DE3139349A1 - Control for a trailing steering axle in single-element or multi-element vehicles - Google Patents

Abstract

A control for a trailing steering axle in single-element or multi-element vehicles evaluates measurement variables corresponding to the steering angle of the front axle and the speed of the vehicle and generates control signals corresponding to these measurement variables. The control signals are converted in a control device into control movements to be transmitted to the steering mechanism of the trailing steering axle in such a way that, when the speed approaches zero, the locking angle of the wheels of the trailing steering axle essentially corresponds to the reference angle (Ackermann angle) and that in the case of higher bend speeds the size of the locking angle is reduced in such a way that in the case of respectively identical transverse acceleration the intrinsic steering angle remains the same. By means of such influencing of the steering mechanism of the trailing steering axle the vehicle exhibits equally advantageous manoeuvring behaviour and roadholding in different driving situations.

Description

Control for a self-steering

axle in single or multi-unit vehicles The invention relates to a control for a self-steering axle in single or multi-unit vehicles with at least one front axle that can be steered by means of a steering gear and another, between this and he self-steering axle provided, in the case of the stipulation at least one measured variable of the steering angle of the self-steering axle that can be detected on the vehicle can be influenced.

Self-steering axles are behind the drive axle in single-unit vehicles of the vehicle and. in use as axles of trailers in multi-link vehicles.

In this respect, a form of use that is particularly addressed here is use as the front axle of a trailer, the drawbar of which cannot rotate in the horizontal direction is connected to the towing vehicle of the multi-unit vehicle, the drawbar pivot point opposite the trailer in the area of its self-steering axle.

A control system for trailing steering axes is now part of the stand the technology (DE-OS 28 08 173), in which, analogous to the construction described above, in accordance with at least one measurable variable that can be measured on the vehicle, the steering angle of the Trailing steering axle can be influenced.

With the help of this control, single or multi-unit vehicles technically, especially with regard to the maneuvering behavior, can be improved.

To achieve this goal, an axle with self-tracking wheels is required provided, which due to tire caster according to the existing lateral force set the required steering angle automatically, but without a lateral guide function to take over. In addition, the steering can be used for reversing and maneuvering To block.

The self-tracking steering described turns out to be in conjunction with the mentioned areas of application serving the stated goals, provided that the Distance of the following steering axle to the respective upstream axle, for example to the drive axle of a towing vehicle, which keeps within the usual limits, the steering axle is thus arranged with a relatively small distance behind the drive axis. Of the The distance is usually only slightly larger than the wheel diameter on the drive axle or self-steering axle.

Especially with larger distances, however, the driving behavior can be related with a self-tracking axle are no longer satisfactory, and such larger distances arise in particular in the aforementioned special application purpose, namely when using the self-steering axle as the front axle of a trailer, which has its The drawbar is coupled to the towing vehicle so that it cannot be swiveled. Here the described Self-steering axle not satisfactory without side force absorption, since in particular at higher speeds there is a considerable and almost uncontrollable tendency to oversteer appear.

When driving trucks with trailers on a slalom course because of the oppositely directed centrifugal forces at the turning point of the path Towing vehicle and trailer change between oversteer and understeer. The driver can not or only with difficulty adjust to such a situation.

The invention is therefore based on the object of a controller for self-steering axles of the type explained at the beginning, specify the at each distance the self-steering axle to the respective upstream axle in different driving situations equally advantageous maneuvering behavior and directional stability guaranteed.

This object is achieved according to the invention in that the self-steering axle depending on both the steering angle of the front axle and the driving speed of the vehicle can be controlled as measured variables by a control device in such a way that when the speed approaches zero, the steering angle of the wheels of the self-steering axle corresponds essentially to the target angle (Ackermann angle) and that at higher Cornering speeds, the size of the steering angle is reduced in such a way that with the same lateral acceleration, the self-steering angle remains the same.

It thus arises when driving in curves at speeds from which the same transverse acceleration results, - the same understeering steering behavior and thus optimal driving behavior.

If the control for a self-steering axle from a towing vehicle and inhinger bestshenden tension provided. is t, it is advantageous to de Front axle steering angle, the driving speed and the wheelbases to determine the Steering angle of the trailer self-steering axle in the relationship listed in claim 2 to put to each other.

To determine the steering angle of the front axle, it is beneficial to use am -Steering gear or a potentiometer on the front axle. The driving speed can be determined in a simple manner if, in particular, at the gearbox output a speedometer is connected.

Potentiometer and tachometer is an electrical control device assign, with the help of which the measured variables determined by the aforementioned devices in electrical control signals for activating the control device of the self-steering axle can be implemented accordingly.

In a preferred embodiment of the invention, the electrical Control device arranged on the trailer steering axle and on the towing vehicle and trailer, a part of an electrical plug-in coupling is provided in each case. It This makes it easy to uncouple the trailer from the towing vehicle.

The trailing steering axle is expediently designed as a steering knuckle axle.

Further features and details of the invention are in the following Description of one in the drawing in connection with one of the towing vehicle and trailer Existing truck-trailer combination shown. Control and / or explained in the claims.

In the drawing, a multi-part is shown in a schematic representation Vehicle shown is a towing vehicle 10 formed by a truck and a trailer 12.

The towing car is designed here as a two-axle vehicle and with a steered front axle 14 and a rear drive axle 16 equipped. the Both axles are arranged on a vehicle frame 18, on which a vehicle body 20- rests.

The drive axle 16 is located near the rear end of the structure 20. The frame 18 extends to the rear end of the structure and is in its rear end area stiffened by a cross connection 22.

The front axle 14 is via a steering gear 24 and a conventional one Lever connection controllable. An internal combustion engine is used to drive the motor vehicle 26 with flanged gearbox 28. Via a cardan shaft leading away from the latter 30 and a differential gear 32 are used to drive the drive axle 16.

At the rear, stiffened by the cross connection 22 frame is menende a trailer coupling 34 for attaching a drawbar 36 of the trailer 12 is provided. The given by the connection between the trailer coupling and the drawbar, The drawbar can pivot on all sides with regard to its pivotability blocked in 'vehicle transverse direction, so that between a self-steering axle 38 of the two-axle trailer 12, for example, and the towing vehicle 10 in the transverse direction of the vehicle stiff bond results in ..

The blocking of the mobility of the drawbar 36 in relation to their Transverse pivotability with respect to the towing carriage 10 takes place, for example, by a throw 40, in which the drawbar neck is rigidly guided in the transverse direction and in turn - with its two lateral arms 42, 44 around one. Horizontal axis 46 is pivotably articulated on the frame 18 of the towing vehicle, the horizontal axis runs approximately through the articulation point of the trailer coupling 34, so that the height pivotability-the Drawbar 36 is not obstructed.

The steering axis 38 of the trailer '12, which in this particular case at the same time is to be regarded as the trailing steering axle of the towing vehicle, has a mi a turntable 48 firmly connected axle body 50, at the ends of which upright Pivot axes 52 pivotable, each with a wheel 54 or

56 superimposed steering legs 58 are arranged.

With the steering knuckles 58, track levers 61 are connected, which in turn are pivotally connected to one another via a tie rod 62. The two Achsseit.en assigned wheels are thus with respect to their pivotability with one another coupled. The turntable 48 is with the drawbar 36 or the union 40 around ein.Horizontalachse 64 pivotally connected so that nodding movements between the towing vehicle and the trailer possible are.

The self-steering axle 38 of the trailer is connected to a control device 66 equipped, for example pneumatically or hydraulically Abe.r an operating lever 67 and a handlebar 68 for controlling the wheels 54, 56 the position of the steering lever 60 able to influence.

The control device 66 is electrically operated by a control device 70 controlled, which is preferably on the body of the trailer or directly on the Self-steering axle is arranged.

The control device 70 generates depending on both 'from Steering angle of the front axle, as well as the driving speed of the vehicle electrical control signals in the control device 66 in on the operating rod The steering movements to be transferred are converted from the steering angle of the front axle and to be determined from the driving speed and input into the control device 70 Measured variables are determined on the steering gear 24 and on the gearbox 28, for example. For this purpose, for example, on the steering gear 24 by means of a potentiometer 72 of the front axle steering angle and at the gearbox output by a speedometer 74 the Fahrgeichwindighit measured. It is clear that these measurands also apply to others Position and, if necessary, by other means.

Potentiometer and tachometer are each via an electrical line 76 or 78 on a coupling socket 80 arranged at the rear of the truck electrical plug-in coupling connected, the coupling plug 82 via an electrical Connecting line 84 is connected to the control device 70.

The coupling plug is plugged into the coupling socket and is located the combination of towing car and trailer is in motion, 90 are in the Control device 70 receives the measured values from potentiometer 72 and tachometer 74 (Steering angle and driving speed) converted into corresponding control signals, amplified and as translational or rotary movement, depending on the approach: order and design of the control device 66, to the steering mechanism of the self-steering axle 38 passed. The mentioned measured variables are implemented in such a way that at Speed approaching zero, the steering angle of the wheels of the trailing steering axle Setpoint angle (Ackermann-Winkul) essentially corresponds.

The size of the steering angle, however, increases at higher cornering speeds reduced in such a way that the oversteering tendencies of the Zugwageüs avoided or Understeering behavior can be imposed on this via the self-steering axle can, so that at different cornering speeds, the same lateral acceleration results, as a result of the - self-steering angle. of the towing vehicle remains the same and thus optimal driving behavior is achieved.

The same driving advantages are self-evident from the invention can also be achieved with vehicles whose driving axle is followed by a self-steering axle tet and in particular the center distance of the two axes is relatively large.

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Claims (1)

Control for a trailing steering axle in single or multi-link vehicles with at least one front axle that can be steered by means of a steering gear and a further axle provided between this and the trailing steering axle, in which the steering angle of the trailing axle can be influenced according to at least one measured variable that can be measured on the vehicle, characterized in that the self-steering axle (38) can be controlled by a control device (66) as a function of both the steering angle of the front axle (14) and the driving speed of the vehicle (10, 12) The steering angle of the wheels (54, 56) of the self-steering axle (38) essentially corresponds to the target angle (Ackermann angle) and that at higher cornering speeds the steering angle is reduced in such a way that the steering angle remains the same for the same lateral acceleration, 2nd control for a self-steering axle of a single ode r multi-link vehicle, characterized in that the following relationship exists between the front axle steering angle, the driving speed and the wheelbases for determining the steering angle of the trailing steering gear: Here mean: zNLA (self-steering axle) -. Steering angle at the N.LA zVA (front axle) - Steering angle at the VA V - Respective. Speed Vo - design speed a -) b -) control variables A - distance between motor vehicle front axle and motor vehicle drive axle B - distance between motor vehicle drive axle and trailing steering axle 3. Control according to claim 1 or 2, characterized in that to determine the steering angle of the A potentiometer (72) is arranged on the front axle on the steering gear (24) or on the front axle (14) and a tachometer (74) is connected to the gearbox output to determine the Pahrgeschwindigu speed and that an electrical control device (70) is provided with the aid of which the measured variables determined by potentiometers (72) and tachometers (74) can be converted accordingly into electrical control signals for activating the control device (66) of the self-steering axle (38). 4. Control according to claim 3, for one of the towing vehicle and trailer existing truck, d u r c h e k e n n e i c h n e t that the electric Control device (70) on the trailer (12), in particular on the trailer self-steering axle (38) and a part (80 or 82) an electrical plug-in coupling is provided.