KR101035825B1 - X-ray imaging apparatus interlocking the collimator with the photographing device - Google Patents

Abstract

An X-ray imaging apparatus in which a collimator and a photographing unit interlock with each other includes an X-ray generating unit for irradiating X-rays to a subject; A collimator disposed in front of the X-ray generating unit to adjust the size of the area irradiated with the X-rays by opening and closing the aperture; An X-ray photosensitive portion having a sensing area surface that penetrates a subject and irradiates X-rays, and converts X-rays into visible light; A sensor unit which detects an area to be irradiated with X-rays by obtaining an opening / closing value of an aperture installed in the collimator; A control unit which receives the size of the area to be irradiated with the X-ray from the sensor unit and controls to photograph the area; And a photographing unit which is adjusted by the controller and photographs the visible light converted into a lens provided on one side as an image.

The X-ray imaging apparatus in which the collimator and the photographing unit interlock with each other according to the present invention may adjust the resolution by adjusting the photographing area to correspond to the area where the X-ray is detected by interlocking the collimator and the photographing unit, and to capture a part of the subject. In this case, only a part of the high resolution can be taken by adjusting the photographing unit.

X-ray Imaging Device, Collimator

Description

X-ray imaging device with collimator and shooting unit {X-RAY IMAGING APPARATUS INTERLOCKING THE COLLIMATOR WITH THE PHOTOGRAPHING DEVICE}

The present invention relates to an X-ray imaging apparatus. More specifically, the present invention relates to an X-ray imaging apparatus in which a collimator and a photographing unit interlock with each other to obtain a high resolution image by sensing an area to be irradiated with X-rays by obtaining an opening / closing value of an aperture installed in the collimator.

X-rays are short-wavelength electromagnetic waves generated by colliding electron beams that protrude from the cathode at high speed on a metal target such as copper or tungsten in vacuum discharge. Therefore, invisible X-rays can be converted into visible light and photographed on a photographic film.The part of the X-rays transmitted to the subject is absorbed by the subject and weakened. I can make it. An apparatus for observing the inside of an object using this characteristic is an X-ray imaging apparatus.

The structure of a general X-ray imaging apparatus will be briefly described. An X-ray generator for generating X-rays, a collimator for adjusting the size and shape of an area irradiated with X-rays, and a penetrating object such as a human body or an object And an X-ray photosensitive unit for converting one X-ray into visible light, and a photographing unit for obtaining the converted visible light as an image.

Conventional X-ray imaging apparatus has a dark room structure in which an image is not obtained until X-rays are irradiated, and thus, the photographing unit does not automatically focus or adjust the photographing area before photographing.

Because of this, the focusing point and the shooting area are fixed. Even if only a part of the subject is to be enlarged and shot, the entire subject can be taken as initially set. Therefore, only the same resolution is always taken. There was a disadvantage of difficulty.

Referring to FIG. 1 in detail, the conventional X-ray imaging apparatus photographs the initial focusing point and the photographing area even when the X-ray imaging area is reduced from the a area to the b area. I was forced to shoot with the same resolution, and it was difficult to shoot with high resolution.

The X-ray imaging apparatus according to the present invention aims to solve the following problems.

First, the resolution is controlled by adjusting an area in which X-rays are detected by interworking with the collimator and the photographing unit.

Second, when photographing a portion of the subject, the collimator to adjust the photographing unit to shoot in high resolution.

Third, when the collimator is automatically adjusted, the user first sets the size of the area where the X-rays are detected, and then adjusts the collimator to the size of the X-ray detection area through the control unit and the sensor unit to the desired resolution. I want to shoot.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

The X-ray imaging apparatus according to the present invention relates to an X-ray imaging apparatus in which a collimator and a photographing unit are interlocked.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, an X-ray generator for irradiating X-rays to a subject and an X-ray generator are disposed in front of the X-ray generator and X-rays are opened and closed by opening and closing the aperture. An X-ray photosensitive part having a collimator for adjusting the size of the irradiated area, a sensing area surface through which the irradiated X-ray is sensed, and converting the X-ray into visible light, and an aperture installed in the collimator It is controlled by the sensor unit which detects the area to be irradiated with X-rays by obtaining the opening / closing value of the sensor, and the controller and the control unit which receives the size of the area to be irradiated with X-rays from the sensor unit and photographs the area. It characterized in that it comprises a photographing unit for shooting the visible light as an image through the lens.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, when the opening and closing of the collimator is automatically adjusted, the sensor unit recognizes the number of adjustment steps of the motor that automatically adjusts the aperture of the collimator to irradiate the X-rays. It is characterized by detecting the area to be irradiated before X-rays.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, when the aperture opening and closing of the collimator is a manual adjustment method, the sensor unit uses a sensor to convert the manual adjustment value of the aperture manual adjustment dial of the collimator into a position value. It is characterized by detecting the area to be irradiated with X-rays before -rays are irradiated.

In the X-ray imaging apparatus in which the collimator and the photographing unit work together, the sensor for converting the manual adjustment value of the aperture manual adjustment dial of the collimator into a position value is preferably a rotary encoder.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, the control unit adjusts the distance between the sensing region surface of the X-ray photosensitive unit and the lens of the photographing unit according to the size of the X-ray sensing region of the sensing area surface. desirable.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, the lens may include a zoom lens, and the controller may control the focal length of the zoom lens according to the size of the X-ray sensing region of the sensing region surface.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, the photographing unit includes a plurality of lenses having different focuss, and the control unit is configured to replace the lens of the photographing unit according to the size of the X-ray sensing region of the sensing area surface. It is desirable to control.

In the X-ray imaging apparatus in which the collimator and the photographing unit are interlocked according to the present invention, it is preferable that a plurality of lenses having different focal points are arranged on a concentric circle so that a specific lens is selected while being rotated by a controller.

According to the X-ray imaging apparatus according to the present invention, the collimator and the photographing unit may be interlocked to adjust the resolution by adjusting the photographing area so as to correspond to the area where the X-ray is detected, and adjust the photographing part when the part of the subject is to be photographed. It is effective to shoot only a portion of the high resolution.

In addition, when the collimator is automatically adjusted, the user may first set the size of the area where the X-ray is detected, and then adjust the collimator to the size of the X-ray detection area by conversely through the control unit and the sensor unit to capture the desired resolution. It has an effect.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

Hereinafter, an X-ray imaging apparatus in which a collimator and a photographing unit interoperate with reference to the drawings will be described in detail.

1 is a basic conceptual view of an X-ray imaging apparatus in which a collimator and a photographing unit are linked according to the present invention.

The X-ray imaging apparatus is a device for identifying the inside of a subject by using an X-ray having a short wavelength and transmitting an object, and the X-ray is generated by the X-ray generator 100 The area to be irradiated by the collimator 200 is set. The X-rays penetrate the subject and are detected by the sensing area surface 310, and are converted into visible light by the X-ray photosensitive unit 300. The area detected by the detection area surface 310 may be photographed by the photographing unit 600 having a camera device such as a lens, and the photographed image may be observed and recorded through the imaging device.

In front of the X-ray generator 100, the collimator 200 is disposed in the direction of the optical axis to which the X-rays are irradiated. The collimator 200 has a shape of a region where the X-rays are irradiated by opening and closing the aperture 210. It also controls the size. The diaphragm 210 attached to the collimator 200 may be divided into a method of adjusting the x and y-axis regions according to a shape, a method of adjusting the circular shape like an aperture of a camera, and a method of mixing the two. In addition, depending on the adjustment method, it is divided into the automatic adjustment type that uses a motor and the manual adjustment type that is controlled manually. 2 and 3 is a conceptual view of the aperture by adjusting the x, y-axis region, the aperture is composed of two pairs of lead plates, a pair of lead plates are moved vertically, vertically, left and right, respectively, X-ray Adjust the size of the area to be irradiated.

In the manual adjustment type of the collimator 200 according to the present invention, various sensors for converting the manual adjustment value of the aperture manual adjustment dial into position values may be used. In the present invention, a rotary encoder is used as an example.

The sensor unit 400 is a device for detecting the size of the X-ray irradiation area set by the collimator 200. When the aperture opening and closing of the collimator 200 is an automatic adjustment method, the sensor unit 400 recognizes the number of adjustment steps of the motor for automatically adjusting the aperture of the collimator 200 as an embodiment. It can detect the size of. When the aperture opening and closing of the collimator 200 is a manual adjustment method, the sensor unit 400 uses a sensor for converting a manual adjustment value of the aperture manual adjustment dial of the collimator 200 into a position value according to an embodiment. The size of the X-ray irradiation area can be detected.

The controller 500 is a device for transmitting the size of the area detected by the sensor unit 400 to the photographing unit 600.

The photographing unit 600 is provided with a camera device such as a lens to photograph the converted visible light as an image.

The size of the X-ray irradiation area detected by the sensor unit 400 is transmitted to the photographing unit 600 via the control unit 500. In order to obtain an appropriate resolution, the X-ray irradiation area depends on the size of the X-ray irradiation area. Adjust the distance between the detection area surface 310 of the photosensitive unit 300 and the lens of the photographing unit 600, ii) to adjust the focal length of the zoom lens by mounting a zoom lens, or iii) a plurality of the photographing unit 600 It is possible to use a method of having two lenses and replacing them with an appropriate lens.

Zoom lens is a lens that can change the focal length continuously without changing the focus or aperture value. It is composed of several lenses so that one lens barrel can be used to take various focal lengths. .

In the method of iii), as in the exemplary embodiment illustrated in FIG. 4, a lens 610 including a rotating plate in which a plurality of lenses 610a, 610b, 610c, and 610d having different focuses are spaced apart on concentric circles may be used. The lens can be replaced by the rotation of the rotating plate.

As an example, a system in which the X-ray irradiation area is adjusted will be described as an example in which the iris is adjusted to the x and y axis areas.

As shown in FIG. 1, an area where X-rays are irradiated in a state in which a diaphragm is opened in a large area as shown in FIG. As shown in FIG. 3, an area where X-rays are irradiated in a small aperture is called b. In the case of _a , the size of the area to be irradiated can be represented by (x _a , y _a ) if it is represented by a number on the x, y axis, and in the case of b, the size of the irradiated area is represented by a number on the x, y axis ( x _b , y _b )

In FIG. 1, when the collimator 200 adjusts the diaphragm 210 to reduce the area irradiated with X-rays from a to b, the sensor unit 400 adjusts the size of the X-ray irradiated area to the number of adjustment steps of the motor. Or by using a sensor to convert the manual adjustment value of the iris manual adjustment dial to a position value. At this time, the size of the reduced X-ray irradiation area is detected as (x _b , y _b ) on the x and y axes.

When the size (x _b , y _b ) of the detected X-ray irradiation area is transmitted to the control unit, the control unit adjusts the photographing unit 600 to fit the size of the X-ray irradiation area reduced to (x _b , y _b ). As described above, i) adjust the distance between the detection area surface 310 of the X-ray photosensitive unit 300 and the lens of the photographing unit 600, or ii) adjust the focal length of the zoom lens by mounting a zoom lens. Alternatively, the photographing unit 600 is provided with a plurality of lenses, and the photographing unit is adjusted by replacing a suitable lens.

In this way, the adjusted sensing region is photographed, so that only a partial region of the subject can be photographed, so that the image can be captured at various resolutions, and a high resolution image can be obtained.

In addition, in the case where the collimator 200 is automatically adjusted, the user first sets the size of the area where the X-ray is detected, and then reverses the collimator 200 through the control unit 500 and the sensor unit 400. -You can shoot in the desired resolution by adjusting to the size of the line detection area. For example, when the user first sets the size (x _b , y _b ) of the area where the X-rays are detected, the control unit 500 and the sensor unit 400 have a collimator in the X-ray detection area. Will be adjusted to b.

The embodiments and drawings attached to this specification are merely to clearly show some of the technical ideas included in the present invention, and those skilled in the art can easily infer within the scope of the technical ideas included in the specification and drawings of the present invention. Modifications that can be made and specific embodiments will be apparent that both are included in the scope of the invention.

1 is a block diagram illustrating a configuration of an X-ray imaging apparatus in which a collimator and a photographing unit are linked according to the present invention.

2 and 3 are conceptual diagrams showing opening and closing of an iris by a method of adjusting the x and y axis regions.

4 is a conceptual view illustrating a rotating plate in which a plurality of other lenses are spaced apart on concentric circles.

<Description of Symbols for Main Parts of Drawings>

100: X-ray generator

200: collimator

210: aperture

300: X-ray photosensitive part

310: detection area surface

400: sensor

500: control unit

600: shooting unit

610: lens unit

Claims (8)

delete An X-ray generator for irradiating X-rays to the subject; A collimator disposed in front of the X-ray generator and configured to adjust the size of the area irradiated with X-rays by opening and closing the aperture; An X-ray photosensitive unit having a sensing area surface through which the X-rays irradiated through the object are sensed, and converting the X-rays into visible light; A sensor unit which detects an area to be irradiated with X-rays by obtaining an opening / closing value of an aperture installed in the collimator; A control unit which receives a size of an area to be irradiated with X-rays from the sensor unit so as to photograph the area; And A photographing unit adjusted by the controller and photographing the converted visible light as an image through a lens; Including, When the aperture opening and closing of the collimator is an automatic adjustment method, the sensor unit recognizes an adjustment step number of a motor that automatically adjusts the aperture of the collimator to detect an area to be irradiated with X-rays before the X-rays are irradiated. X-ray imaging device that is interlocked with the collimator and the photographing unit. An X-ray generator for irradiating X-rays to the subject; A collimator disposed in front of the X-ray generator and configured to adjust the size of the area irradiated with X-rays by opening and closing the aperture; An X-ray photosensitive unit having a sensing area surface through which the X-rays irradiated through the object are sensed, and converting the X-rays into visible light; A sensor unit which detects an area to be irradiated with X-rays by obtaining an opening / closing value of an aperture installed in the collimator; A control unit which receives a size of an area to be irradiated with X-rays from the sensor unit so as to photograph the area; And A photographing unit adjusted by the controller and photographing the converted visible light as an image through a lens; Including, When the aperture opening and closing of the collimator is a manual adjustment method, the sensor unit uses a sensor that converts the manual adjustment value of the aperture manual adjustment dial of the collimator into a position value to determine an area to which X-rays are irradiated before the X-rays are irradiated. An X-ray imaging apparatus in which the collimator and the photographing unit interlock with each other. The method of claim 3, And a sensor for converting a manual adjustment value of the aperture manual adjustment dial of the collimator to a position value is a rotary encoder. The method according to any one of claims 2 to 4, The control unit adjusts the distance between the detection zone surface of the X-ray photosensitive unit and the lens of the imaging unit according to the size of the X-ray detection zone of the detection zone surface X-ray imaging device interlocked with the collimator . The method according to any one of claims 2 to 4, And the lens comprises a zoom lens, and the controller controls the focal length of the zoom lens according to the size of the X-ray detection area of the detection area surface. The method according to any one of claims 2 to 4, The photographing unit includes a plurality of lenses having different focal points, and the controller controls the lens of the photographing unit to be replaced according to the size of the X-ray sensing region of the sensing area surface. -Ray imaging device. The method of claim 7, wherein And a plurality of lenses having different focal points, which are spaced apart on concentric circles so that a specific lens is selected while being rotated by a control unit.

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