DE3909395C1 - Dippable inside rearview mirror for motor vehicles - Google Patents

Abstract

Inside rearview mirror (1) for motor vehicles, made of a transparent, thermoplastic material, which is designed such that it is wedge-shaped in the vertical direction and is arranged such that it can pivot between a normal position and an anti-dazzle position (anti-glare position, dipped position). The inside rearview mirror (1) has a rear face (2), which in the direction of travel is in front and is provided with a reflection layer (7), and a rear viewing face (4), of which at least one face (viewing face 4) is curved spherically, toroidally or cylindrically and the other face (rear face 2) is flat. With a wedge angle ( alpha ) of between approximately 1.75 and 3.5@ the radius (R) of the rear face and/or the viewing face (4) lies between 2400 and 3800 mm. <IMAGE>

Description

The invention relates to a dimmable inner back view mirror for motor vehicles, with those in the preamble of claim 1 specified features.

Such a dimmable interior rearview mirror is already known from DE-OS 34 15 603, the in vertical direction a wedge-shaped cross section having mirror plate on hers with a reflection layered back surface and in one version also spherical on the front viewing surface is arched. The mirror conveys through the curvature an extended field of view like a panoramic mirror in day position when only the back surface is curved, and an extended field of view even in the dipped position, if the viewing area of the mirror plate also is spherically curved. A major disadvantage of this known mirror, the mirror plate made of plastic consists in the fact that the considered reverse exercise is not reproduced realistically, so that the distance from people or vehicles with the rear view mirror can be observed, only with difficulty is to be assessed. Another disadvantage is that the for example, mirrors made of polycarbonate (PC) plate has a small Abbe number that one against higher refractive index over glass and thus a larger Dispersion corresponds to that in the mirror surface disturbing  visible color fringes. The mirror plate is out Polymethyl methacrylate (PMMA) manufactured, this shows although one corresponds approximately to a mirror plate made of glass de Abb´ number, which per se in the observation area the mirror plate causes no annoying color fringes, the Interior rearview mirror, however, affects safety in the event of an accident, since its mirror plate has low impact resistance and therefore at one Accident can splinter. Another disadvantage is that the mirror plate is only slightly thermoformable ability.

The invention has for its object a dimming rear view mirror for motor vehicles after the Preamble of claim 1 to create the largely realistic reflection conveyed, that has no color fringes that interfere with dispersion. In addition, the interior rearview mirror should corresponding to the normal position of the mirror plate Mirror image completely tilted out of sight be when the mirror plate is in the dipped position located.

This task is with an interior rear view mirror genus specified at the beginning by the in the mark of claim 1 specified features solved. It is particularly advantageous that at a wedge angle of about 1.75 to 3.5 degrees no annoying color fringes in the Mirror image occur when the radius of curvature of the spherical, toric or cylindrical curved back area and / or the front viewing area between is about 2400 and 3800 mm. In this case, too the reflection from the night position The viewer's field of vision is shifted away, if the mirror plate about a transverse axis in the night position is tilted. The mirror plate can also be one  Wedge mirrors made of glass corresponding wedge angles of about 3.5 degrees. For example, the mirror plate according to the teaching of DE-OS 34 15 603 made of polycarbonate manufactured, this wedge angle is to be reduced somewhat, around which is not disturbing in the case of a glass mirror to achieve dispersion. Another The dispersion would decrease the wedge angle lower even further, but then it can happen that this corresponds to the normal position of the mirror plate The mirror image in the dipped position is not completely gone is tilted or to completely tilt the respective other mirror image a smaller radius of curvature the rear surface and / or the viewing surface is that the objects are visibly enlarged. At the specified radii of curvature for the rear surface and the viewing area is an enlargement of that with the Mirror plate not considered the surroundings of the vehicle recognizable. Is the mirror plate of the interior review mirror made of polycarbonate (PC), for example, so it is thermoformable and has a high Impact resistance. The mirror plate is an example to manufacture inexpensively in the injection molding process. Disturbingly visible color fringes and not dimmed Areas in the mirror surface are avoided or not disturbing color fringes reduced.

Advantageous embodiments of the invention are counter stood the subclaims.

Two embodiments of the invention are based on the drawing explained in more detail. It shows

FIG. 1 is a view of the viewing surface of the mirror plate of the interior rear-view mirror,

Fig. 2 is a vertical cross section through the central plane of the mirror plate, according to the section line II-II in Fig. 1 and

Fig. 3 is a Fig. 2 corresponding cross-section with 5 another cylindrical radius of curvature of the viewing surface.

A of FIG. 1 in a view of the processing surface Betrach mirror plate 1 shown is wedge-shaped in verti Kaler direction and, for example, pivotably arranged in a housing, not shown to a non-illustrated transverse axis between a normal position and an anti-glare position. The mirror plate 1 is made in the embodiment of the plastic polycarbonate (PC) and surrounded by a transparent, scratch-resistant protective layer. On the rear surface of the mirror plate 1 lying in the direction of travel, a reflective layer 7 is applied, which in the normal position causes the light rays to be reflected by approximately 80%. In the dipped position, a reflection of about 4% is achieved via the viewing surface facing the mirror viewer.

A vertical cross section through the center plane of the mirror plate 1 along the section line II-II indicated in FIG. 1 is shown in accordance with a first embodiment example in FIG. 2. In this embodiment, the wedge angle α is chosen so that the mirror plate 1 tapers downwards. It is also possible to design the wedge angle so that the mirror plate 1 tapers ver in the vertical direction upwards. In the first embodiment, the wedge angle α is 2.1 degrees. The rear surface 2 of the mirror plate 1 is flat and includes in the embodiment with the upper and lower edges 3 and 3 'and with the two sides of the mirror plate 1 each a right angle. The height H of the mirror plate 1 is about 64 mm. At the specified wedge angle α , the dispersion corresponds to a wedge mirror made of glass with a wedge angle of approximately 3 degrees 20 minutes, which has a flat rear surface and a flat viewing surface. There are therefore no annoying color fringes in the mirror surface. With a likewise flat viewing surface, however, the mirror image corresponding to the normal position of the mirror plate could not be tilted completely in the dipped position. So that the mirror image corresponding to the normal position of the mirror plate is completely tilted in the dipped position, the viewing surface 4 has a cylindrical radius of curvature R , which in the exemplary embodiment is 3441 mm. However, the mirror plate could also be spherically or torically curved on the rear surface and / or on the viewing surface. Through the curvature radius R , the viewing surface 4 is convexly curved forward. The spherically, torically or cylindrically curved front rear surface and / or front viewing surface could also be convexly curved to the rear. The in the vertical center plane of the mirror plate 1 tangent T to the lower, narrow wedge edge 3 'adjacent edge line 6 of the viewing area 4 includes in the embodiment with the back surface 2 an angle β of 3 degrees 10 minutes. The center M of the radius of curvature R lies in the vertical center plane of the mirror plate 1 on a straight line 5 perpendicular to the tangent T in the direction of travel in front of the rear of the mirror plate 1 .

A second embodiment is shown in FIG. 3 in a vertical cross section along the section line III-III shown in FIG. 1, which is formed similar to the first embodiment.

In contrast to the first embodiment, the mirror plate 1 'in the second embodiment has a wedge angle α ' of 1.75 ° and a tangent angle β 'of 3 degrees 10 minutes. The radius of curvature R 'is 2590.8 mm in this embodiment. The height H 'of the mirror plate 1 ' is about 64 mm. On the back surface 2 'a reflection layer 7 ' is applied. The thickness at the narrow wedge edge is approximately 3 mm in both exemplary embodiments.

Different from the two embodiments could the back surface of the mirror plate either as well the viewing area or instead of the viewing area surface backwards or forwards spherical, toric or be cylindrically convex curved. Is only that Back surface of the mirror plate is curved, so is the Viewing area evenly formed.

Claims (6)

1.Dimmable interior rearview mirror for motor vehicles, with a vertical wedge-shaped cross-section having a mirror plate made of a transparent thermoplastic material, which is arranged pivotably about an approximately transverse axis between a normal position and a dimming position and the one provided with a reflective layer on the rear surface and has a front viewing surface, of which at least one of the two surfaces is curved, characterized in that the curved rear surface ( 2 ; 2 ') and / or the viewing surface ( 4 ; 4 ') of the mirror plate ( 1 ; 1st ') At a wedge angle ( α ; α ') between about 1.75 and 3.5 degrees has a radius of curvature ( R ; R ', spherical, toric or cylindrical) between 2400 and 3800 mm. 2. Dimmable interior rearview mirror according to claim 1, characterized in that the mirror plate ( 1 ; 1 ') is made of polycarbonate. 3. Dimmable interior rearview mirror according to claim 1 or 2, characterized in that a scratch-resistant, transparent protective layer is applied to the mirror gelplatte ( 1 ; 1 '). 4. Dimmable interior rearview mirror according to one of claims 1 to 3, characterized in that the plate in an approximately vertical central plane of the mirror ( 1 ; 1 ') lying tangent (T; T') to the narrow wedge edge ( 3 ') of the Mirror plate ( 1 ; 1 ') adjacent edge line ( 6 ; 6 ') of the viewing surface ( 4 ; 4 ') with the rear surface ( 2 ; 2 ') an angle ( β ; b ') of about 3 to 3.5 degrees closes. 5. Dimmable interior rearview mirror according to claim 4, characterized in that the center point ( M ; M ') of the radius of curvature ( R ; R ') on a tangent (T; T ') to the narrow wedge edge ( 3 ') perpendicular straight line ( 5th ; 5 ') lies in the approximately vertical central plane of the mirror plate ( 1 ; 1 '). 6. Dimmable interior rearview mirror according to one of claims 1 to 5, characterized in that a small wedge angle ( α ; a ') is assigned a small radius of curvature ( R ; R ').