JPH11174176A - Fuel assembly - Google Patents

Abstract

(57) Abstract: An object of the present invention is to provide a highly reliable connection between a partial length fuel rod and a lower tie plate by adding a lock function to a connection structure between the partial length fuel rod and a lower tie plate. Provides structure. A fuel rod insertion hole of a lower tie plate has a stepped structure, and a plurality of grooves are provided in an axial direction on a cylindrical surface of a lower end plug of a partially long fuel rod, and a spring material is mounted in the groove. Add ratchet stopper function.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nuclear power plant, and more particularly to a structure of a fuel assembly suitable for a method of connecting a partial length fuel rod included in a fuel assembly to a lower tie plate.

[0002]

2. Description of the Related Art In a nuclear power plant, a high burnup fuel assembly has been developed from the viewpoint of reducing spent fuel assemblies and improving fuel economy. In the high burn-up fuel assembly, a partial length fuel rod is used in order to increase the amount of uranium loaded and reduce the pressure loss of the assembly. Because the partial length fuel rods are shorter than the standard length fuel rods, they are not used as support members to maintain the strength of the assembly. Therefore, as shown in FIG. 2, the partial length fuel rod has a structure in which a male screw part provided in the lower end plug and a female screw part provided in the fuel rod insertion hole of the lower tie plate are connected and fixed. Even with such a screw connection structure, the partial length fuel rod is sufficiently fixed to the lower tie plate, but it is necessary to add a locking function to ensure the connection between the partial length fuel rod and the lower tie plate It is.

According to Japanese Patent Application No. 8-267633,
Although a connection structure in which the lower end plug is divided in the axial direction and which can be detached by snap fastening has been proposed, the fitting portion may be loosened due to the flow vibration of the partial length fuel rod.

[0004]

By the way, coolant flows around the part length fuel rod, and is constantly receiving fluid force from the coolant. That is, flow vibration caused by the fluid force of the coolant is excited in the partial length fuel rod. The flow vibration is a minute vibration phenomenon, and the partial length fuel rod does not break. However, it is considered that this minute vibration has a force to change the fixed state and the tightened state of the device.

[0005] In the above prior art, the partial length fuel rod is connected to the lower tie plate by a screw structure. However, as described above, flow vibration is excited in the partial length fuel rod, and the partial length fuel rod is connected to the lower length tie plate. It is believed that the screw connection to the lower tie plate may become loose.

An object of the present invention is to provide a highly reliable connection structure between a partial length fuel rod and a lower tie plate by adding a lock function to the connection structure between the partial length fuel rod and the lower tie plate. is there.

[0007]

In order to achieve the above object, a ratchet stopper function is added to a lower end plug of a partial length fuel rod. The ratchet stopper function is operated to operate in one direction but not in the reverse direction. That is, once the lower end plug of the partial length fuel rod is inserted into the fuel rod insertion hole of the lower tie plate, the lock function operates to prevent the partial length fuel rod from being detached from the lower tie plate.

FIGS. 1A and 1B show a lower end plug of a partial length fuel rod according to the present invention. As shown in FIG. 1, a plurality of grooves are provided in the outer peripheral wall surface of the lower end plug in the axial direction, and a spring material is mounted in the grooves.
The lower end of the spring material is fixed in the groove, and the other upper end is mounted so as to always be outside the diameter of the fuel rod insertion hole of the lower tie plate. FIG. 3 shows a state where the lower end plug is inserted into the fuel rod insertion hole of the lower tie plate.

In the present invention, the fuel rod insertion hole of the lower tie plate has a stepped structure in which the hole diameter is different between the inlet portion and the outlet portion. The hole diameter of the inlet portion is a size (small diameter portion) into which the lower end plug diameter is inserted, and the hole diameter of the outlet portion is a size obtained by adding the thickness of the spring material to the hole diameter of the inlet portion (large diameter portion).

Next, the behavior when the lower end plug passes through the fuel rod insertion hole of the lower tie plate will be described. When the lower end plug passes through the inlet portion of the fuel rod insertion hole, the lower end of the spring material passes as it is, but the upper end contracts in the radial direction as the lower end plug is inserted, and at the time of passing, The shape is stored in the groove. After passing through the entrance, the spring material
The upper end of the large-diameter portion of the outlet portion expands to its original shape and contacts the wall surface of the large-diameter portion. That is, the spring material has a function of a stopper.

Therefore, even if the partial length fuel rod is to be pulled out from the lower tie plate in this state, the spring material is caught on the stepped portion between the small diameter portion and the large diameter portion of the fuel rod insertion hole,
Part length fuel rods cannot be removed. That is,
The ratchet stopper function provided on the lower end plug of the partial length fuel rod works.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below. FIG. 4 shows a fuel assembly of the present invention. The fuel assembly 1 includes a standard length fuel rod 2, a partial length fuel rod 3 shorter than the standard length fuel rod 2, a water rod (not shown), an upper tie plate 4 and a lower tie plate 5 supporting the upper and lower ends thereof, and A fuel bundle 7 assembled with members such as a spacer 6 for aligning and supporting the fuel bundle;
And a channel box 8 that forms a coolant flow path. In general, the partial length fuel rods 3 are approximately half the length of the standard length fuel rods 2 and are located below the assembly 1. Four to eight part-length fuel rods 3 are used in one assembly 1. As described above, the standard length fuel rod 2
Is fixed at the upper and lower ends by an upper tie plate 4 and a lower tie plate 5, but since the partial length fuel rod 3 is shorter than the standard length fuel rod 2, it is fixed only to the lower tie plate 5. .

The coolant 9 flowing into the fuel assembly 1 flows from the lower tie plate 5, flows through the fuel rod region, and flows out of the upper tie plate 4. At this time, the coolant 9 is heated by the fuel rods in the fuel rod region and gradually changes from hot water to steam to form a two-phase flow of steam and hot water. The steam flows out to the steam turbine and the hot water returns to the furnace again.

Next, the connection structure of the partial length fuel rod 3 and the lower tie plate 5 of the present invention will be described with reference to FIGS. FIG. 1 shows the structure of the lower end plug 10 of the partial length fuel rod 3 of the present invention. On the outer peripheral wall surface of the lower end plug 10,
A plurality of grooves 11 are provided in the axial direction, and a spring material 12 is mounted in the grooves 11. The lower end 13 of the spring material 12 is fixed in the groove 11, and the other upper end 14 is always the fuel rod insertion hole 15 of the lower tie plate 5.
It is attached so that it may become outside the hole diameter of. FIG.
Is the lower end plug 10 and the fuel rod insertion hole 1 of the lower tie plate 5.
5 shows a state when the device is inserted into the device.

In the present invention, the fuel rod insertion hole 15 of the lower tie plate 5 has a stepped structure having different diameters at an inlet portion 16 and an outlet portion 17. At this time, the hole diameter of the inlet portion 16 is a size (small diameter portion) into which the lower end plug 10 is inserted, and the hole diameter of the outlet portion 17 is a size obtained by adding the thickness of the spring material 12 to the hole diameter of the inlet portion 16 (large diameter). Part).

In such a configuration, the fuel rod 3, the lower end plug 10 of the lower tie plate 5, and the fuel rod insertion hole 15 are formed.
The connection behavior with will be described. When the lower end plug 10 is inserted into the fuel rod insertion hole 15 of the lower tie plate 5, the spring material 1
The lower end 13 of 2 easily passes through the inlet portion 16 of the fuel rod insertion hole 15. Further, since the upper end 14 protrudes outside the fuel rod insertion hole 15, when passing through the inlet portion 16 of the fuel rod insertion hole 15, the upper end 14 contracts in the radial direction and passes through the groove 11. Then, the upper end 14 of the spring material 12 that has passed through the inlet portion 16 and housed in the groove 11 at the outlet portion 17 expands to its original shape and comes into contact with the wall surface of the outlet portion 17. That is, the spring member 12 has a function of a stopper.

Therefore, if the partial length fuel rod 3 is to be pulled out from the lower tie plate 5 in this state, the spring material 1
Since the portion 2 is hooked on the step portion between the small diameter portion and the large diameter portion of the fuel rod insertion hole 15, the partially long fuel rod 3 cannot be detached from the lower tie plate 5. That is, the ratchet stopper function provided on the lower end plug 10 of the partial length fuel rod 3 works.

FIGS. 5A, 5B, and 5C show partial length fuel rods 3.
This is a modification of the ratchet stopper function provided on the lower end plug 10 of FIG. This modification is characterized in that a spring material 18 is provided through the lower end plug 10. As shown in the figure, the spring member 18 is attached across two horizontal through holes 19 having different heights. With this structure, there is an advantage that the spring member 18 cannot be detached from the lower end plug 10.

FIG. 6 shows the connection between the partial length fuel rod 3 and the lower tie plate 5 in this modification. In this case, the operation of the U-shaped spring material 18 is such that the U-shaped spring material 18 contracts in the radial direction at the entrance of the fuel rod insertion hole 15 of the lower tie plate 5 and is housed in the through hole 19 in the same manner as described above. The U-shaped spring material 18 returns to its original shape at the outlet portion and contacts the wall surface. Therefore, if the partial length fuel rod 3 is to be pulled out from the lower tie plate 5 in this state, it cannot be pulled out because the spring material 18 is caught on the stepped portion between the small diameter portion and the large diameter portion of the fuel rod insertion hole 15. . That is, the ratchet stopper function provided on the lower end plug 15 works.

[0020]

According to the present invention, by providing a lock mechanism at the connection between the partial length fuel rod and the lower tie plate, the soundness of the fuel assembly and the safety of the reactor operation are ensured. Can be.

[Brief description of the drawings]

FIG. 1 is an explanatory view illustrating a cross-sectional structure of a lower end plug of a partial length fuel rod according to an embodiment of the present invention, and a cross-sectional view taken along line AA of FIG.

2 (a) and 2 (b) are cross-sectional views showing a fixed state of a conventional partial length fuel rod and a lower tie plate.

FIG. 3 is a cross-sectional view illustrating a state in which a partial length fuel rod of the present invention is inserted into a lower tie plate.

FIG. 4 is a cross-sectional view illustrating a fuel assembly embodying the present invention.

FIGS. 5 (a), (b) and (c) are explanatory views of a sectional structure of a lower end plug of a partial length fuel rod according to a modification of the present invention, a sectional view taken along line AA of FIG. The BB sectional drawing of a).

FIG. 6 is a cross-sectional view illustrating a modification of the present invention in which a partial length fuel rod is inserted into a lower tie plate.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Fuel assembly, 2 ... Standard length fuel rod, 3 ... Partial length fuel rod, 4 ... Upper tie plate, 5 ... Lower tie plate, 6
... spacer, 7 fuel bundle, 8 channel box, 9 coolant, 10 lower end plug, 11 groove, 12 spring material, 13 lower end of spring material, 14 upper end of spring material,
15: fuel rod insertion hole of lower tie plate; 16: inlet part of fuel rod insertion hole; 17: outlet part of fuel rod insertion hole;
8: U-shaped spring material, 19: through hole.

Claims (3)

[Claims] 1. A standard length fuel rod, a part length fuel rod shorter than the standard length fuel rod, a water rod, an upper tie plate supporting an upper end and a lower end thereof, a lower tie plate, and a member such as a spacer for aligning and supporting these. In a fuel assembly composed of an assembled fuel bundle and a channel box that accommodates the fuel bundle and forms a coolant channel, a fuel rod insertion hole of the lower tie plate with the partial length fuel rod is provided. A fuel assembly, wherein a plurality of grooves are provided on an outer peripheral wall surface of a lower end plug portion to be connected, and a spring material is mounted in the grooves. 2. The partial length fuel rod, wherein a spring material in a groove provided in a lower end plug fixes a lower end of the spring material in the groove,
2. The fuel assembly according to claim 1, wherein the other upper end is always mounted outside the diameter of the fuel rod insertion hole of the lower tie plate. 3. In the lower tie plate, the fuel rod insertion hole into which the lower end plug of the partial length fuel rod is inserted has a stepped structure in which an outlet portion has a larger diameter than an inlet portion. 1 fuel assembly.