KR100322296B1 - Radiation location indicator of indestructibility tester - Google Patents

Abstract

The present invention relates to a radiation irradiation position display device of the non-destructive inspection device, the main object of the invention is to be able to adjust the angle and direction of the reflector arbitrarily, to be used at any time, and to be used even if the model changes compatibility To improve it.

A characteristic means for this is a radiation generating device for irradiating radiation at an arbitrary angle through a window attached to the interior of the sealed box after forming a sealed box of lead plate material, and positioned on the irradiation line of the radiation, A non-destructive inspection device comprising a pedestal movable by a conveying device, an image amplification device and a camera positioned on an extension line of the pedestal from the radiation generating device, and fixed to an inner wall so as to be located inside the window, but to one side. The cylindrical support which is formed with the through hole, and the shaft pins at both ends are arranged in the above-described support and constitute a reflector that can be rotated.

Description

Radiation location indicator of nondestructive testing device {Radiation location indicator of indestructibility tester}

The present invention relates to a radiation irradiation position display device of the non-destructive testing device, and more specifically, to display the irradiation position of the invisible radiation to irradiate the colored light of the light emitting diode in the right position, the irradiation direction can be adjusted It is to ensure that.

In general, the non-destructive testing device is configured as shown in FIG.

That is, after constructing a sealed box (1) made of a lead plate material to prevent radiation leakage, and built-in to install a pedestal (2) for placing the test object therein, and a transfer device 21 for transferring the pedestal therein On the outer side of the sealed box 1, a radiation generating device 3 is installed, and an image amplifying device 4 and a camera 5 are respectively installed on the opposite side of the sealed box 1, and a computer capable of inputting and storing images obtained by such a device. (6) and the monitor 7 which can be output through the computer.

More specifically, as shown in FIG. 2, the radiation generating apparatus 3 generates radiation when electrons emitted from the filament 32 in the vacuum tube 31 strike the surface of the tungsten target 33, wherein the radiation radiates radially. Only a portion of the is allowed to pass through the window 34 of beryllium material. An example of the transfer apparatus is to combine the screw 21b and the slide shaft 21c to be rotatable on the left and right frames 21a to move horizontally, as shown in FIG. 5, and one side of the screw 21b. The motor shaft of the drive motor (M) is coupled. A vertical support 21d on which a pedestal is mounted is coupled to the screw 21b and the shaft 21c. Therefore, when the driving motor M rotates, the vertical support 21d moves to the left and right. In addition, the vertical support 21d is provided with a slot 21e perpendicular to its center portion, and the slot is interposed with the vertical screw. Therefore, when the vertical screw 21f fixed so that both ends are rotatable therein during the vertical support band, the pedestal 2 can move up and down. Of course, the drive motor is also coupled to one side end of the vertical screw (21f).

The radiation irradiated as described above is transmitted through the inspection object 8 placed on the pedestal 2 of the carbon plate material, and the transmitted radiation is amplified by the image amplifying device 4, and then, the CCD camera 5 is used. The image is taken and stored in the computer 6.

In the non-destructive inspection using radiation as described above, since the position and state through which the radiation is transmitted cannot be identified by the eye, the light of the light emitting diode is projected to be placed in the same direction and position as the radiation to place the test object 8. It is possible to display the exact position that can be, the conventional configuration used for this purpose is as shown in FIG.

That is, one end of the reflective plate 10 is attached to the structure, and the inclined portion 11 is formed at the middle portion thereof, so that colored light generated by the light emitting diode 9 on one side is reflected by the inclined portion 11. It is to be irradiated onto the pedestal (2).

However, since the conventional radiation position display device is fixed to the sealed box 1 as a structure, the angle of the inclined portion 11 cannot be adjusted by the user.

Therefore, not only can not be used corresponding to the pedestal (2), which can be carried out in the left, right direction, up, down direction, forward and backward direction, respectively, the reflector is also newly designed / There is an abandonment that must be made.

Therefore, the present invention has been made in view of the above-mentioned conventional problems to solve the problem, the main object of the invention to adjust the angle and direction of the reflector arbitrarily, so that it can be used at any time, even if the model is changed The purpose is to improve compatibility so that it can be used as is.

A characteristic means for this is a radiation generating device for irradiating radiation at an arbitrary angle through a window attached to the interior of the sealed box after forming a sealed box of lead plate material, and positioned on the irradiation line of the radiation, A non-destructive inspection device comprising a pedestal movable by a conveying device, an image amplification device and a camera positioned on an extension line of the pedestal from the radiation generating device, and fixed to an inner wall so as to be located inside the window, but to one side. The cylindrical support which is formed with the through hole, and the shaft pins at both ends are arranged in the above-described support and constitute a reflector that can be rotated.

1 is an exemplary view of a non-destructive testing device

2 is a cross-sectional view showing a conventional configuration

3 is a cross-sectional view showing the configuration of the present invention

Figure 4 is a perspective view showing another embodiment of the present invention Figure 5 is a perspective view of the main portion of the pedestal according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: sealed box 2: pedestal

3: radiation generator 4: image amplifier

5: camera 6: computer

7: Monitor 8: Inspection Object

9: light emitting diode 20: cylindrical support

20a: through hole 20b: shaft pin hole

20c: flange 20d: arc hole

20e: screw 22: reflector

31: vacuum tube 32: filament

33: Target 34: Windows

Hereinafter, the configuration and operation according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing the configuration of the present invention, Figure 4 is a perspective view of another embodiment.

Non-destructive inspection device for using the configuration of the present invention has a sealed box (1) made of a lead plate as shown in Figure 1, in order to irradiate radiation into the interior of the sealed box radiation generating device ( 3), a pedestal (2) is installed on the radiation line, the position can be adjusted by the position transfer device (21), and the image amplification device (on the extension line of the pedestal from the radiation generator) 4) and the camera 5 is made by installing.

The apparatus of the present invention is composed of a cylindrical support 20 fixed to the inner wall so as to be positioned below the window 34, and a reflector 22 fixed so as to be rotatable by the support.

The cylindrical support 20 can be made of a translucent acrylic plate material, and a pair of shaft pin holes 20b and through holes 20a are formed on both sides of the cylindrical surface, and the reflecting mirrors 22 are respectively formed at both ends of the cylinders. The shaft pins 21a are formed one by one.

On the other hand, the cylindrical support 20, as shown in Figure 4, after forming the flange portion (20c) in the cylindrical surface, when forming the arc-shaped long hole (20d) in the flange portion, when fastening it, through hole 20a ) To be installed in the desired direction.

In the present invention configured as described above, as shown in FIG. 3, when radiation is generated in the radiation generating apparatus 3, the radiation is irradiated onto the pedestal 2 inside the sealed box 1. In order to display the light accurately, the light of the light emitting diode 9 may be displayed on the pedestal 2 using the reflector 22.

That is, since the reflector 22 is supported by both shaft pins 21a on the cylindrical support 20 and can be rotated freely, the reflector 22 reflects the colored light emitted from the light emitting diode 9 to the reflector 22. You can adjust the position.

In addition, when the position of the light emitting diode 9 needs to be changed to another position, as shown in FIG. 4, as shown in FIG. 4, the screw 20e is loosened so that the through hole 20a faces the changed light emitting diode 9. After adjusting the position within the range of), tighten it again to change the position.

The present invention as described in detail above, as the reflector 22 is rotatably coupled to the cylindrical support 20, because it is possible to simply adjust the direction of the colored light for position display, even if the position of the pedestal 2 is changed. It can be adjusted from time to time, and in particular, even if the position of the radiation generator and the position of the image amplifier is arbitrarily designed, since the cylindrical support 20 and the reflector 22 can be applied as it is to install It is easy to manufacture and the manufacturing cost can be lowered and has many advantages.

Claims (2)

After forming the sealed box (1) from the lead plate material, the radiation generating device (3) for irradiating radiation at an arbitrary angle through the window 34 attached to the inside of the sealed box, and located on the irradiation line of the radiation In the non-destructive inspection device comprising a pedestal 2, which is movable by the position transfer device 21, and an image amplification device 4 and a camera 5 positioned on an extension line of the pedestal from the radiation generator, It is fixed to the inner wall so as to be located inside the window 34, the cylindrical support 20, the through hole 20a is formed on one side and the shaft pins 21a at both ends of the inside of the support Irradiation position display device of the non-destructive inspection device, characterized in that it is configured to be configured to rotate the reflecting mirror 22 is configured to reflect the position display light emitted from one side of the support. The method of claim 1, The cylindrical support 20 is irradiated by a non-destructive inspection device, characterized in that the flange (20c) to form an arc-shaped hole (20d) to be installed while rotating so that the position of the through hole (20a) is different. Position indicator.