KR102356052B1 - A support lifting equipment for a support for the settlement of spent nuclear fuel in heavy water reactors - Google Patents

Abstract

The present invention relates to support lifting equipment for settling spent nuclear fuel in a heavy water reactor and, more particularly, to support lifting equipment for settling spent nuclear fuel in a heavy water reactor, wherein the support lifting equipment is designed to easily and safely lift the spent nuclear fuel support sunk in a water tank of a wet storage tank of the nuclear power plant. To this end, the present invention provides the support lifting equipment for settling spent nuclear fuel in a heavy water reactor, which includes: a straight guide frame formed with a plurality of hanging holes; at least one main frame provided to move along the guide frame, and formed with a hanging bar toward both sides based on the guide frame, in which a plurality of hanging holes are formed in the hanging bar; a side block installed to be movable along the hanging bar of the main frame, and including a coupling bar protruding downward from the hanging bar; a support plate rotatably installed on the coupling bar of the side block, and forming a locking surface to hang and support the spent nuclear fuel support; and a constraining mechanism provided to constrain the main frame to the hanging hole of the guide frame, and constrain the side block to the hanging bar, wherein the center of the main frame forms a slide ball through which the guide frame passes, the side block forms a slide ball through which the hanging bar of the main frame passes, and constraint holes passing through the slide holes are formed in the main frame and the side blocks, in which the constraint hole is formed to correspond to the hanging hole.

Description

A support lifting equipment for a support for the settlement of spent nuclear fuel in heavy water reactors}

The present invention relates to a support lifting equipment for loading spent nuclear fuel in heavy water, and more particularly, lifting of a support for loading spent nuclear fuel in heavy water that is capable of lifting the spent nuclear fuel support sunk in the water tank of a wet storage tank of a nuclear power plant out of the tank. It's about equipment.

In general, spent fuel refers to a nuclear fuel material used as a fuel for a nuclear reactor or a nuclear fuel material that has undergone atomic nuclear fission by other methods. is called Although these spent fuels are no different from those of pre-used fuels in appearance, they have high radioactivity because of the fission products generated during the nuclear fission reaction in the nuclear reactor and continue to generate heat even after the nuclear fission reaction is over. It cannot be used and must be handled outside of a shielding structure that protects against radiation. Such spent nuclear fuel is stored in a storage place in a specially designed storage container before final disposal, which is buried underground. Only spent nuclear fuel, which has been cooled for more than 6 years in a wet storage tank and generates very little decay heat, is transported to and stored in the Spent Fuel Dry Storage Facility (SFDSF) outside the building.

Meanwhile, in the wet storage tank, as shown in FIG. 1 , a plurality of supports 10 for supporting the spent nuclear fuel tray (not shown) on the bottom of the tank are provided. The support 10 does not exceed the allowable load of the bottom of the tank, and provides a separation space between the bottom of the spent fuel tray and the bottom of the tank so that water can flow smoothly around the spent fuel tray. The support 10 constitutes a rectangular frame, and the support 10 is provided with a reinforcing frame 11 in the form of 'X' installed diagonally across the rectangular frame. The support 10 may be provided in various ways, such as a single type or a double type connected in plurality.

On the other hand, as the lifespan of a nuclear power plant increases, various inspections, such as IAEA-related inspections and maintenance work such as waterproofing paint work in wet storage tanks, occur, the spent nuclear fuel tray stored in the water tank as well as a plurality of supports sinking in the water tank ( 10) must be lifted out of the tank. However, in the prior art, there is no proper equipment for lifting the support 10, so it is difficult to empathize with the need for lifting the support 10 because there is no special standard for using a rope and a hook to improvise, or because there is no special standard for lifting the support 10 there is a problem.

Republic of Korea Registration No. 10-1103883

The present invention has been devised to solve the above problems, and it is an object of the present invention to lift a support for seating of spent nuclear fuel in heavy water so that it is possible to easily and safely lift a support for a spent fuel tray sinking at the bottom of a water tank of a wet storage tank. It is intended to provide equipment.

The present invention, in order to achieve the above object, a plurality of locking holes formed in a straight guide frame; one or more main frames provided to be movable along the guide frame and having hanging bars formed toward both sides with respect to the guide frame, the hanging bars having a plurality of locking holes; a side block that is installed to move along the hanger bar of the main frame and includes a coupling bar protruding downward of the hanger bar; a support plate rotatably installed on the coupling bar of the side block and forming a locking surface to hang and support the spent nuclear fuel support; and a restraining means provided to restrain the main frame to the engaging hole of the guide frame and to restrain the side block to the hanging bar, wherein the center of the main frame includes a slide hole through which the guide frame can pass. forming, the side block forms a slide hole through which the hook bar of the main frame can pass, and the main frame and the side block are formed with a constraint hole penetrating the slide hole, the constraint hole corresponding to the locking hole Provided is a support lifting equipment for loading spent nuclear fuel in heavy water, characterized in that it is formed so as to be possible.

In this case, the coupling bar is provided as a pair, and the support plate corresponds to a fixed hole provided to be fixed to any one of the pair of coupling bars, and a rotation radius of the support plate rotated based on the fixed hole. It is preferable to include a guide ball in the form of an arc having a curvature.

At this time, a screw groove is formed in each of the bottom surfaces of the pair of coupling bars, and is screwed into any one coupling bar screw groove through the fixing hole, and is screwed into the other coupling bar screw groove through the guide hole. It is preferable that a coupling bolt is provided.

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The support lifting equipment for loading spent nuclear fuel in heavy water according to the present invention is provided so that the spent nuclear fuel tray support located at the bottom of the deep water tank can be hung and lifted, so that maintenance work and repair work inside the tank can be effectively performed. In addition, since the present invention can freely move inside the water tank by hanging the support, it is possible to increase the convenience for maintenance work.

In addition, the present invention can prevent damage to the support during transport and lifting of the spent nuclear fuel tray support, and has the effect of preventing safety accidents.

1 is a photograph showing a state in which a support for seating a spent nuclear fuel tray in a water tank of a wet storage tank of a nuclear power plant is sunk.
2 is a perspective view illustrating a support lifting device for loading spent nuclear fuel in heavy water according to a preferred embodiment of the present invention.
3 is a front view showing a support lifting device for loading heavy water spent nuclear fuel according to a preferred embodiment of the present invention.
4 is a plan view illustrating a support lifting device for loading spent nuclear fuel in heavy water according to a preferred embodiment of the present invention.
5 is a cross-sectional view showing a side zluk of a support lifting equipment for loading heavy water spent nuclear fuel according to a preferred embodiment of the present invention.
6A is a plan view showing a support plate of a support lifting device for loading heavy water spent nuclear fuel according to a preferred embodiment of the present invention, and FIG. 6B is a support of the support lifting device for loading heavy water spent nuclear fuel according to a preferred embodiment of the present invention It is a bottom perspective view showing the plate.
7 is a cross-sectional view showing a support plate of a support lifting equipment for loading heavy water spent nuclear fuel according to a preferred embodiment of the present invention.
8A and 8B are plan views illustrating various examples in which the support lifting equipment for mounting the heavy water spent nuclear fuel in accordance with a preferred embodiment of the present invention hangs and rests the spent nuclear fuel support.

The terms or words used in the present specification and claims are not to be construed as limited in their ordinary or dictionary meanings, and on the principle that the inventor can appropriately define the concept of the term in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Hereinafter, a support lifting equipment for loading heavy water spent nuclear fuel (hereinafter referred to as a 'lifting equipment') according to a preferred embodiment of the present invention will be described with reference to FIGS. 2 to 8B.

The lifting equipment includes a guide frame 100 , a main frame 200 , a side block 300 , a support plate 400 , and a restraining means 500 as shown in FIG. 2 .

The guide frame 100 is provided so that the main frame 200 can be installed, and serves as a reference so that an interval between the plurality of main frames 200 can be adjusted. The guide frame 100 is provided in a straight line, and a plurality of locking holes 110 are formed in the guide frame 100 in the longitudinal direction of the guide frame 100 as shown in FIG. 4 . The locking hole 110 is a through hole for fastening the main frame 200 , and is formed through the guide frame 100 in the upper and lower directions. For convenience of description, the locking hole 110 formed in the guide frame 100 is referred to as a first locking hole.

The main frame 200 is configured to be lifted by being caught on heavy equipment such as a crane for lifting the lifting equipment, and is provided to be movable along the guide frame 100 . The main frame 200 is provided in plurality, and most preferably, it is provided as a pair disposed on both sides of the guide frame 100 . As shown in FIG. 4 , the main frame 200 includes hanger bars 210 formed toward both sides of the guide frame 100 with respect to the guide frame 100 , and the center of the main frame 200 is a guide A slide hole 220 is formed so that the frame 100 can pass therethrough. The slide hole 220 formed in the main frame 200 is referred to as a first slide hole for convenience. While the main frames 200 on both sides of the guide frame 100 are reciprocally moved along the guide frame 100 , the distance between the pair of main frames 200 may be adjusted. In the center of the main frame 200, a constraint hole 230 penetrating toward the slide hole 220 is formed, and the constraint hole 230 is a first locking hole of the guide frame 100 passing through the slide hole 220. 110). At this time, the constraint hole 230 formed in the center of the main frame 200 is referred to as a first constraint hole for convenience of description. On the other hand, a plurality of locking holes 211 are formed in the hanger bar 210 in the longitudinal direction of the hanger bar 210 . The locking hole 211 is a through hole for fastening the side block 300 , and is formed to penetrate in the upper and lower directions of the hanging bar 210 . For convenience of description, the locking hole 211 formed on the hanger bar 210 is referred to as a second locking hole. On the other hand, the lifting ring 212 is installed at the end of each hanger bar (210).

The side block 300 is configured to adjust the spacing between the support plates 400 for hanging and supporting the support 10 to be lifted and the installation angle of the support plate 400 , and the hanger bar 210 of the main frame 200 . ) is installed so that it can reciprocate along the The side block 300 is formed on each of the hanger bars 210 formed on both sides of the main frame 200 with respect to the guide frame 100, and forms a slide hole 310 through which the hanger bar 210 can pass. do. The slide hole 310 formed in the side block 300 is referred to as a second slide hole for convenience of description. A constraint hole 320 for being constrained and fastened to the hanger bar 210 is formed in the side block 300 , and the constraint hole 320 corresponds to the second locking hole 211 of the hanger bar 210 . For convenience of description, the constraint hole 320 formed in the side block 300 is referred to as a second constraint hole. On the other hand, as shown in Figs. 3 to 5, the side block 300 has an arbitrary fixing hole 330 is formed. The optional fixing hole 330 is a bolt (B) even in a position where the second locking hole 320 of the side block 300 and the second locking hole 211 of the main frame 200 hanger bar 210 do not coincide with each other. is fastened to press the side of the hanger bar 210 , thereby constraining the movement of the side block 300 in the hanger bar 210 . In addition, the side block 300 includes a coupling bar 340 protruding downward of the side block 300 as shown in FIGS. 2 and 3 . The coupling bar 340 is a configuration for coupling with the support plate 400 to be described later, and is preferably provided as a pair as shown in FIG. 2 . At this time, a screw groove 341 is formed on the bottom surface of the coupling bar 340 as shown in FIG. 5 . The screw groove 341 is a configuration for guiding the rotation of the support plate 400 and coupling with the support plate 400 to be described later, and a detailed description thereof will be described later.

The support plate 400 is a configuration in which the support 10 to be lifted is substantially hung and supported, and is installed on each side block 300 . To be precise, the support plate 400 is installed on the coupling bar of the side block 300 . The support plate 400 forms a locking surface 410 in the shape of a square as shown in FIGS. 2 and 6A and 6B . The support plate 400 is installed to be able to rotate horizontally with respect to the bottom of the tank based on the coupling bar 340 . To this end, as shown in FIGS. 6A and 6B , a coupling hole 411 and a guide hole 412 are formed on the engaging surface 410 of the support plate 400 . The coupling hole 411 is a configuration for coupling the support plate 400 to the coupling bar 340 of the side block 300 , and is a screw groove of any one coupling bar 340 of the pair of coupling bars 340 . It corresponds to (341). In addition, the guide hole 412 is formed to be rotated based on any one of the coupling bars 340 coupled through the coupling hole 411, and the other coupling bar 340 is configured to be guided when it moves. to be. That is, the guide hole 412 is configured not to interfere with the other coupling bar 340 when the support plate 400 is horizontally rotated with respect to any one coupling bar 340 , and the support plate 400 . ) in the form of an arc formed along the radius of rotation. The coupling hole 411 and the guide hole 412 form a stepped groove 413 on the bottom surface of the support plate 400 as shown in FIG. Make sure it doesn't stick out. The coupling bolt 420 fastened to the coupling bar 340 through the coupling hole 411 and the guide hole 412 is a coupling bar through the coupling hole 411 and the guide hole 412 on the bottom surface of the support plate 400 . It is fastened to the screw groove 341 of the 340 to couple the support plate 400 to the coupling bar 340 . On the other hand, it is preferable that the partition wall 430 is installed at the end of the support plate 400 as shown in FIGS. 6A to 7 . The partition wall 430 is configured to prevent the support 10 from being separated from the engaging surface 410 , and is preferably installed to be detachably attached to the support plate 400 . That is, the partition wall 430 is a configuration that can be selectively borrowed, if necessary. The partition wall 430 is preferably formed to be higher than the height of the support plate 400 .

The constraining means 500 constrains the movement of the main frame 200 to the guide frame 100 , and serves to constrain the side block 300 to the hanger bar 210 of the main frame 200 . That is, the restraint means 500 is provided to be inserted into the first locking hole 110 through the first restraint hole 230 and to be inserted into the second locking hole 211 through the second restraint hole 320 . will be. The restraint means 500 is not particularly limited, and it is preferably in the form of a restraint pin including a ball plunger 510 that can smoothly enter and exit the restraint holes 230 and 320 and the locking holes 110 and 211 .

Hereinafter, we will look at the operation of lifting the support using the lifting equipment configured as described above.

The support 10 shown in FIG. 8a is an example showing that the reinforcement frame 11 is installed across the space in an 'X' shape in a rectangular frame, and the operator installs the support plate 400 of the lifting equipment into the reinforcement frame 11 ) and salvage it. To this end, the operator first determines the position of the main frame 200 by moving the main frame 200 on both sides from the guide frame 100 outside the water tank. Thereafter, the operator fastens the restraint means 500 through the first restraint hole 230 and the first locking hole 110 , thereby restraining the movement of the main frame 200 in the guide frame 100 .

Next, the operator moves the side block 300 from the hanger bar 210 of the main frame 200 to determine the position of the side block 300 . Thereafter, the operator fastens the restraint means 500 through the second restraint hole 320 and the second locking hole 211 , thereby restraining the movement of the side block 300 on the hanger bar 210 .

Next, the operator rotates the support plate 400 based on the coupling bar 340 to match the angle of the engaging surface 410 with the angle of the reinforcement frame 11 . Specifically, in a state in which the operator adheres the support plate 400 to the bottom surface of the coupling bar 340 , the coupling bolt 420 is screwed to the bottom surface of any one coupling bar 340 through the coupling hole 411 . make it At this time, the support plate 400 is temporarily assembled to any one of the coupling bars 340 and is in a state in which rotation is free based on the coupling bars 340 . Next, in a state in which the operator rotates the support plate 400 to match the angle of the reinforcement frame 11 , the screw groove 341 of the coupling bar 340 in the lower surface of the guide hole 412 is the coupling bolt 420 . ) and screw in. Then, by assembling the coupling bolts 420 to the stepped grooves 413 formed on the bottom surface of the support plate 400 , the operator determines the angle of the support plate 400 is completed. On the other hand, the operator adjusts the angle by rotating the support plate 400 in a state in which all of the coupling bolts 420 are temporarily assembled to the coupling bar 340 through the coupling hole 411 and the guide hole 412, and then the main assembly is performed. may be

As described above, when the position of the main frame 200 and the position of the side block 300 are determined, the operator couples the chain C to the lifting ring 212 at the end of each hanger bar 210, and in FIG. As shown, the chain (C) is bound to the mastering (R) of heavy equipment such as cranes.

Next, the operator operates the crane to slowly sink the lifting equipment into the water tank. When the lifting equipment reaches near the bottom of the water tank, the operator moves the position of the lifting equipment little by little so that the engaging surface 410 of the support plate 400 is positioned below the reinforcement frame 11 as shown in FIG. 8A. . After that, when the support plate 400 of the lifting equipment is located below the reinforcing frame 11, the operator raises the lifting equipment with a crane, and as the lifting equipment climbs by walking the reinforcing frame 11, the support 10 is The lifting is completed out of the tank together with the lifting equipment.

On the other hand, the support 10 has various structures and shapes. As shown in FIG. 8B , the support 10 may have a structure in which the reinforcing frame 11 of the 'X' shape is omitted. In order to lift the support 10 , the operator rotates the support plate 400 based on the coupling bar 340 of the side block 30 to vertically position it with respect to the hanging bar 210 . Thereafter, by lifting the support 10 out of the water tank through the above-described series of processes, the support lifting operation is completed.

Although the present invention has been described in detail with respect to the described embodiments, it is apparent to those skilled in the art that various changes and modifications are possible within the scope of the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

100: guide frame 110: first locking hole
200: main frame 210: hanger bar
211: second locking hole 212: lifting ring
220: first slide ball 230: first constraint ball
300: side block 310: second slide ball
320: second constraint ball 330: arbitrary fixed hole
340: coupling bar 341: screw groove
400: support plate 410: engaging surface
411: coupling hole 412: guide ball
413: step groove 420: coupling bolt
430: bulkhead 500: restraint means
510: ball plunger

Claims (4)

A guide frame of a straight line formed with a plurality of locking holes;
one or more main frames provided to be movable along the guide frame and having hanging bars formed toward both sides based on the guide frame, the hanging bars having a plurality of locking holes;
a side block which is installed to move along the hanger bar of the main frame and includes a coupling bar protruding downward of the hanger bar;
a support plate rotatably installed on the coupling bar of the side block and forming a locking surface to hang and support the spent nuclear fuel support; and
Constraining the main frame to the locking hole of the guide frame, comprising a restraining means provided to restrain the side block to the hanging bar,
A center of the main frame forms a slide hole through which the guide frame can pass, and the side block forms a slide hole through which a hanger bar of the main frame can pass, and the main frame and the side block have the slide hole. A support lifting equipment for loading spent nuclear fuel in heavy water, characterized in that a constraint hole penetrating the ball is formed, and the constraint hole is formed to correspond to the engaging hole. The method of claim 1,
The coupling bar is provided as a pair, and the support plate has a fixing hole provided to be fixed to any one of the pair of coupling bars, and a curvature corresponding to the rotation radius of the support plate rotated based on the fixing hole. Support lifting equipment for loading spent nuclear fuel in heavy water, characterized in that it includes an arc-shaped guide hole having an arc. 3. The method of claim 2,
A screw groove is formed in each of the bottom surfaces of the pair of coupling bars,
Support lifting equipment for mounting spent nuclear fuel in heavy water, characterized in that a coupling bolt screwed into one of the coupling bar screw grooves through the fixing hole and screwed into the other coupling bar screw groove through the guide hole is provided. .




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