KR101409570B1 - Nuclear fuel rod wire spacer install device - Google Patents

Abstract

The present invention relates to a device for installing a nuclear fuel rod wire spacer. The device for installing a nuclear fuel rod wire spacer according to the present invention comprises: a nuclear fuel rod rotating unit which is coupled to a nuclear fuel rod to rotate the nuclear fuel rod; a spiral orbit guide to adhere a metal wire to the nuclear fuel rod to wind the metal wire on the nuclear fuel rod; and a heating unit to heat the metal wire before the metal wire is winded on the nuclear fuel rod. Therefore, the device of the present invention can wind the metal wire on the nuclear fuel rod to be adhered at uniform intervals. Furthermore, as there is no deformation in the metal wire after the metal wire is winded on the nuclear fuel rod, the device of the present invention can improve safety of the nuclear fuel rod. Also, the device of the present invention can uniformly maintain intervals among the multiple nuclear fuel rods, uniformly cool the nuclear fuel rods, and uniformly heat fluids flowing around the nuclear fuel rods.

Description

[0001] NUCLEAR FUEL ROD WIRE SPACER INSTALL DEVICE [0002]

The present invention relates to a fuel rod wire spacer installation device, and more particularly to a device for winding a helical wire spacer on the outer wall of a fuel rod at a sodium cooling high speed.

Generally, a method of winding a wire around the fuel rod is used to uniformly maintain the spacing between the fuel rods used in the sodium-cooled high-speed furnace.

In order to uniformize the cooling of the fuel rod and the heating of the fluid flowing around the fuel rod, the metal wire must be spirally wound around the outer wall of the fuel rod at regular intervals while rotating the fuel rod, but the adjustment of the rotation speed of the fuel rod is not constant, There is a problem that the spacing of the spiral is not uniform due to the elasticity of the wire and the wound metal wire is not brought into close contact with the fuel rod. In addition, there has been a problem that a metal wire is twisted due to rotation while a metal wire is wound on a fuel rod, and the interval of the metal wire wound in a spiral shape changes with time.
The background art of the present invention is disclosed in Korean Patent Publication No. 2005-0056806 (published on June 16, 2005), Korean Published Patent Application No. 2008-0018654 (published on Feb. 28, 2008), and Japanese Patent Laid-Open No. 2007-180068 (issued on July 2007, 12 publication).

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus for mounting a fuel rod wire spacer in which a metal wire can be spirally wound around a fuel rod at regular intervals.

It is another object of the present invention to provide a fuel rod wire spacer which cools a metal wire to a fuel rod while heating the metal wire so that the metal wire is not rapidly oxidized and causes the metal wire to adhere to the surface of the fuel rod, And to provide an installation device.

The apparatus for installing a nuclear fuel rod wire spacer according to the present invention comprises: a fuel rod rotating unit coupled to a nuclear fuel rod to rotate the nuclear fuel rod; A helical track guide for closely contacting the metal wire to the fuel rod to helically wind a metal wire on the fuel rod; And a heating unit for heating the metal wire before the metal wire is wound on the fuel rod.

According to the present invention, it is possible to wind the metal wire in close contact with the fuel rod at uniform intervals, and there is no deformation of the metal wire even after the metal wire is wound around the fuel rod, so that the safety of the fuel rod can be improved.

Further, according to the present invention, the gap between the plurality of fuel rods can be uniformly maintained, the fuel rod can be uniformly cooled, and the fluid flowing around the fuel rod can be uniformly heated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a fuel rod wire spacer installation apparatus according to an embodiment of the present invention; FIG.

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

1 is a cross-sectional view of a nuclear-fuel rod wire spacer installation apparatus according to an embodiment of the present invention.

1, the fuel rod wire spacer installation apparatus 1 according to the present embodiment includes a pedestal 11, support rods 12 and 16, a roller 13, fuel rod rotation portions 18 and 19, A helical track guide 42, a screw bar 43, and a heating unit 61. The drill chuck 20, 29, the helical track guide 42, the screw bar 43,

The pedestal 11 forms the bottom surface of the nuclear fuel rod wire spacer installation device 1 and can be formed in a wide, flat plate-like shape.

The supports 12 and 16 are coupled to the upper surface of the pedestal 11 and supported by the pedestal 11. At least two of the supports 12 and 16 are included, and the supports 12 and 16 support both ends of the roller 13. Bearings 14 and 15 may be provided at both ends of the supports 12 and 16 and the roller 13 may be rotatably coupled to the supports 12 and 16 by the bearings 14 and 15 .

The rollers 13 are formed in a cylindrical shape and can extend long between the supports 12 and 16. A fuel rod 17 may be installed on the roller 13.

Both ends of the fuel rod (17) are coupled to the fuel rod rotating parts (18, 19). The fuel rod rotation units 18 and 19 may be rotatably coupled to the rotation support rods 24 and 25. [

The rotary support rods 24 and 25 are coupled to the upper surface of the pedestal 11 and are supported by the pedestal 11. The fuel rod rotation units 18 and 19 may be installed through the rotation support rods 24 and 25. Between the fuel rod rotation units 18 and 19 and the rotation support rods 24 and 25, (21, 22) that can facilitate the rotation of the bearings (18, 19).

Height adjustment handles 27 and 28 for adjusting the height of the fuel rod rotation units 18 and 19 may be provided on the rotation support rods 24 and 25. [ The height of the fuel rod rotating parts 18 and 19 can be increased or decreased by operating the height adjusting handles 27 and 28 so that the height of the fuel rod 17 can be adjusted.

A bevel gear (31) is provided at one end of the fuel rod rotating part (18). The pedestal 11 is provided with a motor support portion 32 for supporting the motor 33 and a bevel gear engaged with the bevel gear 31 is provided on the rotation shaft of the motor 33. The motor 33 provides a rotational force to rotate the fuel rod 17 and a user can adjust the rotational speed of the fuel rod 17 by controlling the rotational speed of the motor 33.

The fuel rod 17 may be coupled to the fuel rod turning unit 18, 19 by a drill chuck 19, 20. The user can tighten the drill chucks 19 and 20 by rotating the fuel rod 17 and the drill chucks 19 and 20 allow the fuel rod 17 to be rotated by the fuel rod rotation units 18 and 19. [ And is integrally rotated with the fuel rod rotating parts 18 and 19. [

A helical track guide 42 for winding the metal wire 41 on the fuel rod 17 is provided on the fuel rod 17. The helical track guide 42 is horizontally moved in the longitudinal direction of the fuel rod 17 in a state of being closely contacted with the fuel rod 17 with the metal wire 41 interposed therebetween. Here, the fuel rod 17 is in close contact with the helical track guide 42 while being continuously rotated.

One end of the metal wire 41 is fixed to an end of the fuel rod 17 and the metal wire 41 is fixed to the fuel rod 17 at one end thereof. It is wound on the outer circumference. The metal wire 41 may be cut by a length of the wire wound on the fuel rod 17, but may be continuously fed from the metal wire feeder 85.

A height adjustment handle 46 for adjusting the height of the helical track guide 42 is provided on the helical track guide 42 and a coil spring 47 is provided inside the helical track guide 42 do. The helical track guide 52 can be brought into close contact with the fuel rod 17 by the elastic force of the coil spring 47.

The screw bar 43 is screwed into the helical track guide 42 through a screw bar 43 formed on the outer circumferential surface of the helical track guide 42. When the screw bar 43 is rotated at a constant speed, . Therefore, the metal wire 41 wound around the fuel rod 17 can be wound in a spiral shape having a constant gap.

Both ends of the screw bar 43 are provided with bearings 44 and 45 for facilitating rotation of the screw bar 43. A pinion gear 51 is provided at one end of the screw bar 43. The pinion gear 51 meshes with another pinion gear 52 and is rotated integrally with the other pinion gear 52. [ A bevel gear is coupled to the end of the rotating shaft.

The gear rotating shaft is supported by the bearings 91 and 92 and can be easily rotated and the bevel gear meshes with another bevel gear 53 coupled to the rotating shaft of the motor 54 to rotate the motor 54 Can be provided.

The metal wire 41 is heated by the heating unit 61 before being wound on the fuel rod 17. The metal wire 41 passes through the heating part 61 and is heated and wound around the fuel rod 17 in a heated state. The method of heating the metal wire 41 by the heating unit 61 is not limited. For example, the heating unit 61 may include a nichrome wire to heat the metal wire 41.

A temperature adjusting unit 62 is provided on one side of the heating unit 61 to adjust the temperature at which the metal wire 41 can be heated.

An inert gas container 81 capable of supplying an inert gas into the heating unit 61 is provided at one side of the heating unit 61. The inert gas is supplied into the heating portion 61 to prevent surface oxidation of the metal wire 41. The inert gas container 81 includes a pressure regulator 82 for supplying an inert gas to the heating unit 61 through a pipe and controlling the pressure of the inert gas in the pipe, A shut-off valve 83 is provided. For example, the inert gas supplied to the heating unit 61 may be argon (Ar), and the inert gas supplied to the heating unit 61 may pass through the heating unit 61 and may be discharged to the outside.

The heating unit 61 is moved together with the helical track guide 42 as the helical track guide 42 is moved. Therefore, interference between the heating unit 61 and the helical track guide 42 can be prevented.

Therefore, according to the present invention, the metal wire wound around the fuel rod is wound in a heated state to alleviate the metal elasticity, and the heated metal wire is cooled, thereby reducing the length of the metal wire due to shrinkage and bringing the metal wire into close contact with the outer peripheral surface of the fuel rod. have.

In addition, since the helical track guide moves horizontally at a constant speed in a state in which the metal wire is in close contact with the outer circumferential surface of the fuel rod, the metal wire can be wound in a spiral shape with a constant interval.

Although the present invention has been described with reference to the preferred embodiments thereof, 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 in the following claims. It can be understood that

1: Nuclear fuel rod wire spacer mounting device 11: Base
12: support 13: roller
17: Nuclear fuel rod 18, 19: Nuclear fuel rod rotating part
42: Helical track guide 43: Screw bar
61: Heating section 81: Inert gas container

Claims (8)

A fuel rod rotating unit coupled to the fuel rod to rotate the fuel rod;
A helical track guide for closely contacting the metal wire to the fuel rod to helically wind a metal wire on the fuel rod; And
A heating unit heating the metal wire before the metal wire is wound on the fuel rod;
Lt; / RTI >
Wherein the helical track guide is provided with a height adjustment handle capable of adjusting the height of the helical track guide and an elastic member for providing a force that allows the helical track guide to be brought into close contact with the fuel rod. The method according to claim 1,
Wherein the helical track guide is coupled to a screw bar having threads on an outer circumferential surface thereof and the helical track guide moves horizontally as the screw bar is rotated. delete The method according to claim 1,
Further comprising an inert gas container for supplying an inert gas to the heating unit. The method according to claim 1,
A rotation support supporter for supporting the fuel rod rotation portion,
A bearing provided between the rotation support supporter and the fuel rod rotation portion,
A height adjustment handle capable of adjusting the height of the rotation support,
And a motor for providing a rotational force to the fuel rod rotating unit. The method according to claim 1,
Wherein the fuel rod turning part and the fuel rod are fixed by a drill chuck. The method according to claim 1,
And a temperature control unit capable of controlling the temperature of the heating unit. The method according to claim 1,
Wherein the heating unit moves along with the movement of the helical track guide.

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