JPH0245281B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The vehicle lamp of the present invention will be explained in accordance with the following items.

A Industrial application field B Background art C Summary of the invention D Examples a Basic form b Left and right diffused area irradiation means c Central diffused area irradiation means d Spot irradiation means e Light distribution E Effects of the invention (A Industrial application field ) The present invention relates to a novel vehicular lamp. Specifically, the present invention aims to provide a novel vehicle lamp that can obtain the required spread in the left and right directions and the required luminous intensity at the center.

(B Background Art) In the case of vehicular lamps, for example, automobile lamps, the light distribution and the luminous intensity at each part of the light distribution are strictly defined.

For example, back-up lamps for automobiles require illumination with a spread of nearly 45 degrees on each side and high luminous intensity at the center.

However, with conventional vehicle lamps, it is difficult to obtain such a wide light distribution and the required luminous intensity.

(C Summary of the Invention) The vehicular lamp of the present invention comprises a left and right diffused area irradiation means that irradiates light from a light source at an angle of 5 degrees or more vertically and an angle of 45 degrees or more horizontally, and central diffused area irradiation means that irradiates light from the light source with an angle of 10 degrees or more upward, 5 degrees or more downward, and 10 degrees or more left and right; The spot irradiation means is equipped with a spot irradiation means that irradiates the spot with a spread of more than 30 degrees.

Therefore, according to the present invention, the spread of the light distribution is ensured by the left and right diffused irradiation means, and the spread of the light distribution and the luminous intensity at the center are ensured by the central diffused area irradiation means and the spot irradiation means. It is possible to provide a vehicular lamp that can secure and obtain suitable light distribution.

(D Embodiment) Details of the vehicular lamp of the present invention will be described below with reference to an illustrated embodiment in which the vehicular lamp of the present invention is applied to a back-up lamp for an automobile.

(a Basic form) In the figure, 1 is a back-up lamp, and 2 is a lamp body made of synthetic resin. A mounting groove 3 facing forward is formed in the front opening edge of the lamp body 2.

Reference numeral 4 designates an outer lens attached to the lamp body 2 so as to cover the front opening of the lamp body 2, and a side wall portion 5 is formed to protrude rearward from the peripheral edge of the outer lens. Then, the side wall portion 5
A rear end portion of the lamp body 2 is fitted into the mounting groove 3 and fixed with an adhesive 6.
Note that this outer lens 4 is made of a transparent material, for example, a transparent synthetic resin.

An inner lens 7 is placed inside the outer lens 4 and is made of transparent synthetic resin. The inner lens 7 is formed with mounting pieces 8, 8 that protrude forward from both left and right edges thereof, and these mounting pieces 8, 8 are attached to both left and right sides of the side wall portion 5 of the outer lens 4. It is fixed to the inner surface by appropriate means such as ultrasonic welding.

9 is a light bulb attached to the lamp body 2.
Reference numeral 10 denotes a mounting hole formed in a flat surface 11 that is slightly downward from the approximate center of the lamp body 2, and the socket plug 12 that is removably attached to the mounting hole 10 is connected to the socket plug 12 as described above. A light bulb 9 is detachably attached.

(b Left and Right Diffusion Area Irradiation Means) The left and right diffusion area irradiation means is constituted by a reflection section provided on the lamp body 2 and a cylindrical lens element formed on the front surface of the inner lens 7.

Reference numeral 13 denotes a reflecting section, which is formed of a metal plate fixed to the inner surface of the lamp body 2. The reflecting portion 13 is formed in an area approximately in the lower half of the upper half in the vertical direction, and in an area slightly deviated to the left in approximately a half area around the center in the horizontal direction. has been done. Then, the reflecting section 13
The shape of the reflecting surface is the upper half of the paraboloid from the optical axis in the vertical section, and is spherical in the horizontal section. The focal point of the paraboloid and the center of the sphere are located at approximately the same point, and the filament 14 of the light bulb 9 is placed at this point.

Therefore, the point emitted from the filament 14 and reflected by the reflection section 13 becomes a parallel light beam in the vertical direction, and becomes a diffused light in the horizontal direction.

15, 15, . . . are cylindrical lens elements formed in substantially the upper half region of the front surface of the inner lens 7 so as to extend in the horizontal direction. Cylindrical lens elements have light-gathering properties and therefore
The light condensed by these is diffused beyond the condensing position. Therefore, when viewed in the vertical direction, the lights l ₁ , l ₁ ,
... is a transparent part 1 formed in the outer lens 4 by the cylindrical lens elements 15, 15, ...
The light is once focused at 6, 16, . . . , and then diffused and irradiated upward and downward at an angle of approximately 5 degrees. In addition, in the horizontal direction, it is diffused at an angle of approximately 45 degrees to the left and right, and the area A (left and right diffusion areas) shown in Figure 4 is
will be irradiated.

In addition, in order to increase the diffusion angle to the left and right, a cylindrical lens element extending vertically may be provided on the inner surface of the outer lens 4. Further, this vertical cylindrical lens element and the horizontal cylindrical lens element 15, 15,
... may be replaced by a fisheye step, that is, a substantially convex spherical lens element.

Incidentally, grooves 17, 17, . It is applied by painting etc. to make it an opaque part. That is, in the outer lens 4, transparent portions 16, 16, . . . and non-transparent portions 17, 17, .

(c Central Diffusion Area Irradiation Means) The central diffusion area irradiation means includes a Fresnel lens element formed on the rear surface of the inner lens 7, a cylindrical lens element formed on the front surface of the inner lens 7, and a cylindrical lens element formed on the inner surface of the outer lens 4. It consists of a lens element.

18, 18, . . . are Fresnel lens elements formed in the upper quarter of the inner surface of the inner lens 7, and are connected to the filament 1 of the light bulb 9.
4 to these Fresnel lens elements 18, 18,...
The light beams l ₂ , l ₂ , ... directly irradiated by the light beams are assumed to be substantially parallel light fluxes.

19, 19, . . . are cylindrical lens elements formed on the front surface of the inner lens 7 in areas corresponding to the formation areas of the Fresnel lens elements 18, 18, . . . and are formed to extend in the horizontal direction.

The light l ₂ , l ₂ , ... which has been made into a substantially parallel light beam by the Fresnel lens elements 18 , 18 , ... is focused on the transmission portion 16 , 16 , ... of the outer lens 4 by the cylindrical lens elements 19 , 19 , ... is,
The light is emitted from the focal point with a tendency to diffuse in the vertical direction.

20, 20, ... are Fresnel lens elements 18 of the inner lens 7 among the inner surfaces of the outer lens 4,
18, . . . A cylindrical lens element extending in the vertical direction formed in a region corresponding to the formation region.

These cylindrical lens elements 20, 20,
... causes the light beams l ₂ , l ₂ , ... to be irradiated with a tendency to spread in the left-right direction.

Due to each of the above factors, in the horizontal direction, it is diffused at an angle of about 18 degrees to the left and right, and in the vertical direction, it is diffused at an angle of about 15 degrees to the top and bottom, and irradiates the area B (central diffusion area) shown in Figure 4. be done.

In addition, the above-mentioned cylindrical lens element 19,
A fisheye step may be provided in place of 19, . . . and 20, 20, . It's okay.

(d Spot irradiation means) The spot irradiation means includes a Fresnel lens element formed on the rear surface of the inner lens 7, a correction prism element formed on the front surface of the inner lens 7, and a cylindrical lens element formed on the inner surface of the outer lens 4. Become.

21, 21, . . . are Fresnel lens elements formed in approximately the lower half region of the rear surface of the inner lens 7, and the light l ₃ , irradiated onto the Fresnel lens elements 21, 21, .
l ₃ ,... are assumed to be parallel light fluxes.

22, 22, . . . are correction prism elements formed on the front surface of the inner lens 7 in areas corresponding to the Fresnel lens elements 21, 21, . The correction prism elements 22, 22, . . . irradiate the light beams l ₃ , l ₃ , .

23, 23, ... are the Fresnel lens elements 21 of the inner lens 7 among the inner surfaces of the outer lens 4,
21,...A cylindrical lens element formed in an area corresponding to the formation area, and is formed to extend in the vertical direction.

These cylindrical lens elements 23, 23,...
As a result, the lights l ₃ , l ₃ , . . . are irradiated with a tendency to diffuse in the left-right direction.

Due to the above-mentioned factors, the light beams l ₃ , l ₃ , . The area C (spot area) shown in is irradiated.

Incidentally, a parabolic inverse slope may be used instead of the Fresnel lens elements 21, 21, . . . , and the light of the Fresnel lens elements 21, 21, . The axis may be directed downward, or the optical axis of a parabolic anti-slanted surface instead of a Fresnel lens element may be directed downward. In any of these cases, the cylindrical lens elements 23, 2
3, . . . may be provided not on the outer lens 4 but on the inner lens 7.

(e. Light distribution) As shown in FIG. 4, each of the above-mentioned irradiation means provides a light distribution in which portions A, B, and C are superimposed.

When a light bulb 9 with a rating of 12 volts and 27 watts was used, the luminous intensity distributions shown in Figure 5 A and B were obtained along lines H-H and V-V in Figure 4, respectively. In addition, this fully satisfied the standards indicated by the dashed curve 24 in each figure.

(E Effect of the Invention) As is clear from the above description, the vehicular lamp of the present invention is a vehicular lamp in which a light source is arranged in a space defined by a lamp body and a lens covering the front surface of the lamp body. and left and right diffused area irradiation means for irradiating the light from the light source with an angle of 5 degrees or more vertically and 45 degrees or more horizontally, and irradiating the light from the light source upward by 10 degrees or more. , a central diffused area irradiation means that irradiates the light from the light source with an angle of 5 degrees or more downward and 10 degrees or more to the left and right, and irradiates the light from the light source in the lower area with an angle of 5 degrees or more to the left and right. The invention is characterized by comprising a spot irradiation means.

Therefore, according to the present invention, the spread of light distribution is ensured by the left and right diffused area irradiation means, and the spread of light distribution and the luminous intensity in the central part are ensured by the central diffused area irradiation means and the spot irradiation means. It is possible to provide a vehicular lamp that can secure the desired light distribution and obtain a suitable light distribution.

[Brief explanation of drawings]

The drawings show an example of the implementation of the vehicle lamp of the present invention, and FIG. 1 is a front view, and FIG.
Figure 3 is a cross-sectional view taken along line - in Figure 1, Figure 4 is a light distribution diagram, Figure 5 is a luminous intensity distribution diagram, and Figure A is a cross-sectional view taken along line H-H in Figure 4. Figure B shows the part along line V-V in Figure 4. Explanation of symbols, 1... Vehicle lamp, 2... Lamp body, 4, 7... Lens, 14... Light source, 1
3, 15...Left and right diffusion area irradiation means, 18, 1
9, 20...Central diffusion area irradiation means, 21, 2
2, 23...Spot irradiation means.

Claims (1)

[Scope of Claims] 1. A vehicle lamp in which a light source is disposed within a space defined by a lamp body and a lens covering the front surface of the lamp body, wherein the light from the light source is directed upward and downward by 5 degrees or more. ,
left and right diffused area irradiation means that irradiates left and right with an angle of 45 degrees or more, and irradiates light from the light source upward by 10 degrees or more and downward by 5 degrees.
central diffused area irradiation means for irradiating light from the light source with an angular spread of 5 degrees or more to the left and right, and spot irradiation means for irradiating the light from the light source in the lower area with an angular spread of 5 degrees or more to the left and right, respectively; A vehicle lamp characterized by comprising: