FR3098260A1 - Bolt equipped with a rotation locking system allowing immobilization without increasing the tightening torque - Google Patents

Abstract

Bolt equipped with a rotation locking system allowing immobilization without increasing the tightening torque The invention relates to a bolt comprising a rotation locking system configured to immobilize in rotation a nut (36) relative to a threaded rod (40), having a pin (50) housed in a hole passing through the threaded rod (40), a locking ring (54), configured to fit on the threaded rod (40) between the nut (36) ) and the free end (44) of the threaded rod (40), having minus a pair of helical slots (56), each of the helical slots (56) having a second helix angle different from the helix angle of the threaded rod (40), the locking ring (54) and the nut (36) having cooperating shapes configured to immobilize the locking ring (54) in rotation relative to the nut (36). Figure 11

Description

Bolt equipped with a rotation locking system allowing immobilization without increasing the tightening torque

This application relates to a bolt equipped with a rotation locking system allowing immobilization without increasing the tightening torque.

According to one embodiment illustrated by Figures 1 to 3, a bolt 10, used to assemble in a removable manner at least two parts 12.1, 12.2, comprises a screw 14 which has a threaded rod 14.1 and a head 14.2 connected to one end of the threaded rod 14.1 as well as a nut 16 which has a tapped hole 16.1 configured to allow the screwing of the threaded rod 14.1 of the screw 14.

To maintain a given tightening torque in operation, the bolt 10 comprises a rotation locking system. According to one embodiment, the nut 16 is a slotted nut and the rotation locking system comprises a pin 18 as well as a through hole 20 at the level of the threaded rod 14.1 which has a section identical to that of the pin 18. Slotted nut 16 comprises a tubular extension 22 which has longitudinal notches 24 (parallel to the axis of nut 16) delimiting slots 26.

In operation, the pin 18 is housed in two diametrically opposed longitudinal notches 24 and in the through hole 20 of the threaded rod 14.1 to immobilize the nut 16 in rotation relative to the screw 14.

This embodiment is not fully satisfactory because two longitudinal notches 24 are not necessarily arranged in the extension of the through hole 20 of the threaded rod 14.1 when the desired tightening torque is reached. Consequently, to set up the pin 18, it is necessary to pivot the nut 16 and to increase the tightening torque to make two longitudinal notches 24 coincide with the through hole 20. This increase in torque necessarily induces additional stresses on the bolt and/or on the assembled parts 12.1, 12.2.

The present invention aims to remedy all or part of the drawbacks of the prior art.

1. une vis comportant un axe longitudinal ainsi qu’une tige filetée pourvue d’une extrémité libre, d’un orifice traversant et d’au moins un filet présentant un premier angle d’hélice,
2. un écrou présentant un trou taraudé configuré pour se visser sur la tige filetée,
3. un système de blocage en rotation, configuré pour immobiliser l’écrou en rotation par rapport à la tige filetée, présentant une épingle se logeant dans l’orifice traversant de la tige filetée.

To this end, the subject of the invention is a bolt comprising:

1. a screw comprising a longitudinal axis as well as a threaded rod provided with a free end, a through hole and at least one thread having a first helix angle,
2. a nut having a tapped hole configured to be screwed onto the threaded rod,
3. a rotation locking system, configured to immobilize the nut in rotation with respect to the threaded rod, having a pin fitting in the through hole of the threaded rod.

According to the invention, the locking system comprises a locking ring, configured to fit onto the threaded rod between the nut and the free end of the threaded rod, comprising a first end face oriented towards the nut in operation , a second end face opposite the first end face, a through hole opening at the first and second end faces, and at least a pair of helical slots configured to accommodate a portion of the pin, each of the helical slots having a bottom remote from the second end face and a second helix angle different from the first helix angle of the threaded rod, the locking ring and the nut having cooperating shapes configured to immobilize the locking ring in rotation with respect to the nut.

According to the invention, whatever the angular position of the nut, it is always possible to position the locking ring so as to allow the positioning of the hairpin, and this without increasing the tightening torque.

According to another characteristic, the locking ring comprises a first contact surface against which a second contact surface of the nut can come to rest in operation, the cooperating shapes of the nut and of the locking ring being configured to allow a translation in the longitudinal direction of the locking ring relative to the nut until the first and second contact surfaces are in contact with each other and/or the pin is in contact with at least one of the bottoms of the helical slots.

According to another characteristic, the through-hole comprises a shoulder against which the second contact surface of the nut can bear in operation, the through-hole of the locking ring comprising an end portion, which extends from the shoulder up to the first end face, configured to accommodate part of the nut, said end portion presenting a section which cooperates with the section of the nut so that, when part of the nut is positioned in the end portion, the nut and the locking ring are immobilized in rotation relative to each other.

According to another characteristic, the helical slots all have the same second helix angle.

According to another characteristic, the second helix angle is greater than the first helix angle of the threaded rod.

According to another characteristic, the second helix angle has a value of the order of 65°.

Other characteristics and advantages will emerge from the description of the invention which follows, description given by way of example only, with regard to the appended drawings, among which:

is a perspective view of a bolt which illustrates an embodiment of the prior art,

is a perspective view of a castellated nut which illustrates an embodiment of the prior art,

is a perspective view of a screw which illustrates an embodiment of the prior art,

is a perspective view of a bolt and an unassembled locking ring which illustrates one embodiment of the invention,

is a half-section and a half-view of a locking ring which illustrates an embodiment of the invention,

is a section of one end of the bolt visible in Figure 4 equipped with a locking ring which illustrates an embodiment of the invention,

is a side view of a bolt when inserting a locking ring,

is a side view of the bolt and the locking ring visible in Figure 7 after the positioning of said locking ring,

is a side view of the bolt and locking ring visible in Figure 8 after a pin has been fitted,

is a perspective view of a bolt fitted with a locking ring before the placement of a pin, and

is a perspective view of the bolt and locking ring visible in Figure 10 after the pin is in place.

In Figures 4, 7 to 9, there is shown a bolt 30 for maintaining at least two parts 32.1, 32.2 assembled. This bolt 30 comprises a screw 34, a nut 36 and a rotation locking system 38.

According to one embodiment visible in particular in Figure 4, the screw 34 comprises a threaded rod 40 and a head 42 positioned at one end of the threaded rod 40. According to one configuration, the head 42 has a hexagonal section. Of course, the invention is not limited to this configuration. At a minimum, the screw 34 comprises a threaded rod 40, the head 42 being replaced by a nut or the threaded rod 40 which can be screwed directly into one of the parts to be assembled in the manner of a stud. The threaded rod 40 includes a free end 44 from which the nut 36 is screwed.

The screw 34 has a longitudinal axis A34 which corresponds to the axis of the threaded rod 40. For the present application, a longitudinal direction is parallel to the longitudinal axis A34, a longitudinal plane passes through the longitudinal axis A34 and a plane transverse is perpendicular to the longitudinal axis A34.

The threaded rod 40 has at least one thread inclined at a first helix angle with respect to a longitudinal plane.

According to one embodiment visible in Figures 4 and 6, the nut 36 comprises a body 46, delimited by first and second parallel faces 46.1, 46.2, as well as a threaded hole 48 passing through the body 46, having an axis substantially perpendicular to the first and second faces 46.1, 46.2. According to one configuration, the body 46 has a bi-hexagonal section to be able to screw it. Of course, the invention is not limited to this shape for the nut 36. In operation, the first face 46.1 is oriented towards the parts 32.1, 32.2.

The rotation locking system 38 is configured to immobilize the nut 36 in rotation with respect to the threaded rod 40 of the screw 34. It comprises a pin 50 (visible in FIGS. 10 to 11), a through hole 52 in the threaded rod 40 of the screw 34 as well as a locking ring 54 configured to fit onto the threaded rod 40, between the nut 36 and the free end 44 of the threaded rod 40 and having at least a pair of slots helicals 56 configured to accommodate part of the pin 50.

Pin 50 has a section with a diameter D50. This pin 50 is not more detailed because it may be identical to that of the prior art.

The through hole 52 extends along a diameter and has a circular section substantially equal to the section of the pin 50. The through hole 42 of the threaded rod 40 is positioned close to the free end 44 so that in operation, the through hole 52 is positioned between the nut 36 and the free end 44.

The locking ring 54 extends between a first end face 54.1, oriented towards the nut 36 in operation, and a second end face 54.2, opposite the first end face 54.1, and comprises a through hole 60 emerging at the level of the first and second end faces 54.1, 54.2.

According to one embodiment, the helical slots 56 open at the level of the second end face 54.2 and each have a bottom 56.1 remote from the second end face 54.2.

According to one characteristic, each of the helical slots 56 has a second helix angle α different from the first helix angle of the threaded rod 40. According to one configuration, the second helix angle α of the helical slots 56 is greater than the first angle helix of the threaded rod 40. According to one embodiment, the second helix angle α has a value of the order of 65°.

The second helix angle α is oriented so that the pivoting of the locking ring 54 in the same direction as the direction of unscrewing of the nut 36 causes, in operation, a displacement of the pin 50 in the helical slots 56 towards the bottom 56.1.

According to one embodiment, all of the helical slots 56 have the same helix angle. They all have the same E56 width and the same length.

The width E56 of the helical slots is substantially equal to or very slightly greater than the diameter D50 of the pin 50.

The first and second helical slots 56, 56' of the same pair of helical slots comprise diametrically opposite portions, configured to receive the pin 50.

According to one embodiment visible in Figure 6, the through hole 60 includes a shoulder 62 against which can bear the second face 46.2 of the nut 36 in operation. According to this embodiment, the through-hole 60 comprises an end portion 64, which extends from the shoulder 62 to the first end face 54.1, configured to accommodate part of the nut 36. This portion end portion 64 has a section which cooperates with the section of the nut 36 so that, when part of the nut 36 is positioned in the end portion 64, the nut 36 and the locking ring 54 are immobilized in rotation relative to each other and can translate relative to each other until the second face 46.2 of the nut 36 comes into contact against the shoulder 62 of the ring blocking 54.

Whatever the embodiment, the locking ring 54 and the nut 36 have cooperating shapes configured to immobilize the locking ring 54 in rotation relative to the nut 36, the locking ring 54 comprising at least a helical slots 56 each having a second helix angle different from that of the threaded rod 40.

According to one configuration, the locking ring 54 comprises a first contact surface S1 against which a second contact surface S2 of the nut 36 can come to rest in operation, the cooperating shapes of the nut 36 and of the locking ring 54 being configured to allow a translation along the longitudinal direction of the locking ring 54 relative to the nut 36 until the first and second contact surfaces S1, S2 are in contact against each other and / or that the pin 50 is in contact with at least one of the funds 56.1 of the helical slots 56.

The operating principle of the blocking system is as follows:

When the desired tightening torque is reached, the locking ring 54 is fitted around the threaded rod 40 until a part of the nut 36 lodges in the end portion 64 of the locking ring 54 , as shown in Figure 7. The locking ring 54 is translated until portions of the helical slots 56 of the locking ring 54 are arranged in the extension of the through hole 52 of the threaded rod 40, as illustrated in Figure 8. Whatever the angular position of the nut 36, it is always possible to position the locking ring 54 so as to allow the establishment of the pin 50. Consequently, it is not no need to increase the tightening torque. As visible in Figure 6, the locking ring 54 is positioned relative to the nut 36 so that there remains a small space between the first and second contact surfaces S1, S2, for example of the order of 2mm. The pin 50 is inserted into the helical slots 56 and the through hole 52, as illustrated in Figures 9 to 11. The helical slots 56 having a helix angle α different and greater than that of the threaded rod 40, a slight rotation of the nut 36 and of the locking ring 54, immobilized in rotation relative to each other, will cause the approximation of the first and second contact surfaces S1, S2. As soon as the latter are in contact or the pin 50 is in contact with at least one of the bottoms 56.1 of the helical slots 56, the nut 36 is immobilized in rotation with respect to the threaded rod.

Claims (6)

Bolt including:

1. a screw (34) having a longitudinal axis (A34) and a threaded rod (40) provided with a free end (44), a through hole (52) and at least one thread having a first angle propeller,
2. a nut (36) having a threaded hole (48) configured to screw onto the threaded rod (40),
3. a rotation locking system, configured to immobilize the nut (36) in rotation relative to the threaded rod (40), having a pin (50) lodged in the through hole (52) of the threaded rod (40 ),
4. characterized in that the locking system comprises a locking ring (54), configured to fit onto the threaded rod (40) between the nut (36) and the free end (44) of the threaded rod (40 ), comprising a first end face (54.1) oriented towards the nut (36) in operation, a second end face (54.2) opposite the first end face (54.1), a through hole (60) opening at the level of the first and second end faces (54.1, 54.2) as well as at least a pair of helical slots (56) configured to accommodate part of the pin (50), each of the helical slots (56) having a bottom (56.1) remote from the second end face (54.2) and a second helix angle (α) different from the first helix angle of the threaded rod (40), the locking ring (54) and the nut (36) having configured cooperating shapes to immobilize the locking ring (54) in rotation with respect to the nut (36).

Bolt according to Claim 1, characterized in that the locking ring (54) comprises a first contact surface (S1) against which a second contact surface (S2) of the nut (36) can come to bear in operation, the cooperating shapes of the nut (36) and the locking ring (54) being configured to allow translation in the longitudinal direction of the locking ring (54) relative to the nut (36) until that the first and second contact surfaces (S1, S2) are in contact against each other and/or that the pin (50) is in contact with at least one of the bottoms (56.1) of the helical slots (56 ). Bolt according to the preceding claim, characterized in that the through-hole (60) comprises a shoulder (62) against which the second contact surface (S2) of the nut (36) can bear in operation, the through-hole (60 ) of the locking ring (54) comprising an end portion (64), which extends from the shoulder (62) to the first end face (54.1), configured to accommodate part of the nut (36), said end portion (64) having a section which cooperates with the section of the nut (36) so that, when a part of the nut (36) is positioned in the portion of end (64), the nut (36) and the locking ring (54) are immobilized in rotation relative to each other. Bolt according to one of the preceding claims, characterized in that the helical slots (56) all have the same second helix angle (α). Bolt according to one of the preceding claims, characterized in that the second helix angle (α) is greater than the first helix angle of the threaded rod (40). Bolt according to the preceding claim, characterized in that the second helix angle (α) has a value of the order of 65°.