JPH10197675A - Nuclear fuel assembly - Google Patents

Abstract

PROBLEM TO BE SOLVED: To mitigate stress concentration causing partly in a leaf spring of upper nozzle of a PWR fuel assembly and make the use of indirect member such as spacer unnecessary. SOLUTION: Among leaf springs 7 to 9 fitted in a plurality of layers to the upper nozzle 4, the uppermost leaf spring 7 is slightly bent upward from the fixing part 7a and the other leaf spring 8 and 9 formed straight without bending fabrication from the fixing parts 8a and 9a and by overlapping these fixing parts 7a to 9a of the leaf springs, they are fixed slantingly to the axis line of the fuel assembly.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PWR nuclear fuel assembly, and more particularly to an improvement in a leaf spring formed in an upper nozzle for preventing a fuel assembly from being lifted by flowing water.

[0002]

2. Description of the Related Art As shown in FIG. 3, a conventional nuclear fuel assembly includes a fuel bundle section in which a large number of fuel rods 1 are arranged in parallel, and a control rod guide tube 2 and the like are mixed and supported by a plurality of support grids 3. ,
The upper nozzle 4 is fixed to an upper core plate (not shown) in order to prevent the assembly from floating due to fluid force during operation of the reactor. The leaf springs 6 'in contact with each other are attached to the four sides.

The leaf spring 6 'is generally formed by bending a thick plate as shown in FIG. 4 and is attached to an upper nozzle with bolts. The shape of the leaf spring 6 'is tapered so that the surface stress due to the load based on the displacement of the spring is averaged as much as possible.

By the way, when the reactor is stopped in the cold state at the end of combustion, the amount of strain generated in the leaf spring due to irradiation growth of the fuel assembly becomes very large. In a nearby bent portion, the surface stress due to the bending shape increases, and this portion has a higher stress and strain level than other portions.

In order to address such a problem, the applicant of the present application has proposed a leaf spring attached to an upper nozzle as described in Japanese Patent Publication No. 6-7183.
It has been proposed that the mounting portion is substantially formed of a flat surface without bending, and the component is mounted obliquely with respect to the fuel assembly axis.

[0006]

However, in the case of the above-mentioned linear pressing spring, when three or four leaf springs are stacked to form a set, as shown in FIG. Requires spacers S to fill the gaps between the leaf springs 6 "as shown in the figure. The dimensions and tolerances of the spacers S and the leaf springs 6" are very strict and difficult to adjust. There is also a problem that the fulcrum becomes unstable when repeatedly deformed when used as a spring.

The present invention is based on the fact that the mounting portion of the leaf spring is obliquely attached to the upper nozzle in consideration of the above-described situation, and the leaf spring is subjected to a slight bending process from this mounting portion as necessary. Accordingly, an object of the present invention is to alleviate the stress concentration generated in the bent portion of the conventional leaf spring without using the spacer.

[0008]

That is, a feature of the fuel assembly of the present invention that meets the above object is that a number of fuel rods are bundled by a plurality of support grids and fixed by an upper nozzle and a lower nozzle, while In a nuclear fuel assembly in which a plurality of leaf springs for preventing floating of the assembly are stacked on the upper nozzle, the uppermost leaf spring of the upper nozzle leaf spring is slightly above the mounting portion. At the same time, the other leaf springs are formed straight without bending from the mounting part, and the mounting parts of these leaf springs are overlapped and mounted obliquely to the fuel assembly axis. .

In the second fuel assembly according to the present invention, the uppermost leaf spring of the upper nozzle is bent slightly upward from the mounting portion, and another leaf spring is bent from the mounting portion to the uppermost leaf spring. Are bent upward at a smaller angle than the bent portions of the leaf springs, and the mounting portions of these leaf springs are overlapped to be mounted obliquely with respect to the fuel assembly axis. In each of the fuel assemblies of the present invention, the bending angle of the bent portion of the uppermost leaf spring can be set to about 20 ° or less.

[0010]

According to the first fuel assembly of the present invention, the leaf spring is attached obliquely to the upper nozzle, and only the uppermost leaf spring is bent slightly upward, so that the other leaf springs are linear. Stress concentration does not occur, and even if the leaf spring at the top is extremely small in bending, stress concentration can be reduced. In addition, since a spacer is not required, the leaf spring can be easily and inexpensively assembled. It is possible.

In the second fuel assembly of the present invention, the leaf spring is also mounted obliquely to the upper nozzle, the uppermost leaf spring is bent slightly upward, and the other leaf springs are smaller. Since it is bent at an angle, it is possible to alleviate stress concentration at each bent part, and it is also possible to easily and inexpensively assemble and form a leaf spring because no spacer is required. is there.

[0012]

Embodiments of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a partially cutaway front view showing an upper nozzle of a PWR fuel assembly according to an embodiment of the present invention. In the figure, only the front leaf spring is depicted, and the other three sides are omitted.

In the fuel assembly of the above embodiment, as shown in FIG. 3, a plurality of fuel rods 1 are arranged in parallel, and a plurality of control rod guide tubes 2 and the like are mixed to be supported by a plurality of support grids 3. The bundle includes a bundle portion, an upper nozzle 4 and a lower nozzle 5 fixed to the upper and lower portions, respectively. The upper nozzle 4 is in contact with the upper core plate to prevent the fuel assembly from floating due to the cooling water flow. Are attached to the four sides.

The leaf spring 6 is attached to the upper nozzle 4 so that three or four (three in this example) leaf springs 7 to 9 are laminated, and as shown in FIG. The leaf spring 7 is bent slightly upward from the mounting portion 7a, and the other leaf springs 8, 9 are formed linearly from the mounting portions 8a, 9a without bending. And these leaf springs 7 ~
9 are fixed to the upper nozzle 4 by bolts 10 so that the mounting portions 7a to 9a are superposed and oblique to the axis of the fuel assembly. This fixing is performed by the clamp 1 as shown in FIG.
Although it may be performed by the bolt 10 via 1,
As shown in FIG. 2 described later, it is also possible to directly fix with the bolt 10 without going through the clamp 11.

Thus, in the fuel assembly according to the first embodiment of the present invention, the leaf springs 7 to 9 are attached obliquely to the upper nozzle 4, and only the uppermost leaf spring 7 is bent slightly upward. Therefore, the other leaf springs 8 and 9 are linear and do not cause stress concentration, and even if the uppermost leaf spring 7 is extremely small in bending, the stress concentration can be reduced, and no spacer is required. Therefore, the leaf springs 7 to 9 can be assembled and formed on the upper nozzle 4 simply and at low cost.

FIG. 2 is a partially cutaway front view showing an upper nozzle of a fuel assembly according to a second embodiment of the present invention. In the drawing, only the front leaf spring is illustrated, and the other three sides are omitted.

The leaf spring 6 is attached to the upper nozzle 4 so that three leaf springs 12 to 14 are stacked, and as shown in FIG.
Is bent slightly upward from the mounting portion 12a,
The other leaf springs 13 and 14 are attached to their mounting portions 13a,
From 14a, each is bent at a smaller angle than the bent portion of the uppermost leaf spring 12. And
Attachment portions 12a- of these leaf springs 12-14
14a is superimposed and directly fixed to the upper nozzle 4 by bolts 10 so as to be oblique to the axis of the fuel assembly.

In the fuel assembly according to the second embodiment of the present invention, the leaf springs 12 to 14 are attached obliquely to the upper nozzle 4, and the uppermost leaf spring 12 is bent slightly upward. Since the other leaf springs 13 and 14 are bent at a smaller angle, stress concentration at each bent portion can be reduced as compared with the conventional case, and a spacer is not required, so that it is simple and easy. Leaf spring 12 on upper nozzle 4 at low cost
To 14 can be assembled and formed.

The embodiments of the present invention have been described above. In each of the first and second embodiments, the bending angle of the bent portions near the mounting portions 7a and 12a of the uppermost leaf springs 7 and 12 is as follows. , These mounting parts 7a, 12a
It is possible to make the angle 20 ° or less by attaching it obliquely. In addition, each leaf spring 7-9,12
As in the prior art, the taper processing is performed so that the stress distribution is averaged as much as possible when a load is applied.

[0021]

As described above, in the first nuclear fuel assembly according to the present invention, only the uppermost one of the leaf springs attached to the upper nozzle so as to be stacked in a plurality is stacked from the mounting portion with the upper nozzle. Bends slightly upward, and forms other leaf springs in a straight line without bending them from the mounting part, and superimposes the mounting parts of these leaf springs and attaches them obliquely to the fuel assembly axis. Since the leaf spring is installed at an angle to the upper nozzle and only the uppermost leaf spring is bent slightly upward, the other leaf springs are straight and have no stress concentration. However, since the bending is extremely small, stress concentration can be reduced,
In addition, since a spacer is not required, a remarkable effect that a leaf spring can be assembled and formed simply and at low cost is achieved. In the second nuclear fuel assembly of the present invention, the uppermost leaf spring is bent slightly upward from the mounting portion, and another leaf spring is smaller from the mounting portion than the bent portion of the uppermost leaf spring. It is bent at an angle, the mounting part of each of these leaf springs is overlapped, and it is attached diagonally to the fuel assembly axis, the leaf spring is also attached diagonally to the upper nozzle, and the top leaf spring is attached Since the other leaf springs are bent at an angle smaller than this while being bent slightly upward, it is possible to reduce the stress concentration at each bent part than before, and it is not necessary to use spacers. Therefore, there is a remarkable effect that the leaf spring can be assembled and formed simply and at low cost.

[Brief description of the drawings]

FIG. 1 is a partially cutaway front view showing an upper nozzle of a fuel assembly according to a first embodiment of the present invention.

FIG. 2 is a partially cutaway front view showing an upper nozzle of a fuel assembly according to a second embodiment of the present invention.

FIG. 3 is an overall view of a fuel assembly.

FIG. 4 is a front view showing a conventional leaf spring.

FIG. 5 is a front view showing another conventional leaf spring.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Fuel rod 2 Control rod guide tube 3 Support lattice 4 Upper nozzle 5 Lower nozzle 6 Leaf spring 7 Uppermost leaf spring 7a Attachment part 8, 9 Leaf spring 8a, 9a Attachment part 10 Bolt 11 Clamp 12 Uppermost leaf spring 13, 14 Leaf spring 13a, 14a Mounting part

Claims (3)

[Claims] A fuel rod is bundled by a plurality of support grids and fixed by an upper nozzle and a lower nozzle.
In the nuclear fuel assembly in which a plurality of leaf springs for preventing the fuel assembly from floating are attached to the upper nozzle so as to be stacked, the uppermost leaf spring of the upper nozzle is bent slightly upward from the mounting portion. In addition, another leaf spring is formed in a straight line without bending from the mounting portion, and the mounting portion of each leaf spring is overlapped and mounted obliquely with respect to the fuel assembly axis. Fuel assembly. 2. A large number of fuel rods are bundled by a plurality of support grids and fixed by an upper nozzle and a lower nozzle,
In the nuclear fuel assembly in which a plurality of leaf springs for preventing the fuel assembly from floating are attached to the upper nozzle so as to be stacked, the uppermost leaf spring of the upper nozzle is bent slightly upward from the mounting portion. At the same time, the other leaf springs are bent upward from the mounting portion at a smaller angle than the bent portion of the uppermost leaf spring, and the mounting portions of the respective leaf springs are overlapped to be oblique to the fuel assembly axis. A nuclear fuel assembly attached to a nuclear fuel assembly. 3. The nuclear fuel assembly according to claim 1, wherein the bent portion of the uppermost leaf spring has a bending angle of about 20 ° or less.