DE102017002583A1 - Device for detecting damage to a vehicle and method for operating a vehicle - Google Patents

Abstract

The invention relates to a device for detecting damage to a vehicle (1), which has a vehicle structure (1.4) and a HV component (2) in a deformation area. According to the invention, a distance measuring device is provided, which comprises a transmitter (3), a receiver (4) and a control unit (5), by means of which a distance and / or the change of a distance between the vehicle structure (1.4) can be detected to detect an unwanted deformation. and the HV component (2) or a distance and / or the change of a distance within the HV component (2) can be determined. The invention also relates to a method for operating a vehicle (1). According to the invention, a device according to the invention is used.

Description

The invention relates to a device for detecting damage to a vehicle and to a method for operating a vehicle.

In the prior art devices for detecting damage to a vehicle and methods for operating such vehicles are known.

Vehicles equipped with an HV battery have electrical wiring systems and optionally electrified vehicle drive trains. Such vehicles are operated with voltages of at least 60 V DC or 30 V AC.

In the case of the vehicles mentioned, it is of particular importance to ensure protection against an electric shock at all times, in particular also during or after an accident. For this purpose, in the prior art, housings of HV components are protected against contact. In the event of an accident and / or minor damage, there is a risk that a housing of a HV component, in particular if it is arranged in a crash-prone region of the vehicle, for example in an HV hedging zone 1 or in a HV hedging zone 2, mechanically deformed or damaged. As a result, live parts can be accessed from the outside, resulting in a risk of injury.

Out DE 10 2012 215 848 A1 For example, a vehicle with a high-voltage storage device is known, which is arranged in a housing which has a floor with a sandwich structure.

The invention is based on the object to provide an improved device for detecting damage to a vehicle. The invention is also based on the object to provide an improved method for operating a vehicle.

The object is achieved concerning the device according to the invention by the feature combination specified in claim 1. With regard to the method, the object is achieved according to the invention by the feature combination specified in claim 3.

Advantageous embodiments of the invention are the subject of the dependent claims.

A device is intended for damage detection for a vehicle which has a vehicle structure and a HV component in a deformation area. According to the invention, a distance measuring device is provided which comprises a transmitter, a receiver and a control unit. By means of transmitter, receiver and control unit, a distance and / or the change of a distance between the vehicle structure and the HV component or a distance and / or the change of a distance within the HV component can be determined for detecting an unwanted deformation.

A method is intended for operating a vehicle. According to the invention, a device according to the invention is used, wherein a distance and / or the change of a distance between the vehicle structure and the HV component or a distance and / or the change of a distance within the HV component is detected for detecting a deformation and at and at Falling below a defined threshold of the distance over a communication path to a higher level security system, a signal is delivered. In this signaling, a warning is issued as a system reaction and / or initiated an automatic discharge of the HV component and / or there is an automatic shutdown of the HV component. When the vehicle is put into operation, the detection of the deformation preferably takes place before an intended activation of the HV component, in particular of an HV battery, wherein the activation of the HV component is omitted upon detection.

The inventions have a number of advantages. In the event of an accident and / or minor damage, there is the possibility that an HV component, in particular if it is arranged in a crash-prone region of the vehicle, for example in an HV hedging zone 1 or in an HV hedging zone 2, is mechanically deformed or damaged becomes. The inventions make it possible that an activation of the HV component upon detection of a deformation is omitted in a planned commissioning of the vehicle. As a result, no live parts can be accessed from the outside, whereby a risk of injury is reduced. If a detection of a deformation takes place during vehicle operation, a higher-level safety system reacts accordingly. In particular, as a system reaction issued a warning and / or an automatic discharge of the HV component can be initiated and / or there is an automatic shutdown of the HV component, in particular the HV battery. This reduces the risk of fire and / or injury.

According to the invention, this also ensures the case that the HV component has been displaced by a mechanical force in the vehicle, whereby connecting cables and connectors could have been damaged. It is particularly advantageous that in the event of a possibly uncritical load of the vehicle, For example, when driving over a curb with increased speed, an unwanted reaction of the safety system is omitted. Nevertheless, the inventions make it possible to detect small-area damage to the HV component. It is also particularly advantageous that by means of the detection of the deformation damage detection is also detectable if the damage occurred while the vehicle was inactive, for example, if it was damaged while parked.

This is a detection of mechanical damage of a HV component due to mechanical force by a minor damage to the vehicle in a simple manner possible.

Unlike in the prior art with safety devices such as HV interlock, insulation monitor or the like, a protection against electric shock can be ensured according to the invention even if the HV component is no longer intact.

Also, detection of a hazardous condition is improved over the use of crash and rollover sensors because crash and rollover sensors do not necessarily detect accidents that can cause damage to HV components. In particular, according to the invention, damage is recognizable which arises due to the driving over of objects with HV components installed in the underbody. Damage caused by parking bumps with deformation of the vehicle and HV components installed in it is also recognizable.

In accordance with the invention HV components must be designed with less constructive effort than in the prior art, where they must withstand high mechanical loads without deformation.

The inventions also make it possible to install HV components in deformation-endangered areas of the vehicle, which can not be used for HV components in the prior art. As a result, the use of space in crash-prone positions of the vehicle is also possible for HV components.

Embodiments of the invention are explained in more detail below with reference to drawings.

Showing:

1 a vehicle with HV hedging zones according to the prior art,

2 a schematic representation of a velocity diagram according to the prior art,

3 a schematic representation of a vehicle with a HV component,

4 a first embodiment of a device according to the invention,

5 a second embodiment of a device according to the invention and

6 A third embodiment of a device according to the invention.

Corresponding parts are provided in all figures with the same reference numerals.

1 shows a schematic plan view of a vehicle 1 in the prior art, for which a first HV hedging zone 1.1 , a second HV hedging zone 1.2 and a third HV hedging zone 1.3 are shown. The three HV hedging zones 1.1 . 1.2 and 1.3 are from deformations in real accidents on the vehicle 1 Derived and determined from a specific vehicle type. The three HV hedging zones 1.1 . 1.2 and 1.3 are vehicle deformation areas that have to be considered for special requirements of HV components for the vehicle type.

The first HV hedging zone 1.1 is a deformation area for vehicle damage, whose detection does not trigger an occupant protection system such as airbag or belt tensioner. Damage whose detection does not trigger an occupant protection system such as an airbag or belt tensioner is also referred to as minor damage.

The second HV hedging zone 1.2 is a range of deformation in light and medium frontal or rear collisions that detect an occupant protection system such as an airbag in a Level 1 or pre-tensioner. In case of damage, the second HV hedging zone 1.2 In general, a reversible shutdown of an HV component, in particular a reversible complete HV shutdown, is carried out.

The third HV hedging zone 1.3 is a deformation area that is relevant for severe collisions. In case of damage, the third HV hedging zone 1.3 usually an irreversible disconnection of a HV component, in particular an irreversible complete HV shutdown occurs.

In EV vehicles and plug-in vehicles according to the prior art, a crash detection sensor is provided in the on-board charger. This crash detection sensor is used to detect a rear-end collision with another vehicle during the charging process, ie during the standstill of the vehicle 1 , However, this crash detection sensor is unable to discriminate between shocks, such as when riding over bumps, and a slight impact while driving. Thus, this sensor is not suitable for detecting a minor damage arising during the journey.

HV components in the prior art according to a first alternative, neither in the first HV hedging zone 1.1 still in the second HV hedging zone 1.2 to be ordered. According to a second alternative, HV components are indeed within the first HV hedging zone 1.1 and / or within the second HV hedging zone 1.2 arranged, but then particularly high demands on the strength of the housing of the relevant HV component must be complied with, so that in a small damage causing a minor damage even before detection by the airbag control unit, the requirement IPXXB remains satisfied. This also applies to cables and connectors.

2 shows a schematic representation of a velocity diagram according to the prior art. An accident A can happen at a certain speed, which can cause damage. Up to a medium speed, for example up to 50 km / h, generally only minor damage B occurs. In a first speed range with low speeds up to about 15 km / h, unrecognized damage X ₁ can occur. In a speed range with average speeds up to about 50 km / h damage can occur, with a possible HV shutdown X ₂ occurs. In a speed range at high speeds, for example at 80 km / h damage may occur, with a safe, irreversible HV shutdown X ₃ takes place.

3 shows a vehicle 1 with a HV component 2 , in particular a HV battery, in the vehicle 1 Rear right is installed, at least partially in the first HV hedging zone 1.1 , The HV component 2 is at a minor side damage P1, the entry direction is shown by an arrow at risk. In a rear bagatelle damage P2, the entry direction is also shown by an arrow, the HV component 2 not endangered.

4 shows a first embodiment of the device according to the invention for damage detection for a not fully illustrated here vehicle 1 with a vehicle structure 1.4 and a HV component spaced therefrom 2 , The area between the vehicle structure 1.4 and the HV component 2 is a deformation area. At the HV component 2 are a transmitter 3 and a receiver 4 arranged, which are part of a distance measuring device. By means of the transmitter 3 , Recipient 4 and one not shown here, but in 6 shown control unit 5 is the detection of an unwanted deformation of the distance and / or the change of the distance between the vehicle structure 1.4 and the HV component 2 determined. In particular, when a defined threshold value of the distance falls below an existing communication path, for example a CAN bus, a signal can be supplied to a higher-level safety system. Subsequently, a corresponding system reaction can take place by the higher-level security system. For example, a warning may be issued and / or a discharge initiated and / or a shutdown may be prompted and / or a workshop visit recommended for testing. In case of failure of the measuring system is from damage due to damage, which may also be a minor damage, go out and also initiate a suitable system response.

Will the vehicle 1 damaged in the inactive state, for example, when parking, can when commissioning the vehicle 1 the detection of the change in distance and thus the detection of damage before a planned activation of the HV battery done. If a damage is detected, activation of the HV battery is then discontinued. If a damage has been detected, the safety system may alternatively or additionally initiate another reaction.

In the event of damage, the evaluation unit signals the damage via existing communication paths, for example a CAN bus, to a higher-level security system. The security system can then initiate a corresponding system reaction, for example a warning and / or a discharge and / or a shutdown. A load on the vehicle 1 containing the HV component 2 not damaged, for example, a driving over a curb, does not change the distance and causes no error message.

5 shows a second embodiment of the device according to the invention for damage detection for a not fully illustrated here vehicle 1 with a vehicle structure 1.4 and a HV component spaced therefrom 2 , The area between the vehicle structure 1.4 and the HV component 2 is also one Deformation region. Unlike in 4 shown here are the transmitter 3 and the receiver 4 which are the part of a distance measuring device, not on the HV component 2 but on the vehicle structure 1.4 arranged. The mode of action of the device shown here corresponds to the mode of action of 4 shown device.

6 shows a third embodiment of the device according to the invention for damage detection for a not fully illustrated here vehicle 1 with a HV component 2 that have an outer contour 2.1 , For example, a housing having. The outer contour 2.1 is optional with a weakened area 2.2 which is located at a point where a force in a minor damage is relatively likely. Within the HV component 2 are the transmitter 3 and the receiver 4 arranged, the detection of unwanted deformation of the outer contour 2.1 and thus the HV component 2 serves. A control unit 5 , which comprises the distance measuring device and evaluation unit as a control board, is shown schematically.

The weakened area 2.2 serves to improve the evaluation possibility of the internal distance measurement in case of damage.

Upon detection of a deformation, the operation and advantages of this device correspond to the operation and advantages described in the previous figures.

LIST OF REFERENCE NUMBERS

1

vehicle

1.1

first HV hedging zone

1.2

second HV hedging zone

1.3

third HV hedging zone

1.4

vehicle structure

2

HV component

2.1

outer contour

2.2

weakened area

3

transmitter

4

receiver

5

control unit

A

accident

B

minor damage

X ₁

unrecognized damage

X ₂

possible HV shutdown

X ₃

safe, irreversible HV shutdown

P1

lateral minor damage

P2

rear minor damage

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102012215848 A1 [0005]

Claims (5)

Device for detecting damage to a vehicle ( 1 ), which in a deformation area a vehicle structure ( 1.4 ) and a HV component ( 2 ), characterized by a distance measuring device which a transmitter ( 3 ), a receiver ( 4 ) and a control unit ( 5 ), by means of which, for the detection of an unwanted deformation, a distance and / or the change of a distance between the vehicle structure ( 1.4 ) and the HV component ( 2 ) or a distance and / or the change of a distance within the HV component ( 2 ) can be determined. Device according to claim 1, characterized in that the transmitter ( 3 ) and the recipient ( 4 ) in or on the HV component ( 2 ) or on the vehicle structure ( 1.4 ) are arranged. Method for operating a vehicle ( 1 ), characterized in that a device according to one of the preceding claims is used, wherein for detection of a deformation, a distance and / or the change of a distance between the vehicle structure ( 1.4 ) and the HV component ( 2 ) or a distance and / or the change of a distance within the HV component ( 2 ) is detected and falls below a defined threshold of the distance via a communication to a higher level security system, a signal is supplied and that in this signaling system response a warning is issued and / or an automatic discharge of the HV component is initiated and / or an automatic shutdown the HV component takes place. A method according to claim 3, characterized in that at a commissioning of the vehicle ( 1 ) the detection of the deformation before an intended activation of the HV component ( 2 ) is carried out, wherein the detection is omitted in the detection. A method according to claim 3 or 4, characterized in that the system reaction takes place in dependence on the size of a detected deformation.

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