APPARATUS EMBODIED TO DETECT THE SURROUNDINGS AND METHOD FOR CLEANING A COVER OF SUCH AN APPARATUS

Abstract

A device for acquiring a surrounding environment of a vehicle. The device includes a sensor housing and at least one sensor situated inside the sensor housing. The sensor housing has a transmit/receive window. The device has a cover made transparent for the sensor signals, and the cover is designed to cover the transmit/receive window, and thus the at least one sensor, relative to an external surrounding environment of the device. The device has a cleaning unit that is situated on an outer side of the sensor housing and is movable along the sensor housing by a drive unit. The cleaning unit is designed to remove contamination from the cover of the transmit/receive window. The cleaning unit is realized as a space that is closed relative to the external surrounding environment.

Claims

1-12. (canceled)

13. A device for acquiring a surrounding environment of a vehicle, comprising: a sensor housing and at least one sensor situated inside the sensor housing, the sensor housing having a transmit/receive window and a cover, the cover being transparent for sensor signals of the sensor, and the cover being configured to cover the transmit/receive window relative to an outer surrounding environment of the device; and a cleaning unit that is situated on an outer side of the sensor housing and can be moved along the cover by a drive unit, the cleaning unit being configured to remove contamination from the cover, and the cleaning unit having a housing that forms, with the cover, a space that is closed relative to the external surrounding environment, wherein one or more cleaning elements are situated inside the housing.

14. The device as recited in claim 13, wherein the sensor housing has at least one guide rail, the cleaning unit being situated on an outer side of the housing via the guide rail, and the cleaning unit being movable along the guide rail by the drive unit.

15. The device as recited in claim 13, wherein the one or more cleaning elements includes at least one wiper blade that is in frictional contact with the cover.

16. The device as recited in claim 13, wherein the cleaning unit includes at least one heating element that is configured to heat the cover and/or the closed space.

17. The device as recited in claim 13, wherein the one or more cleaning elements includes at least one nozzle that is designed to spray a cleaning fluid onto the cover.

18. The device as recited in claim 17, wherein the cleaning fluid is water.

19. The device as recited in claim 17, wherein the drive unit includes a step motor and/or a gear transmission and/or a belt drive and/or a lever mechanism and/or an eccentric drive.

20. The device as recited in claim 13, wherein the cleaning unit includes a detector unit that is configured to acquire a contamination of the cover.

21. The device as recited in claim 13, wherein the cleaning unit includes a temperature sensor that is configured and situated to acquire a temperature of the cover and/or a temperature inside the closed space.

22. A method for cleaning a cover of a device for acquiring a surrounding environment of a vehicle, the device including a sensor housing and at least one sensor situated inside the sensor housing, the sensor housing having a transmit/receive window and a cover, the cover being transparent for sensor signals of the sensor, and the cover being configured to cover the transmit/receive window relative to an outer surrounding environment of the device, and a cleaning unit that is situated on an outer side of the sensor housing and can be moved along the cover by a drive unit, the cleaning unit being configured to remove contamination from the cover, the method comprising the following steps: moving the cleaning, by the drive unit, along the cover, the cleaning unit having a housing that forms, with the cover, a space that is closed relative to an external surrounding environment, one or more cleaning elements being situated inside the housing; and removing contamination from the cover by the cleaning elements of the cleaning unit.

23. The method as recited in claim 22, wherein the cleaning unit is brought into a park position after the removing of the contamination has taken place.

24. The method as recited in claim 22, wherein the cleaning unit reports a current state of cleaning and/or cleaning progress to a driver assistance system, and a degradation of the measurement results of the sensor, caused by the current contamination, is taken into account in a driver assistance function of the driver assistance system.

25. The method as recited in claim 22, wherein the cleaning unit reports its current position relative to the transmit/receive window to a driver assistance system, and a degree of occlusion of a field of view of the sensor, by the cleaning unit, is taken into account in a driver assistance function.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] FIG. 1 schematically shows a device according to an exemplary embodiment of the present invention, in a top view.

[0030] FIG. 2 schematically shows the device of FIG. 1 in a side view.

[0031] FIG. 3 shows a device according to an exemplary embodiment of the present invention, in section.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

[0032] In the following description of exemplary embodiments of the present invention, identical elements are designated with the same reference characters, and repeated description of these elements is omitted if warranted. The Figures represent the subject matter of the present invention only schematically.

[0033] FIGS. 1 and 2 show an example device 1 that is designed to acquire the surrounding environment of a vehicle, and in this example is realized as a lidar sensor system. Device 1 includes a sensor housing 10 inside which at least one lidar sensor is situated (not shown). Sensor housing 10 has a transmit/receive window 20 and a cover 22, the cover being made transparent for the operating wavelength(s) of the sensor signals of the lidar sensor. Cover 22, for example a glass plate, is designed to cover transmit/receive window 20 relative to an external surrounding environment 70 of device 1. Sensor housing 10 is made substantially cylindrical in the region of transmit/receive window 20. Cover 22 is matched to the cylindrical shape.

[0034] According to the present invention, device 1 has a cleaning unit 30 (wiper-washer-heating system). Cleaning unit 30 has a housing 40 whose shape is matched to the surface of cover 22, which housing is guided over the surface of cover 22 by a drive unit 35. The possible directions of movement are indicated by double arrow 80. Housing 40 has for example an open side, and lies with the edges of its open side flush against cover 22, so that housing 40 forms, with cover 22, a space 45 that is closed relative to outer surrounding environment 70. Inside housing 40, one or more cleaning elements are situated that are used to clean the cover of contamination. This is described in more detail in connection with FIG. 3.

[0035] Drive unit 35 can be set into a recess [ . . . ] device 1. Alternatively, drive unit 35 can be placed onto sensor housing 10 as a cover, or is fixedly integrated as a part of sensor housing 10. Drive unit 35 can be made with one or two sides. A park position 60 is provided at which cleaning unit 30 can be parked when it is not in operation.

[0036] FIG. 3 shows a device according to an exemplary embodiment of the present invention, in section. Various cleaning element, as well as various sensors, are provided in the interior of housing 40 of cleaning unit 30: two wiper blades 38 for removing water or contaminated cleaning fluid are situated perpendicular to the direction of movement 80 inside the housing. Rubber lips of wiper blades 38 stand in frictional contact with cover 22 for this purpose. In addition, two spray nozzles 32 are situated inside housing 40, of which each is connected to a cleaning system 132 by a supply hose 33. Cleaning system 132 includes for example a reservoir having a cleaning fluid, an element for producing pressure, and an electrically controllable valve. Using spray nozzles 32, the surface of cover 22 is wetted with cleaning fluid 44, or is cleaned with pressure. In addition, a heating device 50 is provided inside the housing. The controlling of the heating device takes place via an external heat regulator 150. In addition, a temperature sensor 54 is situated inside housing 40, as well as a measuring device 52 for measuring the degree of contamination. The measurements take place in each case via associated measurement devices 152 and 154. Temperature measuring device 154 records data of temperature sensor 54, and ascertains therefrom the current temperature inside housing 40. Measuring device 152 records data of detector unit 52 and ascertains therefrom whether there is currently a contamination of cover 22.

[0037] In addition, housing 40 can have runoff holes for the liquids situated inside it (not shown).

[0038] The housing can be moved back and forth along the cover in direction 80 by a drive unit 35. For this purpose, drive unit 35 has a drive system, e.g., a gear transmission, as well as a motor that is regulated by a motor regulating unit 135. Using an additional measuring device 136, an additional or alternative acquisition of a contamination can take place, e.g., via the acquisition of the frictional value or the acquisition of a blockade, e.g., by the measurement of torque. In addition, a path or angular measuring device 36 is provided for controlling the motor and for ascertaining the current position of cleaning unit 30.

[0039] A central control device 200 having a software program processes all the measurement data and controls heating regulator 150, cleaning system 132, and drive unit 35. The controlling at the software side permits in particular an adaptation of the cleaning speed to the degree of contamination, as well as an adaptation of the cleaning frequency to the degree of contamination. In addition, in the case of local contamination of cover 22 a locally adapted cleaning can take place in a targeted manner. In addition, information about the current position of the system, and thus about a current occlusion of the field of view of the sensor, and further states, can be communicated to higher-order systems, e.g., a driver assistance system that can correspondingly take this information into account. In addition, if a cleaning is repeatedly unsuccessful, the cleaning process can be aborted.

[0040] Particular advantages of the present invention result from the course of the cleaning process inside closed space 45, i.e., a protected and relatively small volume:

[0041] the amount of cleaning fluid required for the effective cleaning of the cover is small, because the duration of action and efficiency of action inside the housing can be optimized. In addition, a de-icing can take place with a relatively low power level, or more quickly, because the volume to be heated is small and housing 40 externally protects the volume from cooling.