JPH06101593B2 - Light emitting diode structure - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a light emitting diode structure used for various types of illumination lamps, and more particularly to automobile illumination lamps (headlamps, fog lamps, etc.), signal lamps, and The present invention relates to a light emitting diode structure which is most suitable as a light source of a stop lamp for an automobile, among marker lights (tail lamp, stop lamp, turn signal lamp, parking lamp, etc.).

[Problems to be Solved by Conventional Technology / Invention] Conventionally, as a light emitting source of this kind, particularly a stop lamp of an automobile, for example, a filament is used, but a lamp using the filament consumes less power. 2 to
It is comparatively large at 10 A, and because it generates a lot of heat, it is easy to break, and the lamp itself is large and heavy. In order to solve such a problem, there is a light emitting diode structure in which a plurality of commercially available light emitting diodes are used and mounted vertically and horizontally on a substrate and used as a light emitting source instead of a filament. When this is used as the light source of a lamp, the light emitting diode emits light at a lower voltage and lower current than the filament, so the power consumption is very low, about 1 A or less, and it does not break, so it is semi-permanent. The lamp itself is light and small.

However, the conventional light emitting diode structure of this type has a low luminous intensity because the emitted light is scattered and the light cannot be efficiently extracted forward. Therefore, there is no problem when it is used as an ordinary indicator light. , Was not suitable for use as a stop lamp for automobiles. The reason is,
In a car stop lamp, it is necessary to radiate light of a sufficient brightness (usually red light) to the outside to force attention to the eyes and ensure visual recognition. To use it, it must meet the Japanese Industrial Standards (JIS) Luminance Standards for Automotive Lamps (D5500) or the American Automobile Manufacturers Association (SAE) Luminance Standards, but conventional light emitting diode structures It does not reach the standard.

Therefore, it is an object of the present invention to provide an optimal light emitting diode structure as a light emitting source for various lamps,
An object of the present invention is to provide a light emitting diode structure which satisfies JIS or SAE prescribed light intensity standards and can be sufficiently used as a stop lamp of an automobile.

As described above, the light emitting diode structure of the present invention is particularly suitable for a light source of a stop lamp of an automobile,
The stop lamp here is not limited to a normal stop lamp that is installed above the rear bumper of an automobile, but also a stop lamp that is installed in a position that is easily visible from the rear of the automobile through the rear window glass inside the passenger compartment. This stop lamp is called a high mount stop lamp because it is installed at a higher position than a normal stop lamp.

[Means for solving problems]

The object is to arrange a large number of light emitting diodes, which are molded with a translucent organic polymer so that the top part thereof becomes a convex lens, and are arranged on a plane, and each of the light emitting diodes reflects forward the emitted light. This is achieved by a light emitting diode structure having a parabolic reflector, and a part or all of the lower part of the mold below the convex lens part is a spherical surface centered on the position where the light emitting diode is present.

[Action]

By using a light-transmitting organic polymer molded as a light-emitting diode so that the top portion becomes a convex lens, the light emitted from the light-emitting diode in a direction perpendicular to the arrangement plane or a direction close thereto is It is condensed by the convex lens and is emitted forward. On the other hand, the light emitted from the light emitting diode in a direction oblique to the horizontal direction or the vertical direction with respect to the array plane generally tends to be scattered light, but each light emitting diode in the present invention has a parabolic reflector. However, a part or the whole of the part below the convex lens part in the mold is a spherical surface centering on the position where the light emitting diode is present, and at least part of the light is reflected and condensed forward by the reflecting mirror. Therefore, the amount of light in the front direction per light emitting diode becomes significantly larger than that of the conventional product.

〔Example〕

Hereinafter, the light emitting diode structure of the present invention will be described based on examples.

FIG. 1 is a cross-sectional view for explaining the outline of the constitution of the embodiment of the present invention, in which 1 is a substrate, 2 is a number of organic chips arranged vertically and horizontally on the substrate 1 and attached in a grid pattern. The polymer mold light emitting diode 3 is a parabolic reflector.

The substrate 1 is made of, for example, glass, ceramic, organic polymer (epoxy, glass epoxy, etc.) or the like.

The structure of the organic polymer molded light emitting diode 2 will be described. The light emitting diode 21 is die-bonded to a central recess of a conductive stem electrode 22 that has been subjected to gold plating or the like with a conductive epoxy resin adhesive. Further, the light emitting diode 21 has a positive electrode + lead terminal.
Wire bonding is performed by using the wire 25 made of gold or the like with the upper protruding end of 23. Further, the stem electrode 22 is a negative electrode
Connected to the lead terminal 24 of. This lead terminal 23,
The light-emitting diode 21 having 24 has a mold part 26 molded with an organic polymer having excellent translucency, for example, clear epoxy, and the top part of the mold part 26 is a convex lens.
It is 261.

The light emitting diode 21 will be described in detail later, but the light emitting color thereof is not particularly specified.For example, when used for a stop lamp of a car, red, yellow for a turn signal lamp, green for a green signal light, etc., A desired emission color may be selected according to the application. However, from the viewpoint of satisfying the JIS and SAE luminous intensity standards, it is preferable to use one having as high a luminescence brightness as possible. As one example thereof, particularly when the light emitting diode structure of the present invention is used for a stop lamp of an automobile, as a light emitting diode used for the structure, a light emitting diode described in Japanese Patent Application No. 61-92895, namely, The carrier concentration of the active layer is 10 ¹⁵ to 10 ¹⁹ / cm ³ , preferably 10 ¹⁵ to 10 ¹⁷ / cm ^3.
Then, it is preferable to use one having a double hetero structure. The light emitting diode described in the above specification can obtain high light emission brightness at a lower voltage than a normal light emitting diode,
The low voltage reduces the amount of heat generated, has few defects in the light emission brightness of the chip, enables mass production, and can reduce the cost, and is optimal for the light emitting diode structure of the present invention.

As the parabolic reflector 3, any structure may be used without particular limitation as long as it reflects and focuses the light emitted from the light emitting diode 21 and efficiently radiates it as focused light in front of the parabolic reflector. For example, the parabolic reflector itself is made of glass or synthetic resin on which metal such as gold, silver, aluminum, nickel, chromium, zinc, tin, etc. is vapor-deposited or plated, or a mirror-finished stainless steel plate or aluminum plate, etc. There is.

The degree of focusing of light emitted by the parabolic reflecting mirror depends on the depth of the reflecting mirror. When the reflecting mirror is deepened, the degree of focusing is increased, and when the reflecting mirror is shallowed, some light is emitted. Therefore, various depths and shapes may be adopted according to the application of the present invention. For example, for high mount stop lamps, the depth of the reflecting mirror is generally 2 to 30 mm, preferably 3 to 20 mm, more preferably 4 to 15 mm, and when the light emitting diode 21 is arranged at the focus of the parabolic shape. Good.

FIG. 2 is a sectional view of a parabolic reflector in another embodiment of the present invention, which is equipped with a parabolic reflector 3 having a curved surface with two steps.

The organic polymer mold light emitting diode 2 shown in the figure is one type of mold structure that is easy to manufacture and has good light converging property. However, a part of the light from the light emitting diode 21 undergoes reflection and refraction. Follow the route as shown and mold
The light is emitted from the top of 26 (that is, the top of the convex lens 261) in a direction substantially parallel to the substrate 1. Reflect such light
The parabolic reflector 3 used in this embodiment so as to collect and emit the light to the front surface has a two-step curved surface, that is, a curved surface 31 as described above.
And the curved surface 32, and the above light is reflected and condensed by the curved surface 32 and is emitted in the forward direction.

When light is emitted in a direction substantially parallel to the substrate 1,
It is desirable to employ the parabolic reflector having the above structure.

FIG. 3 is a sectional view showing the structure of the present invention in detail.
Mold part 26 of organic polymer mold light emitting diode 2
Is composed of a convex lens 261, a portion 262 whose outer surface is a spherical surface having a radius r centering on the position where the light emitting diode is present, and a remaining lower portion 263.

As described above, the light that does not enter the convex lens 261 is generally likely to be scattered light and thus is difficult to emit forward, but in the embodiment shown in FIG. 3, the light emitting diode 21 exhibits a spherical surface with a radius r. The light traveling toward the outer surface of the portion 262 (that is, the light within the range of the angle θ ₁ in FIG. 3) is
Since the light passes through the normal line of the outer surface, regardless of the material (refractive index) of the organic polymer mold, it does not refract on the outer surface and goes straight to reach the parabolic reflecting mirror 3, so that scattering occurs. Instead of being reflected and collected, it is effectively emitted forward. Therefore, it enters the convex lens 261 and
The light emitted forward is strong in synergy with the refracted / focused light.

Except for the convex lens 261, the closer the spherical portion 262 is to the hemisphere, in other words, the closer the angle θ ₁ is to 90 degrees, the greater the amount of light that goes straight to the parabolic reflector. Since the amount of light emitted at a low angle (region of angle θ ₂ in FIG. 3) nearly parallel to is small compared to the total amount of light emission, it is not necessary to forcibly increase the angle θ ₁ and it is desirable. The optimum angle may be determined in consideration of the amount of light, the light emitting characteristics of the light emitting diode, the depth of the recessed portion at the center of the stem electrode 22 (the inner wall of the recessed portion is a reflecting surface), and various other factors. By reducing the angle θ ₁ as much as possible, the diameter of the organic polymer molded light emitting diode 2 can be reduced, and a large number of organic polymer molded light emitting diodes can be formed on a substrate having a constant area like a stop lamp for automobiles. It is advantageous when arranged. Therefore, the angle θ ₂ should be at least 10 degrees, in particular at least 20 degrees, while the angle θ ₁ (portion 262) should be between 10 and 50 degrees.
It is preferably set to 15 to 30 degrees.

When this light-emitting diode structure is actually used for an automobile hanger mount stop lamp, as shown in FIG. 4, the red diffuser cover 4 is mounted on the parabolic reflector 3 or it is not mounted on the parabolic reflector 3. As shown in the figure, install it in the casing 5 of the Hanmount stop lamp,
It should be installed in the passenger compartment of the car so that it is easily visible from the rear of the car through the rear window glass. In this case, if the light emitted from the red diffusion cover 4 is red, the emission color of the light emitting diode and the color of the diffusion cover are not particularly limited,
For example, a red light emitting diode and a red diffusion cover may be used, but when a red light emitting diode is used, it is not always necessary to use a red diffusion cover, and for example, a colorless diffusion cover may be used. Since the light emitting diode structure of the present invention has a further improved luminous intensity as compared with the conventional light emitting diode structure as described above, if this is used for a stop lamp of an automobile,
Vivid red light is radiated to the outside, which gives a strong visual attention to the eyes and allows them to be visibly rubbed, which is very useful for traffic safety.

〔The invention's effect〕

As described above, the light-emitting diode structure of the present invention uses a light-transmitting organic polymer molded as a light-emitting diode so that the top portion becomes a convex lens, and each light-emitting diode is a parabolic reflector. A part of or all of the portion below the convex lens portion in the mold made of an organic polymer is a spherical surface centered on the position where the light emitting diode is present, and light traveling from the light emitting diode toward the outer surface of the portion having the spherical surface is , Because it passes on the normal of its outer surface, it goes straight ahead without refracting on that outer surface and reaches the parabolic reflector, which is reflected and condensed without scattering and is effectively emitted forward. Therefore, the amount of light in the forward direction per light emitting diode is significantly larger than that of the conventional product. Therefore, the light emitting diode structure of the present invention is particularly suitable for a stop lamp of an automobile.
It meets JIS and SAE luminosity standards, and when used in high-mount stop lamps, it is effective for traffic safety because it can improve visibility due to higher luminous intensity.

[Brief description of drawings]

FIG. 1 is a cross-sectional view for explaining the outline of the constitution of the embodiment of the present invention, in which 1 is a substrate, 2 is a number of organic chips arranged vertically and horizontally on the substrate 1 and attached in a grid pattern. The polymer mold light emitting diode 3 is a parabolic reflector. FIG. 2 is a sectional view of a parabolic reflector in another embodiment of the present invention, which is equipped with a parabolic reflector 3 having a curved surface with two steps. FIG. 3 is a sectional view showing the structure of the present invention in detail.
Mold part 26 of organic polymer mold light emitting diode 2
Is composed of a convex lens 261, a portion 262 whose outer surface is a spherical surface having a radius r centering on the position where the light emitting diode is present, and a remaining lower portion 263. FIG. 4 is a cross-sectional view of the structure shown in FIG. 1 when a red diffusion cover is attached so as to be used as a high-mounted stop lamp of an automobile, and FIG. 5 is a sectional view of the lamp shown in FIG. FIG. 6 is a perspective view of the mount stop lamp when incorporated in a casing.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hiroaki Murata 4-3 Ikejiri, Itami City, Hyogo Prefecture Mitsubishi Cable Industries, Ltd. Itami Works (56) Reference JP-A-51-18488 (JP, A) JP-A-SHO 60-254180 (JP, A) JP 59-90973 (JP, A) Actually opened 52-109477 (JP, U) Actually opened 55-179075 (JP, U)

Claims (4)

[Claims] 1. A large number of light emitting diodes, which are molded by a translucent organic polymer so that the tops thereof become convex lenses, are arranged on a plane, and each light emitting diode reflects the emitted light forward. 2. A light emitting diode structure having the parabolic reflector, wherein part or all of the lower part of the convex lens portion of the mold is a spherical surface centered on the position where the light emitting diode exists. 2. The light emitting diode according to claim 1, wherein the active layer has a carrier concentration of 10 ¹⁵ to 10 ¹⁹ / cm ³ and has a double hetero structure. Light emitting diode structure. 3. The parabolic reflector has a mirror surface that reflects forward light that travels in a direction substantially parallel to the plane from the top of the convex lens of the organic polymer mold. The light emitting diode structure according to the item. 4. The light emitting diode structure according to any one of claims (1) to (3), wherein the light emitting diode structure is an automobile stop lamp.