Torque feedback assembly for a vehicle steering column

Abstract

A steering torque feedback assembly for a vehicle steering column includes a housing, a first gear rotatably mounted within the housing about a first rotatable axis and being configured to rotate with, or being connected to, a vehicle steering column, first and second electric motors mounted within the housing, each having a rotatable output shaft, second and third gears rotatably mounted within the housing and engaged with the first gear, and first and second reduction gearing connecting the output of the first and second motors and a respective one of the second and third gears.

Claims

1. A steering torque feedback assembly for a vehicle steering column, comprising a housing; a first gear rotatably mounted within the housing about a first rotatable axis and being configured to rotate with, or being connected to, a vehicle steering column; first and second electric motors mounted within the housing, each having a rotatable output shaft; second and third gears rotatably mounted within the housing and engaged with the first gear; first and second reduction gearing connecting the output of the first and second motors and a respective one of the second and third gears.

2. A steering torque feedback assembly as defined in claim 1, wherein the output shafts of the first and second electric motors are aligned parallel to the rotational axis of the first gear.

3. A steering torque feedback assembly as defined in claim 2, wherein the first and second reduction gearing comprises an epicyclic gear train.

4. A steering torque feedback assembly as defined in claim 3, wherein the output shafts of the first and second motors are configured to rotate a sun gear of a respective epicyclic gear train.

5. A steering torque feedback assembly as defined in claim 4, wherein the second and third gears are connected to a carrier of a respective epicyclic gear train.

6. A steering torque feedback assembly as defined in claim 5, wherein the first gear comprises an internal keyway.

7. A steering torque feedback assembly as defined in claim 6, wherein the first gear comprises an elongate portion in which the internal keyway is provided.

8. A steering torque feedback assembly as defined in claim 7, wherein the first gear comprises an internally splined portion.

9. A steering torque feedback assembly as defined in claim 8, wherein the housing comprises a recessed portion aligned with the internal keyway.

10. A steering torque feedback assembly as defined in claim 9, wherein the recessed portion comprises an aperture in the housing.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) By way of example only, a specific embodiment of the present disclosure will now be described with reference to the accompanying drawings, in which:

(2) FIG. 1 is a front perspective view of an embodiment of steering torque feedback assembly in accordance with the present disclosure;

(3) FIG. 2 is a rear perspective view of the steering torque feedback assembly of FIG. 1;

(4) FIG. 3 is a front perspective view in vertical cross-section through the steering torque feedback assembly of FIG. 1;

(5) FIG. 4 is a horizontal cross-section through the steering torque feedback assembly of FIG. 1, looking in the direction of arrows IV-IV; and

(6) FIG. 5 is a vertical cross-sectional side view of the steering torque feedback assembly of FIG. 1.

DETAILED DESCRIPTION

(7) A steering torque feedback assembly 10 comprises a housing 12 having a rear portion 14 which is generally triangular with rounded corners. Mounted within the housing are two identical spaced-apart electric torque feedback motors 18, 20, each of which drives a respective output shaft 22, 24 arranged parallel to each other. As will be explained, the electric motors 18, 20 are configured to apply torque to an internally splined elongate output gear 26 which, in use, is connected to a correspondingly splined end of a steer-by-wire steering column (not shown) of a vehicle. A steering wheel is connected to the opposite end of the steering column and the angular displacement of the steering column is measured to generate a signal which is used to control the orientation of the steered wheels of the vehicle.

(8) By applying a torque to the output gear 26 by means of an electric motor 18, 20, a sensation of road feel is provided to the driver through the steering column and steering wheel. The provision of two electric motors allows them to be controlled in a first operational mode to apply torque in opposite directions to the output gear 26, which eliminates the need to control backlash with precision components. In addition, the two motors can be controlled in a second operational mode to apply torque in the same direction to the output gear 26 and allows the motors and gear components to be specified at half the rating of the required total system torque, thereby reducing the size and cost of the assembly.

(9) The output shafts 22, 24 of the motors 18, 20 are connected via a respective epicyclic reduction gear set E1, E2 to a respective spur gear 30, 32, each of which is in engagement with a spur gear portion 34 extending from the exterior of the output gear 26, whereby each of the motors 18, 20 can apply a torque to the output gear 26 and thereby to the steering column which is normally constrained to rotate with the output gear 26.

(10) The output shaft 22, 24 of each of the motors 18, 20 is supported on a respective main bearing 36, 38 mounted on the housing. The rear end of each of the motor output shaft 22, 24 is also received in a further bearing 40, 42 and the front end of each of the output shaft 22, 24 is supported by a bearing 44, 46 mounted in a carrier C1, C2 of the respective epicyclic reduction gear set E1, E2. Between the respective main bearing 36, 38 and the respective bearing 44, 46 in the epicyclic gear set carrier C1, C2, the motor output shafts 22, 24 are formed into a sun gear S1, S2 of the respective epicyclic reduction gear set E1, E2. Each of the sun gears S1, S2 meshes with three identical planetary gears P1, P2 rotatably mounted on a respective one of the carriers C1, C2 and each of the planetary gears P1, P2 also meshes with a respective stationary ring gear R1, R2 mounted within the housing.

(11) Each of the carriers C1, C2 is connected to a respective shaft 50, 52 which is rotatably mounted within the housing 12 by means of spaced apart bearings 54, 56; 58, 60 and each of carries a respective one of the two spur gears 30, 32 which are in engagement with the spur gear portion 34 of the output gear 26 as mentioned previously.

(12) Each of the epicyclic reduction gear sets E1, E2 has a 5:1 reduction ratio and in turn there is a further 5:1 reduction ratio between each of the spur gears 30, 32 and the spur gear portion 34 of the output gear 26, resulting in an overall reduction ratio of 25:1 between the output of each of the motors 18, 20 and the output gear 26.

(13) As best seen in FIGS. 2 to 5, the output gear 26 is mounted in the housing by means of spaced-apart bearings 66, 68 and projects partially out of the housing through an aperture 70 at the front end of the housing. The output gear 26 comprises a main elongate body portion 26a which is internally splined as shown at 27 and which, in use, receives a complementarily-splined end portion of a steering column (not shown). By providing a splined connection, the position of the steering column can be adjusted between an extended position in a steer-by-wire mode and a retracted, non-operational position in an autonomous mode. It will also be observed that the rear portion of the housing 12 comprises a through passage 72 aligned with the elongate body portion 26a of the output gear 26, to allow for movement of the steering column in its retracted, non-operational position.

(14) As explained previously, the outer surface of the main elongate body portion 26a of the output gear 26 is formed into a spur gear 34 which engages with the two spur gears 30, 32.

(15) In use, a splined portion at one end of a steering column (not shown) is positioned in the complementarily-splined elongate body portion 26a of the output gear 26 and a steering wheel (not shown) is connected to the opposite end of the steering column. In the extended position of the steering column, the angular displacement of the steering wheel is measured to generate a signal which is used to control the orientation of the steered wheels of the vehicle. In this mode, the torque feedback motors 18, 20 can be controlled in a first operational mode to apply torque in opposite directions to the output gear 26, which eliminates the need to control backlash with precision components. In addition, the two motors can be controlled in a second operational mode to apply torque in the same direction to the output gear 26 and allows the motors and gear components to be specified at half the rating of the required total system torque, thereby reducing the size and cost of the assembly.

(16) As explained previously, there is an overall reduction ratio of 25:1 between the output of each of the motors 18, 20 and the output gear 26, which allows torque to be applied to the steering column (and to the steering wheel attached to the steering column) accurately and responsively, in order to provide a sensation of road feel to a driver and to significantly reduce or eliminate backlash in the assembly. The overall reduction ratio of 25:1 between the output of each of the motors 18, 20 and the output gear 26 also reduces stress on the components of the gear train, which allows the gears to be constructed from plastics material rather than from metal, which reduces both the cost and the weight of the assembly.

(17) In the retracted, stowed position of the steering column, when the vehicle is driven in an autonomous mode, the motors 18, 20 are not actuated, since there is then no need to provide a sensation of road feel to the steering wheel. However, the provision of the through passage 72 aligned with the elongate portion 26a of the output gear 26 accommodates the inner end of the steering column when in the retracted, stowed condition.

(18) The disclosure is not restricted to the details of the foregoing embodiment.