OBSTACLE AVOIDANCE SYSTEM FOR A CAMERA ARM FOR OBSERVING TRAFFIC TO THE REAR OF A VEHICLE

Abstract

An obstacle avoidance system for a camera arm configured to observe traffic to the rear of a vehicle, the vehicle having bodywork, includes: the camera arm having a camera; and a guide configured so as to extend from a lateral surface of the bodywork of the vehicle to a roof surface of the bodywork of the vehicle. The camera arm is arranged on the guide so as to be slidable along the guide back and forth between a position of rest on the roof surface and a working position on the lateral surface.

Claims

1. An obstacle avoidance system (10) for a camera arm (20) configured to observe traffic to the rear of a vehicle (30), the vehicle having bodywork, the system comprising: the camera arm (20) having a camera; and a guide (40) configured so as to extend from a lateral surface (31) of the bodywork of the vehicle (30) to a roof surface (32) of the bodywork of the vehicle (30), wherein the camera arm (20) is arranged on the guide (40) so as to be slidable along the guide (40) back and forth between a position of rest (R) on the roof surface (32) and a working position (A) on the lateral surface (31).

2. The obstacle avoidance system as claimed in claim 1, further comprising: a slide (50) connected to the camera arm (20) and arranged on the guide (40) so as to be slidable along the guide (40).

3. The obstacle avoidance system as claimed in claim 2, wherein: the guide (40) has a first guide rail (41) and a control cam (42), and the first guide rail (41) is configured to guide the camera arm (20) along the guide (40), and the control cam (42) is configured to control an alignment of the camera arm (20) along the first guide rail (41).

4. The obstacle avoidance system as claimed in claim 3, wherein the slide (50) has a bearing point (51) on which the camera arm (20) is rotatably mounted at a first connecting point (21) of the camera arm (20).

5. The obstacle avoidance system as claimed in claim 4, further comprising: a rider (60) arranged on the control cam (42), wherein the slide (50) has a puller (70) configured to connect the at least one rider (60) to the camera arm (20) at a second connecting point (22) of the camera arm (20) via a deflection point (52) arranged on the slide (50).

6. The obstacle avoidance system as claimed in claim 5, wherein the distance between the control cam (42) and the vehicle (30) varies over the length of the first guide rail (41).

7. The obstacle avoidance system as claimed in claim 6, wherein the slide (50) has an opening (53) in which the rider (60) is movably arranged.

8. The obstacle avoidance system as claimed in claim 7, further comprising: a stop (80) having a latch (90), wherein, in the working position (A), the camera arm (20) bears against the stop (80) and is fastened to the stop (80) by the latch (90).

9. The obstacle avoidance system as claimed in claim 1, further comprising: at least one surroundings sensor configured to determine surroundings data which relate to the surroundings of the vehicle (30); a drive device configured to move the slide (50) along the guide (40); and a controller configured to control the drive device in accordance with the determined surroundings data so as to move the slide (50) along the guide (40).

10. A vehicle (30) having the obstacle avoidance system (10) for a camera arm (20) as claimed in claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0049] Other embodiments and many of the specified advantages become apparent with regard to the drawings. The illustrated elements of the drawings are not necessarily shown true to scale with respect to one another.

[0050] In the drawings:

[0051] FIG. 1 shows a side view of the obstacle avoidance system for a camera arm in the working position;

[0052] FIG. 2 shows a side view of the obstacle avoidance system for a camera arm in the position of rest;

[0053] FIG. 3 shows a front view of the obstacle avoidance system for a camera arm in the position of rest; and

[0054] FIG. 4 shows a side view of a progression of the camera arm from the position of rest to the working position.

DETAILED DESCRIPTION OF THE PRESENTLY PREFERRED EMBODIMENTS

[0055] FIG. 1 shows an obstacle avoidance system 10 for a camera arm 20. The obstacle avoidance system 10 comprises a camera arm 20 which is attached to a vehicle 30 via a guide 40. The vehicle 30 has a lateral surface 31 and a roof surface 32. The guide 40 extends along the bodywork of the vehicle 30 over the lateral surface 31 to the roof surface 32. The camera arm 20 is arranged on the guide 40 so as to be slidable along the guide 40. The camera arm 20 is configured to accommodate a camera which acts as a digital side mirror for the vehicle. If the camera arm 20 is arranged at the end of the guide 40 on the lateral surface 31 of the vehicle 30, the camera arm 20 is in a working position A. In the working position A, the camera arm 20 and the camera arranged on the camera arm 20 are therefore arranged on the lateral surface 31 of the vehicle 30. In the working position A, the camera arm 20 extends in a horizontal direction Y and therefore projects laterally from the vehicle 30. In the working position A, the camera arm 20 assumes a position on the vehicle 30 which is customary for a side mirror. The guide 40 has a stop 80 on its end which is on the lateral surface 31. The stop 80 limits the sliding capacity of the camera arm 20 in a vertical direction Z along the guide 40. In other words, the camera arm 20 is in the working position A when the camera arm 20 bears against the stop 80. In order to secure the camera arm 20 in the working position A on the guide 40, the camera arm 20 has, at its laterally arranged end, a latch 90 which is configured to latch the camera arm 20 against the guide 40 in the working position A.

[0056] The camera arm 20 is slidably arranged on the guide 40 such that it can be slid from the working position A along the lateral surface 31 in the vertical direction Z over the curvature of the bodywork of the vehicle 30 onto the roof surface 32 of the vehicle 30, and from there counter to the horizontal direction Y on the roof surface 32 of the vehicle 30 in the direction of the center of the vehicle 30.

[0057] FIG. 2 shows the obstacle avoidance system 10. In contrast to FIG. 1, the camera arm 20 is now in the position of rest R instead of in the working position A. If the camera arm 20 is arranged on the roof surface 32 of the vehicle 30, it is located in what is referred to as the position of rest R. Although the camera arranged on the camera arm 20 can also capture traffic to the rear of the vehicle 30 in the position of rest R, the function of the camera in the position of rest R is not usually used as a rearview mirror and/or side mirror.

[0058] The camera arranged on the camera arm 20 is intended to be spaced apart from the vehicle 30 in the working position A, to be able to carry out the function as a digital side mirror. In other words, the camera must be spaced apart laterally from the vehicle 30 so that the camera assumes a sufficient viewing angle with respect to the traffic to the rear of the vehicle 30. The camera arm 20 is therefore embodied as a rod-like projection which, in the working position A, extends laterally outward from the lateral surface 31 of the vehicle 30. As can be seen in FIG. 2, in the position of rest R on the roof surface 32 of the vehicle 30, the camera arm 20 does not extend in the vertical direction Z from the vehicle 30. Instead, the camera arm 20 rests as flat as possible on the roof surface 32 of the vehicle 30 and extends in the horizontal direction Y. In this way, in the position of rest R, the camera arm 20 offers as little air resistance as possible in the direction of travel X. To do this, the camera arm 20 changes its orientation with respect to the guide 40 on the path from the working position A to the position of rest R. In other words, the camera arm 20 is pivoted with respect to the guide 40, while the camera arm 20 is slid from the working position A to the position of rest R. In this case, the camera arm 20 is pivoted through 90 with respect to the guide 40, between the working position A and the position of rest R. In this way, the camera arm 20 does not change its horizontal orientation along the horizontal direction Y while the camera arm 20 is moving between the working position A and the position of rest R.

[0059] FIG. 3 shows the obstacle avoidance system 10 as it can be seen from the horizontal direction Y. The guide 40 comprises a first guide rail 41 and a second guide rail 43 which extend parallel to one another in the direction of travel X, from the lateral surface 32 of the vehicle 30 to the roof surface 31 of the vehicle 30. Furthermore, the guide 40 has a control cam 42 which runs between the first guide rail 41 and the second guide rail 43. The camera arm 20 is in the working position A and is fastened in the working position A by the latch 90. The control cam 42 is configured to rotate the camera arm 20 along the guide 40 with respect to the guide 40 such that the horizontal orientation of the camera arm 20 in the horizontal direction Y does not change.

[0060] FIG. 4 shows a more detailed view of the obstacle avoidance system 10. The obstacle avoidance system 10 has a slide 50 connected to the camera arm 20 and arranged on the guide 40 so as to be slidable along the guide 40. In this way, the camera arm 20 can be slid on the guide 40 by the slide 50. The slide 50 has a projection 54 which extends from the slide 50, away from the vehicle 30. A bearing point 51, on which the camera arm 20 is rotatably mounted, is arranged on the projection 54. For this purpose, the camera arm 20 has a fixed connecting point 21.

[0061] Since the guide 40 extends from the lateral surface 31 of the vehicle 30 onto the roof surface 32 of the vehicle 30, the orientation of the slide 50 changes from a horizontal orientation in the working position A to a vertical orientation in the position of rest R. So that the camera arm 20 does not change its horizontal orientation during the sliding from the working position A to the position of rest R, the orientation of the camera arm 20 during the sliding with respect to the slide 50 has to change in accordance with the sliding.

[0062] For this purpose, the obstacle avoidance system 10 has a puller 70 which is preferably embodied as a cable. The puller 70 is fastened to a second connecting point 22 of the camera arm 20. The first connecting point 21 and the second connecting point 22 are selected in such a way that, in every position of the camera arm 20 in a vertical direction Z on the guide 40, they are arranged in a line along the vertical direction Z. The puller 70 is configured in such a way that it controls the distance between the second connecting point 22 and the vehicle 30. For this purpose, the puller 70 connects the second connecting point 22 to the control cam 42 via a rider 60. A progression of the control cam 42 with respect to the distance from the vehicle 30 therefore also influences the distance between the second connecting point 22 and the vehicle 30. The control cam 42 is embodied in such a way that the distance from the lateral surface 31 is shorter than the distance from the roof surface 32. The puller 70 is deflected from a direction along the slide 50 to the second connecting point 22 by a deflection point 52 on the slide 50. In this way, the puller 70 does not exert any force on the second connecting point 22 when the slide 50, and therefore the camera arm 20, are in the position of rest R. When the camera arm 20 slides along the guide 40 in the direction of the working position A, the control cam 42 changes such that the distance between the control cam 42, and therefore the rider 60 guided thereon, on the one hand, and the vehicle 30, on the other, is reduced, and the puller 70 therefore exerts a force on the second connecting point 22, in the direction of the vehicle 30. This ensures that the camera arm 20 constantly maintains its horizontal orientation in the horizontal direction Y along the guide 40.

[0063] For free movement of the rider 60 toward or away from the vehicle 30, the slide 50 has an opening 53 in which the rider 60 can freely move.

[0064] This ensures that, in the working position A, the camera arm 20 extends laterally away from the lateral surface 31 of the vehicle 30, and, in the position of rest R, it does not project upwardly from the roof surface 32 of the vehicle 30.

[0065] Thus, while there have been shown and described and pointed out fundamental novel features of the invention as applied to a preferred embodiment thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.