Patent Application
20240059219
This nonprovisional application claims priority under 35 U.S.C. § 119(a) to German Patent Application No. 10 2022 120 706.4, which was filed in Germany on Aug. 16, 2022, and which is herein incorporated by reference.
The present invention relates to an observation apparatus and a motor vehicle equipped with the observation apparatus.
For participation in road traffic, it is indispensable and legally necessary to be able to monitor or observe events and traffic situations even behind a moving motor vehicle. For this purpose, rear-view mirrors have been used for a long time, which allow observation of rear traffic events by simple reflection. Exterior mirrors extend outward from the bodywork or a body attachment, such as a door of a motor vehicle. Here, the exterior mirrors are exposed to the airflow.
In order to reduce the risk of damage and to take up less space, exterior mirrors are often designed to be foldable so that they can be folded in from a position relatively far away from the body, so that the motor vehicle equipped with the exterior mirror comprises a smaller width overall. This folding or pivoting capability of the exterior mirror requires a joint in the region of the connection between the fastening to the bodywork or bodywork member and the mirror face, as well as a gap or joint in which a relative movement of the mirror face with respect to the fastening region can be carried out. A disadvantage of this, however, is that air flowing towards the exterior mirror can strike edges or even preceding members in the gap area, causing acoustic emissions. In other words, acoustic conspicuities can occur in the region of the pivot joint.
Various designs of exterior mirrors are known from the prior art. For example, U.S. Pat. No. 9,963,073 discloses a frameless exterior mirror which comprises a step jump at the transition between the casing of a head member held by means of a foot member and the mirror support. The step serves to drain off rainwater.
DE 10 2011 000 740 B4, which corresponds to US 2012/0206827 and which is herein incorporated by reference, discloses a drop gutter in the casing of an exterior mirror, wherein the drop gutter comprises walls stepped with respect to depth, so that on the one hand rainwater can be drained off and on the other hand a tear-off edge is created to reduce flow noise.
DE102008013605A1 shows a step in the casing of a mirror in a plane essentially parallel to a mirror face.
It is therefore an object of the present invention to provide an observation apparatus for a motor vehicle for observing the rear traffic situation, as well as a motor vehicle equipped therewith, which agrees on a simple, robust as well as inexpensive embodiment with a design which, when exposed to air during driving of the motor vehicle, causes reduced noise emissions.
A first aspect of the invention is an observation apparatus for a motor vehicle for observing the rear traffic situation, which comprises a base member with a base member body for fastening to a bodywork or an add-on part of the motor vehicle, as well as a head member hingedly arranged on the base member with a head member body and an observation member arranged therein or thereon. The base member body and the head member body are adjacent to each other at at least one gap. The base member body comprises at least one recessed region adjacent to the gap, such that a step is formed between the base member body and the head member body by the recessed region. As a result, the air flow is disturbed and detaches from the face. Respectively, air flowing toward the observation apparatus is prevented from hitting an edge of the base member body when flowing along the base member body toward the head member body when flowing across the gap and causing undesirable noise to be generated there. In other words, the recessed region is arranged where air flowing toward the observation apparatus flows along the observation apparatus when a motor vehicle equipped with the observation apparatus moves forward, so that it first flows along the base member body and then flows along the head member body.
A lowering of the connecting faces of the mirror foot in the region of the hinge joint seal leads to a step jump. No acoustic abnormalities occur.
If the base member body and the head member body together form a connecting bar, such a connecting bar, in which one or more gaps are present between the base member body and the head member body, can extend away from the bodywork or an add-on part thereof. In this regard, such a connecting bar may also be configured such that a component of its longitudinal extension direction is parallel to the direction of travel of the motor vehicle equipped with the observation apparatus. In this orientation, when the motor vehicle equipped with the observation apparatus travels forward, the air flows along the observation apparatus in a respective manner such that it first flows along the base member body and then flows along the head member body via the gap.
The base member body and the head member body may be adjacent to each other at one gap or at multiple gaps, depending on the structural embodiment of the connecting region between the base member body and the head member body.
The base member body may serve for immediate or also for indirect attachment to a body or an add-on part of the motor vehicle.
The step may be formed between a face of the base member body and a face of the head member body, respectively, which together form a guide face having an extending direction of which at least one component extends along an incident direction of an air flowing toward the observation apparatus during forward travel of a motor vehicle equipped with the observation apparatus. The guide face is thus composed of a face of the base member body and a face of the head member body, which are separated from each other by a gap. Respectively, the step is not necessarily realized at a face whose plane is aligned perpendicularly to the incident direction. In other words, at a gap or gap portion which is arranged at the front side of the observation apparatus and where, when the motor vehicle equipped with the observation apparatus moves forward, air does not flow first along the base member body and then along the head member body via the gap, but meets the base member body and the head member body head-on, it is not mandatory to also form the step here.
The observation apparatus may be an external mirror, so that the observation member is a mirror face or a mirror face system. Further, the observation apparatus can be a camera, so that the observation member is a camera lens or camera lens system.
The base member body and/or head member body may be designed by a casing, respectively. A respective casing may be formed to be hollow.
Furthermore, the observation apparatus may be configured such that the observation apparatus comprises a hinge joint which hingedly connects the base member body and the head member body to each other, wherein, when the observation apparatus is mounted on a bodywork or an add-on part of the motor vehicle, the rotation axis of the hinge joint extends vertically. This refers to an embodiment in which the transition between the base member body and the head member body is formed by a connecting bar, and the head member body can be rotated in a horizontal plane. Here, the gap runs in several segments extending at an angle to each other, or individual gaps exist between adjacent faces of the base member body and the head member body, which extend at an angle to each other. However, an embodiment in which the rotation axis oblique is also not excluded from the invention. In this alternative embodiment, a gap between the base member body and the head member body also runs obliquely and circumferentially, respectively.
The height of the step between the base member body and the head member body may thereby be at least 1 mm. This step dimension thereby applies at least at a distance of 10 mm around the gap delimiting the retracted face.
The step between the base member body and the head member body can be realized by a face of the base member body and a face of the head member body, wherein the face of the base member body and the face of the head member body can be parallel to each other. The parallelism is to exist over a distance to the gap of at least 50 mm.
The step between the base member body and the head member body can be realized by a face of the base member body and a face of the head member body, wherein the face of the base member body and the face of the head member body can extend at an acute angle to each other. This means that neighboring faces on the base member body and the head member body, which are separated from each other only by a gap and form a step, enclose an acute angle with their outer sides.
The acute angle can be at most 20°. The acute angle can be intended to exist over a distance from the gap of at least 50 mm.
Another aspect of the present invention is a motor vehicle which comprises at least one observation apparatus described. The motor vehicle may be an at least partially electrically drivable motor vehicle and/or an at least partially autonomously drivable motor vehicle.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes, combinations, and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:
The observation apparatus 1 further comprises a head member 20, which is hingedly and lockably connected to the base member 10 by means of a hinge joint. Thereby, the head member 20 is arranged on the side of the base member 10 facing away from the fastening side 11 of the base member 10. Furthermore, the observation apparatus illustrated here comprises an observation member 2 in the form of a mirror face.
The observation apparatus 1 could also comprise a camera instead of a mirror face as observation member 2.
The base member 10 comprises a base member body 12 formed by a casing, and the head member 20 comprises a head member body 21 also member by a casing, wherein the base member body 12 the head member body 21 are adjacent to each other at a gap 40. This gap 40 extends through a relatively short connecting bar 30 designed through both casings of the base member body 12 as well as the head member body 21.
As can be seen from
The face of the base member body 13 and the face of the head member body 22 are separated from each other only by the gap 40.
An extension direction 61 of the guide face 60, which comprises the face of the base member body 13 and the face of the head member body 22, thereby extends along the incident direction 4.
Due to the recessed region 40 in the base member body 21, which results in an offset of the face of the base member body 22 with respect to the face of the base member body 13, an edge 23 of the base member body 21 is offset inwardly. In this way, the step 50 is implemented with a height 51 so that air flowing along the direction of incident 4 at the face 13 of the base member body—after it flowed over the gap 40—does not hit this edge 23 of the head member body 21. This prevents unwanted noise emissions from occurring.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2022 120 706.4 | Aug 2022 | DE | national |
