KR101291688B1 - Radiation transmission inspection equipment - Google Patents

Abstract

PURPOSE: A radiation transmission inspection device with a radiation source locking structure is provided to prevent the outflow of radiation sources to the outside of a container by fixing the radiation sources not to be moved when a connection portion of the container and a connector are separated, thereby preventing a user from being exposed to the radioactivity. CONSTITUTION: A radiation transmission inspection device with a radiation source locking structure includes a container (110), a radiation source transmission pipe, a control tube (300), a remote controller, a first locking unit, and a second locking unit. The container shields radiation sources and stores the same. The radiation source transmission pipe is connected to an entering hole on the front surface of the container and guides the radiation sources to a target object. The control tube is connected to a connected portion on the rear surface of the container facing the radiation source transmission pipe; and a connector (310). A wire moving the radiation sources is embedded in the control tube. The remote controller is installed on the base of the control tube and pushes or pulls the wire of the control tube by the manipulation of a handle. The second locking unit is installed on the rear surface of the container and fixes the radiation sources stored inside the container depending on the pushing manipulation by a user. The first locking unit is installed on the rear surface of the container and prevents the rotation of the connector in a releasing direction.

Description

Radiation transmission inspection device having a radiation source locking structure

The present invention relates to a radiographic inspection apparatus having a radiation source locking structure, and more particularly, a connector for connecting a container with a built-in radiation source and a control tube without user's double operation of a push button and a push lever. By preventing the release of the radiation source to the outside of the container when the connector is separated from the container, it is possible to prevent the release of the radiation source to the outside of the container to prevent the user from being exposed to radiation. It relates to a radiographic inspection apparatus having.

Nondestructive Testing is the determination of whether a product or material is defective internally or externally by physical or chemical methods. It is called nondestructive testing to verify that the product or material is not destroyed or deformed. Determination by deforming or modifying is called a fracture test.

Such non-destructive inspection is widely used throughout the industry, such as essential use of the internal defect inspection of the weldment and the internal inspection of the casting.

Such non-destructive tests include radiographic testing, ultrasonic testing, magnetic testing, and the like, in which radioisotopes such as iridium-192 are used in radioisotopes. This is to check the internal defect of the product by analyzing the blackness by taking a picture using gamma rays and then developing and printing it.

Non-destructive testing using such a radiation source does not require a power source and can be used regardless of time and place, so usage is steadily increasing.

The prior art of such a device for non-destructive testing is a "nude-type source transmission pipe for radiation safety" of Korean Patent Registration No. 10-0584256 (2006.05.22).

The radiographic inspection apparatus according to the prior art as described above, as shown in Figure 1, the remote controller 16 is automatically controlled, and a control tube for applying a controlled force to the radiation source connected to the remote controller 16 ( 14), a container 12 for shielding and storing the radiation source, and a nude source transmission pipe 10 for transporting the radiation source by the remote controller 16 to inspect the subject.

At this time, the control tube 14 and the container 12 are connected by a connector, the connector is provided at the front end of the control tube 14 and the internal thread is formed in the inner diameter. In addition, the back of the container 12 is formed with a connecting portion for connecting the connector of the control tube 14, the connecting portion has a structure in which a male screw is formed in the outer diameter is screwed and connected to the connector.

However, in the radiological inspection apparatus according to the prior art as described above, the connector of the control tube 14 connected to the rear surface of the container 12 to guide the radiation source located inside the container 12 to the front of the container 12 There is a risk of unauthorized separation from the connecting portion of the control tube 14 requires much attention to the assembly and release process of the connector of the control tube 14 and the connection of the container 12.

That is, since the connector of the control tube 14 and the connection portion of the container 12 are screwed by rotation, the connector of the control tube 10 is connected to the container 12 so as to surround the connection portion of the container 12. After the connector is inserted into the connector, the connector of the control tube 14 is rotated in the tightening direction to be coupled, and conversely, by rotating the connector in the release direction, the connector can be separated from the connector.

However, the control tube 14 and the container 12 are separated when the connector is rotated in the unwinding direction during the inspection or during the transport of the radiographic inspection apparatus, and thus the control tube 14 and the container 12 are unauthorized. In case of separation, there is a risk that the wire that slides the radiation source in the source transmission pipe may be disconnected, so that the radiation source may not be located inside the container 12 and the radiation is leaked to the outside. There is a problem that is exposed.

In addition, in the process of connecting or disconnecting the radiation source located inside the container 12 with the connector of the control tube 14, the radiation source is discharged to the outside of the container 12 by randomly moving forward or backward of the container 12. There is a concern.

That is, the radiation source is formed on the rear surface of the container 12 when the radiation source moves without being located at the proper place inside the container 12 while connecting or disconnecting the connector of the control tube 14 with the connection portion of the container 12. The outflow hole or the exit hole formed in the front of the container 12 may be leaked to the outside, when the radiation source is leaked to the outside of the container 12 there is a risk that the user is exposed to radiation.

Republic of Korea Patent Registration No. 10-0584256 (May 22, 2006), "Nude sailor transmission pipe for radiation safety"

The present invention is to solve the above problems, to prevent the connector provided at the tip of the control tube connected to the container to move in the unwinding direction arbitrarily to move the radiation source located inside the container, and to separate operation It is an object of the present invention to provide a radiographic inspection apparatus having a radiation source locking structure that can prevent the exposure of the user due to the leakage of the radiation source is located inside the container unless there is.

According to the technical idea of the present invention for achieving the above object, a container for shielding and storing the radiation source, the source transmission pipe connected to the exit hole formed in the front of the container to guide the radiation source to the test object, and the source A control tube which is connected by a connector and a connector provided on the rear surface of the container facing the transmission tube and has a wire for moving a radiation source therein, and is provided at the base of the control tube to push the wire of the control tube by a handle operation; By a radiographic inspection apparatus having a radiation source locking structure, characterized in that it comprises a remote control for pulling and a second locking portion which is installed on the back of the container to fix the radiation source located in the interior of the container without moving according to the user's pressing operation. Is achieved.

Here, the second locking portion includes a pressing lever which is installed on the rear of the container and is elevated, the pressing lever is formed on the lower portion of the pressing portion, which is pushed by the user and protrudes from the upper surface of the container. It is preferable that the fixing hole is inserted into the back of the push button and the lower portion of the fixing hole is installed in the inlet hole of the container to the entrance and exit of the holder to control the access of the radiation source.

In addition, the radiation source is preferably formed with a convex portion having a diameter larger than the diameter of the radiation source, the holder portion is preferably formed with a communication hole having a diameter larger than the convex portion of the radiation source and a settling hole having a diameter smaller than the convex portion of the radiation source. .

The second locking part may include a supporter installed on the rear surface of the container, and the supporter may have a lifting area configured to guide the lifting and lowering of the push lever on a surface facing the rear surface of the container.

And a first locking portion disposed on the rear surface of the container and intermittently rotating the connector in the release direction, wherein the first locking portion is fixed to the rear surface of the container and has a connection portion formed thereon, and a connection portion formed on the cover; It is preferable to include a ratchet formed in the connector to be connected, a stopper installed on the back of the container engaged with the ratchet to rotate the connector only in the locking direction, and a push button connected to the stopper to separate the stopper from the ratchet by a pressing operation. Do.

According to the radiographic inspection apparatus having a radiation source locking structure according to the present invention, even if an external force is applied so that the connector rotates in the release direction as long as the user does not operate the push button and the push lever, the connector and the connection part are not separated from each other. When the radiation source is fixed to move when separated from the connection portion of the container, it is possible to prevent the radiation source from leaking to the outside of the container to prevent the user from being exposed to radiation.

1 is a schematic view showing a radiographic inspection apparatus according to the prior art.
2 is a perspective view showing a radiographic inspection apparatus having a radiation source locking structure according to the present invention.
Figure 3 is an exploded perspective view showing a radiographic inspection apparatus having a radiation source locking structure according to the present invention.
Figure 4 is an exploded perspective view from below of a radiographic inspection apparatus having a radiation source locking structure according to the present invention.
5 is a cross-sectional view showing the locked state of the first locking portion and the state of the second locking portion of the radiographic inspection apparatus having a radiation source locking structure according to the present invention.
6 is a perspective view illustrating a stopper protruding through a through hole of a cover according to a locking state of the first locking part of FIG. 5.
7 is a cross-sectional view showing the release state of the first locking portion and the state of the second locking portion of the radiographic inspection apparatus having a radiation source locking structure according to the present invention.
8 is a perspective view illustrating a state in which a stopper is inserted into a through hole of a cover according to a release state of the first locking unit of FIG. 7.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

2 is a perspective view showing a radiographic inspection apparatus having a radiation source locking structure according to the present invention, Figure 3 is an exploded perspective view showing a radiographic inspection apparatus having a radiation source locking structure according to the present invention, Figure 4 is according to the present invention An exploded perspective view of a radiographic inspection apparatus having a radiation source locking structure viewed from below.

Referring to the drawings, the radiographic inspection apparatus having a radiation source locking structure according to the present invention is connected to the container 110 for shielding and storing the radiation source, and the exit hole (not shown) formed in the front of the container 110 And connected to the source transmission pipe 200 for guiding the radiation source 100 to the inspected object, and the connection portion 128 and the connector 310 provided on the rear surface of the container 110 facing the source transmission pipe 200. A control tube 300 having a wire for moving the radiation source 100 therein and a remote controller provided at the base of the control tube 300 to push or pull the wire of the control tube 300 by a handle operation (not shown). C) and a second locking part 140 installed on the back of the container 110 to fix the radiation source 100 located inside the container 110 without moving according to a user's pressing operation.

In other words, the container 110 is for shielding and storing the radiation source 100. As shown in the drawing, the container 110 has a shape of a hollow rectangular box having an open front and a rear surface and a radiation source 100 therein. A shielding part 104 is installed to receive the handle, and a handle 112 is formed on an upper surface of the container 110 so that an operator can easily carry it.

In addition, the front cover 106 and the rear cover 108 are installed on one hollow side and the other side of the container 110 to shield the inside of the container 110. Particularly, the front cover 106 and the rear cover 108 are formed with an exit hole and an introduction hole 108a, respectively, so that the radiation source 100 advances forward of the container 110 through the exit hole. The wire of the control tube 300 is introduced through the hole 108a to move the radiation source 100 located inside the container 110 to the exit hole.

Accordingly, the source transmission pipe 200 for guiding the radiation source 100 to the test object is connected to the exit hole of the front cover 106 installed at the front of the container 110, and corresponds to the rear surface of the container 110. A control tube 300 having a wire for moving the radiation source 100 is connected to the inlet hole 108a of the rear cover 108, and the control tube 300 is proximal to the control tube 300 by a handle operation. The remote controller that pushes or pulls the wire is connected.

On the other hand, the rear cover 108 is installed on the rear surface of the container 110 as described above, so that the inlet hole 108a of the rear cover 108 and the connector 310 of the control tube 300 is connected to the rear cover 108. The cover 122 is installed on the rear cover 108, and when the connector 310 is installed on the rear surface of the container 110, the first locking part 120 is installed inside the cover 122. ) Is intermittently rotated in the disengaging direction to prevent the connector 310 from being arbitrarily disengaged.

That is, the first locking part 120 is largely formed on the cover 122 installed on the rear cover 108 of the container 110 and the connector 310 of the control tube 300 and the ratchet 312. The stopper 124 is provided between the cover 122 and the rear cover 108 and a push button 126 for pressing and operating the stopper 124.

In other words, the cover 122 is fixed to the rear surface of the container 110 and the connection portion 128 protruding to the rear of the container 110 is formed so that the connector 310 of the control tube 300 can be connected. In this case, a male screw is formed at an outer diameter of the connecting portion 128, and the male screw is screwed with a female screw formed at an inner diameter of the connector 310 of the control tube 300.

In particular, the connector 310 provided in the control tube 300 is installed so that the connector 310 can rotate in the release direction or the tightening direction with respect to the control tube 300, and the connector 310 of the control tube 300. When the connector is connected to the connector 128, the connector 310 is fastened to the connector 128 as the connector 310 rotates in the tightening direction about the control tube 300, and conversely, the connector 310 is released. The connector 310 is released from the connecting portion 128 as it rotates in the direction.

As such, the cover 122 is fixed to one side of the rear cover 108 as shown in the drawing, the cover 122 is projected toward the rear of the container 110, the connection portion screwed with the connector 310 128 is formed, and an assembling hole 122a in which the push button 126 is installed is formed above the connection portion 128.

In addition, a through hole 122b through which the end of the stopper 124 protrudes is formed between the connection portion 128 and the assembly hole 122a, so that the end 124a of the stopper 124 protrudes through the through hole 122b. ) Is engaged with the ratchet 312 of the connector 310 coupled with the connection (128).

That is, a ratchet 312 is formed on one surface of the connector 310 facing the connection portion 128 of the cover 122, and the ratchet 312 protrudes through the cover 122 described below. Is engaged with the tooth tip 124a of 124.

On the other hand, the stopper 124 is formed with a tooth tip 124a protruding to the rear of the container 110 through the through hole 122b of the cover 122 as described above, the body (integral with the tooth tip 124a) 124b is located inside the cover 122. At this time, a first elastic member 121 is provided between the body 124b of the stopper 124 and the rear cover 108 to exert an elastic restoring force so that the stopper 124 is always pushed to the rear of the container 110. Is given.

In addition, when the stopper 124 is installed inside the cover 122, the stopper 124 may be disposed inside the cover 122 facing the rear cover 108 to secure the straightness of the stopper 124. Guiding stopper mounting holes 108b are formed.

In addition, the upper portion of the body 124b of the stopper 124 is formed with a connecting projection 124c connected to the push button 126 described below, when the push button 126 is pressed by the user push button The stopper 124 can move with the movement of 126.

That is, the push button 126 has a substantially cylindrical shape as shown in the drawing and is installed in the assembly hole 122a of the cover 122. In addition, an insertion groove 126a through which the connection protrusion 124c of the stopper 124 is inserted is formed at the lower portion of the push button 126 so that the push button 126 is pressed by the user to operate the push button 126. The stopper 124 is moved toward the rear cover 108 at the same time as it moves toward the rear cover 108.

And, when installed in the push button 126, the push button for guiding the push button 126 on the inside of the cover 122 facing the rear cover 108 to ensure the straightness of the push button 126 A mounting hole 108c is formed, and a second elastic member 123 exerting elastic restoring force is installed between the push button 126 and the rear cover 108 so that the push button 126 is always in the container 110. Will be pushed to the rear.

At this time, the ratchet 312 formed on one surface of the connector 310 has a tooth is formed in one direction when the connector 310 is rotated in the tightening direction in engagement with the teeth 124a of the stopper 124 ratchet 312 This rotation causes the stopper 124 to move toward the rear cover 108.

On the contrary, if the connector 310 rotates in the release direction while the ratchet 312 and the stopper 124 are engaged, the ratchet 312 is caught by the stopper 124 to prevent the connector 310 from rotating in the release direction. It is possible to prevent the control tube 300 from being separated from the container 110.

On the other hand, there is provided a second locking portion 140 for fixing the radiation source 100 located in the interior of the container 110, the second locking portion 140 is preferably a cover 122 and the rear cover It is installed between the 108.

In other words, the second locking portion 140 is composed of a large pressing lever 142 and the supporter 144 for guiding the lifting of the pressing lever 142. The push lever 142 is formed in the lower portion of the pressing portion 142a and the pressing portion 142a which protrudes to the upper portion of the cover 122 and is operated by the user as shown in FIGS. 3 and 4. And a fixing hole 142b into which the rear surface of the push button 126 is inserted and a radiation source 100 corresponding to a lower portion of the fixing hole 142b, are installed in the inlet hole 108a of the container 110 through which the radiation hole 100 It consists of the holder part 142c which intercepts the entry and exit of 100.

That is, the pressing portion 142a has a shape of a bar having a predetermined length and thickness, and an upper end thereof is exposed to the upper portion of the cover 122 so as to be pressed by the user, and the lower portion of the pressing portion 142a. The fixing hole 142b into which the fitting protrusion 126b formed on the rear surface of the push button 126 is inserted is formed.

In addition, a holder portion 142c which is coupled to the radiation source 100 is formed below the fixing hole 142b. The holder portion 142c has a communication hole 142c-1 and a settling hole 142c-2. The radiation source 100 is fixed to the settling hole 142c-2 so as not to move or through the communication hole 142c-1.

To this end, the radiation source 100 is formed with a convex portion 100a having a diameter larger than the diameter of the radiation source, the communication hole 142c-1 of the holder portion 142c is a convex portion formed in the radiation source 100 ( The convex portion 100a of the radiation source 100 is linearly moved through the communication hole 142c-1 by being formed to have a diameter larger than the diameter of 100a.

In addition, the settling hole 142c-2 of the holder part 142c is formed to have a diameter smaller than the diameter of the convex part 100a formed in the radiation source 100 so that the convex part 100a of the radiation source 100 is placed in the settling hole. (142c-2) is restricted to the linear movement.

Accordingly, when the push lever 142 is lowered so that the communication hole 142c-1 and the radiation source 100 have the same axis, the convex portion 100a and the holder portion 142c of the radiation source 100 are lowered. The communication hole 142c-1 has the same axis so that the radiation source 100 can linearly move inside or outside the container 110 through the communication hole 142c-1.

On the contrary, when the push lever 142 is raised upward, the convex portion 100a of the radiation source 100 and the settling hole 142c-2 of the holder portion 142c have the same axis, and thus the radiation source ( The convex portion 100a of the 100 is held in the settling hole 142c-2 to fix the radiation source 100 without moving.

As such, when the push lever 142 is elevated between the cover 122 and the rear cover 108, the rear cover 108 of the container 110 may secure the straightness of the push lever 142. The supporter 144 is installed between the cover 122.

In this case, as shown in FIG. 4, as shown in FIG. 4, a locking jaw 144a is formed on a surface facing the rear cover 108, and the pressing lever 142 is lifted between the locking jaws 144a. A lifting area 144b with an upper opening is formed, and this supporter 144 is firmly fixed by screwing the rear cover 108.

In addition, between the cover 122 and the rear cover 108 corresponding to the lower portion of the supporter 144 is provided with a locking member 146 to limit the lifting of the push lever 142, the locking member 146 is As shown in FIG. 4, an accommodating space 146a is formed on the rear surface of the locking member 146, that is, the surface facing the rear cover 108, in which the lower portion of the pressing lever 142 is accommodated. ) Is firmly fixed by screwing the rear cover 108.

In this case, a locking accommodating groove 146b having a step is formed in the storage space 146a, and a locking piece 142d is formed at a lower side of the push lever 142 in correspondence with the locking accommodating groove 146b. In the state where the lower part of the push lever 142 is accommodated in the storage space 146a of the locking member 146, the locking piece 142d of the push lever 142 is located in the locking receiving groove 146b and the push lever It would limit the rise and fall of 142.

Accordingly, the connector 310 of the control tube 300 is connected to the container 110 by the supporter 144 and the locking member 146 for guiding the lifting lever 142 and the pushing lever 142 to move up and down. When separated from the connection portion 128, the movement of the radiation source 100 is fixed so that the radiation source 100 does not leak to the outside.

The connection and release of the control tube 300 and the fixing of the radiation source 100 to the radiographic inspection apparatus having the radiation source locking structure according to the present invention having the above configuration will be described based on FIGS. 5 to 8.

5 is a cross-sectional view illustrating a locked state of a first locking portion and a state of a second locking portion of a radiographic inspection apparatus having a radiation source locking structure according to the present invention, and FIG. 6 is a stopper according to a locked state of the first locking portion of FIG. It is a perspective view which showed the state which protruded through the through-hole of a cover.

Referring to the drawings, as shown in FIG. 5, the connector 310 of the control tube 300 is screwed and fixed to the connection portion 128 of the cover 122 installed on the rear surface of the container 110. In this case, the stopper 124 and the push button 126 are in a state protruding to the rear of the container 110 by the first elastic member 121 and the second elastic member 123.

That is, as shown in FIG. 6, the stopper 124 has a state where the tip 124a protrudes through the through hole 122b of the cover 122 by the elastic force of the first elastic member 121, and is pressed. The button 126 also has a state of protruding through the assembly hole 122a of the cover 122 by the second elastic member 123.

In this state, when the connector 310 rotates in the release direction, the connector 310 is in the release direction because the end 124a of the stopper 124 and the ratchet 312 of the connector 310 are held. It will not rotate.

As such, when the connector 310 is not rotated in the release direction, the push lever 142 is positioned at the lower portion such that the communication hole 142c-1 of the holder portion 142c of the push lever 142 is the radiation source 100. Has the same axis as the convex portion (100a) of the radiation source 100 through the communication hole (142c-1) can be linearly moved to the inside or outside of the container 110.

On the contrary, when the connector 310 and the connection unit 128 are to be disconnected, as shown in FIGS. 7 and 8, the user presses the push button 126 to operate the end 124a of the stopper 124. Is spaced apart from the ratchet 312 of the connector 310. This will be described with reference to FIGS. 7 and 8.

7 is a cross-sectional view illustrating a release state of a first locking portion and a state of a second locking portion of a radiographic inspection apparatus having a radiation source locking structure according to the present invention, and FIG. 8 is a stopper according to a release state of the first locking portion of FIG. 7. It is a perspective view which showed the state retracted into the through-hole of a cover.

Referring to the drawings, as described above, when the connector 310 of the control tube 300 and the connecting portion 128 of the container 110 are connected, the user presses the push button 126. Will be manipulated.

At this time, before the user presses the push button 126, the push lever 142 is raised so that the fitting protrusion 126b of the push button 126 is on the same axis as the fixing hole 142b of the push lever 142. It is located.

As such, when the user presses the push button 126 while the fitting protrusion 126b of the push button 126 is located on the same axis as the fixing hole 142b of the push lever 142, the push button 126 The fitting protrusion 126b is inserted into the fixing hole 142b of the push lever 142.

However, even if the user pushes the push button 126 without raising the push lever 142, the push button 126 is not inserted into the fixing hole 142b of the push lever 142. Therefore, even if the external force is applied to the push button 126, the push button 126 does not move toward the rear cover 108, so that the push operation cannot be performed.

As such, when the fitting protrusion 126b of the push button 126 is inserted into the fixing hole 142b of the push lever 142, the push button 126 is guided to the assembly hole 122a of the cover 122. It moves toward the rear cover 108, where the second elastic member 123 is in a compressed state.

Then, as described above, when the push button 126 is moved toward the rear cover 108, the connecting projection 124c of the stopper 124 fitted into the insertion groove 126a formed in the lower portion of the push button 126. ) Also moves toward the rear cover 108, thereby moving the stopper 124 entirely toward the rear cover 108.

When the stopper 124 moves toward the rear cover 108 as described above, the end 124a of the stopper 124 protruding through the through hole 122b of the cover 122 is the through hole of the cover 122. 122b) it is retracted to release the engaged state of the ratchet 312 and the stopper 124 of the connector 310. When the connector 310 is rotated in the release direction in this state, the connector 310 is rotated in the release direction without any interference, so that the connector 310 is separated from the connection portion 128.

When the connector 310 and the connecting portion 128 are separated as described above, the settling hole 142c-2 of the holder portion 142c of the push lever 142 is formed with the convex portion 100a of the radiation source 100. Having the same axis, the convex portion 100a is locked to the settling hole 142c-2 of the push lever 142 so that the radiation source 100 cannot move inside or outside the container 110. You have a state.

According to the radiographic inspection apparatus having a radiation source locking structure according to the present invention as described above, the first locking portion 120 that can prevent the connector 310 of the control tube 300 from being released to the container 110 without permission. And a second locking part 140 is provided between the first locking part 120 and the rear cover 108 of the container 110 in association with the first locking part 120 to move the radiation source 100. In order to control the operation of the push button 126 and the push lever 142, the connector 310 is not separated from the connecting portion 128 even if an external force is applied to rotate in the release direction. As a result, the connector 310 of the control tube 300 may be prevented from being separated from the connection portion 128 of the container 110.

In addition, when the connector 310 of the control tube 300 is in a state of being separated from the connecting portion 128 of the container 110, the push lever 142 is fixed to prevent the radiation source 100 from moving. The radiation source 100 may be prevented from leaking out of the container 110 during the connection or disconnection of the tube 300.

Therefore, the radiation source 100 may be exposed to the outside or the wires for pushing the radiation source 100 to the outside of the container 110 may be prevented from being disconnected while being exposed to the outside, thereby preventing the radiation source 100 from being exposed to the outside of the radiation source 100. Exposure can be prevented.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

For example, in order to prevent the push button 126 from being pushed by an unauthorized person, the push button 126 may include a lock 130 into which a key is inserted. That is, as shown in FIGS. 2, 3, and 6, a lock 130 into which a key is inserted is installed on one surface of the push button, thereby moving the push button 126 according to the locking and releasing of the lock 130. You can also control it.

In other words, a key is inserted into the push button 126 so that the lock 130 is rotated so that the push button 126 is operated even if the user presses the push button 126 while the key is not released by the key. The stopper 124 cannot be operated because it is locked so as not to move toward the rear cover 108 along the push button mounting hole 108c.

On the contrary, in the state where the lock 130 is released by the key, when the user presses the push button 126, the push button 126 is installed to move toward the rear cover 108, whereby the push button 126 As the stopper 124 moves toward the rear cover 108, the end 124a of the stopper 124 is spaced apart from the ratchet 312 of the connector 310 to move the connector 310 to the container 110. It can be separated from the connection portion 128 on the back.

100: radiation source 100a: convex portion
102: handle 104: shield
106: front cover 108: rear cover
108a: inlet hole 108b: stopper mounting hole
108c: push button mounting hole 110: container
120: first locking portion 121: first elastic member
122: cover 122a: assembly hole
122b: through hole 123: second elastic member
124: stopper 124a: this end
124b: body 124c: connecting projection
126: push button 126a: insertion groove
126b: fitting projection 128: connection
130: lock 140: second locking portion
142: push lever 142a: push
142b: fixing hole 142c: holder portion
142c-1: Communication Hall 142c-2: Settle Hall
142d: jam 144: supporter
144a: Hanging Jaw 144a: Hanging Jaw
144b: lifting area 146: locking member
146a: storage space 146b: hanging storage groove
200: source transmission pipe 300: control tube
310: connector 312: ratchet

Claims (5)

A container for shielding and storing the radiation source;
A source transmission tube connected to an exit hole formed at the front of the container to guide the radiation source to the object under test;
A control tube connected by a connector and a connector provided on a rear surface of the container facing the source transmission tube and having a wire therein for moving a radiation source therein;
A remote controller provided at the base of the control tube to push or pull the wire of the control tube by a handle operation; And
A second locking unit installed at a rear surface of the container to fix the radiation source located inside the container in a non-moving manner according to a user's pressing operation; And
A first locking part installed on a rear surface of the container and intermittently rotating the connector in a release direction;
The first locking unit,
A cover fixed to the rear surface of the container and having a connection portion; A ratchet formed on a connector connected to the connection portion formed on the cover; A stopper installed at the rear of the container in engagement with the ratchet to rotate the connector only in the locked direction; And a push button connected to the stopper and spaced apart from the ratchet by a push operation to stop the stopper from the ratchet.
The method of claim 1, wherein the second locking portion,
It includes a push lever which is installed on the back of the container to move up and down,
The push lever,
A pressing part which protrudes upward from the rear surface of the container and is pressed by the user;
A fixing hole formed at a lower portion of the pressing part and into which a rear surface of the push button is inserted; And
And a holder part installed at an inlet hole of a container into which a radiation source corresponding to a lower portion of the fixed hole enters and exits, and controls the entrance and exit of the radiation source.
The method of claim 1 or 2, wherein the radiation source is a convex portion having a diameter larger than the diameter of the radiation source is formed,
And the holder portion has a communication hole having a diameter larger than that of the convex portion of the radiation source and a settling hole having a diameter smaller than that of the convex portion of the radiation source.
The method according to claim 1 or 2, wherein the second locking portion,
It includes a supporter which is installed on the back of the container,
The supporter is a radiographic inspection apparatus having a radiation source locking structure, characterized in that the lifting area is formed on the surface facing the back of the container to guide the lifting of the push lever.
delete

Images