KR101104792B1 - Drop test system of a Radioactive waste Package - Google Patents

Abstract

The present invention relates to a radioactive waste container drop test system, and in particular, an impact space having an impact plate for colliding with a radioactive waste container falling below is formed below the ground, so that the surrounding area due to debris or bounce of the radioactive waste container body during collision The present invention relates to a radioactive waste container drop test system that prevents safety accidents and reduces noise generated in a collision by allowing the influence to be blocked at the source. The construction is a radioactive waste container drop test system, comprising: elevating means positioned on the ground for height adjustment and horizontal movement of a radioactive waste container to a test height; An impact space having an impact plate formed to have a depth under the ground positioned below the elevating means and configured to perform an impact test on the radioactive waste container falling down; A container handling area formed on the ground on the upper side of the upper side of the impact space, the container handling area having a safety wall and a fence so as to be able to prepare, test and inspect the radioactive waste container; Characterized in that comprises a.

Radioactive Waste, Containers, Underground, Drop Test, Systems

Description

Drop test system of a radioactive waste package

The present invention relates to a radioactive waste container drop test system, and in particular, an impact space having an impact plate for colliding with a radioactive waste container falling below is formed below the ground, so that the surrounding area due to debris or bounce of the radioactive waste container body during collision The present invention relates to a radioactive waste container drop test system that prevents safety accidents and reduces noise generated in a collision by allowing the influence to be blocked at the source.

In general, radioactive materials (hereinafter referred to as radioactive waste) are generated in nuclear power plants, and these radioactive wastes are collected, drum-packed, temporarily stored, and then transferred to a permanent disposal site. Radioactive waste containers are used to safely transport waste during transportation.

In addition, the Ministry of Education, Science and Technology (Regulation on Packaging and Transport of Radioactive Materials, etc.) No. 2008-69 and the IAEA Safety Standard No. According to the laws and standards of TS-R-1, etc., the safety of the transport conditions is verified through various tests such as drop test, thermal test and submersion test.

Of the above tests, the drop test is to demonstrate the soundness to impact of radioactive waste containers.

As such a system for a conventional drop test for demonstrating the impact resistance of the radioactive waste container, as shown in Figure 1, the tower structure 110 is installed at a constant height on the ground, and the tower structure 110 Reinforced concrete 131 for colliding with a hoist or crane 120 installed at an upper portion to lift the radioactive waste container 300 to be tested and the radioactive waste container 300 being lifted and dropped by the crane 120. And an impact plate 130 formed of the iron plate 132.

 However, such a conventional drop test system requires that some radioactive waste containers 300 be lifted up to 9 m from the floor in the drop test requirement, in which case at least 12 m in addition to the floor foundation work (impact plate formed of reinforced concrete and steel plate). Since it is necessary to install the above-described crane structure (considering hoist or crane hook and container sling length), there is a problem that a large size of the structure may be required and a high cost and a large space may be required.

In addition, a radioactive waste container having a weight of several tons or more and more than 100 tons in a high position should be dropped on the ground, so that noise caused by a collision may be louder, and the container body may bounce back in an unexpected direction or a safety accident may occur due to debris. There is a problem.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to make a collision with the impact plate during the dropping of the radioactive waste container beneath the ground, that is, underground and at the same time before and after the drop test By providing the impact space formed as a temporary storage, it is to provide a radioactive waste drop test system for smooth, safe and accurate drop test, noise reduction and economical efficiency of container handling.

In order to achieve the above object, the present invention provides a radioactive waste container drop test system comprising: lifting means for horizontally adjusting and horizontally moving a radioactive waste container to a test height; An impact space having an impact plate formed to have a depth under the ground positioned below the elevating means and configured to perform an impact test on the radioactive waste container falling down; A container handling area formed on the ground on the upper side of the upper side of the impact space, the container handling area having a safety wall and a fence so as to be able to prepare, test and inspect the radioactive waste container; Characterized in that comprises a.

The lifting means is characterized in that made of any one of a fixed crane or a vehicle-mounted mobile crane.

One side of the impact space is characterized in that the ladder is formed for access to the impact space for lifting or checking the radioactive waste container.

The impact space is characterized in that it can be used as a temporary storage of articles such as radioactive waste containers before and after the drop test.

As described above, the present invention prevents safety accidents by fundamentally blocking external influences due to debris or bounce of the container body during collision of falling radioactive waste containers, and reduces noise generated during collision. have.

In addition, the present invention is to reduce the size of the ground structure by allowing the impact space to be formed underground, and by using it as a temporary storage, such as radioactive waste container, there is an effect of space utilization and cost savings.

In particular, by reducing the scale of the ground structure to form a low height, the waste container can be observed at a closer distance and the test can be carried out by adjusting the drop distance, so that the effect of achieving an easy and accurate drop test can be achieved.

Hereinafter, a preferred embodiment of the radioactive waste container drop test system according to the present invention will be described in more detail with reference to the accompanying drawings.

Here, in all the drawings below, the components having the same functions are not repeated, using the same reference numerals, and the following terms are defined in consideration of functions in the present invention, which are inherently commonly used. It should be interpreted as meaning.

Figure 2 is a view showing a drop test system according to a preferred embodiment of the present invention, Figure 3 is a state diagram of the use of the drop test system according to a preferred embodiment of the present invention is a radioactive waste container hooked to the hook and transported to the falling and falling points 4 is a view showing a state in which a radioactive waste container is dropped as a state diagram of a drop test system according to a preferred embodiment of the present invention.

As shown in Figures 2 to 4 the present invention is a lifting means 210 for lifting and dropping the radioactive waste container 300 to the drop test height on the ground is formed.

The elevating means 210 is a structure 211 is formed on the ground at a constant height, for example, about 4m (the height from the ground to the crane ring raised), the structure 211 is a radioactive waste container 300 The hook 212 which consists of a crane, a hoist, etc. for raising, moving, and dropping by hooking up is formed.

Here, the elevating means 210 is installed in the height from the ground to the ring 212 approximately 4m, but may be installed somewhat variable in consideration of the characteristics, such as the size, load, and cost of the radioactive waste container 300. .

In addition, the ring 212 is formed of a roller or a rail, the upper end is operated by a remote control (not shown) so as to be movable horizontally to the horizontal frame of the structure 211. This structure is general, and a detailed structure and description thereof will be omitted.

The lifting means 210 of this configuration connects and secures the sling 301 to the latch formed on the upper side of the radioactive waste container 300, and balances the ring 212 at the center of the sling 301. After fixing it to achieve, it moves up, down and left and right to drop by adjusting the position to the appropriate drop test height.

In addition, the impact space 220 is formed to have a depth of about 5 m (depth from the ground to the impact plate) below the ground located at the lower portion of the elevating means 210.

The impact plate 230 is formed at the center of the bottom surface of the impact space 220 to impact test by colliding with the radioactive waste container 300 to be dropped.

The impact plate 230 is formed of a reinforced concrete block 231, the upper layer is made of an iron plate 232 to test the impact resistance.

Here, the impact space 220 is preferably formed in a form that the main body of the radioactive waste container 300 is not returned to the outside, but may be formed to form a variety of shapes, such as circular, square, octagonal.

Accordingly, when the radioactive waste container 300 falls, the fragments of the radioactive waste container 300 and the return of the main body to the outside of the elevating means 210 installed on the ground, unlike the prior art, prevent safety accidents and noise The incidence is reduced.

In addition, by forming the impact space 220 to the basement of the appropriate depth can greatly reduce the scale of the elevating means 210 is installed on the ground can achieve cost savings, thereby achieving economic efficiency.

In addition, the impact space 220 may be used as a temporary storage of the radioactive waste container 300 before and after the drop test. Therefore, space utilization can be effectively achieved.

In addition, one side of the impact space 220 is formed with a ladder 221 for approaching the impact space 220 for lifting or checking the radioactive waste container 300.

Here, the ladder 221 may be integrally formed and fixed to one side of the impact space 220, it may be formed detachably to move.

In addition, the drop test operator is located on the ground of the upper one side where the impact space 220 is located with a safety wall 241 and fence 242 so that the lifting, test preparation and inspection of the radioactive waste container 300 can be carried out. The container handling area 240 is formed.

Accordingly, the drop test operator installs a sling 301 for dialysis in the radioactive waste container 300 in the container handling area 240, or attaches a measuring instrument and checks and checks the impact test state. You will be able to secure your actions.

The operation state of the present invention having the above-described structure will now be described.

First, when the impact resistance of the radioactive waste container is tested using the drop test system according to the present invention, the drop test operator is located in the container handling area 240 to connect the sling 301 to the radioactive waste container 300. The hook 212 is fixed to the sling 301 by fixing.

Next, by using a remote control (not shown) by adjusting the height of the hook 212 fixed to the sling 301 installed in the radioactive waste container 300 and moving horizontally to adjust the height of the appropriate drop test height 9m. .

Next, the drop test operator checks the state of the radioactive waste container 300 adjusted to the drop test height at an adjacent distance, and adjusts the drop distance by adjusting the length of the ring 212 or the chain, radioactive waste container Free drop (300).

Accordingly, the free-falling radioactive waste container 300, the impact plate 230 of the impact space 220 formed to a depth of about 5m below the lower surface of the elevating means 210, that is, reinforced concrete block 231 It will collide with the iron plate 232 formed in the upper layer.

Here, since the impact space 220 is formed with a sufficient depth below the ground, that is, the basement, the radioactive waste container 300 colliding with the impact plate 230 is not bounced back or debris is generated. Noise is also reduced.

Then, the drop test operator checks and confirms the state of the radioactive waste container 300 dropped by approaching the bottom of the impact space 220 formed underground using the ladder 221 formed on one side of the impact space 220. do.

As described above, since the drop test system 200 according to the present invention repeatedly performs the above operation, the drop test system 200 can make the drop test more safely and easily from the radioactive waste container 300 or the debris returned by the drop collision. .

Therefore, the drop test operator can achieve the impact test of the radioactive waste container quickly, safely and easily by continuously repeating such an operation.

On the other hand, the present invention, by forming the lifting means 210 as a vehicle-mounted mobile crane instead of the fixed crane installed on the fixed structure 211, the rise, movement and fall of the radioactive waste container 300 during the drop test It can be achieved simply and easily without the installation of the structure 211 for. Accordingly, it is possible to reduce the cost due to the installation of the structure.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various changes, modifications, and equivalent changes to other embodiments may be made without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art to which the invention pertains.

1 is a view showing a drop test system of a conventional radioactive waste container.

2 is a view showing a drop test system according to a preferred embodiment of the present invention.

3 is a diagram showing a state of use of the drop test system according to a preferred embodiment of the present invention, a state where the radioactive waste container is hooked to a ring and transported to an ascending and falling point.

4 is a view showing a state in which a radioactive waste container is dropped as a state diagram of a drop test system according to a preferred embodiment of the present invention.

[Description of Reference Numerals]

200: drop test system 210: lifting means

211 Structure 212 Ring

220: impact space 221: ladder

230: impact plate 231: reinforced concrete block

232: iron plate 240: container handling area

241: safety wall 242: fence

300: radioactive waste container 301: sling

Claims (4)

In the radioactive waste container drop test system, Elevation means for leveling and horizontally moving the radioactive waste container to a test height on a ground; An impact space having an impact plate formed to have a depth under the ground positioned below the elevating means and configured to perform an impact test on the radioactive waste container falling down; A container handling area formed on the ground on the upper side of the upper side of the impact space, the container handling area having a safety wall and a fence so as to be able to prepare, test and inspect the radioactive waste container; Radioactive waste container drop test system comprising a. The radioactive waste container drop test system according to claim 1, wherein the elevating means is one of a fixed crane or a vehicle-mounted mobile crane. The radioactive waste container drop test system according to claim 1, wherein a ladder for accessing the impact space for lifting or checking the radioactive waste container is formed at one side of the impact space. The radioactive waste container drop test system according to claim 1, wherein the impact space can be used as a temporary storage of an article such as a radioactive waste container before and after the drop test.

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