DEVICE FOR LOCKING A NUT
First Claim
1. A locking device for locking a nut in a tightened position on a rotary shaft, said rotary shaft being hollow at least at one end, and said locking device comprising:
- a plurality of outer notches formed in a face of the nut, said outer notches extending parallel to a longitudinal axis of the nut;
a plurality of inner notches formed in the end of the rotary shaft, said inner notches extending parallel to a longitudinal axis of the rotary shaft; and
a ring suitable for being installed inside said end of the rotary shaft and presenting at least one first radial finger for being received both in one of the inner notches and in one of the outer notches with the nut being in a tightened position and the two notches housing said first radial finger being at least partially in alignment in a radial direction; and
wherein the ring presents an internal outline arranged in such a manner that the barycenter of said internal outline is offset relative to said longitudinal axis when the ring is installed inside the end of the rotary shaft.
3 Assignments
0 Petitions
Accused Products
Abstract
The invention relates to a device for locking a nut (13) in a tightened position on a rotary shaft (12), said rotary shaft (12) being hollow at least at one end (14). The locking device comprises a plurality of outer notches (16) formed in a face of the nut (13), said outer notches (16) extending parallel to a longitudinal axis (X) of the nut (13), a plurality of inner notches (15) formed in the end (14) of the rotary shaft (12), said inner notches (15) extending parallel to a longitudinal axis (X) of the rotary shaft (12), and a ring (18) suitable for being installed inside said end (14) of the rotary shaft (12) and presenting at least one first radial finger (19) for being received both in one of the inner notches (15) and in one of the outer notches (16) with the nut (13) being in a tightened position and the two notches (15, 16) housing said first radial finger (19) being at least partially in alignment in a radial direction. In order to balance the ring about a central axis (X), the ring (18) presents an internal outline (21) arranged in such a manner that the barycenter (B) of said internal outline (21) is offset relative to said longitudinal axis (X) when the ring (18) is installed inside the end (14) of the rotary shaft (12).
23 Citations
10 Claims
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1. A locking device for locking a nut in a tightened position on a rotary shaft, said rotary shaft being hollow at least at one end, and said locking device comprising:
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a plurality of outer notches formed in a face of the nut, said outer notches extending parallel to a longitudinal axis of the nut; a plurality of inner notches formed in the end of the rotary shaft, said inner notches extending parallel to a longitudinal axis of the rotary shaft; and a ring suitable for being installed inside said end of the rotary shaft and presenting at least one first radial finger for being received both in one of the inner notches and in one of the outer notches with the nut being in a tightened position and the two notches housing said first radial finger being at least partially in alignment in a radial direction; and wherein the ring presents an internal outline arranged in such a manner that the barycenter of said internal outline is offset relative to said longitudinal axis when the ring is installed inside the end of the rotary shaft. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A turbomachine having at least one rotary shaft, a nut, and a locking device for locking the nut on the rotary shaft in a tightened position, wherein the locking device comprises:
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a plurality of outer notches formed in a face of the nut, said outer notches extending parallel to a longitudinal axis of the nut; a plurality of inner notches formed in the end of the rotary shaft, said inner notches extending parallel to a longitudinal axis of the rotary shaft; and a ring suitable for being installed inside said end of the rotary shaft and presenting at least one first radial finger for being received both in one of the inner notches and in one of the outer notches with the nut being in a tightened position and the two notches housing said first radial finger being at least partially in alignment in a radial direction; and wherein the ring presents an internal outline arranged in such a manner that the barycenter of said internal outline is offset relative to said longitudinal axis when the ring is installed inside the end of the rotary shaft.
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10. A method of locking a nut in a tightened position on a rotary shaft, a face of the nut presenting a plurality of outer notches extending parallel to a longitudinal axis of the nut, the rotary shaft being hollow at least at an end that presents a plurality of inner notches, and at least one of the inner notches and at least one of the outer notches being at least partially in alignment in a radial direction, said locking method comprising a step in which a ring presenting at least one first radial finger and an internal outline is installed inside said end of the rotary shaft with said at least one first radial finger received simultaneously in the inner notch and the outer notch that are in alignment, and with the barycenter of said internal outline being offset relative to said longitudinal axis.
Specification