DE202020005506U1 - Rotatable cover for vehicle sensor modules - Google Patents

Abstract

Cover (1) for a vehicle sensor module (2) for protection against environmental influences, the vehicle sensor module (2) comprising at least the cover (1), an optical or electromagnetic sensor (3) and a module housing (5), the cover (1) is made of a polymer material and has an area (4) through which the beam path of the sensor (3) passes, wherein the cover (1) has a rotationally symmetrical shape and is designed such that it is in the vehicle sensor module (2) relative to the The sensor (3) and / or the module housing (5) can be rotatably mounted.

Description

The invention relates to a cover for vehicle sensor modules for protection against environmental influences.

Today's and especially future upper and middle class vehicles are equipped with a large number of driver assistance systems. These include, for example, optical cameras, mid-range and long-range radar systems, ultrasonic sensors and light detection and ranging (LiDaR). These systems can also be summarized under the term ADAS (Advanced Driver Assist Systems). Several of these systems are already installed on some vehicles, and it can be assumed that the number will continue to increase. These vehicle sensor modules are usually arranged as a separate assembly at exposed points on the vehicle body. They generally have their own module housing, which comprises at least one cover that covers the sensor and the electronics belonging to it to the outside.

Sensor-based optical driver assistance systems (ADAS) are usually based on optical or electromagnetic sensors that scan the vehicle environment by emitting and / or capturing photons or electromagnetic waves and thus sending corresponding information to the vehicle electronics. Most sensors work within a certain field of view (FOV). This field of view is mostly conical and oriented in one direction relative to the vehicle. The ADAS systems must be protected from environmental influences and a large number of mechanical and climatic loads while driving. It is therefore essential that the corresponding sensors are provided with a protective cover, otherwise the systems cannot work properly. The covers are subject to special requirements with regard to the permeability of electromagnetic waves. A cover for a black / white or RGB camera must have the highest possible transmission in the visual light spectrum of -380 - 780nm, whereas a LiDaR cover should have the highest possible transmission in the near infrared range (905nm for most LiDaRs).

Since the conical field of view in the vicinity of the sensor is still relatively small, these covers can also be made correspondingly small, for example as a small cylinder section. This is desirable for design reasons, since the sensor modules should be integrated into the vehicle as inconspicuously as possible. Usually the covers are firmly glued or otherwise firmly attached. The cover together with the vehicle sensor module is therefore permanently exposed to environmental stresses for the life of the vehicle, which over time leads to a deterioration in the optical properties and, under certain circumstances, a reduced functionality of the sensor.

Some aspects of the temporary or permanent deterioration in the optical properties and the associated reduced functionality of the sensor include, for example, icing, condensation, snow, raindrops, scratches, stone chips or dirt particles.

In the recently published U.S. patent application specification US 2018/0284268 A1 with regard to protecting the optical properties of sensor modules, it is proposed to provide an ultrasound source with physical action on the cover, which is intended to detach dirt particles or ice particles from the cover by means of ultrasound. With such an ultrasonic device, however, only a small part of the impairments that usually occur can be addressed. The sensor device of the suggests a very similar approach US 2018/0370500 A1 in front. Here, in addition to a vibration device with which the sensor module can be set in vibration, a wiper device attached to the outside of the module is also described, over which the module housing can be moved by rotating. However, these solutions are technically complex and an impairment of the sensitive electronics of the sensor module over the entire service life is to be feared due to the ultrasound or vibration exposure, at least with regard to the longevity of soldering points and other mechanically sensitive parts, which overall the expectation with regard to the overall service life of the Vehicle sensor module reduced again elsewhere. With regard to the aerodynamics of a vehicle with an attached sensor module, solutions with complex external add-on parts such as wiping devices are disruptive.

It is therefore the object of the present invention to provide a device which offers reliable protection of the sensor and the associated electronics and at the same time can improve or eliminate both temporary and permanent impairments of the field of view of the sensor. The technical design of the device should be as simple as possible in order to have a long service life, and it should offer the greatest possible freedom of design with regard to its external shape in order to preserve the freedom of design of the automobile manufacturer for the various installation situations. Furthermore, the device should not require a great deal of installation space.

According to the invention, the object is achieved in a first aspect by a cover for a vehicle sensor module for protection against environmental influences, the vehicle sensor module comprising at least the cover, an optical or electromagnetic sensor and a module housing. The cover is made of a polymer material and has an area through which the beam path of the sensor passes. The cover has a rotationally symmetrical shape and is designed according to the invention in such a way that it can be attached in the vehicle sensor module so as to be rotatably mounted relative to the sensor and / or the module housing.

A vehicle sensor module within the meaning of the present invention comprises in particular those sensors that are used in a vehicle as ADAS (Advanced Driver Assist Systems). These include, for example, optical cameras, mid-range and long-range radar systems, ultrasonic sensors and light detection and ranging (LiDaR) sensors.

The cover according to the invention is made of a polymer material. Suitable polymer materials are generally known to the person skilled in the art. In particular, transparent and also IR-transparent polycarbonates are used for the purpose of the present invention. Polycarbonate types are preferably used which are also used for light guide, LED or headlight applications. They should have a good longevity and lasting transparency even with very long exposure to the environment and the associated UV exposure and should also have good impact strength against mechanical impairments.

In the context of the present invention, the term rotationally symmetrical shape includes, in particular, conical, cylindrical and elliptical shapes and combinations thereof.

In addition to circumferentially closed configurations, the rotationally symmetrical shape also includes configurations in which the cover does not form a full circle in the sectional view from above, but only sections of a circle.

In an exemplary embodiment, the cover can be shaped like a cup. The actual bottom of the cup can be used as the upper end of the cover, preferably as a mounting surface for rotatable attachment to the module housing.

According to the invention, the cover is fastened in the module housing of the vehicle sensor module in such a way that the cover has an area through which the beam path of the sensor passes. In other words, the cover covers a corresponding recess or a window in the module housing to the outside in order to ensure an unobstructed passage of rays for the electromagnetic rays of the sensor. The module housing can then be designed to be non-transparent and, for example, contain suitable fillers, in particular to protect the sensitive electronic components of the vehicle sensor module from UV radiation and also to offer very good mechanical protection. For example, the module housing can be made of a polymer material which, in addition to UV protection additives, also contains pigments such as carbon black and reinforcing fillers such as minerals, glass fibers, aramid fibers, cellulose fibers and the like.

According to the invention, the cover is also designed in such a way that it can be attached in the vehicle sensor module so as to be rotatable relative to the sensor and / or the module housing.

The term relative to the sensor and / or the module housing is understood in the context of the present invention in particular to mean that the sensor and / or the module housing are fixedly attached in or on the vehicle sensor module and are therefore not themselves rotatable. The cover can now be fastened directly or indirectly in or on the module housing in such a way that it can be rotated in the housing. In other words, the cover can in particular be rotated in such a way that, as a result of the rotation, a different partial area of the cover than the partial area before the rotation is positioned as a beam passage area in a viewing window recess of the module housing.

In the context of the invention, the rotation can be carried out either by hand or by a correspondingly provided drive.

With the cover according to the invention, premature damage to the surface of the cover located in the field of view of the sensor can be counteracted by rotating the cover a little in the event of any local damage or temporary impairments such as frost, raindrops or scratches, in order to avoid an undamaged or frost / to move the drop-free and scratch-free area into the field of view of the sensor.

The cover according to the invention offers reliable protection of the sensor and the associated electronics and at the same time can improve or eliminate both temporary and permanent impairments of the field of vision of the sensor. The technical design of the cover is advantageously simple in order to provide a good To have longevity. It offers great freedom of design in terms of its external shape in order to preserve the freedom of design of the automobile manufacturer for the various installation situations. Furthermore, the cover according to the invention does not require a great deal of additional installation space, so that it can also be easily inserted into the already existing configurations of sensor modules.

In a preferred embodiment of the invention, the cover can be attached rotatably relative to a stationary module housing.

In other words, it is a core idea of the invention in this embodiment to design the cover in such a way that it has devices that provide a rotatable mounting of the cover in a vehicle sensor module in such a way that the module housing of the vehicle sensor module is fixed, ie non-rotatable, and is can move the cover in or on the module housing relative to this.

For example, the module housing, as the outer cover of the sensor device, can be connected to the vehicle in a fixed, i.e. non-rotatable manner, and span a space for accommodating the sensor devices like a dome. One or more recess (es) or cutouts through which the beam path of the sensor runs can be provided in the stationary module housing. The recesses or cutouts can in particular be provided in the lateral areas of the module housing, in particular in the direction of travel of the vehicle and / or to the side of the direction of travel. To cover and seal the recess or the cutout of the module housing, a particularly disc-like cover according to the present invention is provided in such a way that it at least completely covers the recess or the cutout and in such a way that it can be rotated relative to the recess or the cutout.

For this purpose, the cover can be designed, for example, as a circular disk or as a disk in the form of a segment of a circle.

In one embodiment of the invention, the cover has a conical or cylindrical shape.

These shapes can be produced easily and in large numbers by means of injection molding. In addition, they offer low wind resistance and, in contrast to straight surfaces, are less sensitive to environmental influences.

In one embodiment of the invention, the cover at least completely covers a cutout for the area of the module housing.

In other words, the lateral extent of the cover is preferably dimensioned larger than the cutout in the module housing, which is provided for the area of the beam path of the sensor. As a result, a soiled or otherwise impaired section of the cover can be moved out of the area of the beam path of the sensor by rotating and a new, not soiled or otherwise impaired section of the cover can replace the previous section in the area of the beam path of the sensor. The cover can be rotatably attached to the outside of the module housing as well as inside. The cover is preferably designed in such a way that it can be rotatably attached to the inside of the module housing.

In this way, a mechanically very little complex solution of the aforementioned problem is specified, which provides neither a vibration of the module housing nor an application of ultrasound and thus does not adversely affect the service life of the sensitive sensor devices.

In a further embodiment of the invention, the cover additionally has a coating to increase scratch resistance, one or more bandpass filter coatings, an anti-reflection coating, a pigmented coating and / or heating devices.

The completely sprayed and possibly milled cover is preferably subsequently fed to a painting process in order to increase the mechanical and climatic resistance or to give the cover an optical functionality. The coating materials used are preferably UV or thermally curing lacquer systems, in particular UV curing acrylate systems or thermally curing polysiloxane systems, so-called hardcoats. These can consist of one or more layers and be applied either on the inside or outside or on both sides.

In order to increase the light transmission, anti-reflective layers (AR) can be applied on the inside or outside or on both sides. The AR layer must form the outermost surface facing the air. Such an AR layer can also be applied to the same after the hardcoat has been applied.

Furthermore, the application of a bandpass filter in at least the IR-transparent area is conceivable, which blocks or reduces interfering wavelengths above and below the wavelength of 905 nm, which is relevant for the LiDaR.

Pigmenting the aforementioned layers and / or applying a pigmented coating is also a preferred variant of the cover according to the invention.

Covers according to the invention can additionally also be equipped with a heating function (defrosting) in order to thaw any layers of dew, ice or snow and thus ensure perfect functioning of the sensors. For this purpose, thin heating wires can be embedded in the polycarbonate or conductive layers can be applied to one or both surfaces of the cover.

Antireflective coating, bandpass filter, pigment coating and heating wires can theoretically first be applied to a PC film, which is then later connected to the cover by means of film injection molding.

According to the invention, the object is achieved in a second aspect by a vehicle sensor module having a rotatable cover according to the first aspect of the invention described above.

In other words, a vehicle sensor module according to the invention comprises an optical or electromagnetic sensor, a module housing and a cover. The cover is made of a polymer material and has an area through which the beam path of the sensor passes. The cover has a rotationally symmetrical shape and is designed according to the invention in such a way that it can be attached in the vehicle sensor module so as to be rotatably mounted relative to the sensor and / or the module housing.

With regard to the named components of the vehicle sensor module, reference is made in full to the above description, in particular with regard to the various configurations in form, function and material of the sensors, the module housing and the cover.

For the purposes of the present invention, a vehicle sensor module includes in particular those sensors that are used in a vehicle as ADAS (Advanced Driver Assist Systems). These include, for example, optical cameras, mid-range and long-range radar systems, ultrasonic sensors and light detection and ranging (LiDaR) sensors.

The cover according to the invention is made of a polymer material. Suitable polymer materials are generally known to the person skilled in the art. In particular, transparent and also IR-transparent polycarbonates are used for the purpose of the present invention. Polycarbonate types are preferably used which are also used for light guide, LED or headlight applications. They should have a good longevity and lasting transparency even with very long exposure to the environment and the associated UV exposure and should also have good impact strength against mechanical impairments.

In the context of the present invention, the term rotationally symmetrical shape includes, in particular, conical, cylindrical and elliptical shapes and combinations thereof.

In addition to circumferentially closed configurations, the rotationally symmetrical shape also includes configurations in which the cover does not form a full circle in the sectional view from above, but only sections of a circle.

In an exemplary embodiment, the cover can be shaped like a cup. The actual bottom of the cup can be used as the upper end of the cover, preferably as a mounting surface for rotatable attachment to the module housing.

According to the invention, the cover is fastened in the module housing of the vehicle sensor module in such a way that the cover has an area through which the beam path of the sensor passes. In other words, the cover covers a corresponding recess or a window in the module housing to the outside in order to ensure an unobstructed passage of rays for the electromagnetic rays of the sensor. The module housing can then be designed to be non-transparent and, for example, contain suitable fillers, in particular to protect the sensitive electronic components of the vehicle sensor module from UV radiation and also to offer very good mechanical protection. For example, the module housing can be made of a polymer material which, in addition to UV protection additives, also contains pigments such as carbon black and reinforcing fillers such as minerals, glass fibers, aramid fibers, cellulose fibers and the like.

According to the invention, the cover is also designed in such a way that it can be attached in the vehicle sensor module so as to be rotatable relative to the sensor and / or the module housing.

The term relative to the sensor and / or the module housing is understood in the context of the present invention in particular to mean that the sensor and / or the module housing are fixedly attached in or on the vehicle sensor module and are therefore not themselves rotatable. The cover is now in or on the module housing directly or indirectly can be fastened so that it can be rotated in the housing. In other words, the cover can in particular be rotated in such a way that, as a result of the rotation, a different partial area of the cover than the partial area before the rotation is positioned as a beam passage area in a viewing window recess of the module housing.

In the context of the invention, the rotation can be carried out either by hand or by a correspondingly provided drive.

Advantageously, with the vehicle sensor module according to the invention, an improved sensor assembly can be made available which has the good functions and optical and mechanical properties of the previously known sensor modules and at the same time offers the possibility of a To counteract early damage to the surface of the cover in the field of vision of the sensor by rotating the cover a little in the event of any local damage or temporary impairments such as frost or raindrops in order to move an undamaged or frost-free and drip-free area into the field of vision of the sensor .

The cover according to the invention offers reliable protection for the sensor and the associated electronics in the vehicle sensor module and at the same time can improve or eliminate both temporary and permanent impairments of the field of vision of the sensor. The vehicle sensor module is advantageously simple in terms of its technical design, in particular without external add-on parts such as external wipers, in order to have a long service life. It offers great freedom of design with regard to its external shape in order to preserve the freedom of design of the automobile manufacturer for the various installation situations. Furthermore, the cover according to the invention does not require a great deal of additional installation space in the vehicle sensor module, so that it can be easily inserted into the already existing configurations of sensor modules. Even an electric drive for the rotatable cover and possibly a control unit for targeted activation and deactivation of the drive take up only a small amount of space.

In one embodiment of the invention, the cover is rotatably mounted in the vehicle sensor module so that it can be driven.

In particular, an electric drive can be provided that is connected to the vehicle electronics, for example.

In this way, a rotation of the cover can be automatically activated and carried out, for example, as required or at regular intervals, possibly when the vehicle is restarted. Such a drive by means of an electric motor does not take up much space and it is possible to use components that are common in vehicles.

In a further embodiment of the sensor module according to the invention, the vehicle sensor module has means for detecting surface defects of the area through which the beam path of the sensor passes.

Such means for detecting a surface defect can be, for example, rain sensors or optical detection systems such as cameras, or the defect is detected via the sensor itself, for example if no evaluable signal can be received at a certain position of the rotatable cover.

In this way, surface defects, which can be temporary as well as permanent and are already described above, can be automatically recognized. For example, it can be provided that such a surface defect is displayed to the driver.

In a further embodiment of the invention, the vehicle sensor module can have a drive, which can be activated by a control unit, for rotating the cover.

In particular in the case of an automatically detected surface defect, for example, software-controlled rotation of the cover relative to the module housing and / or sensor can be carried out in such a way that a portion of the cover that is not affected by defects is arranged in the field of view of the sensor, so that the sensor functions properly is restored.

In the context of a further embodiment of the vehicle sensor module according to the invention, a surface defect of the area through which the beam path of the sensor passes can be mechanical damage or an optical impairment.

As described above, the term surface defect encompasses both temporary and permanent defects. Such defects can be traced back to mechanical damage, such as scratches, stone chips or cracks. But they can also be purely visual impairments such as raindrops, dust particles, leaves, insects or icing.

The same applies to all surface defects that they can be removed from the field of view of the sensor by a corresponding rotation of the cover in or on the module housing and in this way the service life of the vehicle module can be extended many times over.

In a further embodiment of the vehicle sensor module according to the invention, the vehicle sensor module has a cleaning device for cleaning, as required, the area through which the beam path of the sensor passes.

Wiper blades, powered wiper systems and / or spray nozzles can be attached to the vehicle sensor module of the present invention as cleaning devices.

If necessary, that is, if the field of vision of the sensor is temporarily impaired, or also on a regular basis, for example every time the vehicle is restarted, the field of vision of the cover can be cleaned by activating the cleaning device. In this way, the functionality of the sensor is maintained even in adverse weather and when dirty.

In a further embodiment of the invention, the cleaning device has no moving, in particular no driven, parts. The cleaning device is preferably attached inside the module housing and is not attached to the outside of the module housing.

In this way, a long service life and permanent functionality of the cleaning device is achieved. An impairment of the aerodynamic properties of the sensor unit as such and thus also of the vehicle is avoided by installing the cleaning unit on the inside.

Drops of water on the surface of the cover in the field of vision of the sensor in the event of rain or condensation or soiling can severely impair the functionality of the sensor module. To counter this problem, one, two or more static wiper blades can preferably be provided as the cleaning device. The wiper blades are expediently arranged outside the field of vision of the sensors, for example in the transition or edge area between the cover and the module housing. The static wiper blades can be arranged obliquely relative to the axis of rotation of the cover, so that any water or dirt is quickly drained off upwards or downwards.

A movable wiper system could also be provided. In contrast to a static wiper blade, however, such a movable wiper system is expensive, technically complex, more prone to errors and it is difficult to implement due to the relatively strong curvature of the cover. A cover according to the invention, on the other hand, can preferably be wiped more easily by simply rotating it against static wiper blades.

In a further embodiment of the vehicle sensor module according to the invention, the vehicle sensor module has a device for heating the cover.

The heating device can be provided as a device with thin heating wires integrated into a coating of the cover or as a statically mounted heating element in the interior of the vehicle sensor module. A static heating element, for example a heating coil, is preferably provided.

This eliminates the need for a heater made of heating wires or conductive structures or layers within or on the cover that is integrated into the cover, which can deteriorate the appearance and are generally very complex. Instead, an icy or misted area can be rotated out of the field of view. The time required for defrosting is therefore no longer necessary. Optionally, a simple heating element can be introduced into the interior of the sensor module, which, for example, convectively heats the steamed area turned inside. A simple heating element or IR radiator is sufficient for this. Such a static heating element is technically more robust and requires only a small amount of space.

In a third aspect, the present invention comprises a vehicle which has a vehicle sensor module as described above in various configurations as according to the invention, the vehicle sensor module forming part of an add-on part of the vehicle or a complete add-on part of the vehicle.

The vehicle sensor module according to the invention can have very different shapes and designs and can even be shaped in such a way that it is integrated into or replaces existing add-on parts. Such add-on parts of a vehicle include, for example, front panels, spoilers, radiator grilles, radiator panels, A-, B-, C-pillar panels, exterior mirror covers, roof panels, rear panels, windows, in particular windshields, and bumpers.

Within the scope of the present invention, all the embodiments that are mentioned for individual features can also be freely combined with one another, provided they are not contradictory.

• 1 den schematischen Aufbau eines erfindungsgemäßen Fahrzeugsensormoduls in einer stark vereinfachten seitlichen Schnittansicht,
• 2 eine schematische Darstellung einer weiteren Ausgestaltung eines erfindungsgemäßen Fahrzeugsensormoduls in seitlicher Schnittansicht,
• 3 eine schematische Darstellung einer weiteren Ausgestaltung eines erfindungsgemäßen Fahrzeugsensormoduls in seitlicher Schnittansicht,
• 4 eine schematische Darstellung einer weiteren Ausgestaltung eines erfindungsgemäßen Fahrzeugsensormoduls in seitlicher Schnittansicht, und
• 5 eine schematische Darstellung eines Ausführungsbeispiels für ein erfindungsgemäßes Fahrzeugsensormodul mit einer Abdeckung gemäß der vorliegenden Erfindung in einer perspektivischen Ansicht.

The invention is explained in more detail below on the basis of exemplary embodiments, reference being made to the accompanying figures. It shows in a simplified, not to scale representation:

• 1 the schematic structure of a vehicle sensor module according to the invention in a greatly simplified lateral sectional view,
• 2 a schematic representation of a further embodiment of a vehicle sensor module according to the invention in a side sectional view,
• 3 a schematic representation of a further embodiment of a vehicle sensor module according to the invention in a side sectional view,
• 4th a schematic representation of a further embodiment of a vehicle sensor module according to the invention in a side sectional view, and
• 5 a schematic representation of an exemplary embodiment for a vehicle sensor module according to the invention with a cover according to the present invention in a perspective view.

In 1 is a vehicle sensor module according to the invention 2 shown. The vehicle sensor module includes a fixed behind a cover 1 arranged sensor 3 as well as a module housing 5 . The sensor 3 can be an optical sensor such as a camera. It is preferably a radar sensor, in particular a LiDaR sensor. There can also be two or more sensors 3 in the vehicle sensor module 2 be arranged, with a sensor 3 a transmitter, a receiver, a light source, a scanner, a movable laser control, in particular a mirror system or a micromirror. The module housing 5 is preferably designed to be stationary and forms a circumferential protection for the sensor that is closed around an interior space 3 and has a recess or a cutout which is at least as large as the beam path of the sensor. This window recess of the module housing 5 A cylindrically shaped cover is at least completely covering 1 in the module housing 5 arranged, which describes a complete circle in the sectional view. A sub-area 4th the cover is therefore always in the viewing window of the module housing 5 arranged through which the beam path of the sensor 3 passes through. The cover 1 is relative to the module housing 5 rotatable in both directions, which is indicated by corresponding arrows in the figure. In the transition area between the module housing 5 and cover 1 Sealing means can be provided to prevent moisture or dirt from entering the interior of the sensor housing 5 to prevent.

2 shows a schematic structure of a LiDaR sensor module 2 with a cylindrical cover according to the invention 1 . As in 1 is a sensor 3 firmly behind the cover 1 in the module housing 5 arranged so that the beam path is that of the sensor 3 emitted photons cover the cover 1 within the field of view 4th of the sensor 3 can happen. The cover 1 according to the invention is not fixed to the housing 5 connected, but rotatably mounted along an axis of rotation.

A cylindrical shape of the cover 1 can be rather difficult to remove from the injection molding tool after the injection molding process. Therefore, a draft angle of at least 1 ° can be provided, which is the case on the finished injection-molded part of the cover 1 results in a conical shape. Special embodiments of the cover 1 can also have significantly higher slopes or angles, for example if the sensor module 2 with the cover 1 be installed obliquely or inclined downwards on a vehicle, the beam path for the sensor 3 relevant photons or electromagnetic waves, however, in the direction of travel and perpendicular to the cover 1 should run. In the in the 2 The embodiment shown is also an additional heating element 6th inside the case 5 brought in. In this way, an inner sub-area of the cover 1 heated, which is then in the viewing window area 4th is rotated. This can prevent icing in the viewing window area 4th avoided or repealed.

In 3 schematically shows a similar structure of the vehicle sensor module according to the invention 2 like in the 1 and 2 shown. Here, too, in the embodiment shown, there are in the transition area or edge area between the fixedly mounted module housing 5 and the rotatably mounted cover 1 Fixed wiper blades in the interior of the module housing 7th arranged. By turning the cover 1 becomes this on the wiper blades 7th passed and thus cleaned.

In 4th is a further variant of the schematic structure from 1 and 2 shown. In the variant shown here is the cover 1 not formed as a full cylinder, but only as a partial cylinder. This variant is particularly suitable for applications in which only a very limited installation space is available. The essential features of the invention are also retained here, only the area of the cover available as a “reserve” is smaller in this variant.

5 shows an application example of a sensor module according to the invention 2 with inventive cover 1 built into a windshield 8th . Alternatively or additionally, the sensor module 2 can also be installed in devices, especially in military devices, e.g. a helicopter for geo-surveying.

List of reference symbols

(1)

cover

(2)

Vehicle sensor module

(3)

sensor

(4)

Active area

(5)

Module housing

(6)

Heating device

(7)

Cleaning device

(8th)

Attachment

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was 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.

Patent literature cited

• US 2018/0284268 A1 [0006]
• US 2018/0370500 A1 [0006]

Claims (15)

Cover (1) for a vehicle sensor module (2) for protection against environmental influences, the vehicle sensor module (2) comprising at least the cover (1), an optical or electromagnetic sensor (3) and a module housing (5), the cover (1) is made of a polymer material and has an area (4) through which the beam path of the sensor (3) passes, wherein the cover (1) has a rotationally symmetrical shape and is designed such that it is in the vehicle sensor module (2) relative to the The sensor (3) and / or the module housing (5) can be rotatably mounted. Cover after Claim 1 , characterized in that the cover (1) can be attached rotatably relative to a stationary module housing (5). Cover after Claim 1 or 2 , characterized in that the cover (1) is dimensioned such that it at least completely covers a cutout for the area (4) of the module housing (5). Cover according to one of the preceding claims, characterized in that the cover (1) additionally has a coating to increase scratch resistance, one or more bandpass filter coatings, an anti-reflective coating, a pigmented coating and / or heating devices. Vehicle sensor module (2) having a cover (1) according to one of the preceding claims. Vehicle sensor module (2) according to Claim 5 , characterized in that the cover (1) is mounted rotatably in the vehicle sensor module (2) so that it can be driven. Vehicle sensor module (2) according to Claim 6 , characterized in that the vehicle sensor module (2) has means for detecting surface defects of the area (4) of the cover (1). Vehicle sensor module (2) according to Claim 6 or 7th , characterized in that the vehicle sensor module (2) has a drive which can be activated by a control unit for rotating the cover (1). Vehicle module (2) according to one of the Claims 7 until 8th , characterized in that the cover (1) is automatically rotated when a surface defect is detected. Vehicle sensor module (2) according to one of the Claims 7 until 9 , characterized in that a surface defect of the area (4) is mechanical damage, material adhesion or an optical impairment. Vehicle sensor module (2) according to one of the Claims 5 until 10 , characterized in that the vehicle sensor module (2) has a cleaning device (7) for cleaning the area (4) as required. Vehicle sensor module (2) according to Claim 11 , characterized in that the cleaning device (7) has no moving, in particular no driven, parts. Vehicle sensor module (2) according to one of the Claims 5 until 12th , characterized in that the vehicle sensor module (2) has a device (6) for heating the cover. Vehicle sensor module (2) according to one of the Claims 5 until 13th , characterized in that a camera, a radar sensor or a LiDaR sensor or a combination of these is provided as the sensor (3). Vehicle having a vehicle sensor module (2) according to one of the Claims 5 until 14th , characterized in that the vehicle sensor module (2) forms part of an attachment (8) of the vehicle or a complete attachment (8) of the vehicle.

Images