KR101259581B1 - Film video processing unit of assembly type - Google Patents

Abstract

The present invention discloses an assembly type film imaging processing apparatus, and the present invention is composed of a lightweight assembly type in which the camera is freely coupled to and detached from a film observer. When it proceeds to the photosensitive radiation to the film to be immediately processed in the field, such as to enhance the ease of use, in particular to maximize the inspection efficiency.

Description

Film video processing unit of assembly type

The present invention relates to a film imaging apparatus, and more particularly, to digitally image an image photographed on a radiographic film from a nondestructive inspection of an inspection object (eg, a gas container) through radiation. The present invention relates to an assembly type film imaging processing apparatus that can be made more easily.

In general, non-destructive testing (NDT) is to find the discontinuities (defects) existing inside and outside without damaging the object to be inspected, such a method of non-destructive testing is radiographic testing (RT).

The radiographic examination is a method of detecting defects by determining an image appearing on a film by transmitting X-rays or radioisotopes to an inspection object, which is not only the type of defect, but also the shape of the inspection object, and the inspection object. Weld inspection defects can be inspected.

That is, the radiographic examination is to transmit the radiation to the film by using the difference between the transmission and the defect in the defective area and the healthy area when the radiation to the inspection object, the phenomenon occurs when the transmitted radiation is exposed to the film And by drying and reading it will be possible to inspect the size and distribution of defects on the inspection object.

In this case, defect inspection may be performed on the film to which the transmitted radiation is exposed as described above, but in order to increase the accuracy of the inspection, a control unit (e.g., a computer) equipped with an image processing apparatus and an image processing program having a camera attached to the film observer is installed. Through the image of the film to which the transmitted radiation is exposed.

That is, the film observer is a film is raised, the three-wavelength lamp is configured therein, the camera is installed in a vertical frame to move up and down, the camera is moved up and down is taken of the film mounted on the film observer To adjust the distance.

However, the conventional imaging processing apparatus is a stationary equipment in which the film observer and the camera form an integrated structure, and thus the movement of the imaging device is not free. .

That is, the conventional imaging processing apparatus is an integrated structure of the film observer and the camera, and thus the movement is not free due to its weight. For imaging processing work on the film, the operator must move to the place where the imaging processing apparatus is installed. There was considerable inconvenience in its use.

Accordingly, the present invention is to improve the conventional problems as described above, by configuring a lightweight assembly type film imaging processing apparatus that can be freely coupled and detached to the camera to the film observer, so that the movement is free to radiation in the field It is an object of the present invention to provide an assembly type film imaging apparatus for enhancing the convenience of use, such as allowing the imaging process to be performed immediately in the field when the transmission radiation is exposed to the film.

The film imaging processing apparatus of the present invention for achieving the above object has a left-right symmetrical structure in which a film is placed on an outer surface thereof and fixedly coupled through a fixing screw to a film observer accommodating a lamp for irradiating illumination with the film therein. Fixed frame; A camera connection part coupled to the fixed frame to enable an angle and length adjustment and forming a holder; A camera fixed to a holder of the camera connection unit and photographing a film mounted on the film observer; And a computer system connected to the camera by a cable and configured to image and store an image captured by the camera through a programmed digital image processing algorithm. .

The camera connecting unit may further include: a first connecting rod rotatably coupled to the fixed frame constituting the left and right symmetrical structures through a rotating shaft unit; A second connecting rod coupled to the first connecting rod to adjust a length thereof; It further comprises, wherein the first connecting rod is coupled to the height fixing screw and the positioning screw, the second connecting rod is formed of a multi-level height determination hole for enabling the fastening of the height fixing screw, the holder Is formed on each end of the second connecting rod constituting the symmetrical structure is configured to fix the camera through the tightening screw.

In addition, the fixing frame is formed with a multi-stage positioning hole to which the positioning screw is fastened to select the vertical position of the first and second connecting rods included in the film observer and the camera connecting portion.

As described above, the present invention constitutes a light weight assembly type film imaging processing apparatus in which a camera can be freely coupled to and separated from a film observer. Thus, the film can be freely moved to carry out radiographic inspection in the field, thereby transmitting transmitted radiation to the film. When the photosensitizer can be immediately imaged in the field, such as the convenience of use, and the effect of maximizing the inspection efficiency can be expected.

1 is a perspective view showing a structure of a prefabricated film imaging apparatus according to an embodiment of the present invention.
Figure 2 is a side view showing the structure of the assembled film imaging apparatus in an embodiment of the present invention.
Figure 3 is a side schematic view showing a state of rotating the camera in the assembled film imaging apparatus in an embodiment of the present invention.
Figure 4 is a side schematic view showing a state of adjusting the height of the camera in the assembled film imaging apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a structure of an assembled film imaging apparatus according to an embodiment of the present invention, FIG. 2 is a side view showing a structure of an assembled film imaging apparatus according to an embodiment of the present invention, and FIG. As an embodiment is a side schematic view showing a state of rotating the camera in the assembled film imaging processing apparatus, Figure 4 is a side schematic view showing a state of adjusting the height of the camera in the assembled film imaging processing apparatus according to an embodiment of the present invention. It is.

1 to 4, the assembled film imaging apparatus according to the embodiment of the present invention includes a film observer 100 accommodating a lamp for irradiating illumination with the film on the outer surface and the film inside. In the field is provided, it is coupled to the film observer 100 so as to be able to immediately image the image of the film exposed to the transmitted radiation, the fixed frame 10, the camera connecting portion 20, the camera 30, The computer system 40 is configured.

The fixed frame 10 is a bilaterally symmetrical structure that is fixedly coupled to both sides of the film observer 100 through the fixing screw 11, and the multi-stage positioning of the fixed frame 10 forming the symmetrical structure, respectively The hole 10a is formed.

The camera connecting portion 20 is coupled to the fixed frame 10 constituting the left and right symmetrical structure so as to be adjustable in angle and length, respectively, and includes a holder 21 and first and second connecting rods 22 and 23. do.

The holder 21 is formed at each end of the second connecting rod 23 forming the symmetrical structure so that the camera 30 can be fixed, the camera 30 is tightening the tightening screw 21a When the holder 21 is fixed.

The first connecting rod 22 is rotatably coupled to the fixed frame 10 constituting the left and right symmetrical structure through the rotating shaft portion 22a, which is a pipe structure having a hollow portion and the camera 30 through the hollow portion. And a cable 200 connecting the computer system 40 to each other.

At this time, the height fixing screw 24 and the positioning screw 25 is configured to be coupled to the first connecting rod 22, the positioning screw 25 is the film observer 100 and the first and second connecting rods It is fastened to any one of the multi-stage positioning holes 10a formed in the fixed frame 10 so as to select vertical positions of the 22 and 23.

The second connecting rod 23 is coupled to the length adjustable to the first connecting rod 22 forming the symmetrical structure, which is a pipe structure having a hollow portion through the hollow portion and the camera 30 and the computer The cable 200 connecting the system 40 is penetrated.

At this time, the second connecting rod 23 is formed with a multi-level height determination hole 26 to enable the fastening of the height fixing screw 24.

That is, in a state in which a portion of the second connecting rod 23 is inserted into the first connecting rod 22, the height fixing screw 24 is fastened to any one of the multi-level height determining holes 26. By doing so, the length (height) of the appearance of the second connecting rods 23 is determined.

The camera 30 is fixed to the holder 21 through the fixing screw 21a to photograph the film placed on the film observer 10, the photographing operation is made manually from the operator pressing the shutter.

The computer system 40 is connected through a cable 200 passing through the camera 30 and the first and second connecting rods 22 and 23, and programmed an image taken from the camera 30. The digital image processing algorithm is imaged and stored, which is a notebook or a desktop.

As such, the assembled film imaging apparatus according to the embodiment of the present invention is to enable the imaging of the image of the film immediately at the site where the film observer 100 is provided as shown in FIGS. 1 to 4.

That is, X-rays or radioactive isotopes are transmitted through the inspection object so that the transmitted radiation is exposed to the film, and then the development, drying and reading of the film are performed.

At this time, for the imaging process of the image on the film, first fixed the fixing frame 10, which is a symmetrical structure on both sides of the film observer 100 provided in the field through the fixing screw 11, the left and right Fixing and fixing the camera connecting portion 20 forming a symmetrical structure to each of the fixed frame 10 forming a symmetrical structure.

That is, the first connecting rod 22 included in the camera connecting portion 20 is rotatably coupled to the fixed frame 10 constituting the symmetrical structure through the rotating shaft portion 22a, and then the first connecting rod 22 is rotated. ) To the second connecting rod (23).

At this time, the height fixing screw 24 and the positioning screw 25 is coupled to the first connecting rod 22, and the second connecting rod 23 is formed with a multi-level height determining hole 26 ,

The height fixing screw 24 is fastened to any one of the multi-level height determining holes 26 to set and fix the length of the second connecting rod 23.

Here, the ends of the second connecting rod 23 constituting the symmetrical structure is formed in the holder 21 constituting the symmetrical structure, respectively,

In a state in which the holders 21 forming the symmetrical structure face each other, the camera 30 is installed in the holder 21, and then the camera 30 is fixed through the fixing screw 21a.

Next, in a state in which one side of the cable 200 is connected to the camera 30, the other side of the cable 200 passes through the first and second connecting rods 22 and 23 and then the computer system 40. ).

Subsequently, in the state where the imaging processing algorithm programmed in the computer system 40 is driven, the first and second connecting rods 22 and 23 are rotated forward about the rotating shaft portion 22a, and the holder 21 is rotated. The camera 30 fixed to the) to look above the film observer 100.

Next, after placing the film with the transmitted radiation on the film observer 100, the operator presses the shutter of the camera 30, the camera 30 is to shoot the film, the photographed film The image is transmitted to the computer system 40 via the cable 200.

Accordingly, the computer system 40 processes the captured image into a digital image through a driving image processing algorithm and stores the image, and the stored image information can be edited by an operator.

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 and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

10; Fixed frame 10a; Location Hall
11; Fixing screw 20; Camera connection
21; Holder 21a; Tightening Screw
22; First connecting rod 22a; Rotating shaft
23; Second connecting rod 24; Height fixing screw
25; Positioning screw 26; Height Decision Hall
30; Camera 40; Computer system
100; Film observer 200; cable

Claims (3)

A fixed frame of right and left symmetrical structure in which a film is placed on an outer surface and fixedly coupled through a fixing screw to a film observer accommodating a lamp for irradiating light to the film; A camera connection part coupled to the fixed frame to enable an angle and length adjustment and forming a holder; A camera fixed to a holder of the camera connection unit and photographing a film mounted on the film observer; And a computer system connected to the camera by a cable and configured to image and store an image captured by the camera through a programmed digital image processing algorithm. Including,
The camera connecting portion comprises a first connecting rod rotatably coupled to the fixed frame constituting the left and right symmetrical structure through the rotating shaft portion, respectively, and a second connecting rod coupled to the first connecting rod to adjust the length,
The first connecting rod is configured to be combined with the height fixing screw and the positioning screw,
The fixed frame film imaging, characterized in that to form a plurality of positioning holes to which the positioning screw is fastened to select the vertical position of the first and second connecting rods included in the film observer and the camera connecting portion. Processing unit. The method of claim 1,
The second connecting rod is formed with a multi-level height determination hole for enabling the fastening of the height fixing screw, the holder is formed at each end of the second connecting rod constituting the symmetrical structure fixed to the camera through the tightening screw Assembly type film imaging apparatus, characterized in that configured to. delete

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