WO2014079521A1

WO2014079521A1 - Method and device for controlling a rear monitoring system of a vehicle combination

Info

Publication number: WO2014079521A1
Application number: PCT/EP2013/002844
Authority: WO
Inventors: Rainer Risse; Udo Ronnenberg; Axel Stender
Original assignee: Wabco Gmbh
Priority date: 2012-11-22
Filing date: 2013-09-21
Publication date: 2014-05-30
Also published as: EP2922740A1; DE102012022816A1

Abstract

The invention relates to a method and a device for controlling a rear monitoring system (5) of a vehicle combination (1) consisting of a self-propelled or non-self-propelled towing vehicle (2) and a self-propelled or non-self-propelled towed vehicle (3), wherein the towed vehicle (3) can be coupled to the towing vehicle (2), and wherein the rear monitoring system (5) is disposed on the towing vehicle (2). In order to increase the driving comfort when using such a rear monitoring system and to reduce the susceptibility of said system to malfunction, the rear monitoring system (5) is normally active and is deactivated automatically when the coupled state is recognised, or the rear monitoring system (5) is normally inactive and is activated automatically when the uncoupled state is recognised or an approaching object is detected. For this purpose recognition means (8) are provided, by means of which a coupling state of the vehicle combination (1) can be recognised and control means (7) are provided, by means of which the rear monitoring system (5) can be activated or deactivated automatically depending upon the coupling state.

Description

Method and device for controlling a Rückraumüberwachungssys- system of a vehicle combination

The invention relates to a method for controlling a Rückraumüber- monitoring system of a vehicle combination according to the preamble of patent claim 1 and an apparatus for controlling such a system according to the preamble of patent claim. 5

Vehicle combinations of towing and towed vehicles, such as towing vehicles with trailers or trailers with trailers, are often equipped with a back room or environmental monitoring system in each towing vehicle to assist and relieve the driver when maneuvering rearward. Such monitoring systems have cameras and / or distance sensors as well as communication means which visually and / or acoustically indicate to the driver a distance or a change in distance to a possible object. In order to increase safety and driving comfort, rear-room monitoring systems are also known, which initiate an automatic braking of at least one of the vehicles of the vehicle combination or vehicle train when approaching a rear obstacle.

In such vehicle combinations recognizes a distance sensor system of the towing vehicle due to its arrangement and orientation usually only the towed vehicle, but not the actually to be monitored rear space behind the last vehicle or trailer. The distance information provided by such a distance sensor can then lead to an unwanted activation of warning signals or even to automatic safety braking. As a result, the driver may be disturbed and unsettled during the maneuvering maneuver. To avoid this, can the rear-space monitoring system has a shut-off function that can be operated manually by the driver.

DE 196 07 788 B4 describes a method and a device for controlling the approach of a vehicle to an obstacle in a reverse drive, in which by means of a distance sensor, the distance is detected to an obstacle and depending on this distance, an engine intervention or a braking intervention takes place to assist the driver in safely guiding the vehicle to the obstacle, such as a loading dock, at low speed.

From DE 20 2005 011 042 U1 an environment monitoring system of a tractor with trailer, in particular a semi-trailer with semi-trailer, is known. In the rear area of the tractor, two cameras with a relatively large opening angle are installed on the left and right sides and are aligned with the rear space of the tractor. The area captured by the cameras can be displayed to the driver on a display device, and the cameras and the display device can be controlled by means of a control device such that the cameras can be switched on or off individually and the camera images can optionally be displayed on the display device. If tractor and semi-trailer are on a straight line, the visibility of the cameras located in the rear of the tractor is limited by the semi-trailer. If the trailer buckles against the tractor, the field of view of the right-side and the left-side camera is released.

DE 10 2005 051 804 A1 shows a device for driver assistance when maneuvering a vehicle combination, with a camera for capturing image data from the rear environment and sensors for detecting the steering and articulation angle of the mutually steerable and kinkable vehicle elements of the team, and a processor for processing this angle data taking into account the dimensions stored in a memory tions of the vehicle combination. The processor calculates the coming lane course from this and superimposes it on the camera images on a display. In the memory different vehicle contours, for example, with changing trailers or containers, stored and retrieved.

From DE 10 2008 054 366 A1 a control arrangement for a trailer, for example a semi-trailer, with a brake system and a lighting system and a rear-space monitoring system is known. The brake system has information about measured data

Distance sensor of the back room monitoring system and the status of the lighting system by means of a control unit available. Based on this information, the brake system can intervene in the braking behavior of the trailer and change the status of the lighting system, for example, turn on warning lights when starting a loading ramp. The lighting system is connected to the control unit via a data bus comprising data lines and electrical supply lines. The control unit and the brake system can be connected to a towing vehicle, whereby the interfaces comply with the current ISO standards.

Against this background, the invention has for its object to provide a method and apparatus for controlling a rear space monitoring system of a generic vehicle combination, by means of which the driving comfort increases and the susceptibility of the system is reduced.

The solution to this problem arises from the features of the independent claims, while advantageous embodiments and modifications of the invention are the dependent claims.

The invention is based on the finding that it makes sense to switch off a back-room monitoring system in motor vehicle train combinations, when the back-room monitoring system anyway only the front of the drawn vehicle can recognize. To relieve the driver, this can be done automatically by the back room monitoring system or a vehicle electronics connected to this system automatically detects a hitched vehicle and the monitoring function in each case inactive switches.

Accordingly, the invention is based on a method for controlling a rearview monitoring system of a vehicle combination consisting of a self-propelled or non-self-propelled towing vehicle and a self-propelled or non-self-propelled towed vehicle, wherein the towed vehicle is engageable with the towing vehicle, and wherein the rear space monitoring system on the is arranged pulling vehicle. To achieve the stated object with respect to the method, the invention provides that the back-room monitoring system is normally active and automatically deactivated upon detection that a towed vehicle is coupled, or is normally inactive and upon detection of the disconnected state or upon detection of an approaching one Object is automatically activated.

An active state of a back-room monitoring system is understood as an operating mode in which the operation of the rear-room monitoring system is visually and / or acoustically displayed, and if such a function is provided, if necessary measures for intervention in a drive, brake and / or lighting system control are initiated become.

An inactive state of a back-room monitoring system is understood to mean an operating mode in which the operation of the rear-space monitoring system is at least neither optically and / or acoustically indicated, nor intervened in a drive, brake or lighting system control.

Under a coupled condition, an established connection between two vehicles is transmitted via a coupling device such as a trailer. clutch or a trailer coupling, under a disconnected state corresponding to a separate or not produced such compound understood.

By means of the invention, incorrect information or unwanted interventions by the rear-space monitoring system in the control of the drive train and / or in the control of the brake system in vehicle combinations are automatically avoided and, in cases in which the rear-space monitoring system can not be usefully used, the driving comfort is increased and the susceptibility to interference is reduced ,

Known back-room monitoring systems, for example in trucks or tractors, assist the driver in maneuvering a vehicle rearward by means of optical and / or acoustic displays of the distance to a possible object. Some rearview monitoring systems also have an automatic vehicle braking function through active intervention in wheel brake control or engine control to further increase safety during maneuvering. These systems have basically proven themselves.

In transportation or special applications, however, lorries or tractors are often assembled alternately with one or more different trailers or semi-trailers to train combinations. Such train combinations then often have a rear space monitoring system for the towing vehicle, but not for the overall combination with the respective trailer vehicles. Therefore, the rear space monitoring system of the towing vehicle in such a train combination recognizes only the front of the towed vehicle, but not the actually monitored rear space behind the rear of the towed vehicle. The distance information determined and displayed by the back-room monitoring system is therefore useless and may lead to partially foolish warning signals or even to an unwanted activation of automatic safety braking.

By using the invention, such a useless function is reliably avoided by automatically deactivating the back room monitoring system. The driver is thus not disturbed in driving maneuvers. Since the deactivation takes place automatically, the driver does not need to have the knowledge of a possibly existing manual switch-off option and perform a corresponding manual intervention and is thus relieved.

In normal operation active back room monitoring systems are automatically deactivated according to the invention by detecting the coupled state. In normal operation, inactive back-room monitoring systems are automatically activated according to the invention by detecting the disconnected state or detecting an approaching object. In both cases, it is ensured that no backspace monitoring-related disturbances occur in the vehicle combination, and that the back-room monitoring system fulfills its intended function as soon as the rear field of vision or a detection area is cleared or released again. The previously performed automatic switching of the back room monitoring system is automatically canceled as soon as the previously established coupled state has changed back to the uncoupled state, or if the previously disconnected state has changed to the coupled state.

In this context, the term "approaching an object" is understood to mean, in particular, an approaching of the vehicle without trailer or uncoupled trailer when maneuvering backwards to a stationary obstacle, approaching a loading ramp or the like Distance of the coupled vehicles at least in one area of a By the trailer hitched longitudinal axis not or only slightly, so that a previously inactive rear space monitoring system remains inactive.

In principle, a previously inactive rear-mounted monitoring system without a towed vehicle or with a disconnected towed vehicle can also be activated when the vehicle is stationary or traveling relatively slowly and a position changing object or another vehicle is moving toward the rear of the stationary or slow moving vehicle. As a result, the driver can be informed and monitor or support the process and be warned if necessary. In the event of an unwanted or dangerous approach, the driver can then dodge in good time if necessary.

The dome state of the vehicle combination, ie a vehicle with a back-room monitoring system, either in combination with an attached vehicle or without a trailer, can be easily determined via mostly existing means without additional costs. The back room monitoring system thus requires no additional sensors. Conveniently, the corresponding information can be detected via a connected to the rear space monitoring system or connectable with little effort vehicle electronics.

In a preferred method-related embodiment of the invention can be provided that the coupling state of the vehicle combination is determined by means of an information exchange of data and / or signals between the vehicles. Accordingly, the coupling state can be detected when exchanging digital information between the vehicles according to ISO 1 1992.

A second possibility for determining the dome state is that the coupling state of the vehicle combination based on an electrical current consumption at a producible in a coupling process electrical connection between the two vehicles, such as a connector of a Lighting system or a braking system is detected. The recognition of even a minimum current consumption at an electrical connector according to ISO 7638 for a brake system is also sufficient to detect the dome state.

Another possibility is that the coupling state of the vehicle combination is determined by means of a functional or conductivity test of an electrical signal or control connection between the vehicles. Accordingly, the review of a conductive connection to an electrical connector according to ISO 1 185 or ISO 12098, for example, for controlling stoplights of the towed vehicle, also provides the desired information.

Moreover, the invention relates to a device for controlling such a rear space monitoring system of a vehicle combination consisting of a self-propelled or non-self-propelled towing vehicle and a self-propelled or non-self-propelled towed vehicle, wherein the towed vehicle is coupled to the towing vehicle, and wherein the rear space monitoring system at the towing Vehicle is arranged. To solve the problem task detection means are provided by means of which a coupling state of the vehicle combination can be seen, and control means are provided by means of which the back room monitoring system is automatically activated or deactivated depending on the coupling state.

In such a device for carrying out the method, it can be provided according to a first development that the coupling state can be detected by means of electronics for an existing vehicle system of the towed vehicle, such as a lighting system or a brake system, and can be signaled to the rear space monitoring system. The electronics can already be electrically connected to the back room monitoring system or can be connected with little effort. To save on manufacturing costs, a control means, so as a control circuit for activating or deactivating the back room monitoring system due to the required Kuppelzu- state information, in the electronics of this system, for example, a brake system electronics, be integrated. Deviating from the control means may be formed as a separate control device.

In addition, it can be provided that the rear space monitoring system can additionally be manually activated or deactivated by means of a switch which can be actuated by an operator. Thus, regardless of the automatic activation or deactivation of the back-room monitoring system, the driver has the possibility of temporarily suppressing control interventions in the engine, starting clutch, transmission and / or brake control and / or warning signals, if he does not so wish. This may be the case, for example, before a coupling process is completed and the coupled state is detected, or when a coupling process, a trailer is pushed to the towing vehicle, or if he wants to temporarily activate a camera system to observe an attached vehicle ,

To further illustrate the invention, the description is accompanied by a drawing of an embodiment. In this, the single figure shows a schematic representation of a vehicle combination with a rear space monitoring system.

Accordingly, the vehicle combination is designed as a truck-trailer train 1, comprising a self-propelled pulling vehicle 2 and a non-self-propelled towed vehicle 3. The two vehicles 2, 3 are interconnected by a trailer coupling 4. The towing vehicle 2 has a rear space monitoring system 5, the sensor system of which is arranged in the rear area of the towing vehicle 2 and its display device 6 in the driver's field of vision. The sensor system not explicitly shown here may comprise at least one distance measuring device and at least one Have camera system. The display device 6 may have a display with a visualized representation of the rear space of the towing vehicle 2 as well as various warning indicators which, on the basis of information from the distance measuring device, signal that the distance to an object with a certain tone sequence is not reached. The rear-space monitoring system 5 or its sensor system detects in the case of the truck-trailer train 1 in the illustrated operating situation as an object or as a rear space essentially the front side of the coupled trailer vehicle 3.

The back room monitoring system 5 is connected to a control unit 7. The control unit 7 can be designed as a separate control device or as a correspondingly programmed microcomputer in another control device. The control unit 7 receives signals from a recognition unit 8, which recognizes the current coupling state of the truck-trailer train 1 and makes it available to the control unit 7 as information. The recognition unit 8, which is only indicated schematically in the figure, can be part of an electronically controlled brake system (not shown). As part of a control and functional testing of the brake system flow digital data and / or electrical currents via an electrical connection, not shown, between the two vehicles 2 and 3 of the truck train 1, when this connection is closed and the trailer 3 is coupled to the towing vehicle 2. The recognition unit 8 interprets this as the coupled state.

The control unit 7 is further connected to a braking system electronics 9 of the brake system of the truck train 1. If the back room monitoring system 5 is active, ie in the uncoupled state not shown here, an intervention in the control of the brake system can be initiated and carried out by means of the control unit 7, which slows down the movement of the vehicle combination 1 in a rear maneuvering, if necessary. The rear-space monitoring system 5 can additionally be activated or deactivated manually by means of a switch 10 that can be actuated by an operator. This gives the driver regardless of the automatic activation or deactivation of the back room monitoring system 5, the possibility of temporarily suppress control intervention in the powertrain and / or brake control and / or warning signals, if he does not want.

In the method for controlling the back-room monitoring system 5, the recognition unit 8 recognizes the coupled state shown in the figure and supplies a corresponding signal or corresponding information to the control unit 7. The control unit 7 then automatically deactivates the rear-room monitoring system 5, so that the driver is not irritated by misleading displays, information or braking due to the viewing area of the sensor system of the rear-space monitoring system 5 determined by the trailer 3. The driver does not have to switch off the rear-room monitoring system 5 manually himself and is not disturbed during a driving maneuver and thereby relieved.

Claims

claims

A method for controlling a rear space monitoring system (5) of a vehicle combination (1) consisting of a self-propelled or non-self-propelled towing vehicle (2) and a self-propelled or non-self-propelled towed vehicle (3), wherein the towed vehicle (3) to the towing vehicle (2) is engageable with, and wherein the rear space monitoring system (5) is arranged on the towing vehicle (2), characterized in that the rear space monitoring system (5) is normally active and automatically upon detection that a towed vehicle is coupled is deactivated, or is normally inactive, and is automatically activated upon detection of the disconnected state or upon detection of an approaching object.

2. The method according to claim 1, characterized in that the coupling state of the vehicle combination (1) based on an information exchange of data and / or signals between the vehicles (2, 3) of the vehicle combination (1) is detected.

3. The method according to claim 1 or 2, characterized in that the coupling state of the vehicle combination (1) based on an electric current consumption at a producible in a coupling process electrical connection between the two vehicles (2, 3) of the vehicle combination (1) is detected.

4. The method according to any one of claims 1 to 3, characterized in that the coupling state of the vehicle combination (1) on the basis of a function tion or conductivity test of an electrical signal or control connection between the two vehicles (2, 3) of the vehicle combination (1) is detected.

5. A device for controlling a rear space monitoring system (5) of a vehicle combination (1) consisting of a self-propelled or non-self-propelled towing vehicle (2) and a self-propelled or non-self-propelled drawn vehicle (3), wherein the towed vehicle (3) to the towing vehicle (2) can be coupled, and in which the rear space monitoring system (5) on the towing vehicle (2) is arranged, characterized in that there are detection means (8) by means of which a coupling state of the vehicle combination (1) can be seen, and control means ( 7) are present, by means of which the back space monitoring system (5) is automatically activated or deactivated depending on the coupling state.

6. The device according to claim 5, characterized in that the coupling state by means of electronics (9) for an existing vehicle system of the towed vehicle (3) detectable and the rear space monitoring system (5) is signaled.

7. The device according to claim 6, characterized in that the dome state by means of an electronics (9) for a lighting system or a brake system detectable and the rear space monitoring system (5) is signaled.

8. Device according to one of claims 5 to 7, characterized in that a control means (7) for activating or deactivating the rear space monitoring system (5) is integrated into the electronics (9) for an existing vehicle system.

9. Device according to one of claims 5 to 8, characterized in that the rear space monitoring system (5) in addition to a manually operable by an operator switch (10) is activated or deactivated.

10. Control device for carrying out a method according to one or more of claims 1 to 4.