DE3909392A1 - Inside rearview mirror for motor vehicles - Google Patents

Abstract

Inside rearview mirror (1) for motor vehicles, made of a transparent, thermoplastic material, with a cross-section shaped in the manner of a vertical wedge. The inside rearview mirror (1) can be pivoted about a transverse axis between a normal position and an anti-dazzle position (dipped position), and has a flat viewing face (5), and a flat rear side (3) provided with a reflective coating (4). Either a plastic element (6), which is inversely wedge-shaped with respect to the inside rearview mirror (1), is made of transparent, thermoplastic material and has a flat front face (8) is fitted tightly to the viewing face (5), or only those regions of the rear side (3) which are dipped in the anti-dazzle position have a reflective coating (4). <IMAGE>

Description

The invention relates to an interior rearview mirror for Motor vehicles, with those in the preamble of the patent pronounced 1 characteristics.

Such an interior rear view mirror from a transpa annuity, thermoplastic material is already from the DE-OS 31 16 043 known. The polymethyl methacrylate Resin-made interior rear view mirror has a low impact resistance. For example with a An accident can occur because the inside back view mirror splinters and in the vehicle People injured. This interior rearview mirror points also a low thermoforming stability.

The invention has for its object an interior rearview mirror according to the preamble of the patent to say 1, the fully dipped position is dimmed and no distracting in the mirror surface visible color fringes.

This task is carried out in the characterizing part of the Features specified claim 1 solved. Especially it is advantageous that disturbing color fringes in the mirror surface can be avoided in a simple manner. Is the Interior rearview mirror pivoted into the dipped position, so he is completely dimmed. This essentially becomes  achieved on two different measures. On the one hand it is possible that the interior rearview mirror a for example corresponding wedge mirrors made of glass Wedge angle of about 3.5 degrees. The one at this Wedge angles caused color fringing in the mirror surface will be completely or largely eliminated if on the viewing area of the interior rearview mirror reverse wedge-shaped art to the interior rear-view mirror fabric element made of transparent, thermoplastic Material with a flat, directed towards the mirror viewer facing front surface. Corresponds to the material of the Plastic element the material of the interior rear view mirror gels and is the front surface parallel to the back of the Internal rearview mirror, so the dispersion is complete dig eliminated. The inside rearview mirror is in the dispersion better than a wedge mirror made of glass, the has a dispersion that usually does not yet annoying color fringes in the mirror surface caused. Another possibility is color fringing in the mirror surface to avoid is the wedge angle of the inside to reduce the rearview mirror accordingly. A Interior rear view mirror made of polycarbonate (PC) for example at a wedge angle of approximately 2.1 degrees no annoying color fringes in the mirror surface. At this wedge angle is the inside rearview mirror in Dimmer position not completely dimmed. In the game The gel area is a light, non-dimmed stripe recognizable. This is to be avoided in that the light streaks in the dimming area the back surface not with a reflective Be layering is provided. This can be done, for example, by Cover this area when done on the back side of the interior rearview mirror the reflective Coating is applied. The one or the other other way freed from annoying color fringing inside The rearview mirror must be completely dimmed and shows  advantages over a mirror made of glass on. The interior rearview mirror is inexpensive in To manufacture injection molding process. For example, off Interior rearview mirror made of polycarbonate thermoform stable and has high impact resistance on.

Advantageous embodiments of the invention are counter stood by subclaims.

Two embodiments of the invention are based on a drawing explained in more detail. Show it

Fig. 1 a first embodiment of fabric element with a voltage applied to the viewing surface Arts

Fig. 2 shows a second embodiment with a rear view mirror only partially provided with a reflective coating on the back and

Fig. 3 shows the embodiment shown in Fig. 2 in a view of the viewing surface of the interior rearview mirror.

The inside rear view mirror 1 of a motor vehicle shown in FIG. 1 in a first embodiment has a wedge-shaped cross section in the vertical direction. It is arranged pivotably about a transverse axis, not shown, between a normal position and a dimming position, for example in a mirror housing. In the exemplary embodiment, the wedge edge 2 , which is narrower at the bottom, has a thickness of approximately 3 mm. It is also possible that the interior rearview mirror tapers not upwards but downwards in a wedge shape. In the present exemplary embodiment, the inside rear view mirror 1 , which is provided on the rear side 3 at the front in the direction of travel with a reflective coating 4 , is made of the plastic polycarbonate. The interior rearview mirror 1 could, however, also be formed from another transparent, thermoplastic, such as, for example, polymethyl methacrylate (PMMA). This interior rearview mirror 1 has a small Abb´ number, a higher refractive index than a glass wedge mirror and therefore a larger dispersion, which causes disturbing color fringes in the mirror surface when the wedge angle α of the interior rearview mirror is approximately 3.5 degrees, the usual one Wedge mirror made of glass. In order to avoid disturbing color fringes in the mirror image, there is a plastic element 6 which is wedge-shaped in reverse to the mirror and which, as in the exemplary embodiment, can be covered by a transparent, scratch-resistant protective layer 7 on the viewing surface 5 of the interior rear-view mirror 1 . The facing surface of the mirror viewer 8 of the plastic element 7 is in the embodiment approximately parallel to the back 3 of the inside rear view mirror 1 . The plastic element 7 is made from the material of the interior rearview mirror 1 . It is also possible that the plastic element is gebil det by an internally hollow and, for example, air-filled film. In the normal position, which corresponds to the day position, the mirror image generated by reflection on the back must be observed. If the interior rearview mirror 1 is pivoted about the transverse axis (not shown) into the dipped position, the illuminated headlights of following vehicles can be recognized for example via the weakly reflecting viewing surface. The reflection of the rear side 3 through the reflective coating 4 is approximately 80%, while the reflection on the viewing surface 5 is approximately 4%. By connecting the inner rear view mirror 1 with the plastic element 6 , annoying color fringes are avoided in the mirror surface. The wedge angle of the interior rearview mirror 1 corresponding to a glass wedge mirror enables a complete dimming of the mirror image when the interior rearview mirror is in its dipped position.

A second embodiment shown in Fig. 2 shows an interior rearview mirror 1 ', which also has a wedge-shaped cross section increasing in the vertical direction upwards. The interior rearview mirror 1 'is pivotally arranged as in the first embodiment between a normal position and a dimmer position about a transverse axis, not shown. In this embodiment, the inside rearview mirror 1 'is surrounded by a transparent, scratch-resistant protective layer 9 . The material of the inner rear view mirror 1 'is also in this embodiment, the plastic polycarbonate. The interior rearview mirror 1 'could also be made of another transparent, thermoplastic material, for example PMMA or TPX. In order to avoid disturbing color fringes caused by dispersion in the mirror image, the wedge angle α 'is reduced to about 2.1 degrees compared to a wedge angle made of glass. At this wedge angle α 'corresponds to the dispersion of the polycarbonate-made interior rear view mirror 1 of the non-disturbing dispersion of a wedge mirror made of glass. At this reduced wedge angle α ', the mirror image corresponding to the normal position is not completely dimmed in the dipped position. In the dimmer position, an area that is not dimmed remains at the lower edge of the mirror image. To avoid this, the non-dazzled area causing partial surface 10 of the back 3 'or the protective layer 9 is not coated with a reflective coating 4 ', which on the remaining area of the back 3 'or on the protective layer 9 of the Interior rearview mirror 1 is applied. This can be achieved, for example, that the partial surface 10 'is covered when applying the reflective coating 4 '.

In the view shown in FIG. 3 on the viewing surface of the interior rearview mirror 1 , the part 10 which is not provided with a reflective coating is shown, which is delimited by a broken line 11 at the top. Since the partial surface 10 is not provided with a reflective coating, the mirror image in the dipped position does not contain an area that is not dimmed. The mirror image thus also corresponds to a wedge mirror made of glass, for example, in the dipped position. The interior rearview mirror 1 made of a transparent, thermoplastic material also has a low weight. If the inside rearview mirror is made of polycarbonate, for example, it is also shatterproof and thermoformable. In the figure, section line II-II is indicated, which speaks ent the vertical cross section shown in FIG. 2.

Claims (10)

1. Interior rear-view mirror for motor vehicles, made of a transparent, thermoplastic material, with a vertically wedge-shaped cross-section, which can be pivoted about a transverse axis between a normal position and a dimming position and has a flat viewing surface and a flat rear side provided with a reflective coating, characterized in that that either on the viewing surface (5) to the interior rear-view mirror (1) is reversed wedge-shaped art Stoffele element (6) is applied or made of transparent thermoplastic material with a planar front face (8) only the areas of the back (3 ') a reflectors animal coating ( 4 ') which are dimmed in the dipped position. 2. Interior rear view mirror according to claim 1, characterized in that the front surface ( 8 ) of the plastic element ( 6 ) facing the mirror viewer is approximately parallel to the rear side ( 3 ) of the interior rear view mirror ( 1 ). 3. Interior rearview mirror according to claim 1 or 2, characterized in that the material of the plastic element ( 6 ) corresponds to the material of the interior rearview mirror ( 1 ). 4. Interior rearview mirror according to one of claims 1 to 3, characterized in that the material of the interior rearview mirror ( 1 , 1 ') is the plastic polycarbonate. 5. Interior rearview mirror according to one of claims 1 to 4, characterized in that the plastic element ( 6 ) is a film. 6. Interior rearview mirror according to claim 5, characterized characterized that the film is hollow and with air is filled. 7. Interior rearview mirror according to one of claims 1 to 6, characterized in that the plastic element ( 6 ) is covered by a scratch-resistant, transparent protective layer ( 7 ). 8. interior rearview mirror according to claim 1, characterized in that the wedge angle of the interior rear view mirror ( 3 ) and the wedge angle of the plastic element ( 6 ) are each about 3.5 degrees. 9. interior rearview mirror according to claim 1 and 4, characterized in that the wedge angle of the rear view ( 3 ') only partially with a reflective coating ( 4 ') provided interior rear view mirror ( 1 ') is about 2.1 degrees. 10. interior rearview mirror according to claim 9, characterized in that the reflective coating ( 4 ') on a scratch-resistant, transparent protective layer ( 9 ) is applied, which surrounds the interior rear view mirror ( 1 ').