	US 12,139,224 B2
	Method and system for neutralising rising jolts supported by a vehicle steering column
Julien Ferrazzo, Duhort Bachen (FR)
Assigned to CKP Engineering, Cazeres sur Adour (FR)
Appl. No. 18/255,457
Filed by CKP Engineering, Cazeres sur Adour (FR)
PCT Filed Nov. 29, 2021, PCT No. PCT/EP2021/083332 § 371(c)(1), (2) Date Jun. 1, 2023, PCT Pub. No. WO2022/117495, PCT Pub. Date Jun. 9, 2022.
Claims priority of application No. 2012740 (FR), filed on Dec. 5, 2020.
Prior Publication US 2024/0075982 A1, Mar. 7, 2024
Int. Cl. B62D 7/22 (2006.01); F16F 15/12 (2006.01)

CPC B62D 7/224 (2013.01) [F16F 15/1201 (2013.01)]

19 Claims

1. A method for neutralizing transient forces generated by a rise of at least one sudden jolt in a steering column (1) of a vehicle, said transient forces being transmitted from a distal end to a steering device for controlling a trajectory followed by the vehicle which is mounted on a proximal end of the column (1), the method comprising the steps of:

in a state of coaxial coupling on a central axis (A1) of the column (1), mounting, in accordance with a reference torque, via a mobile coupling link (5), at least two sections (1a, 1b) of column (1), a distal section (1a) with a proximal section (1b) which is rotationally integral with the control device, and providing an elastic region (6a) pre-stressed axially between the sections (1a, 1b) mounted in the coupling state in accordance with the reference torque,

under the effect of a start of rotation of the distal section by a transient torque (C1) greater than the reference torque, causing an automatic decoupling between the distal (1a) and proximal (1b) sections by rotationally driving the coupling link (5) subjected to the transient torque (C1) and by helical guidance of the link (5) in the proximal section (1b), and

simultaneously, under the effect of the decoupling between the sections (1a, 1b), driving the coupling link (5) in translation by axial guidance on the section (1a) combined with helical guidance in the distal section (1b) to the elastic region (6a) so as to compress the latter axially between the sections (1a, 1b), the compression being greater than a compression threshold corresponding to a prestressing threshold, then

as a result of the cessation of the jolt and correlatively of the exhaustion of the transient forces, causing an automatic re-coupling between the sections (1a, 1b) by relaxing the compressed elastic region (6a), said region being returned to the pre-stressing threshold between the sections (1a, 1b) coupled under the reference torque and the coupling link (5) being returned to the state of coupling of the sections (1a, 1b) with each other.