Patent ID: 8483348

Claim:
A method of providing a hold-down force upon a nuclear fuel assembly, the method comprising: providing a plurality of hold-down spring units, each of the plurality of hold-down spring units including a first spring positioned at a top, a second spring positioned at a bottom, at least one intermediate spring positioned between the first spring and the second spring and a support end, the first spring including a first ramp having an upper end and a lower end, a first support part extending from the lower end of the first ramp, a first neck part bent downwards from the upper end of the first ramp and having a predetermined length, and a first neck part slot formed in a lower end of the first neck part and extending in a longitudinal direction along a central axis of the first neck part, the second spring including a second ramp having an upper end and a lower end, a second support part extending from the lower end of the second ramp, a second neck part bent downwards from the upper end of the second ramp and having a length shorter than the predetermined length of the first neck part, and a neck part insert slot receiving the first neck part and formed in a through-hole shape at a bent portion where an upper end of the second ramp and the second neck part are connected to each other, and the each of the intermediate spring including an intermediate ramp having an upper end and a lower end, an intermediate support part extending from the lower end of the intermediate ramp, and an intermediate neck part insert slot receiving the first neck part and formed through the upper end portion of the intermediate ramp, and the support end holding the second support part, the intermediate support part and the first support part all together; providing a first hold-down force upon the nuclear fuel assembly only by the first spring and the intermediate spring under hot full power conditions of a nuclear reactor such that the first hold-down force having a first increasing rate against a displacement under the hot full power condition; and providing a second hold-down force by the first spring, the intermediate spring and the second spring under start-up conditions of the nuclear reactor such that the second hold-down force having a second increasing rate against the displacement under the start-up conditions, the second increasing rate being greater than the first increasing rate.