DE10333998B4 - Motor vehicle trailer combination and method for determining the vehicle angle - Google Patents

Abstract

Motor vehicle trailer trailer (1)
(a) with a towing vehicle (2),
(b) with at least one trailer (3),
(C) with at least one drawbar (4) for the variable coupling of the trailer (3) with the towing vehicle (2) and
(d) with a device (11, 12, 15, 16) for determining the vehicle angle (α) between towing vehicle (2) and trailer (3),
(d1) the at least one first device (11) for detecting first rotational speeds of at least the wheels (6 _l , 6 _r ) of an axle (6) of the towing vehicle (2),
(d2) the at least one second device (12) for detecting second rotational speeds of at least the wheels (7 _l , 7 _r ) of an axle (7) of the trailer (3) and
(d3) which has a program-controlled device (16) for determining a rotational speed difference from the first and second rotational speeds and for determining the gudgeon angle (α) from the calculated rotational speed difference, characterized in that
the team angle (α) based on measured values stored in a table
the speed differences is determined.

Description

The invention relates to a motor vehicle-trailer combination and a method for determining a vehicle angle. The invention further relates to a use of ABS sensors and an ABS control unit.

Due to the increasing traffic density, the existing traffic routes and parking spaces are being used ever more intensively with the consequence that, especially in inner cities, the maneuvering space for driving and maneuvering is becoming ever smaller. If this maneuvering for conventional motor vehicles, such as passenger cars (cars) and trucks (trucks), already difficult, then this is even more difficult if these vehicles are connected to a trailer. In these cases, maneuvering and reversing is extremely difficult and requires a high level of driving skill, especially when the motor vehicle and trailer combination is very long and it is very difficult for the driver to accurately estimate the dimensions of the vehicle.

For these reasons, such teams are usually equipped with devices for regulating the reverse drive. Such Rangierhilfesysteme and reversing aids are well known in a variety of embodiments, so that it will not be discussed in more detail below. Only the general background of Rangierhilfesystemen and devices for regulating the reverse drive is on the DE 198 06 655 A1 . DE 197 54 249 A1 and DE 198 34 752 C2 directed.

Common to most of these devices is that, in each case, an angle between the towing vehicle and its trailer is determined for regulating the reverse travel. This angle determination can be carried out in many ways. In the German patent DE 198 34 752 C2 the relative position of the trailer with respect to the tractor is determined from a steering angle of the steered wheels of the towing vehicle and the relative position of the tractor to the trailer. In the German patent application DE 198 06 655 A1 Three angles are measured, namely the angle between the towing vehicle and the drawbar, the angle between drawbar and trailer and the angle between towing vehicle and trailer. From the three measured angles, an angle between towing vehicle and trailer is determined.

From the publication DE 198 12 237 C1 is a motor vehicle-trailer combination with a towing vehicle, with at least one trailer, with at least one drawbar for variable coupling of the trailer to the towing vehicle and with a device for determining the vehicle angle known. The articulation angle between the towing vehicle and its semitrailer can be calculated by including in addition to given geometrical sizes of the combination, the mean radii of curvature of the wheels of the semitrailer and the radii of curvature of the front wheels of the towing vehicle. These mean curve radii result from the corresponding track widths and the wheel circumferential speeds of the corresponding wheels and the algebraic mean values of the associated axes calculated therefrom. To measure wheel peripheral speeds, wheel speed sensors are provided on the trailer and on the towing vehicle. These detected by the wheel speed sensors curvature radii of the wheels of the towing vehicle and the trailer as a speed difference in the calculation.

All said devices and methods have in common that a considerable effort is provided for the determination of the mating angle between towing vehicle and trailer. Typically, there are used to record the angle optical or acoustic angle sensors that record the exact position of the motor vehicle, drawbar and trailer. In addition, a more or less large amount of computation is required for the evaluation and determination of the actual angle from the measured values. Since sensors are used here specifically for the angle determination, which can not be used for other systems, this makes the known reversing aids or maneuvering systems considerably more expensive.

The present invention is therefore based on the object to provide a simpler angle determination in a motor vehicle trailer-trailer.

According to the invention this object is achieved by a motor vehicle trailer combination with the features of claim 1 and by a method having the features of claim 6. Preferred embodiments of the invention are the subject of the dependent claims.

The present invention is based on the finding that in a motor vehicle trailer trailer the wheels of the towing vehicle and the trailer have different wheel speeds when cornering. This difference in the wheel speeds of towing vehicle and trailer is greater, the greater the steering angle or the Gespannwinkel. Under tack angle is the angle between the towing vehicle and the trailer referred to the longitudinal axis of the towing vehicle. The idea on which the present invention is based is now to determine the trailer angle from this speed difference.

For this purpose, at least the wheels of an axle of the towing vehicle and trailer speed sensors are assigned. These speed sensors determine the respective speed of the associated wheels and this speed information is evaluated in the sequence. For this purpose, a program-controlled device, such as a microprocessor or microcontroller, which may be part of a control device or a motor control, for example, is provided. This program-controlled device calculates from the determined speed information a speed difference, from which then the trailer angle is determined.

The determination of the joint angle is based on experience or measured values, which are stored in a table (look-up table).

The control unit or the program-controlled device, which carries out the evaluation of the speed information and the determination of the vehicle angle, may for example be part of a driver assistance system and / or a rear-assistance system.

As means for determining the speeds of rotation angle sensors are advantageously used, which derive the respective speeds from the rotation angles of the respective wheels.

In a particularly advantageous embodiment, an ABS system is used to determine the vehicle angle. Such ABS systems have ABS sensors which are provided on braked wheels and which are intended to detect the brake slip of these wheels using the vehicle speed. In the case of a blocked or "overbraking" wheel whose speed is significantly smaller than the reference speed. The ABS sensors record this speed information and a corresponding ABS control unit evaluates this as blocking. Advantageously, the ABS sensors designed as rotational speed sensors can now also be used to record the rotational speed for determining the gearing angle. In addition, the ABS control unit can also be used to evaluate the speed information determined by the ABS sensors for determining the trailer angle. Since this ABS control unit already has a program-controlled device, its function only needs to be extended to the effect that, in addition to the normal ABS operation, the respective trailer angle is now also determined in the case of maneuvering, reverse parking, etc.

Specially required for the determination of the connecting angle control units and speed sensors are therefore no longer required here. When using an ABS system, the inventive method or the device for determining a vehicle angle can be realized very easily and inexpensively, since modern motor vehicles are already equipped with an ABS system and this only slightly, as already described, would need to be expanded.

Advantageously, not only the towing vehicle but also the trailer has such an ABS system equipped with ABS sensors.

The invention is particularly advantageous for those teams in which the towing vehicle is designed as a truck. In particular, in such combinations, maneuvering and reversing is particularly difficult, so that reversing aids and maneuvering greatly simplify maneuvering the drivers of such teams maneuvering. In addition, however, the invention is of course also in passenger cars with trailer, since very often the motor vehicle driver - unlike a truck - the Rückwärtsrangieren is not used.

The present invention is particularly suitable in such teams in which the trailer has only one or more, arranged directly behind one another axes. In particular, in such combinations, the trailer tends in a reverse drive increasingly to a "kinking", whereby here simple and safe maneuvering using a Gespannwinkelermittlung are particularly advantageous.

In particular, each of the rotational speeds of a left and right wheel of each axis can be determined. In this case, the determination of the Gespannwinkels for the determination of the speed difference and thus the Gespannwinkels is particularly reliable. Alternatively, it would also be conceivable that the speeds are determined only when coupled with the drawbar axles or their wheels.

Advantageous embodiments and further developments are the dependent claims and the description with reference to the drawings.

• 1: eine schematische Darstellung eines Kraftfahrzeug-Anhänger-Gespanns;
• 2: einen Ausschnitt einer erfindungsgemäßen Vorrichtung zur Ermittlung des Gespannwinkels.

The invention will be explained in more detail with reference to the exemplary embodiments indicated in the schematic figures of the drawing. It shows:

• 1 a schematic representation of a motor vehicle-trailer combination;
• 2 : A section of a device according to the invention for determining the vehicle angle.

In all figures of the drawing, the same or functionally identical elements, signals and functions - unless otherwise indicated - have been designated the same.

In 1 is with reference numerals 1 the motor vehicle trailer team called. The team 1 consists of a towing vehicle, such as a truck or a passenger car 2 , as well as a trailer 3 , towing vehicle 2 and followers 3 are by means of a variable drawbar 4 connected with each other. The towing vehicle 2 and the trailer 3 each have two axes 5, 6; 7, 8, wherein the respective front axles 5, 7 are designed to be steerable. The remaining (rear) axes 6, 8 are typically (more or less) non-steerable (rigid). At the respective axes 5 - 8 in each case at least two wheels are rotatably arranged, with the index "I" the respective left wheel and with the index "r" the respective right wheel of the respective axles 5, 6; 7, 8 is designated.

According to the invention now the trailer angle α between towing vehicle 2 and followers 3 be determined. The trailer angle α is defined in the present case from the relative position of the towing vehicle 2 to the trailer 3 , ie the deviation of the longitudinal axis 9 of the towing vehicle 2 with respect to the longitudinal axis 10 of the trailer 3 ,

The invention comprises a device according to the invention for determining the vehicle angle α on. For this purpose, at least one left and right wheel 6 _l , 6 _{r of} the towing vehicle 2 and a left and right wheel 7 _l , 7 _{r of} the trailer 3 associated with a respective speed sensor. This is based on the schematic representation in FIG 2 described.

In 2 is schematically only one of the axles of the towing vehicle 2 , for example, the rear axle 6, as well as one of the axles of the trailer 3 , For example, the front axle 7, shown. The respective wheels 6 _l 6 _r and 7 _l , 7 _r is in each case a speed sensor 11 . 12 assigned. It would also be conceivable to use more than two speed sensors per wheel and / or per axle and / or more than one axle per vehicle with speed sensors 11 . 12 equip.

The speed sensors 11 . 12 take the respective speeds of the wheels 6 _l , 6 _r , 7 _l , 7 _r . From the recorded speeds are speed-dependent control signals 13 . 14 generated by a control unit 15 be supplied. This controller 15 has a program-controlled device 16 on that from the control signals 13 . 14 containing the speed information, determines a speed difference. From the speed difference is then, for example, according to a calculation algorithm of the team angle α between towing vehicle 2 and followers 3 determined.

Although the present invention has been described above with reference to a preferred embodiment, it is not limited thereto, but modifiable in many ways.

For example, the invention is not necessarily limited to towing vehicles and trailers, each with two axes, but can be extended to any number of axes that can be variable or rigid, as well as uniaxial running trailer.

Also, the speed determination does not necessarily have to be determined on the rear axle of the towing vehicle or the front axle of the trailer, but may additionally or alternatively also be performed on one or more of the other axles.

The invention is also not limited to methods for determining the vehicle angle for a reversing aid or maneuvering, but can of course also be used very advantageous for a determination of the vehicle angle during a forward drive advantageous.

LIST OF REFERENCE NUMBERS

1

(Vehicle-trailer) sidecar

2

towing vehicle

3

pendant

4

shaft

5 - 8

axes

5 _l - 8 _l

left wheels

5 _r - 8 _r

right wheels

9

Longitudinal axis of the towing vehicle

10

Longitudinal axis of the trailer

11, 12

Speed sensors

13, 14

(Speed dependent) control signals

15

control unit

16

program-controlled device

α

trailer angle

Claims (8)

Motor vehicle-trailer combination (1) (a) with a towing vehicle (2), (b) with at least one trailer (3), (c) with at least one drawbar (4) for the variable coupling of the trailer (3) with the towing vehicle (2) and (d) with a device (11, 12, 15, 16) for determining the vehicle angle (α) between towing vehicle ( 2) and trailer (3), (d1) having at least one first means (11) for detecting first rotational speeds of at least the wheels (6 _l , 6 _r ) of an axle (6) of the towing vehicle (2), (d2) the at least a second device (12) for detecting second rotational speeds of at least the wheels (7 _l , 7 _r ) of an axle (7) of the trailer (3) and (d3) having a program-controlled device (16) for determining a speed difference from the first and Second speeds and for determining the Gespannwinkels (α) from the calculated speed difference characterized in that the Gespannwinkel (α) is determined based on stored in a table measured values of the speed differences. Teamed up Claim 1 characterized in that the first and second means (11, 12) include rotational speed sensors (11, 12) and / or rotational angle sensors provided for detecting the first and second rotational speeds. Trailer according to one of the preceding claims, characterized in that at least one left wheel (5 _l -8 _l ) and one right wheel (5 _r 8 _r ) of each axle (5-8) of the towing vehicle (2) and the trailer (3 ), Speed sensors (11, 12) and / or rotational angle sensors are assigned. Trailer according to one of the preceding claims, characterized in that an ABS system is provided, which has ABS sensors, which are provided for detecting the first and the second rotational speeds, and which has an ABS control unit which has a program-controlled device (16 ) contains. Trailer according to one of the preceding claims, characterized in that a driver assistance system and / or a rear-assist system is provided which has a control unit (15), wherein the control unit (15) contains the program-controlled device (16). Method for determining the vehicle angle (α) between a towing vehicle (2) and a trailer (3) coupled thereto via a drawbar (4), comprising the steps of: (A) detecting first rotational speeds of a left and a right wheel (5 _l , 5 _r , 6 _l , 6 _r ) at least one axis (5, 6) of the towing vehicle (2); (B) detecting second rotational speeds of left and right wheels (7 _l , 7 _r , 8 ₁ , 8 _r ) of at least one axle (7, 8) of the trailer (3); (C) determining the speed difference from the first and second speeds; (D) determining the vehicle angle (α) from the calculated speed difference, characterized in that the vehicle angle (α) is determined based on measured values of the rotational speed differences stored in a table. Method according to Claim 6 , characterized in that for detecting the first and second rotational speeds, a rotational speed sensor (11, 12) and / or a rotational angle sensor, in particular rotational speed sensors and / or rotational angle sensors of an ABS system are used. Method according to one of Claims 6 or 7 , characterized in that in each case the rotational speeds of those wheels (6 _l , 6 _r ; 8 ₁ , 8 _r ) are determined which are connected to at least one of the rear axles (6, 8) of the towing vehicle (2) and the trailer (3) are.

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