X-ray transmission filter 23L (hereinafter referred to as an adult filter 23L) and a right child X-ray transmission. A first filter 23-1 joined with a filter 23r (hereinafter referred to as a child filter 23r), a right adult X-ray transmission filter 23R (hereinafter referred to as an adult filter 23R) and a left child use It comprises a second filter 23-2 joined with an X-ray transmission filter 23l (hereinafter referred to as a child filter 23l).
[0024]
In the first filter 23-1 and the second filter 23-2, as shown in FIG. 2 (a), the adult filters 23L and 23R are set so as to change the X-ray exposure distribution on the subject. The adult filter set state in which the filters 23L and 23R are set to face the center, and the child filters 23l and 23r are set so as to change the X-ray exposure distribution on the subject. , 23r is set to a child filter set state in which the surface is set toward the center.
[0025]
The adult filters 23L and 23R are thicker than the child filters 23l and 23r. Further, the shape of the end of the subject side of the X-ray transmission filter 23 matches the shape of the heart, so the shape is different for the left side and the right side, and the shape is different for adults and children.
[0026]
The first filter 23-1 and the second filter 23-2 are formed by kneading barium sulfate in a silicone resin, but may be formed of lead-containing acrylic, aluminum, iron, copper, copper alloy, or the like. Anyway.
[0027]
Next, the operation unit 119 of the first embodiment will be described with reference to FIG. The operation unit 119 of the X-ray imaging apparatus of the first embodiment includes an operation panel 40 as shown in FIG. 3 in order to operate the movement of the first filter 23-1 and the second filter 23-2.
[0028]
As shown in FIG. 3, the operation panel 40 includes a first filter moving switch 41 for moving the first filter 23-1, a second filter moving switch 43 for moving the second filter 23-2, and a first filter. 23-1 and a mode in which the second filter 23-2 is switched to an adult mode in which the adult filter is set, and a child mode in which the first filter 23-1 and the second filter 23-2 are switched to a child filter set. And a changeover switch 45.
[0029]
The first filter movement switch 41 can be moved minutely in the left-right direction. By moving the first filter movement switch 41 in the left-right direction, the first filter 23-1 is moved corresponding to that direction.
[0030]
The second filter movement switch 43 can be moved minutely in the left-right direction and the up-down direction. By moving the second filter movement switch 41 in the left-right direction, the second filter 23-1 is moved corresponding to that direction. Further, the table 11 is rotated to the left by moving the second filter movement switch 41 upward, and the table 51 is rotated to the right by moving the second filter movement switch 41 downward.
[0031]
The mode switch 45 is a key switch with a lighting function, and can be switched between an adult mode and a child mode by pressing a key. Further, the mode changeover switch 45 lights up characters indicating the set mode. Thereby, the operator can know the set mode.
[0032]
Next, the operation of the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment will be described. First, the X-ray imaging apparatus is turned on. When the power is turned on, the movement control unit 29 rotates the motor 19 and the table motor 27 to move the table 11 and the X-ray transmission filter 23 to a predetermined initial position. Here, the initial position of the X-ray transmission filter 23 is set to the adult filter set state. Next, the operator places the patient on the bed 101 (see FIG. 3).
[0033]
In this state, the operator uses the operation panel 40 of the operation unit 119 to set the adult mode or the child mode.
[0034]
Here, when the adult mode is set by the operator, the operation unit 119 gives a command to the movement control unit 29 indicating that the first filter 23-1 and the second filter 23-2 are set to the adult filter set state. Output.
[0035]
When a command indicating that the adult filter set state is set is output, the movement control unit 29 does not rotate the motor 19 and remains as it is. Thus, the first filter 23-1 and the second filter 23-2 are in the adult filter set state.
[0036]
Next, the operator moves the second filter movement switch 43 of the operation panel 40 in the vertical direction to rotate the table 11 so that the first filter 23-1 and the second filter 23-2 are aligned with the direction of the heart. The first filter moving switch 41 and the second filter moving switch 43 of 40 are used to finely adjust the opening / closing amounts of the first filter 23-1 and the second filter 23-2 to adapt to the heart.
[0037]
When the child mode is set by the operator, the operation unit 119 outputs a command for setting the first filter 23-1 and the second filter 23-2 to the child filter set state to the movement control unit 29.
[0038]
When a command indicating that the child filter set state is set is output, the movement control unit 29 rotates the motor 19 by a predetermined number of rotations to turn the first filter 23-1 and the second filter 23-2 on. Set the filter set for children.
[0039]
Next, the operator moves the second filter movement switch 43 of the operation panel 40 in the vertical direction to rotate the table 11 so that the first filter 23-1 and the second filter 23-2 are aligned with the direction of the heart. The first filter moving switch 41 and the second filter moving switch 43 of 40 are used to finely adjust the opening / closing amounts of the first filter 23-1 and the second filter 23-2 to adapt to the heart.
[0040]
At this time, the movement ranges of the first filter 23-1 and the second filter 23-2 by the first filter movement switch 41 and the second filter movement switch 43 are appropriately limited according to the adult mode and the child mode. For example, even if the first filter movement switch 41 and the second filter movement switch 43 are operated when the adult mode is selected, the child filter set state is not entered. For this reason, the mode set during the diagnosis is not lost.
[0041]
In addition, since the fixing unit 25 detachably holds the filter 23, the X-ray transmittance and the shape can be changed to other than the filter 23 by changing the type of the filter held by the fixing unit 25. .
[0042]
As described above, in the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment, the first filter 23-1 and the second filter 23-2 are set to the adult filter set in accordance with the mode set by the mode switch 45. Since the first filter 23-1 and the second filter 23-2 are moved in accordance with the movement of the first filter movement switch and the second filter movement switch in the state or the child filter set state, the size of the subject is measured. It is possible to easily change the filter 23 to a shape suitable for the shape.
[0043]
FIG. 4 is a block diagram showing the configuration of the X-ray diaphragm of the X-ray imaging apparatus according to the second embodiment of the present invention. The same members as those in the first embodiment shown in FIG.
[0044]
The X-ray diaphragm 50 of the X-ray imaging apparatus of the second embodiment includes a table 11 dedicated to the first filter 23-1, a table motor 27-1 for rotating the table 11, and a table 51 dedicated to the second filter 23-2. A table motor 27-2 for rotating the table 51 is provided so that the first filter 23-1 and the second filter 23-2 can be individually rotated.
[0045]
The table 51 includes a square hole 51 a similar to the square hole 11 a of the table 11. The square hole 51a may be a round hole. In this case, it is possible to prevent a reduction in the opening area caused by the table 11 and the table 51 rotating independently.
[0046]
Next, the operation unit 119 of the second embodiment will be described with reference to FIG. The operation unit 119 of the X-ray imaging apparatus of the second embodiment operates the operation panel 70 as shown in FIG. 3 in order to operate the opening / closing movement and the rotation movement of the first filter 23-1 and the second filter 23-2 independently. Is provided.
[0047]
As shown in FIG. 3, the operation panel 70 includes a first filter moving switch 71 for moving the first filter 23-1, a second filter moving switch 73 for moving the second filter 23-2, and a first filter. 23-1 and a mode in which the second filter 23-2 is switched to an adult mode in which the adult filter is set, and a child mode in which the first filter 23-1 and the second filter 23-2 are switched to a child filter set. And a changeover switch 75.
[0048]
The first filter movement switch 71 can be moved minutely in the left-right direction and the up-down direction. The first filter 23-1 is moved corresponding to the direction by moving the first filter movement switch 71 in the left-right direction. Further, the table 11 is rotated to the left by moving the first filter movement switch 71 upward, and is rotated to the right by moving the second filter movement switch 71 downward.
[0049]
The second filter movement switch 73 can be moved minutely in the left-right direction and the up-down direction. The second filter 23-2 is moved corresponding to the direction by moving the second filter movement switch 73 in the left-right direction. Further, the table 51 is rotated to the left by moving the second filter movement switch 73 upward, and is rotated to the right by moving the second filter movement switch 73 downward.
[0050]
The mode switch 75 is a key switch with a lighting function, and can be switched between an adult mode and a child mode by pressing a key. Further, the mode changeover switch 75 lights a character indicating the set mode. As a result, the set mode can be known.
[0051]
Further, the movement control unit 29 of the second embodiment independently controls the rotation of the table 11 and the table 51 in addition to the operation of the first embodiment.
[0052]
Therefore, the X-ray diaphragm 50 of the X-ray imaging apparatus of the second embodiment has the first filter 23-1 and the second filter 23- in addition to the effect of the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment. 2 can be independently rotated, so that the first filter 23-1 and the second filter 23-2 can be moved to optimum positions in accordance with the size and shape of the subject.
[0053]
In both the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment and the X-ray diaphragm 50 of the X-ray imaging apparatus of the second embodiment, the X-ray transmittance can be adjusted for adults by changing the thickness of the filter 23. However, the X-ray transmittance may be changed for adults and children by using materials having the same thickness and different X-ray transmittances.
[0054]
In the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment and the X-ray diaphragm 50 of the X-ray imaging apparatus of the second embodiment, the filter 23 is changed for both adults and children. The filter 23 may be changed based on the size of the specimen.
[0055]
Furthermore, the number of filters 23 may be increased by increasing the number of tables in both the X-ray diaphragm 10 of the X-ray imaging apparatus of the first embodiment and the X-ray diaphragm 50 of the X-ray imaging apparatus of the second embodiment. In this case, the types of filters 23 that can be moved and operated are increased as compared with the X-ray imaging apparatus of the present embodiment, so that a more optimal filter 23 can be selected.
[0056]
【The invention's effect】
As described above, the present invention reduces the X-ray energy exposed from the X-ray tube by opening and closing the X-ray tube that exposes the X-ray and the pair of filters, and the pair of filters. Each filter includes an X-ray transmission filter formed so as to have at least two types of thickness or material filter portions, and switching means for switching different filter portions in each filter according to imaging. There is an effect that the X-ray transmission filter suitable for the X-ray transmittance of the specimen can be easily changed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an X-ray diaphragm of an X-ray imaging apparatus according to a first embodiment of the present invention.
2 is a diagram showing an X-ray transmission filter used for an X-ray diaphragm of the X-ray imaging apparatus shown in FIG.
3 is a diagram showing an operation panel used for the X-ray diaphragm of the X-ray imaging apparatus shown in FIG.
FIG. 4 is a block diagram showing a configuration of an X-ray diaphragm of an X-ray imaging apparatus according to a second embodiment of the present invention.
5 is a diagram showing an operation panel used for the X-ray diaphragm of the X-ray imaging apparatus shown in FIG.
FIG. 6 is a typical overview diagram of an X-ray imaging apparatus that images a heart and blood vessels using X-rays.
FIG. 7 is an explanatory diagram showing a case where an X-ray transmission filter is positioned according to the position of the heart.
FIG. 8 is a diagram illustrating an example of an X-ray diaphragm of a conventional X-ray imaging apparatus in which an X-ray transmission filter can be replaced.
[Explanation of symbols]
10 X-ray diaphragm 11, 51 Table 11a, 51a Square hole 13-1, 13-2 Moving part 15 Ring body 17a, 17b Gear 19 Motor 21 Lead screw 23-1 First filter 23-2 Second filter 23L For left side Adult filter 23R Right adult filter 23l Left child filter 23r Right child filter 25 Fixed part 27 Table motor 29 Movement control part 40, 70 Operation panel 41, 71 First filter movement switch 43, 73 Second filter moving switch 45, 75 Mode changeover switch 100 X-ray imaging apparatus 101 Bed 119 Operation unit

Claims (6)

An X-ray tube that emits X-rays;
The X-ray energy exposed from the X-ray tube is reduced by opening and closing the pair of filters, and each filter of the pair of filters is formed so as to have at least two types of filter portions. An X-ray transmission filter;
An X-ray imaging apparatus comprising: switching means for switching according to the size of an imaging target by moving filter portions having different thicknesses in the respective filters in the opening and closing direction. An X-ray tube that emits X-rays;
The X-ray energy irradiated from the X-ray tube is reduced by opening and closing the pair of filters, and each filter of the pair of filters is formed to have at least two types of filter parts. An X-ray transmission filter;
An X-ray imaging apparatus comprising: switching means for switching according to the size of an imaging target by moving filter parts of different materials in the respective filters in the opening and closing direction. 3. The X-ray imaging apparatus according to claim 1, wherein the filters of the pair of filters are formed so as to have different shapes so that opposing portions conform to the shape of the heart. A setting means for setting an adult mode or a child mode as a shooting target;
The X-ray imaging apparatus according to claim 1, further comprising a control unit that controls the switching unit in accordance with a setting by the setting unit. 5. The X-ray imaging apparatus according to claim 1, wherein the switching unit is configured to switch filter portions having different thicknesses, materials, or shapes in the filters by rotating the filters. 2. A notification means for notifying mode information of a filter part on the currently set side in response to switching of a filter part having a different thickness, material or shape in each filter by the switching means. The X-ray imaging apparatus of Claims 5-5.

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