Patent Description:
Vehicles, in particular commercial vehicles --like the one described in <CIT> or <CIT>-- have an increasingly high demand of sensoring functions for monitoring environmental conditions of the vehicle. The sensors as such are necessarily exposed to the ambient environment for monitoring purpose and thus, necessarily, are also exposed to impacts from the environment of various kind. These can be detrimental to the sensor functioning as such. Even in normal use, the sensor is subject to deposition of debris like particles of dirt or particles resolved from liquid solutions, which are dried or baked on a sensor surface depending on the surrounding and kind of the environmental exposure of the vehicle.

<CIT> discloses a housing-integrated sensor- and cleaning-device according to the preamble of claim <NUM>.

Further <CIT> of the applicant relates to a device for arranging environment sensors in a vehicle, by which objects in the vehicle environment can be detected, wherein at least one first and a second environment sensor are disposed in a common housing. The common housing relates to a housing as mentioned in the introduction. The environment sensors are disposed such that a first centerline of the detection range of the first environment sensor points in a different direction than a second centerline of the detection range of the second environment sensor. In a sense, thereby two cooperating sensors of the same kind are adapted to increase a monitoring area of detection without increasing mounting and cabling effort for the two cooperating sensors.

On the other hand, vehicles increasingly take advantage from automated driver assisted systems - these are known as ADAS (Automated Driver Assistance Systems) for automated, autonomous or semi-autonomous driving (AD). The requirements thereof demand for sensors of different kind and purpose and safe availability thereof during function; sensors of different kind are not only related to a visual monitoring by a camera but also include sensors of a RADAR, LiDAR or a camera system or the like. Even for such complex sensor systems the need of a high level of sensoring finesse remains and thus the demand for keeping a sensor clean, in particular the sensor surface as window to the environment is to be kept as clean and as steadily clean as possible.

Whereas a complete protection of the sensor as such is for the above reasons neither possible nor advised the strategy of regular and automatic cleaning of a sensor surface at least has become available in automated servicing of the sensors for upholding a correct and up to demand sensor functioning.

In view of the increasing number of sensors, it has become problematic however that the periphery of cleaning-devices has at least partly become unshaped or bulk and the sensors as such are exposed to the environment unprotected. It is a demand to capture sensoring in an appropriate way while still the sensor is available for automated cleaning.

This is where the invention comes in the object thereof is to propose a useful sensor housing for being assembled to a vehicle wherein the sensor housing is further adapted to house at least one sensor for monitoring environmental conditions of the vehicle. A further object is to provide a housing-integrated sensor- and cleaning-device and vehicle of improved kind wherein the sensor housing also is adapted such that a cleaning of the sensor is possible in an improved way.

In particular, it is a further object of the invention to provide such sensor housing in a way to be available regardless of a special kind of sensor of cleaning demand thereof.

The object is achieved by a sensor housing of claim <NUM>. This is a sensor housing as mentioned in the introduction is provided in that the sensor housing is adapted for being assembled to a vehicle, wherein the sensor housing is further adapted to house at least one sensor for monitoring environmental conditions of the vehicle. Therein a sensor adapter is resided in the housing to hold the at least one sensor. The sensor housing according to the invention is provided in that
the adapter has a number of one or more assembly-fittings to hold the at least one sensor in monitoring position, and.

The invention is starting from the consideration that a sensor housing to house at least one sensor for monitoring environmental conditions should be subject to hold one or more sensor of the mentioned kind regardless of the kind of sensor or form of sensor. The invention has recognized that it is useful to in effect provide a scalable sensor housing, this is in particular a scalable single-sensor housing or multi-sensor housing, which is afforded according to the invention by a sensor adapter having a number of one or more assembly fittings to hold the at least one sensor, this is one or more sensors, in monitoring position.

The adapter assembly fittings thus can be constituted of one or more of single or plural assembly fittings to each hold various kinds or forms of sensors; the assembly fittings can be all of same kind to hold a plurality of identical sensors side by side or in another preferable arrangement. More particularly the number of one or more assembly-fittings are adapted to hold a multitude of sensors, namely a multitude of sensors of the same kind or a multitude of sensors of different kind.

Thus, the adapter in the sensor housing afford that the housing has a kind of scalability to host different sensors from different manufactures in combination or a plurality of sensors of same manufactures or; as the adapter is detachable the adapter can be replaced or exchanged by other adapters on demand - in effect thus, the same sensor housing can be used with various kinds of adapters for various kinds or numbers of a sensors. In short terms, thus the invention provides a scalable sensor housing with integrated cleaning system; the sensor housing is scalable by means of the sensor adapter and further the placeholder as described below. A sensor adapter can also be formed as an adjustable disposition of the sensors inside housing in different monitoring positions like angles and/or placements.

Further, the invention has recognized, that depending on the kind and number of sensors a placeholder should be integrated with the housing to hold a washer-body of a cleaning-device in position as to afford cleaning of the at least one sensor.

The placeholder integrated with the housing is at best a true part of the housing like for instance integrated with the housing's casing like a casing wall or the like carrier wall to hold a washer-body suitable to be used for one or all or at least a useful number of sensors in the sensor housing.

Thus, the number of washer-bodies on the placeholder integrated with the housing can be the same or more or preferably a lower number as compared to the number of sensors. Further, by integrating the placeholder to the housing this feature allows a fixing safe connection of the washer-body with the housing in an integrated solution.

Further according to the invention a connector means is integrated with the housing; this law to connect all plug and connections to on a one and the sensor and the washer-body to afford sufficient functioning thereof. Preferably, only a single plug and connection assembly is provided to connect the housing-integrated sensor- and cleaning-device to a vehicle.

In essence, thereby a plug and play installation is provided with the sensor housing for correct functioning of the sensor and the washer-body to clean the sensor.

In particular, the sensor housing --as an example a scalable single and multi-sensor housing-- can be used for a housing-integrated sensor- and cleaning-device wherein a combination of two or more sensors combined in a single-sensor housing is provided with at least one washer-body. The solution includes at least an insofar integrated washer-body or even a completely integrated cleaning system enabling plug and play solution through fast water/air pipe and cable connection.

The sensor housing of the housing-integrated sensor- and cleaning-device protects the sensors, enables the plug and play installation and keeps sensors available in all conditions by keep it cleaned against debris of dirt and detrimental liquid solutions.

Scalability of the sensor housing can also be implemented by one or more internal housing adapters, which e.g. can be used to host different sensors from different manufacturers in combination; meaning on demand two or more sensors in a sensor housing. Further the adapters can be used not only to integrate different types of sensors but also different or same types of sensors but with different geometries and fixation to a standard housing format. a sensor housing, respectively an adapter can be used to define on demand various different sensor angles for a sensor according to the use case.

These and further developed configurations of the invention are further outlined in the dependent claims. The dependent claims provide further developments with regard to associated technical advantages. Thereby, the mentioned advantages of the proposed concept are even more improved. For each feature of the dependent claims, it is claimed independent protection independent from all other features of this disclosure.

Preferably, the connector means is integrated with the housing. In a particular preferred development, the placeholder and/or connector means is part of the housing wall.

In a particular preferred development, the connector means comprising.

In a particular preferred development, the washer-body is integrated with the sensor housing on the placeholder. Integrated nozzles allow the existing vehicle cleaning system to be easily integrated with the housing.

In a particular preferred development an electronic interface plug and/or a supply-connection plug is integrated with the housing.

In a particular preferred development the sensor adapter is resided at an inner side of the housing wall vis-à-vis the placeholder.

In a particular preferred development the sensor housing has a carrier-wall wherein the placeholder is resided on an outer side thereof and the sensor adapter is resided on an inner side thereof vis-à-vis, in particular wherein the carrier wall is adapted to hold on an outer side the placeholder and on an inner side the sensor adapter.

In a particular preferred development, the housing holds a heater element and/or the heater element is integrated in a housing wall, in particular in the carrier-wall. Generally, the housing surface is composed of an omniphobic material/coating that repels dust and any type of contamination. Optionally, the surface incorporates a Heating element to melt snow and prevent ice buildup.

In a particular preferred development, the connector means is placed in the housing away from the carrier-wall.

In a particular preferred development sensor adapter and/or the carrier wall provides an adjustment means for tuning a sensor position, in particular monitoring position, in particular angular position and/or monitoring position.

In a particular preferred development the sensor adapter and/or the placeholder is detachable from the sensor housing, in particular from a housing wall. Thereby the adapter and/or the placeholder replaceable and/or exchangeable.

In a particular preferred development, the sensor adapter is adapted to receive a number of one or more sensors and/or the placeholder is adapted to receive a number of washer-bodies.

In a particular preferred development, the sensor is one of the sensors selected from the group consisting of RADAR, LiDAR, optical sensor, in particular camera and/or a headlamp. Advantageously the number of one or more assembly-fittings are adapted to hold a multitude of sensors, namely in combination a multitude of sensors of the kind: RADAR- and/or LiDAR and a camera and a lightening device, particularly a headlamp. It can service a particular demand for a wide <NUM>-D imaging in various ambient brightness and darkness conditions and in particular install positions at the vehicle, which favor integrated high-level ADAS solutions like smart corner monitors etc..

In a particular preferred development, the washer-body is one of the washer-bodies selected from the group consisting of spray body, puls-jet body, liquid- and/or airflow body.

The invention also leads to a housing-integrated sensor- and cleaning-device of claim <NUM> with a sensor housing of the invention and a cleaning-device connectable to a valve assembly by a pneumatic and hydraulic flow path of a cleaning-device system and a sensor. According to the invention, it is provided that.

In particular the washer-body, in particular spray body, has a washer-nozzle, in particular spray nozzle and a body housing --optionally in common defining a mixing chamber-- with a liquid fluid connection to a liquid inlet and a pressurized air fluid connection to a pressurized air inlet of the body housing, and a spray or washer-path in the spray nozzle for outputting a cleaning fluid to the sensor surface.

Different types of cleaning systems are considered, from fluid or air only cleaning system to any mixture of air / fluid. The meaning of nozzle shall be understood as the entire mechanism that ensures water, air or any mixture of it including venturi mechanism, and valves when required to be near the output point.

The invention also leads to a vehicle of claim <NUM>, in particular a commercial vehicle, comprising an automated drive assistance system (ADAS) with at least one sensor, wherein the at least one sensor of the ADAS-system is part of the inventive housing-integrated sensor- and cleaning-device or housed in the inventive sensor housing.

For a more complete understanding of the invention, the invention will now be described in detail with reference to the accompanying drawing. The detailed description will illustrate and describe what is considered as a preferred embodiment of the invention. It should of course be understood that various modifications and changes in form or detail could readily be made without departing from the spirit of the invention. It is intended that the invention may not be limited to the exact form and detail shown and described herein, nor to anything less than the whole of the invention disclosed herein and as claimed hereinafter. Further the features described in the description, the drawing and the claims disclosing the invention may be essential for the invention considered alone or in combination. In particular, any reference signs in the claims shall not be construed as limiting the scope of the invention. The wording "comprising" does not exclude other elements or steps. The wording "a" or "an" does not exclude a plurality. The wording, "a number of" items, comprises also the number one, i.e. a single item, and further numbers like two, three, four and so forth.

Further details and advantages of different components are explained in the detailed description provided below. The labeling of the elements of different drawings is not to be construed as limiting. The scope of the present invention is defined by one or more claims listed under 'claims' section.

For identical or equivalent items or items of identical or equivalent function in the following, the some reference marks are used. For corresponding features, thus it is referred to the above description.

Automated or autonomous driven vehicles, in particular vehicles with automated driver assistance systems (ADAS), use sensor means of various kinds like in the optical or acoustic field or also generally in the field of using wave detection principles like those of RADAR, LIDAR and the like. These and other sensor means also comprise various kinds of cameras in the visual or other wavelength regions of electro-magnetique waves. Whereas a complete protection of the sensor as such is for the above reasons neither possible nor advised the strategy of regular and automatic cleaning of a sensor surface at least has become available in automated servicing of the sensors for upholding a correct and up to demand sensor functioning.

As an example, generally mixing of fluids is basis to provide an undefined water-liquid and air mixture for cleaning of sensors. Automated and/or autonomous vehicles use optical sensors and cameras. These sensors and camera surfaces in use will be clouded with dust and dirt or other kind of debris during riding. The same need to be cleaned on demand for effective functioning of the devices in the vehicle. The instant inventive concept is adapted to provide an improved integrated spray cleaning with a mixture of water-liquid and air mixture, which will be elucidated further with reference to <FIG> and follow up figures.

Generally, such kind of inventive cleaning system for cleaning with a mixture of water-liquid and air mixture according to the inventive concept can be provided in a vehicle V that is shown schematically in <FIG>. The vehicle V is meant only as an example in form of a PKW. Still nevertheless, the concept of spray cleaning is useful in particular also for a commercial vehicle CV of use or other kind of vehicles of generally known kind.

The cleaning-device system CDS as shown in <FIG> in schematic form for the vehicle V is interacting with and adapted to a sensoric system S as also shown in <FIG> in schematic form.

In detail, the vehicle V is provided with a pressurized air service arrangement V100 and a vehicle pneumatic system V200 that as such provide a compressor V101 or a pressurized container V102, herein below also indicated in general as a pressurized air reservoir MQA. The vehicle pneumatic system V200 in particular comprises an air pressure suspension system with one or more pressure springs V201 is shown e.g. for each wheel of the vehicle.

Further, the vehicle V as such provides a liquid reservoir MQL, in particular for water or the like liquid. For instance, the liquid reservoir MQL can be used as a liquid reservoir for glass pane cleaning in co-working relationship to the vehicle's cleaning system V300, which is also shown schematically with the vehicle V of <FIG>.

The components of the cleaning-device system CDS as depicted in <FIG> in the vehicle V in detail are assigned to the sensoric system S as further described below. The sensoric system S provides for ADAS (Automated Driver Assistance System) e.g. a camera or an optical sensor or the like sensor means hereinafter referred to as a sensor S100; the sensor S100 has a surface S101.

Further, the cleaning-device system CDS provides a cleaning-device CD with a cleaning spray-body directed to the sensor surface S101 and a device supporting structure carrying a valve assembly VA to operate the cleaning spray-body.

As can be taken from <FIG> the cleaning-device CD is flow connected by a hydraulic flow path HFP to the liquid reservoir MQL of water and also connected by a pressurized air flow path AFP to the pressurized air reservoir MQA of the vehicle pressurized air service arrangement V100.

<FIG> shows a first preferred embodiment of a housing-integrated sensor- and cleaning-device 1A, 2A, 4A, 4B which will be elucidated further with reference to the follow-up figures <FIG>.

In this case, the sensor housing <NUM> is provided in various forms of sensor housings <NUM>, <NUM>, <NUM> (like further explained in <FIG>) and sensor housing, wherein the third form <NUM> can be provided in a first variant <NUM> and a second variant <NUM><NUM> (like further explained in <FIG> and <FIG>); the details of the sensor housings <NUM>, <NUM>, <NUM>, <NUM> are shown in the details X, Y, Z auf <FIG>.

In this case, the sensor housing <NUM> is assembled to a commercial vehicle CV as shown in <FIG> and a first embodiment of the sensor housing <NUM> is shown in the backside in detail Z of the commercial vehicle CV, namely the trailer CVT thereof to monitor the inner environment of the trailer CVT. This is, the first embodiment of the sensor housing <NUM> is adapted to house a single sensor <NUM> for monitoring the inner environmental conditions of the trailer CVT and further is adapted to hold a washer-body <NUM> of a cleaning-device in position as to effort cleaning of the sensor <NUM>. The sensor sensor housing <NUM> is shown in detail Z in <FIG>.

Respectively, another embodiment of the sensor housing <NUM> is also shown in the backside of the trailer CVT and assembled thereto, wherein the sensor housing <NUM> is adapted to house another sensor <NUM> or <NUM> --may it be that this is a LiDAR sensor <NUM> or a RADAR sensor <NUM>-- for monitoring the outer backside environmental conditions of the trailer CVT. Thus, also in the following, the reference sign <NUM> is used for a LiDAR sensor and the reference sign <NUM> is used for a RADAR sensor. The further embodiment of the sensor housing <NUM> is shown in detail Y in <FIG>.

A correspondingly same sensor housing <NUM> is assembled to the vehicle CV, namely the traction vehicle CVF at the front of the commercial vehicle CV to monitor the outer front part environmental condition of the traction vehicle CVF.

It should be noted that although herein below the single-sensor housing <NUM> and the single-sensor housing <NUM> is shown and described to be assembled at a front and/or rear of a traction vehicle CVF and a trailer CVT respectively, still nevertheless said single-sensor housings <NUM>, <NUM> can also be assembled, respectively positioned, at any other position of any vehicle CV; this is in particular but not restricted said single-sensor housings <NUM>, <NUM> can also be assembled, respectively positioned, at a side or at a corner or at a vertical or horizontal or other edge of a vehicle CV, even underneath or on top of a vehicle CV. It also applies to the other housings <NUM>, <NUM> shown and described below at certain positions, that theses housings can also be assembled, respectively positioned, at any other position of any vehicle CV.

A preferred embodiment of a sensor housing <NUM> --may it be that this is a fixed or adaptable sensor housing according to a variant <NUM>, <NUM> of multi-sensor housings-- is assembled in the region between the trailer CVT and traction vehicle CVF, this is either at each or at least one thereof; said sensor housing <NUM> of the third embodiment is shown in detail X in <FIG>, each with respective single or multiple washer-bodies <NUM>.

It should be noted that although herein below the mutli-sensor housings <NUM>, <NUM>, <NUM> are shown and described to be assembled at a side of a traction vehicle CVF and/or a trailer CVT respectively, still nevertheless said mutli-sensor housings <NUM>, <NUM>, <NUM> can also be assembled, respectively positioned, at any other position of any vehicle CV; this is in particular but not restricted said mutli-sensor housings <NUM>, <NUM>, <NUM> can also be assembled, respectively positioned, at a front and/or rear or at a corner or at a vertical or horizontal or other edge of a vehicle CV, even underneath or on top of a vehicle CV. It also applies to the other housings <NUM>, <NUM> shown and described below at certain positions, that theses housings can also be assembled, respectively positioned, at any other position of any vehicle CV.

Also, it should be noted that although the shape of housings indicated herewith has shown up to be of particular advantage; still nevertheless the housings can adopt another shape. the cross-sectional shape of single-sensor housings <NUM>, <NUM> needs not to be quadratic or rectangular. the cross-sectional shape of multi-sensor housings <NUM>, <NUM>, <NUM> needs not to be trapezoidal. The cross-sectional shape of all housing shown herewith in a variant can also adopt more or less roundish forms at their corners and edges with on demand small or large edge radius or corner radius. each of the single-sensor housings <NUM>, <NUM> and multi-sensor housings <NUM>, <NUM>, <NUM> can adopt a kind of circular, oval or semi-circular, semi-oval shape. This correspondingly also applies to the other housings <NUM>, <NUM> shown and described below.

Whereas the first and second embodiment of the sensor housing <NUM>, <NUM>, are hereinafter in part are referred to as straight-view single-sensor housings <NUM>, <NUM>, the third embodiment of the sensor housing <NUM> is in both variants <NUM>, <NUM> a multi-sensor housing, and further in part is referred to as an angular view sensor housing <NUM>.

In the following the straight-view sensor housing <NUM>, <NUM> is described in more detail with regard to <FIG> and <FIG> in various variants of sensor housings <NUM>, <NUM>, <NUM> of a housing-integrated sensor- and cleaning-device 1A, 1B, 2A, 2B, <NUM> wherein the straight-view sensor housing <NUM> of the housing-integrated sensor- and cleaning-device <NUM> in <FIG> is adapted to receive a multitude of sensors besides a single or multitude of camera sensors <NUM>.

This being said, <FIG> shows a first and second variant of a straight-view single-sensor housing <NUM>, <NUM> of a housing-integrated sensor- and cleaning- device 1A, 2A. Both have in common that this straight-view sensor housing <NUM>, <NUM> are adapted to house a single sensor <NUM>, <NUM>, <NUM> for monitoring environmental conditions of a vehicle CV, V. The sensor view angle in both cases is perpendicular to a casing front-wall <NUM> and a casing back-wall <NUM> of a rectangular casing <NUM>; thus --as can be seen from <FIG>-- once the housing-integrated sensor- and cleaning-device 1A, 1B, 2A, 2B, <NUM> is assembled to the vehicle the view angle of monitoring is perpendicular to the main plane of vehicle surface in straight view.

As clearly visible from <FIG>, the sensor can be a camera sensor <NUM> - here, the first embodiment of the straight-view sensor housing <NUM> can be rather small and also, said sensor housing holds a washer-body <NUM> as indicated above.

A bigger size of a second embodiment of a sensor housing <NUM> is also adapted to house a single LiDAR or RADAR sensor <NUM>, <NUM> and again also is adapted to hold a washer-body <NUM> of a cleaning-device in position as to effort cleaning of the at least one LiDAR- or RADAR- sensor <NUM>, <NUM>.

In <FIG>, variants of said straight-view single-sensor housings <NUM>, <NUM> are shown with variants of the straight-view single-sensor housings <NUM>, <NUM> of a housing-integrated sensor- and cleaning-device 1A, 1B, 2A, 2B respectively. The difference is well visible therefrom. In particular, it is established that the washer-body <NUM> in variants of the straight-view single-sensor housings <NUM>, <NUM> is held outside the single-sensor housings <NUM>, <NUM> whereas the washer-body <NUM> in the variants of the straight-view single-sensor housings <NUM>, <NUM> is held inside of the variant of the straight-view single-sensor housing <NUM>, <NUM> as shown in <FIG>; each of the kinds of single-sensor housing <NUM>, <NUM>, <NUM>, <NUM> establishes a straight-view. Further features of the straight-view single-sensor housings <NUM>, <NUM>, <NUM>, <NUM> will be described in the following.

As can be seen from <FIG>, each of the straight-view single-sensor housings <NUM>, <NUM>, <NUM>, <NUM> of a housing-integrated sensor- and cleaning-device 1A, 1B, 2A, 2B respectively also feature a sensor and connector means <NUM>, which is established by at first as sensor-connector <NUM> basically as an electronic interface to connect the sensor to a data and/or energy supply of the vehicle CV, CVT. Further, the connector means <NUM> is established by a washer-connector <NUM>, which is established as shown, in this case as a fluid quick connection fitting as a single pair of fluid inlet and outlet fittings shared among all washer-bodies <NUM> rather than individual pairs per washer-body <NUM>. However, here in this case, an individual pair of washer-connectors <NUM> as fluid inlet and fluid outlet is provided for the single washer-body <NUM>.

This being said, as shown in <FIG>, the sensor <NUM>, <NUM>, <NUM> is held inside the sensor housing <NUM>, <NUM> at an adapter <NUM>, namely at a respective sensor adapter <NUM>, <NUM> resided in the housing to hold the at least one sensor <NUM>, <NUM>, <NUM>. The adapter <NUM> has a number of one or more assembly fittings (not shown) to hold the at least one sensor in monitoring position; this is in this case for establishing a straight-view from the single-sensor housing <NUM>, <NUM>.

In a first variant, as shown in the right part of <FIG>, the sensor adapter <NUM> has a single assembly fitting to hold the camera sensor <NUM> in monitoring position.

In a second variant, the sensor adapter <NUM> has an assembly fitting to variably hold different kind of sensors like a LiDAR sensor <NUM> and RADAR <NUM> - this is detachable and thus replaceable or exchangeable and different forms of sensors <NUM>, <NUM>, namely for instance a single LiDAR or a single RADAR sensor can be held on demand.

Thus, in essence, the fixed sensor adapters <NUM>, <NUM> as described is a kind of interface by means of the one or more assembly fittings to be used for multiple sensors independent of the sensor type and manufacturer.

An adjustable or angular adjusted non-fixed sensor adapter <NUM>, <NUM> is described with <FIG> and enables also different options of an angular view by using an non-fixed sensor adapter <NUM>, <NUM> with variable angle settings, which will be described further below with regard to <FIG> and <FIG> - in the straight-view single-sensor housing <NUM>, <NUM> as shown in <FIG> an angle-view variant of an adapter <NUM> as shown with sensor adapters <NUM>, <NUM> is optional and not shown in these embodiments herein below.

Further, the straight-view single-sensor housing <NUM>, <NUM> as shown in <FIG> feature a heater element <NUM>. In this case, the heater element <NUM> is integrated in a housing wall of the casing <NUM> of the sensor housing <NUM>, <NUM>, wherein the casing <NUM> of the housing has a casing front-wall <NUM>, a casing back-wall <NUM> and two -this is a first and second-- casing side-walls <NUM>, <NUM>. The above-mentioned connector means <NUM> in the variant of the sensor housings <NUM>, <NUM> are resided on the casing back-wall <NUM> of the casing <NUM>, whereas the washer-body <NUM> and the heating element <NUM> is resided at the casing front-wall <NUM> of the casing <NUM>.

The washer-body <NUM> and the connector means <NUM> are placed on the outside of said walls <NUM>, <NUM>.

The heater element <NUM> is integrated in said casing front-wall <NUM> of the casing. In this case, the casing front-wall <NUM> establishes a carrier wall of the casing <NUM> to hold said adapter <NUM> for the sensor <NUM>, <NUM> and to integrate the heater element <NUM> and further to integrate the placeholder <NUM> for the washer-body <NUM>. More specifically, optionally a resistance can be installed in the housing surface for heating-up the surface against concentration of snow or ice or just to dry the inner part of the housing. Resistance can be either a conductive surface printing or micro-wires embodied in plastic.

The casing <NUM> with the casing walls <NUM>, <NUM>, <NUM>, <NUM> of the housings <NUM>, <NUM>, <NUM>, <NUM> and also of the housings <NUM>, <NUM> is preferably composed of an omniphobic material/coating that repels dust and any type of contamination. Optionally, as described above, said omniphobic material/coating incorporates said heating element <NUM> to melt snow and prevent ice buildup.

Thereby, the placeholder integrated with the housing's casing front-wall <NUM> a washer-body <NUM> is safely held in position for a cleaning-device CD, respectively the sensor <NUM>, <NUM>, <NUM>, resided therein - so as to effort cleaning of the at least one sensor <NUM>, <NUM>, <NUM>. More particularly, the washer-body <NUM> has a washer-nozzle and a washer-body and as such is integrated at least with the nozzle to the housing, more particularly to the casing <NUM> enables a kind of "plug & play"-connection of fluid, or preferably pressurized airfluid from an air cleaning system.

The arrangements of embodiments as shown in <FIG> and described therewith can be subject to variants as some of these are shown in <FIG>. One of which has been mentioned before, namely in that therein the washer-body <NUM> in embodiment variants <NUM>, <NUM> of the sensor housing can be placed with a placeholder at the casing front-wall <NUM> outside of the housing <NUM>, <NUM>. In the variants of the single straight-view sensor housing <NUM>, <NUM>, the washer-body <NUM> can be placed inside the housing; this is said placeholder <NUM> can be established at the inner side of the casing back-wall <NUM> to hold said washer-body. Vis-à-vis at an inner side of the casing front-wall, the above-mentioned sensor and connector means <NUM> can be established. This variant of straight-view single-sensor housings <NUM>, <NUM> has the advantage that the sensor and connector means <NUM> are protected from the outer environment and also, the washer-body <NUM> is in direct neighborhood to the sensor <NUM>, <NUM>, <NUM> and consequently has direct effect in cleaning said sensor.

<FIG> shows an embodiment of a straight-view multi-sensor housing <NUM> with a single or multitude of camera sensors <NUM> for being assembled with a housing-integrated sensor- and cleaning-device <NUM> to a vehicle V like a PKW, this is a vehicle V of <FIG> or a commercial vehicle CV as described with <FIG> or <FIG> in particular.

In this further developed variant of a straight-view sensor housing <NUM>, the sensor housing <NUM> is in direct development of the aforementioned straight-view sensor housing <NUM> with the addition that the sensor housing <NUM> is adapted to house a multitude of sensors for monitoring environmental conditions of the vehicle V, CV.

In this case, three sensors of different kind are resided in the housing, which, however, are detachable and thus are able to be exchanged or replaced. In the instant case, the variant of sensor housing <NUM> again provides an adapter <NUM> resided in the housing to hold a camera sensor <NUM> and further adapters <NUM> (not shown in detail) are set aside therefrom to hold a LiDAR and/or RADAR sensor <NUM>, <NUM> on demand and as preferred for use. Thus, the adapters <NUM> also of this multi-sensor housing for straight-view has a number of in this case three assembly fittings to hold the sensors <NUM>, <NUM>, <NUM> as shown in monitoring position.

In this case, the variant of sensor housing <NUM> similar to the variant of sensor housing <NUM> holds the sensors <NUM>, <NUM>, <NUM> in a way such that the sensing direction is vertical to the casing front-wall <NUM> and casing back-wall <NUM> of the casing <NUM>. Thus, in this sense, the multi-sensor housing <NUM> holds the sensors <NUM>, <NUM>, <NUM> in a straight view vertical to the front-end back-wall <NUM>, <NUM> as described above.

Further, similar to the straight-view single-sensor housing <NUM>, in this case a placeholder is integrated into the back-wall <NUM> of the housing to hold a multitude of washer-bodies <NUM>, <NUM>, <NUM> in position to effort cleaning the sensors <NUM>, <NUM>, <NUM>.

In this case, the placeholder indicated by reference sign <NUM> is adapted to hold all of the washer-bodies <NUM>, <NUM>, <NUM> and is integrated into the casing back-wall <NUM> of the casing. In the instant case, each of the washer-bodies <NUM>, <NUM>, <NUM> respectively is assigned to each of the sensors <NUM>, <NUM>, <NUM> respectively; thus, for each sensor exactly one washer-body <NUM>, <NUM>, <NUM> is provided respectively. In a variant not shown here, it is also possible to provide a single washer-body <NUM>, which is in position as to effort cleaning of all the sensors in the sensor housing.

Also, similar to the embodiment of the sensor housing <NUM>, in this case the multi-sensor straight-view sensor housing <NUM> features a sensor and connector means <NUM> as described before with a sensor-connector <NUM> and a washer-connector <NUM> in the same manner as described before; this is, the sensor and connector means <NUM> is integrated into the housing at the inner side of the casing front-wall <NUM> and further adapted to connect all of the sensors <NUM>, <NUM>, <NUM> in the sensor housing <NUM>.

<FIG> shows another qualitatively different kind of multi-sensor housing <NUM> with a single or multitude of camera sensors <NUM> of a housing-integrated sensor- and cleaning-device <NUM> wherein for features of the same kind or same function, the same reference marks are used for simplicity; respectively, the above-mentioned description also applies to the further embodiment of multi-sensor housing <NUM>.

<FIG> shows variants of an angular-view multi-sensor housing <NUM>, <NUM>, <NUM> - they have in common that the variants of angular-view sensor housing <NUM>, <NUM>, <NUM> are adapted to house multiple sensors <NUM>, <NUM>, <NUM> for monitoring environmental conditions of a vehicle CV, V. All of these variants can also provide a position for a multitude of camera sensors <NUM> to allow an increased coverage of a view angle angular field to the environment, preferably to allow an increased coverage of an angular field of near <NUM>°or up to <NUM>° or an even larger angular field for the view angle to the environment.

A sensor view angle in all cases is not perpendicular to a casing front-wall <NUM> and a casing back-wall <NUM> but in an angle thereto in a trapezoidal casing <NUM>; thus --as can be seen from <FIG>-- once the respective housing-integrated sensor- and cleaning-device 4A, 4B is assembled to the vehicle the view angle of monitoring is not perpendicular but in an acute angle to a main plane of vehicle surface in angular view.

The multi-sensor housing <NUM>, as mentioned before, can be adapted so as to provide an angular view of at least part of the sensors for monitoring environmental conditions of a vehicle, this is, the respective monitoring angle of the LiDAR and/or RADAR sensor <NUM>, <NUM> placed therein, can be varied in a predefined form or they are variable. , also the angular view can be varied by actuating the adapter when respective actuators are also provided in the housing in a transient way. This is an acute angle different from the wall direction can be set on demand, which will be described further below.

In the instant case, the casing <NUM> of the angular view multi-sensor housing <NUM> has two casing side-walls <NUM>, <NUM> and a casing back-wall <NUM> with connector means <NUM> as described before, for instance with sensor housings <NUM>, <NUM>.

However, the casing front-wall <NUM> in this case of sensor housing <NUM> is enlarged and provides a wide inner space of the trapezoidal sensor housing <NUM>. This is afforded in that the front side <NUM> provides a sensor adapter <NUM> for the camera sensor <NUM> and this, in combination with a LiDAR sensor <NUM> plus the outside casing front-wall <NUM> placeholder for the washer-body <NUM> of a cleaning-device in position as to afford cleaning of the camera sensor <NUM> and the LiDAR sensor <NUM>. The casing front-wall <NUM> functions as a carrier wall to hold the sensor adapter <NUM> and to integrate the placeholder and to integrate a heater element <NUM> as described before with, for instance, a sensor housing <NUM>, <NUM>.

Further, the trapezoidal casing <NUM> provides a left side angular casing front-wall <NUM> and a right side angular casing front-wall <NUM> in direct connection between casing front-wall <NUM> and casing side-walls <NUM>, <NUM>, wherein each of the angular casing front-walls <NUM>, <NUM> also again features to hold a sensor adapter <NUM>, <NUM>.

These are shown in more detail in view (A) of <FIG> for the left side part of the casing. This is the left side angular casing front-wall <NUM> again is used as a carrier wall for holding a sensor adapter <NUM> to hold a RADAR sensor <NUM>, wherein here, this sensor adapter <NUM> has an assembly fitting to hold the RADAR sensor <NUM> in monitoring position. The monitoring position is plain with the angular casing front-wall <NUM> and thus allows an angular supervision of the environmental condition of the vehicle; the angle is set by the angle between angular casing front-wall <NUM> and back casing sidewall <NUM>.

In a variant as shown in view (B) of <FIG>, again, the left side angular casing front-wall <NUM> is used as a carrier wall for holding a sensor adapter <NUM> integrating a heater element <NUM> and integrating a placeholder <NUM> for the washer-body <NUM>.

Further, the sensor adapter <NUM> --in variation to the sensor adapter <NUM> described before-- can be adapted in amending the acute angle α as described before; namely in diminishing the acute angle α to an even smaller acute angle β, which is smaller than the angle α. Thus, the originally fixed angular monitoring direction of an acute angle α can be flattened to an acute angle β, which is nearer to a straight-view monitoring direction for the RADAR sensor <NUM>. Acute angle in this case is to be understood not in a strict mathematical sense but more generally in that an acute angle α and acute angle β is to be understood generally as an angle different from <NUM>°.

Thus, the angular casing front-wall <NUM> of the angular view multi-sensor housing <NUM> allows for the RADAR sensor <NUM> to be adapted in a monitoring angle between a large angle α to a lower monitoring angle β. It can be adapted even such that the RADAR sensor <NUM> could be used for straight view, when the adapting angle γ is set large enough to put the RADAR sensor <NUM> in parallel position to the casing back-wall <NUM> of the casing <NUM>. Corresponding measures are possible for a LiDAR sensor <NUM> instead of a RADAR sensor and also for any other kind of sensor like a camera sensor <NUM> instead.

<FIG> shows in view (A) a preferred fourth embodiment of a sensor housing <NUM> for a further kind of a housing-integrated sensor- and cleaning-device <NUM> for a commercial vehicle CV at exemplary positions indicated by arrows in view (A) of <FIG>. Exemplary positions indicate install positions at the vehicle, which favor integrated high-level ADAS solutions like smart corner monitors etc.. The sensor housing <NUM> is realized as a kind of head light sensor housing according to the concept of the invention. In particular the sensor housing <NUM> can establish in addition to a standard headlamp function (not shown) an additional auxiliary head lamp function.

It should be noted that although the shape of housings indicated herewith has shown up to be of particular advantage; still nevertheless the sensor housings <NUM> can adopt another shape; e.g. as has been indicated before with regard to other multi-sensor housings <NUM>, <NUM>, <NUM> e.g.. Thus, also the sensor housing <NUM> can provide a position for a multitude of camera sensors <NUM> to allow an increased coverage of a view angle angular field to the environment, preferably to allow an increased coverage of an angular field of near <NUM>°or up to <NUM>° or an even larger angular field for the view angle to the environment. The sensor housing <NUM> also has been found to be of particular advantage to realize a smart corner application.

It should also be noted that although herein below the sensor housing <NUM> are shown and described to be assembled at a front and/or horizontal edge of a vehicle CV, still nevertheless said sensor housing <NUM> can also be assembled, respectively positioned, at any other position of any vehicle CV; this is in particular but not restricted said sensor housing <NUM> can also be assembled, respectively positioned, at a front and/or rear or at a corner or at a vertical or horizontal or other edge of a vehicle CV, even underneath or on top of a vehicle CV.

In particular the sensor housing <NUM> can establish in addition to a standard headlamp function (not shown) an additional auxiliary head lamp function at front and/or rear and/or side of the vehicle CV. The sensor housing <NUM> also has been found to be of particular advantage to realize a smart corner application.

In view (B) of <FIG> a way of implementation thereof with a washer-body <NUM> of a cleaning device CD of a cleaning system CDS, a camera sensor <NUM> or the like sensor means like in in this case also a LiDAR sensor <NUM> and/or RADAR sensor <NUM> and said head light <NUM>. The head light <NUM> can be realized preferably as any kind of LED. The headlight <NUM> serves for any kind of visible and/or infrared illumination; this the available electro-magnetic spectrum of wavelength. This kind of sensor housing <NUM> shown in <FIG> is in particular adapted for a commercial vehicle CV as shown in view (A).

This kind of sensor housing <NUM> thus further implements a head light <NUM>, wherein the head light <NUM> is shown integrated in the middle next to the camera <NUM> and next to the LiDAR sensor <NUM> and/or RADAR sensor <NUM>; thus between them in the sensor housing <NUM>.

The head light in this case is integrated as a more or less intelligent main or auxiliary head lamp. The head light sensor housing <NUM> is of particular use for large scale commercial vehicles CV like the main truck machine shown in view (A) to <FIG> but also in commercial vehicles CV of increased security standards like a school bus or a mining truck. It can thus be implemented for object and/or person detection but also in path finding, tracking and ADAS and the like smart applications during all day and night times. It can service a particular demand for a wide <NUM>-D imaging in various ambient brightness and darkness conditions and in particular install positions at the vehicle, which favor integrated high-level ADAS solutions like smart corner monitors etc..

As can be seen form view (B) of <FIG>, this kind of embodiment of sensor housing <NUM> has been found to be of particular use as it has been found in shape analog or similar to the usual kind of head light housing <NUM>. More particular the design reference is based on a head light housing <NUM> of a standard auxiliary headlamp and thus a housing's basis is readily available. This standard auxiliary headlamp of a head light housing <NUM> is used as housing's basis of sensor housing <NUM> further for integrating (indicated by arrows in view (B) of <FIG>) the washer-body <NUM>, the camera sensor <NUM> or the like sensor means like in in this case a LiDAR and/or RADAR sensor <NUM>, <NUM> as clearly seen in view (B) of <FIG>.

Claim 1:
Housing-integrated sensor- and cleaning-device (1A, 1B, 2A, 2B, <NUM>, <NUM>, 4A, 4B) with
a sensor housing (<NUM>) for being assembled to a vehicle (V), in particular a commercial vehicle (CV), and a connector means (<NUM>) is integrated with the housing, wherein the sensor housing (<NUM>) is further adapted to house at least one sensor (<NUM>, <NUM>, <NUM>, <NUM>) to be connected to the connector means (<NUM>) and for monitoring environmental conditions of the vehicle (V), wherein a sensor adapter (<NUM>) is resided in the housing to hold the at least one sensor (<NUM>, <NUM>, <NUM>, <NUM>),
wherein the adapter (<NUM>) has a number of one or more assembly-fittings to hold the at least one sensor (<NUM>, <NUM>, <NUM>, <NUM>) each in a monitoring position, and
- a placeholder (<NUM>) is integrated with the housing to hold a washer-body of a cleaning-device in position as to afford cleaning of the at least one sensor,
and
a cleaning-device (CD) connectable to a valve assembly (VA) by a pneumatic and hydraulic flow path (AFP, HFP) of a cleaning-device system (CDS) and a sensor (S) characterized in that
- the cleaning-device (CD) is adapted for wash cleaning, in particular spray cleaning, of a sensor surface (S101) of the sensor (S), the cleaning-device (CD) comprising a washer-body (<NUM>) connectable by a washer supply-periphery with the valve assembly (VA), wherein
- the valve assembly (VA) is adapted for control of selectively supplying liquid fluid from a liquid reservoir (MQL) to the liquid fluid inlet and/or pressurized air fluid from a pressurized air reservoir (MQA) to the pressurized air inlet.