KR101607303B1 - afety distance display device for removable radiotherapy apparatus - Google Patents

Abstract

The present invention relates to a safety distance display device for a mobile radiological diagnostic apparatus, which irradiates a laser guiding line at a laser generating unit to prevent radiation exposure of an unnecessary object. The present invention also relates to a safety distance display device for a portable radiological diagnostic apparatus which can detect an object approaching a laser guiding line to block access and change the angle of a laser generating part according to an amount of generated radiation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a safety distance display device for removable radiology diagnostic apparatus,

The present invention relates to a safety distance display device for a mobile radiological diagnostic apparatus, which irradiates a laser guiding line at a laser generating unit to prevent radiation exposure of an unnecessary object. The present invention also relates to a safety distance display device for a portable radiological diagnostic apparatus which can detect an object approaching a laser guiding line to block access and change the angle of a laser generating part according to an amount of generated radiation.

Radiology is an important method in the treatment of patients with clinical medicine for treating patients by irradiating lesions with radiation of very short wavelength and high energy. However, the radiation therapy is a treatment using high energy, and there is a risk that an unnecessary object other than a patient can be exposed to radiation. In order to prevent the above-mentioned risks, the medical treatment facility in the vicinity of the radiation treatment is treated in an independent space provided with various equipment for notifying the danger to prevent unnecessary access to the object.

However, the safety device of the related art can be used in a limited space, so that it is difficult to apply to a portable radiological diagnostic device which is necessary for an emergency patient and a patient whose mobility is inconvenient. In order to solve the above problems, a warning sound or a danger is propagated. However, the notification sound places a burden on a patient who needs stability of the body and mind, and verbal communication is difficult to inform an unnecessary object of a danger.

Prior Art 1: Korean Patent Publication No. 10-2007-0046060 Prior Art 2: Korean Patent Publication No. 10-2007-0073666 Prior Art 3: Korean Patent No. 10-1338075

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a safety distance display device for a portable radiological diagnostic apparatus which is provided in a mobile radiological diagnostic apparatus and forms a laser guide line.

It is still another object of the present invention to provide a laser guiding line which is detachable and attachable to increase versatility and which is provided with an operation part and which changes according to a user's designated value and a radiation dose.

A further object of the present invention is to provide a light receiving sensor for detecting movement in the laser generating part and to prevent radiation exposure of an unnecessary object by irradiating a laser of a different color when detecting motion.

In order to achieve the above object, the present invention provides a safety distance display device for a portable radiological diagnostic apparatus including a laser generating part, an angle adjusting part, a radiation measuring part and a light receiving sensor, and a control part for controlling the operation part and an operating part.

The laser generating unit provided on the side of the radiation irradiating unit of the radiological diagnostic apparatus is provided with a multicolor diode and a light receiving sensor for irradiating laser beams of various colors and the laser generating unit is connected to the angle adjusting unit and connected to the radiation irradiating unit, Respectively. In addition, the multi-color diode, the light receiving sensor, the angle adjusting unit, and the radiation measuring unit are electrically connected to the control unit so that the user operates the controller.

According to the present invention, in the safety distance display device for a portable radiological diagnostic apparatus, the laser generating part is connected to the angle adjusting part so that the user can form a laser guide line at a desired point through the operation part and the control part.

The laser generating unit includes a light receiving sensor, a multicolor diode for irradiating various colors, and a control unit for controlling the laser emitting unit. When the light receiving sensor senses an object, the laser emitting unit emits a laser of a different color to inform the approaching object of the danger.

In addition, the radiation measuring unit is provided in the radiology diagnostic apparatus to detect the amount of irradiated radiation, to transmit the change of the reflected dose to the user, and to automatically adjust the angle in consideration of the changed radiation dose.

FIG. 1 is a perspective view of a safety distance display device for a portable radiological diagnostic apparatus according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a belt-shaped frame and a sub-configuration of a safety distance display device for a mobile radiological diagnosis apparatus according to an embodiment of the present invention, in which a fastening member with a laser generating part is inserted and assembled into a belt- .
3 is a perspective view illustrating a fastening member, an angle adjusting unit, a laser generating unit, and a light receiving sensor of the safety distance display device for a portable radiological diagnostic apparatus according to an embodiment of the present invention.
FIG. 4 is a bottom perspective view of a safety distance display device for a portable radiological diagnosis apparatus according to an embodiment of the present invention, which shows the position of a radiation measurement unit provided on a lower surface of the radiation irradiation unit.
FIG. 5 is a bottom perspective view of a safety distance display device for a mobile radiological diagnosis apparatus according to an embodiment of the present invention, which is an enlarged view of the radiation irradiation unit of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Of course.

1 is a perspective view illustrating a safety distance display device for a portable radiometer according to an embodiment of the present invention. Hereinafter, the description will be made with reference to FIG. 1, and the components not shown in FIG. 1 are referred to as separate reference drawings.

The safety distance display device for a mobile radiological diagnostic apparatus according to an embodiment of the present invention is provided in a mobile radiological diagnostic apparatus 10 and the mobile radiological diagnostic apparatus 10 may be constituted by a radiation irradiation unit 11 and a body part 12 But the present invention is not limited thereto.

The safety distance display device for a portable radiological diagnostic apparatus according to an embodiment of the present invention includes a belt type frame 50, a laser generation unit 100, a light receiving sensor 300, an angle adjusting unit 200, a radiation measuring unit 400, A control unit 500 and an operation unit 600. [

The radiation irradiation unit 11 of the mobile radiological diagnostic apparatus 10 has a rectangular parallelepiped shape and is provided with a belt-shaped frame 50 on a side surface of the radiation irradiation unit 11, The laser generating portion 100 is fastened. The belt-shaped frame 50 is configured to be attached to and detached from the radiation irradiating unit 11 in the form of wrapping the outer surface of the radiation applying unit 11, and a laser is generated on four circumferential surfaces of the belt- A fastening member 150 is provided so as to detachably attach the unit 100. More specifically, the belt-shaped frame 50 is provided in the radiation irradiation unit 11 in the form of a belt, and has a plurality of jaws provided inwardly so that the fastening member 150 can be inserted into the outer side of the belt- And the fastening member 150 is formed with a protrusion 52 having a step so as to be inserted into the groove 51 of the belt-shaped frame 50.

In other words, the laser beam is irradiated to the irradiation portion 11 of the rectangular parallelepiped shape in the form of a belt wrapping the belt-shaped frame 50 and the fastening member 150 is inserted into each of the four sides of the belt- Is connected to the fastening member 150, and the belt-shaped frame 50 and the fastening member 150 are detachably attached.

The laser generating unit 100 includes a multicolor diode 110 for irradiating various colors. The laser generating unit 100 forms a laser guide line 700 on the ground by irradiating a linear laser, The laser guiding line 700 irradiated from the four laser generating units 100 fastened to the laser generating unit 100 forms a safety zone on the ground. Specifically, the laser generating unit 100, which is fastened to the four peripheral surfaces of the belt-shaped frame 50 surrounding the rectangular irradiation unit 11, irradiates the laser guide line 700 on each surface, Thereby forming a laser guide line 700 indicated by a plane.

That is, the four laser generators 100 irradiate the laser guiding line 700 toward the ground, four surfaces of the laser guiding line 700 irradiated on the ground are displayed, and the laser guiding line 700 Four planes form a space to provide a visual laser guide line 700 to an unwanted object, thereby preventing radiation exposure.

The laser generating unit 100 includes an angle adjusting unit 200 provided on a fastening member 150 connected to the belt-shaped frame 50 and includes a controller 500 in which a user's designated value is stored, The control unit 500 and the operation unit 600 are provided on the body 12 of the mobile radiological diagnostic apparatus 10 so that the user can easily use the control unit 500 and the operation unit 600. The angle adjusting unit 200 is connected to the laser generating unit 100 in a whiteness so that the angle adjusting unit 200 can be operated by the coupling member 150 fastened to the belt- And a motor 250. The motor 250 is electrically connected to the controller 500. [

That is, the angle between the coupling member 150 and the laser generating unit 100 is an angle adjusting unit 200 provided with a motor 250. The motor 250 includes a control unit 500, So that the user can operate the operation unit 600 and automatically adjust the angle adjusting unit 200 according to the use environment.

The radiation measuring unit 400 is a measuring unit for measuring the amount of radiation irradiated from the radiation applying unit 11 and is provided on the lower surface of the radiation applying unit 11 in the same direction as the direction in which the radiation is irradiated. The radiation measuring unit 400 is disposed in the same direction as the irradiation direction of radiation on the lower surface of the irradiation unit 11 and the radiation measuring unit 400 is electrically connected to the control unit 500, And then transmits the measured radiation dose to the controller 500. [ More specifically, the radiation measuring unit 400 is electrically connected to the controller 500, calculates the measured radiation dose, and transmits the calculated radiation dose to the angle adjusting unit 200.

That is, the radiation measuring unit 400 measures the amount of radiation irradiated from the radiation applying unit 11 and transmits the measured radiation dose to the control unit 500. The control unit 500 transmits the measured radiation dose to the user, The laser generating unit 100 and the laser guiding line 700 that are moved in various angles according to the change of the environment in which the angle adjusting unit 200 is automatically operated in consideration of the angle of the laser beam.

The light receiving sensor 300 is provided side by side on the side of the laser generating unit 100 and the light receiving sensor 300 collects the laser irradiated by the laser generating unit 100 and reflected on the ground or an object. In detail, the light receiving sensor 300 is electrically connected to the control unit 500, and collects laser beams reflected from the ground or an object, converts the laser signals into electrical signals, and transmits the electrical signals to the controller 500. The controller 500 The electric signal received is sensed and the motion is detected. More specifically, the light receiving sensor 300, which collects the laser beam reflected from the ground or an object, converts the electrical signal to the control unit 500 and transmits the electrical signal to the control unit 500. The control unit 500 receives the received electrical signal If the different pulse train is stored due to the moving object, the control unit 500 delivers the different pulse train to the user.

In addition, when the controller 500 senses a pulse train due to a moving object, the control unit 500 irradiates a laser beam having a different color from that of the conventional laser beam through the multicolored diode 110 provided in the laser generator 100.

That is, when an approaching object is sensed by the laser guide line 700 irradiated by the laser generator 100, the laser guide line 700 of different colors is irradiated to prevent the risk that the approaching object is exposed to radiation It is a visual safety device.

The laser guide line 700 irradiated from the laser generating unit 11 and formed on the ground surface is irradiated with the laser guide line 700 at an angle that is a certain distance from the circumferential surface of the exposed area of the ground irradiated by the irradiation unit 11 . The distance between the peripheral surface of the exposed area and the laser guide line 700 is equal to or less than the natural radiation value (0.5 μSv / hr) at the point where the laser guide line 700 is formed when the radiation diagnostic apparatus 10 is used Investigate on the ground. More specifically, the laser guide line 700 is irradiated to the ground surface at a level lower than the natural radiation value (0.5 mu Sv / hr).

That is, it is preferable that the distance between the laser guide line 700 and the laser guiding line 700 is set to be a condition value, and the laser guiding line 700 is irradiated with a distance of 2M from the circumference of the area irradiated with the radiation.

The safety distance display device for a portable radiological diagnostic apparatus according to another embodiment of the present invention provides a laser of the laser generation unit 100 so as to be irradiated on the surface in an " a " shape. Specifically, the laser of the laser generator 100 is provided in the shape of a letter "A", and the laser generator 100 is provided at the edge of the belt-shaped frame 50.

That is, the laser generating part 100 is provided at the side edge of the rectangular parallelepiped belt-shaped frame 50 and is irradiated on the bottom surface in the shape of "?&Quot; in the four laser generating parts 100, The irradiated "a" shape forms an area at each corner to prevent radiation exposure of unnecessary objects.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

10: Portable radiology diagnostic device 11: Radiation examination part
12: body portion 50: belt-shaped frame
51: groove 52: protrusion
100: laser generator 110: multicolor diode
150: fastening member
200: Angle adjusting unit 250: Motor
300: light receiving sensor 400: radiation measuring unit
500: control unit 600:
700: laser guideline

Claims (10)

A safety distance display device for a portable radiological diagnostic apparatus which irradiates a laser around a subject to display a safety distance,
A laser generation unit 100 provided on a side surface of the irradiation unit 11 of the mobile radiology diagnostic apparatus 10;
A coupling member 150 connected to the laser generation unit 100;
An angle adjusting unit 200 for adjusting a laser irradiation direction according to an amount of radiation exposure; And
And a belt-shaped frame (50) surrounding the side of the irradiation unit (11)
A plurality of grooves 51 are provided on the outer side of the belt-shaped frame 50 and provided with jaws inwardly so that the fastening members 150 can be inserted,
The fastening member 150 is formed with a projection 52 having a tuck to be inserted into one of the plurality of grooves 51,
Wherein the belt-shaped frame (50) is detachably attached to the radiation irradiating part (11).
delete delete The method according to claim 1,
At least one laser generator 100 is provided,
Wherein the laser generator (100) irradiates the laser guide line (700) to form a safety zone on the ground.
The method according to claim 1,
The angle adjusting unit 200 includes a control unit 500 and an operation unit 600,
Wherein the angle adjusting unit (200) is automatically adjusted by a user operating the operation unit (600) of the control unit (500) in which the user's designated value is stored.
6. The method of claim 5,
And a radiation measuring unit (400) provided in the radiation diagnostic apparatus (10)
Wherein the radiation measuring unit (400) measures the amount of radiation generated in the radiation diagnostic device (10) and transmits the measured radiation dose to the control unit (500).
The method according to claim 1,
Wherein the laser generator (100) includes a multi-color laser diode (110) for emitting various colors.
6. The method of claim 5,
A light receiving sensor 300 for collecting a laser beam reflected from the ground and sensing movement of the laser generating unit 100,
And a control unit (500) electrically connected to the light receiving sensor (300) to change the color of the multicolor diode (110) and irradiate laser light.
The method according to claim 1,
Wherein the laser angle of the laser generation unit (100) is irradiated at an angle of 2M away from the circumferential surface of the area irradiated with the radiation.
The method according to claim 1,
The laser generation unit 100 irradiates the laser in an " a " shape,
Wherein the laser generation unit (100) is provided at a side edge of the radiation irradiation unit (11).

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