RU2423275C1 - Device for continuous automatic controlled wheels toe-in control in motion - Google Patents

Abstract

FIELD: transport. ^ SUBSTANCE: invention relates to automotive industry and can be used for automatic toe-in control in motion. Proposed device comprises controlled wheels, sleeves, strain gages, axles with rotary cams, sleeves, rings and washers with nuts to fasten the former on the axle, power supply, electromagnetic coil, distributing device, vessel with working fluid, pump and transverse tie rod with reversing mechanism. Strain gages are secured on face surfaces of the rings and interconnected in bridge circuit to make road lateral response transducers. End sleeves have axial ledges. Taper washers with holes have radial cutouts made in said holes to receive sleeve axial ledges. Bush fastening washers and taper washers on wheel axles have radial cutouts to receive bush axial ledges without resting on nut. Bush fastening washers have radial ledges along their IDs that enter axial grooves made on wheel axles. ^ EFFECT: higher reliability, sensitivity and accuracy of control in motion. ^ 4 dwg

Description

The proposed device relates to vehicles and can be used to provide automatic regulation of the convergence of the steered wheels in the process of movement.

A device for automatically controlling the convergence of the steered wheels in the process of driving, containing sensors of the side reaction of the road acting on the steered wheels, which are piezosensors in the form of washers mounted on the axles of the steered wheels and electrically connected via a bridge circuit, a reversible mechanism for changing the working length of the transverse steering rod and a control system for the specified mechanism, electrically connected to the sensors of the side reaction of the road (RF Patent No. 49257, November 10, 2005, Bull. No. 31).

The disadvantage of this device is the low sensitivity, accuracy and reliability, because The lateral reaction sensors of the road also respond to axial forces arising in the cages of the tapered wheel bearings from vertical loads.

Closest to the proposed device is a device for continuous automatic regulation of the convergence of the steered wheels in motion, containing sensors of side reactions of the road, which are strain gauges electrically connected on a bridge circuit mounted on the side surfaces of conical washers mounted on the axes of rotary trunnions, on which bushings are mounted steered wheel bearings, electric signal amplifier, reversible mechanism for changing the working length of the transverse steering link and sys he control said mechanism is electrically connected to the sensors of the road side reactions (Russian Patent №2348914, 10.03.2009, Bul. №7).

The disadvantages of this device is the lack of reliability, since during operation it is possible to rotate the bushings and conical washers with load cells relative to the axles of the wheels, which will lead to a failure of the device.

The technical result of the proposed device for continuous automatic regulation of the convergence of the steered wheels of the vehicle during movement is to increase reliability.

The specified technical result is achieved by the fact that in the device for continuous automatic regulation of the convergence of the steered wheels of the vehicle during movement, containing steered wheels with bearings, axles of the wheels with knuckles, bushings, conical washers and washers with nuts for their attachment to the axles of the wheels, strain gauges, connected to the electric bridge, which are sensors of the side reactions of the road, power supply, electromagnetic coil, electric signal amplifier, distribution device a triad, a container with a working fluid, a pump, a transverse thrust with a reversing mechanism, bushings at the ends have axial protrusions; conical washers through the holes - radial cutouts that include the protrusions of the bushings; the mounting washers of the bushings and conical washers on the axles of the wheels have radial cuts, which also include the axial protrusions of the bushes without abutting the nut, and these washers have an inner diameter that has radial protrusions that enter the axial grooves on the axles of the wheels, which prevents turning bushings and washers with strain gauges, increasing the reliability of the design.

Figure 1 shows a General diagram of the proposed device; figure 2 - the axis of the steered wheel assembly.

The proposed device includes steered wheels 1 mounted through bearings mounted on bushings 2, conical washers 3 with strain gauges fixed on end surfaces (electric sensors of side reactions of the road) 4 on axles 5. There are axial grooves at the ends of the axles 5 of the wheels 6. Load cells 4 have the same electrical resistances and are connected by a bridge circuit 7. Points A and B of the electric bridge 7 are connected to a power source 8, and points C and D are connected to an electromagnetic coil 9, the core of which is rigidly connected spool 10 the dispenser 11 of working fluid. The device also contains a container 12, a pump 13 and a reverse mechanism for changing the working length of the transverse steering rod (hydraulic cylinder) 14. Strain gauges 4, an electric bridge 7, a power supply 8, an electromagnetic coil 9 and a switchgear 11 form a control system for a reversing mechanism 14 for changing the transverse working length tie rod 15.

The conical washers 3 in the holes have radial cutouts 16, which include the axial protrusions 17 of the bushings 2. The axial protrusions 17 of the outer ends of the bushings also enter the radial cutouts 18 of the washers of the bushings and conical washers on the axles of the wheels, without abutting the nut. The clearance in the bearings (inner race 19, rollers 20, outer race not shown) of the steered wheels is regulated by a nut 21 with a washer 22. The bush 2 is fixed to the axle 5 of the steered wheels by a nut 23 with a washer 24. In addition, the washers 24 in the holes have radial protrusions 25 mounted in axial grooves of 6 axles of 5 wheels.

The device also includes an electric signal amplifier 26.

The device operates as follows.

With the rectilinear movement of the car and the correct convergence of the steered wheels, there are no lateral reactions of the road to these wheels, and the load cell resistances are equal to each other, so the voltage supplied from points C and D of the electric bridge 7 through the electric signal amplifier 26 to the electromagnetic coil 9 is zero and the spool 10 of the switchgear 11 is in a central (neutral) position.

If the convergence to the positive or negative side is deviated, the steered wheels 1 due to side reactions of the road through the bushings 2 and conical washers 3 will act on the load cells 4 and change their electrical resistance. In this case, a voltage appears between points C and D of the bridge 7, which is supplied through the amplifier of the electric signal 26 to the electromagnetic coil 9. The current in the coil 9 will cause a magnetic flux moving the core of the coil 9 and the spool 10 of the switchgear 11 left or right, providing a supply of working fluid from pump 13 into one or another cavity of the hydraulic cylinder (reversing mechanism) 14 of changing the working length of the transverse steering rod 15, thereby changing its length and providing the required toe-in of the wheels 1.

Thus, the proposed device for continuous automatic regulation of the convergence of the steered wheels of the vehicle during movement ensures the correct position of the steered wheels under various driving conditions (acceleration, rolling, braking), which helps to reduce resistance to movement, tire wear and fuel consumption.

Claims (1)

A device for continuous automatic regulation of the convergence of the steered wheels of a vehicle during movement, containing steered wheels mounted through bearings mounted on bushings, on axles with slewing fists, bushings, rings and washers with nuts for their fastening on the axles, load cells mounted on end surfaces rings connected by a bridge circuit and which are sensors of the side reactions of the road, power supply, electric signal amplifier, electromagnetic coil, core to which is rigidly connected to the spool of the working fluid flow switchgear, a reservoir with a working fluid, a pump and a reversing mechanism for changing the working length of the transverse steering link, characterized in that the bushings have axial protrusions at the ends, conical washers in the openings are radial cutouts that include protrusions bushings; the mounting washers of the bushings and conical washers on the axles of the wheels have radial cuts, which also include the axial protrusions of the bushes without abutting the nut, and these washers have an inner diameter that has radial protrusions that enter the axial grooves on the axles of the wheels, which prevents turning bushings and washers with strain gauges, increasing the reliability of the design.

Images