JP2001233125A - Rearview mirror including antiglare function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide rearview mirror having an antiglare function easily manufacturable with a reduction in weight and cost. SOLUTION: This mirror is provided with a transparent substrate 5 in a flat-surface shape or a flat-surface curvature shape arranged on an opening periphery of a mirror body 2, and a mirror surface 6 arranged inside of the mirror body 2 while inclining against the transparent substrate 5 in front-rear direction with a defined angle. The mirror is set in a non-antiglare condition by inclining the mirror body 2 downward, while in an antiglare condition by inclining upward. With such a structure, a mirror body 9 is constructed with two substrates, so that weight and cost are reduced. Occurrence of chatter can be prevented by reducing weight.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rearview mirror having a function of avoiding dazzling due to headlights of a following vehicle during night driving. Related to the technology to prevent.

[0002]

2. Description of the Related Art As is well known, an inner mirror is mounted in a vehicle such as a passenger car or a truck in order to visually confirm a rear view image to confirm safety. The inner mirror reflects the image of the rear field of view and introduces it into the driver's field of view.During night driving, if the headlight light of the following vehicle is reflected by the inner mirror and guided to the driver's field of view, May be dazzled. In order to prevent this, an anti-glare mirror has been devised and put to practical use.

FIG. 7 is an explanatory view schematically showing the structure of a conventional anti-glare mirror 101. As shown in FIG.
The anti-glare mirror 101 has a configuration in which a prism 102 having a triangular cross section is fixed inside a mirror body 103. Then, by operating a switching lever (not shown), the inclination angle of the mirror body 103 in the front-rear direction can be switched with a sense of moderation, so that it is possible to switch between the anti-glare state and the non-glare state.

That is, since the prism 102 has a reflective film 102a on the back surface side, when the mirror body 103 is inclined downward as shown in FIG. The light is reflected by the reflective film 102a on the back surface side of the light guide 102 and is guided to the driver's field of view. In this case, since the reflectance is high, a non-glare state is set.

On the other hand, as shown in FIG. 1B, when the mirror body 103 is inclined upward, the rear view image is reflected on the front side of the prism 102 and is introduced into the driver's view. Therefore, the reflectivity is lowered and the state becomes an anti-glare state. Therefore, in the daytime, by setting the non-glare state shown in FIG. 7A, the rear view image can be clearly recognized, and in the nighttime, the anti-glare state shown in FIG. By reducing the reflectance, it is possible to avoid dazzling due to the headlight light of the following vehicle.

However, the conventional anti-glare mirror has the following disadvantages. (A) When the prism 102 is made of glass, the weight is heavy and chattering (the vibration of the vehicle is transmitted and rattles) easily occurs. Further, since it is necessary to process the glass into a prism shape, much labor is required for grinding and polishing, which leads to an increase in cost.

(B) When the prism 102 is made of a transparent resin, deformation is apt to occur when assembling the body, and when deformation occurs, image distortion occurs. Further, the prism 102 made of resin is not easy to perform a base treatment before forming the reflective film 102a on the back surface side of the prism 102 and a coating treatment in consideration of appearance, and requires much labor for the treatment. However, there is a disadvantage that the cost is increased.

[0008]

As described above, in a conventional rearview mirror having an anti-glare function, since the prism 102 is used, when the prism 102 is made of glass, chatter occurs. On the other hand, the prism 10
2 is made of a transparent resin, the prism 102
However, there have been problems such as easy deformation, groundwork and painting requiring much labor.

The present invention has been made to solve such a conventional problem, and it is an object of the present invention to provide an anti-glare function that can be reduced in weight and cost and that is easy to manufacture. It is to provide a rearview mirror.

[0010]

In order to achieve the above object, according to the first aspect of the present invention, the mirror frame is tilted in the front-rear direction to switch the reflectance of the rear light, thereby preventing the glare state. In a rearview mirror capable of selecting a non-glare state, a transparent substrate having a flat plate or a flat curved shape portion, which is disposed at an opening peripheral portion of the mirror body, and which is disposed in the mirror body, and the transparent substrate is fixed. A flat plate or a flat-plate curved mirror surface member fixed at an interval and inclined at a predetermined angle in the front-rear direction with respect to the transparent substrate.

According to a second aspect of the present invention, a receiving seat is formed inside the mirror frame to be in contact with a peripheral edge of the mirror member, and the mirror member is fixed to the receiving seat by an adhesive member. It is characterized by that. In the invention according to claim 3, the transparent substrate has a projection that is in contact with the inner surface of the mirror body and protrudes toward the inner surface of the mirror body, and a claw is formed at a tip of the projection. The transparent substrate is characterized in that the claw portion engages with the inner surface of the mirror body and is fixed to the mirror body.

According to a fourth aspect of the present invention, the transparent substrate has a projection in contact with the inner surface of the mirror body and protruding toward the inner surface of the mirror body, and the tip of the projection is the mirror surface member. It is characterized by being fixed to the peripheral part by an adhesive member.

According to a fifth aspect of the present invention, the transparent substrate is disposed so as to cover an open end of the mirror body.
In addition, a peripheral portion of the transparent substrate is formed to be thick on the light incident side. The invention according to claim 6 is characterized in that the transparent substrate is fixed to an opening end of the mirror body by an adhesive member.

According to a seventh aspect of the present invention, the surface hardness of the mirror member is lower than the surface hardness of the transparent substrate. The invention according to claim 8 is characterized in that the mirror member comprises a mirror substrate and a reflection film formed on one surface of the mirror substrate, and the transparent substrate and the mirror substrate are integrally formed.

According to the present invention configured as described above, a mirror body is formed by using a transparent substrate having a flat plate or flat plate curved shape portion and a flat plate or flat plate curved shape mirror surface,
When the vehicle is in the non-glare state during daytime running, the mirror body is inclined downward. As a result, the image light from behind is reflected by the mirror surface having a high reflectivity and is introduced to the driver's eye point, so that the visibility of the rear view is improved. When the headlight of the following vehicle is dazzling during night driving, the mirror body is tilted upward. As a result, the image light from behind is reflected by the transparent substrate having a low reflectance and is introduced to the driver's eye point, so that dazzling due to headlight light can be prevented.

In the present invention, since the mirror body is formed by the transparent substrate and the mirror surface, and the space between the transparent substrate and the mirror surface is hollow, the weight can be reduced and chattering can be prevented. be able to.

Further, since the mirror body is formed of a transparent substrate and a mirror surface, when these are formed of resin, the transparent substrate and the mirror surface can be made of materials having different surface hardness. In other words, since the transparent substrate may come in contact with foreign matter, a material having a high surface hardness (for example, acrylic) is used. A material (e.g., polycarbonate) that emphasizes adhesion to the film can be used.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an external view showing a configuration of a rearview mirror having an antiglare function to which the present invention is applied, and FIG.
It is AA 'sectional drawing in FIG.

As shown in the figure, the rearview mirror 1 is a mirror body 2 having a substantially U-shaped cross section and an open front surface.
An operation for switching between an anti-glare state and a non-glare state by tilting the mirror body 2 in the front-rear direction with respect to the stay 3 for fixing the mirror body 2 to a ceiling portion inside the vehicle; A switching lever 4 for performing
Is provided.

Also, as shown in FIG.
A transparent substrate 5 is installed in the front opening of the mirror body 2 so as to cover the entire opening, and a mirror surface 6 having a flat plate shape (or a flat plate curved shape) is provided inside the mirror body 2.
Are arranged slightly inclined backward.

The transparent substrate 5 is formed of a transparent resin such as acryl or polycarbonate. As shown in FIG.
The transparent substrate 5 has a flat portion (or a flat curved portion) 5c, a thick portion 5a having a semicircular cross section is formed around the flat portion, and a back surface of the thick portion 5a. A claw-like projection 5b is formed on the side. The claw-shaped projections 5b are locked on the inner surface side of the mirror body 2 so that the transparent substrate 5 is firmly fixed to the mirror body 2.

The mirror surface 6 is composed of a mirror substrate 6a made of a transparent resin or glass, and a reflection film 6b formed on the back surface of the mirror substrate 6a. Then, the mirror body 9 is formed by the transparent substrate 5 and the mirror surface 6.

A receiving seat 7 for fixing the mirror surface 6 is formed at an appropriate position on the inner surface side of the mirror body 2.
Is fixed to the receiving seat 7 by an adhesive member 8 such as an adhesive or a double-sided tape.

Next, the operation of the rear-view mirror of the present embodiment configured as described above will be described with reference to the schematic views shown in FIGS. 3 (a) and 3 (b). FIG. 1A shows a state in which the rear-view mirror 1 is in a non-glare state, and video light incident from the rear (indicated by a dashed line in the figure).
Passes through the transparent substrate 5, is reflected by the mirror surface 6, and is introduced to the driver's eye point P1. Thereby, the driver can visually recognize the rear image in a clear state.

FIG. 2B shows a state in which the rear-view mirror 1 is in the anti-glare state, and the mirror body 2 is slightly more inclined than in the non-glare state (the state of FIG. 3A). The position is inclined upward. This switching can be performed by operating the switching lever 4 shown in FIG.

When the inclination angle is as shown in FIG. 3B (anti-glare state), the image light entering from behind is reflected by the transparent substrate 5 and introduced into the driver's eye point P1. become. The transparent substrate 5 has a lower light reflectance than the mirror surface 6, so that the driver can visually recognize a rear image with a lower reflectance. Thereby, dazzling due to the headlight light of the following vehicle can be prevented.

In this embodiment, the mirror body 2
The mirror body 9 is formed by using the transparent substrate 5 arranged in the front opening of the mirror body 6 and the mirror surface 6 arranged inside the mirror body 2 and inclined slightly backward with respect to the transparent substrate 5. Compared with a conventionally used prism having a triangular cross section, the weight of the material forming the mirror body 9 can be reduced. In particular, when the transparent substrate 5 and the mirror substrate 6a are formed of resin, the weight can be further reduced. Thereby, occurrence of chatter can be significantly reduced.

The mirror surface substrate 6a of the mirror surface 6 is formed in a flat plate or a flat plate curved shape.
When a is formed of glass, a large amount of labor is not required for operations such as grinding and polishing, so that workability during manufacturing is good and cost can be reduced.

When the mirror substrate 6a is formed of resin, it can be easily manufactured by molding.
Furthermore, since the transparent substrate 5 has the thick portion 5a in the peripheral portion, the appearance of the rearview mirror 1 is improved.

Since the mirror surface 6 is fixed to the receiving seat 7 using an adhesive member 8 such as an adhesive or a double-sided tape,
No excessive external force acts from the surroundings, and deformation during assembly and holding can be prevented. As a result, image distortion can be prevented.

Further, since the transparent substrate 5 and the mirror surface 6 have a separate structure, a hard coat treatment of only the transparent substrate 5 is performed.
The coating process of the peripheral thick part 5a becomes easy. Similarly, the hard coat processing of the mirror surface substrate 6a, the metal reflection film 6b
The filming work becomes easy.

Further, since the mirror body 9 is composed of two substrates (transparent substrate 5 and mirror surface 6), the mirror surface substrate 6a and the transparent substrate can be formed of resins of different materials, respectively. The surface hardness of the substrate 5 can be higher than the surface hardness of the mirror surface substrate 6a. That is, the transparent substrate 5
Since it is exposed to the outside of the rearview mirror, there is a risk of contact with foreign matter. For example, a material having a high surface hardness such as acryl can be used. The mirror surface substrate 6a has a small possibility of contact with foreign matter. The adhesion to the reflective film 6b is emphasized rather than the hardness, and for example, polycarbonate can be used.

Further, since the space between the transparent substrate 5 and the mirror surface 6 has a hollow structure, the reflectance in the anti-glare state is improved as compared with the conventional one using a prism. That is, while the reflectance in the anti-glare state is about 4% in the rear-view mirror using the conventional prism, the reflectance in the anti-glare state is 8 to 9 in the rear-view mirror of the present embodiment.
%, And the rear visibility is improved.

FIG. 4 is a sectional view showing the structure of a rearview mirror 11 according to a second embodiment of the present invention. As shown in FIG. 1, the rearview mirror 11 has a transparent substrate 15 disposed in a front opening of a mirror body 12.
A rib-shaped projection 15b is formed on the inner periphery of the mirror body 12 at the peripheral portion of the fifth member 5.

The distal end of the rib-like projection 15b extends to near the surface of the mirror surface 16, and is fixedly adhered to the periphery of the mirror surface 16 by an adhesive member 19 such as an adhesive or a double-sided tape. . Further, a mirror body 20 is formed by the transparent substrate 15 and the mirror surface 16. The other parts have the same configuration as the rearview mirror 1 shown in FIG.

In the rearview mirror 11 according to the second embodiment shown in FIG. 4, the same effects as those of the above-described first embodiment can be achieved, and the transparent substrate 15 and the mirror surface 16 are bonded by an adhesive member. Since the fixing is performed by the fixing member 19, an effect that the connection between the transparent substrate 15 and the mirror surface 16 is further firmly achieved is achieved.

FIG. 5 is a sectional view showing the structure of a rearview mirror 21 according to a third embodiment of the present invention. As shown in FIG.
And a transparent substrate 25 arranged at the front opening of the mirror body 22 and a mirror surface 26 arranged inside the mirror body 22. The periphery of the transparent substrate 25 is a thick portion 25a, and the back surface side of the thick portion 25a is fixed to the front opening of the mirror body 22 by an adhesive member 29 such as an adhesive or a double-sided tape. ing. The other configuration has the same configuration as the rearview mirror 1 shown in FIG.

The rearview mirror 21 having such a configuration
In the same manner as in the first embodiment, weight reduction, cost reduction, prevention of substrate deformation, prevention of chatter,
It is possible to obtain effects such as reduction of labor at the time of creation.

FIG. 6 is a sectional view showing the configuration of a rearview mirror 31 according to a fourth embodiment of the present invention. As shown in FIG.
And a hollow body 33 disposed on the mirror body 32 and having a hollow inside by a method such as gas injection molding.

The hollow body 33 has a hollow portion 34 having a triangular cross section.
A transparent substrate surface 35 is formed on the front surface, and a mirror surface 36a is formed on the rear surface. In addition, a reflection film 36b is formed on the back surface side of the mirror surface 36a, and a thick portion 35a is formed around the transparent substrate surface 35. And, the back side of the mirror surface 36a is
The adhesive member 38 is adhesively fixed to a receiving seat 37 formed on the mirror body 32.

According to such a configuration, as in the above embodiment, the material of the mirror can be reduced in weight, so that chattering during running of the vehicle can be prevented, and the cost can be reduced. Can be achieved. Further, since the hollow body 33 and the mirror body 32 are bonded and fixed by the bonding member 38, no unreasonable external force is applied to the hollow body 33 when the mirror is assembled, and the transparent substrate surface 35 and the mirror surface 36a can be prevented from being deformed. Therefore, distortion of an image can be prevented.

Further, since the mirror substrate surface 36a and the transparent substrate surface 35 are integrated, the mirror body 3
2 The work of mounting inside is simplified.

[0043]

As described above, in the rearview mirror having the antiglare function according to the present invention, the transparent substrate disposed on the periphery of the opening of the mirror body and the mirror member disposed inside the mirror body are used. Since the mirror body has the same function as a conventionally used prism, it is possible to reduce the weight of members constituting the mirror body. Thereby, occurrence of chatter can be suppressed.

Further, the peripheral portion of the transparent substrate has a thick shape,
In addition, since the transparent substrate is disposed so as to cover the opening end of the mirror body, the appearance can be improved. Further, since the mirror member is fixed to the receiving seat inside the mirror body by the adhesive member, no excessive external force is applied to the mirror member, and distortion of the image can be prevented.

Further, since the mirror is constituted by the two substrates of the transparent substrate and the mirror member, the surface hardness of the transparent substrate can be made higher than the surface hardness of the mirror member. Further, since a hollow portion is formed between the transparent substrate and the mirror member, the reflectance in the anti-glare state is increased and the visibility is improved as compared with the case where a prism is used.

[Brief description of the drawings]

FIG. 1 is an external view showing a configuration of a rearview mirror having an antiglare function according to the present invention.

FIG. 2 is a cross-sectional view illustrating a configuration of a rearview mirror having an antiglare function according to the first embodiment.

FIGS. 3A and 3B are explanatory diagrams illustrating a state in which a tilt angle of a rear-view mirror having an anti-glare function according to the first embodiment is switched, where FIG. 3A is a non-glare state, and FIG. Is shown.

FIG. 4 is a cross-sectional view illustrating a configuration of a rearview mirror having an antiglare function according to a second embodiment.

FIG. 5 is a cross-sectional view illustrating a configuration of a rearview mirror having an antiglare function according to a third embodiment.

FIG. 6 is a cross-sectional view illustrating a configuration of a rearview mirror having an antiglare function according to a fourth embodiment.

7A and 7B are explanatory diagrams showing a configuration of a conventional anti-glare mirror, wherein FIG. 7A shows a state at the time of non-glare, and FIG. 7B shows a state at the time of anti-glare.

[Explanation of symbols]

 1, 11, 21, 31 Rearview mirror 2, 12, 22, 32 Mirror body 3 Stay 4 Switching lever 5, 15, 25 Transparent substrate 5a, 25a, 35a Thick portion 5b Claw-like protrusion 5c Flat plate-shaped portion 6,16 , 26 Mirror surface (mirror member) 6a Mirror substrate 6b, 36b Reflective film 7, 37 Receiving seat 8, 19, 29, 38 Adhesive member 9, 20 Mirror body 15b Rib-shaped protrusion 33 Hollow body 34 Hollow part 35 Transparent substrate surface 36a Mirror substrate surface

Claims (8)

[Claims] 1. The mirror frame is tilted in the front-rear direction to switch the reflectivity of the rear light, thereby providing an anti-glare state.
In a rearview mirror capable of selecting a non-glare state, a transparent substrate having a flat plate or a flat curved portion disposed at an opening peripheral portion of the mirror body, and being disposed in the mirror body, the transparent substrate being fixed. A rear-view mirror having an anti-glare function, comprising: a flat plate or a flat-plate curved mirror surface member which is fixed at a predetermined angle in the front-rear direction with respect to the transparent substrate at intervals. 2. The mirror seat according to claim 1, wherein a receiving seat is formed in contact with a peripheral portion of the mirror member, and the mirror member is fixed to the receiving seat by an adhesive member. A rearview mirror having an antiglare function according to 1. 3. The transparent substrate has a projection in contact with the inner surface of the mirror body and protruding toward the inner surface of the mirror body, and a claw is formed at a tip of the projection. The rearview mirror having an anti-glare function according to claim 1, wherein the claw portion is fixed to the mirror body by engaging with an inner surface of the mirror body. 4. The transparent substrate has a projection that is in contact with the inner surface of the mirror body and protrudes toward the inner surface of the mirror body.
The rearview mirror having an antiglare function according to claim 1, wherein the rearview mirror is fixed by an adhesive member. 5. The transparent substrate is disposed so as to cover an opening end of the mirror body, and a peripheral portion of the transparent substrate is formed to be thick on a light incident side. A rearview mirror having an antiglare function according to any one of claims 1 to 4. 6. The rearview mirror having an antiglare function according to claim 5, wherein the transparent substrate is fixed to an opening end of the mirror body by an adhesive member. 7. The rearview mirror having an antiglare function according to claim 1, wherein a surface hardness of the mirror member is lower than a surface hardness of the transparent substrate. 8. The mirror surface member according to claim 1, wherein the mirror member comprises a mirror substrate and a reflection film formed on one surface of the mirror substrate, and the transparent substrate and the mirror substrate are integrally formed. Rearview mirror with anti-glare function.