JP4743927B2 - Luminous body - Google Patents

Description

[0001]
[Industrial application fields]
The present invention uses a light emitting diode that uses a light emitting diode to emit light brightly not only on the front but also on the side and below, and a light emitting body of a light bulb that emits bright light in all directions. The present invention also relates to a light emitting body using a light propagating body in which a light emitting portion that emits light brightly obliquely is formed.
[0002]
[Prior art]
Conventionally, a light emitting diode is an acronym for English Light Emission Diode (or Light Emitting Diode), which is called LED, and a light emitting diode element to which a lead frame or electrode is attached is a transparent resin such as an epoxy resin (hereinafter simply referred to as a package). ) Are referred to as LED lamps or simply LEDs. Conventional LED lamps emit light only in one direction (for example, the front) to stimulate eyes, but do not emit light in all directions. Light can only be seen on the side and below only in the form of dots. Some LED lamps use a diffusing material in the package to diffuse the light, but the light is diffusely reflected inside to reduce light emission to the outside. There is a problem that you can only see. In addition, the conventional bulb has a problem that since the filament is heated to a high temperature and emits light strongly, eyes directly stimulate the eyes and cause pain, and the filament easily breaks. Further, for example, light emitted from a cross section of an optical fiber, which is one of conventional light propagators, emits intensely only in one direction (front), but there is a problem that it looks very dark from an oblique direction.
[0003]
[Problems to be solved by the invention]
The present invention uses the same light-emitting diode as a conventional LED lamp, and not only the front surface of the package but also the side and the lower side of the LED light-emitting body that emits light and gentle light that does not irritate the eyes in all directions. It is an object of the present invention to provide a light emitting body using a light propagating body in which a light emitting body of a light bulb that emits light and a light emitting section that emits light not only obliquely but also obliquely are formed.
[0004]
  The invention according to claim 1 of the present application isIn a light emitter in which a light emitting diode element is sealed by a light-transmitting package,
This package has a plurality of translucent beads on its outer surface,
The beads are fixed to the outer surface of the package by adhesion or welding, and the protrusions by the beads are formed on the outer surface of the package.
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. Provided is a light emitter including the above beads and configured to fill a gap between large beads with small beads.
  The invention according to claim 2 of the present application is
In a light emitter in which a light emitting diode element is sealed by a light-transmitting package,
This package has a plurality of translucent beads on its inner surface,
The beads are fixed to the inner surface of the package by adhesion or welding, and the protrusions by the beads are formed on the inner surface of the package,
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. Provided is a light emitter including the above beads and configured to fill a gap between large beads with small beads.
  The invention according to claim 3 of the present application is
It consists of a light emitting diode, a translucent cover case provided on the outside thereof, and a plurality of translucent beads provided on the outer surface of the cover case, and the translucent cover case is fixed to the light emitting diode. RemovableIn the illuminant,
The beads are fixed to the outer surface of the cover case by adhesion or welding, and the protrusions by the beads are formed on the outer surface of the cover case,
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. Provided is a light emitter including the above beads and configured to fill a gap between large beads with small beads.
  The invention according to claim 4 of the present application is
It consists of a light emitting diode, a translucent cover case provided on the outside thereof, and a plurality of translucent beads provided on the inner surface of the cover case, and the translucent cover case is fixed to the light emitting diode. RemovableIn the illuminant,
The beads are fixed to the inner surface of the cover case by adhesion or welding, and the protrusions by the beads are formed on the inner surface of the cover case.
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. Provided is a light emitter including the above beads and configured to fill a gap between large beads with small beads.
[0005]
Further, the present invention includes at least one light emitting element, the light emitting element is sealed in a light transmitting package, and an arbitrary number of protrusions or recesses are integrally formed on the surface of the package. It is a luminous body. According to this light-emitting body, light emitted from the light-emitting element passes through any number of protrusions or recesses integrally formed in a package that seals the light-emitting element, and is emitted to the outside of the light-emitting body. . At this time, the protrusion or the recess refracts and diffuses light passing through the protrusion or the recess in each direction due to a difference in refractive index between the inside and the periphery. As a result, bright light can be emitted in all directions of the light emitter.
Examples of light emitters that emit light from a light emitting element in all directions by an arbitrary number of protrusions or recesses include the following.
A light emitting body in which the protrusion is a spherical protrusion, a hemispherical protrusion, or a polygonal protrusion, and the protrusion recess is a spherical recess, a hemispherical recess, or a polygonal recess.
In addition, the light-emitting body includes a light-transmitting cover case that is detachable or fixed on a package in which an arbitrary number of protrusions or recesses are formed.
[0006]
Further, the present invention includes at least one light emitting element, and the light emitting element is sealed in a light-transmitting package, and a cover case having a light-transmitting property is detachably or fixedly covered. And a light emitter in which an arbitrary number of protrusions or recesses are formed integrally with the cover case. According to this light emitter, the light emitted from the light emitting element passes through the package, and further passes through the cover case and is emitted to the outside of the light emitter. At that time, it passes through any number of protrusions or recesses formed integrally with the cover case. As a result, the light passing therethrough is refracted and diffused in each direction due to the difference in the refractive index between the inside and the periphery of the protrusion or recess, so that the light can be emitted in all directions.
Examples of light emitters that emit light from a light emitting element in all directions by an arbitrary number of protrusions or recesses include the following.
The light emitting body is configured such that the protrusion is a spherical protrusion, a hemispherical protrusion, or a polygonal protrusion, and the recess is a spherical recess, a hemispherical recess, or a polygonal recess.
In addition, the light-emitting body includes a light-transmitting cover case that is detachable or fixed on a package in which an arbitrary number of protrusions or recesses are formed.
Furthermore, the light emitter has a large number of beads fixed or simply provided on the surface on which the protrusions or recesses are formed. According to this light emitter, light can be radiated uniformly in all directions.
[0007]
Furthermore, the present invention includes at least one light emitting element, the light emitting element is sealed in a light-transmitting package, and the light diffuser is attached to the package in a detachable or fixed manner. Is the body. According to this light emitter, the light emitted from the light emitting element passes through the package, passes through the light diffuser, and is emitted to the outside of the light emitter. When passing through the light diffuser, the light diffuser diffuses light in each direction. As a result, light can be emitted in all directions of the light emitter.
[0008]
In addition, the present invention is a light-emitting body that includes at least one light-emitting element and includes a Fresnel lens that is bent so that the included angles of a plurality of lenses surrounding the light-emitting element become a predetermined angle. According to this light emitter, the diffusion angle of the light emitted from the light emitting element is limited by the Fresnel lens. As a result, it is possible to supply light with sufficient brightness only at necessary portions. Moreover, it is also possible to make a light emitter that is detachably or fixedly covered with a cover case formed of a Fresnel lens.
[0009]
Further, there is a light emitting diode as the light emitting element in the light emitter of the present invention. According to this light emitter, non-uniform light emission from an LED lamp, which is one of the conventional light emitters using a light emitting diode, can be improved to light emission having omnidirectionality.
[0010]
Similarly, a light emitting element using a light propagating body in which a light emitting portion for emitting light is formed can emit light in all directions.
[0011]
Similarly, a light emitting element in which a light emitting element emits light directly or indirectly by filament or discharge can emit light in all directions.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
First, a light-emitting body using LEDs (hereinafter simply referred to as “LED lamp”) will be described.
Basically, spherical, hemispherical, polygonal protrusions or recesses are provided on the surface of a package having light emitting diode elements, or spherical surfaces on the surface of a package having light emitting diode elements. Alternatively, a large number of beads that are translucent particles having a hemispherical shape or a polygonal shape may be fixed, or the beads may be embedded inside the package. Alternatively, the package is covered with a thin arbitrary shape body (cover case) to which beads are fixed or a thick arbitrary shape body (light diffuser). By doing so, the beads diffuse light, and the light emitted from the light emitting diode element is emitted from the protrusions or recesses provided in the package, the beads provided in the package, the cover case, or the light diffuser. Radiated to the outside and brightly emitted in all directions. Since the above-described package is in particular a bullet-like shape or a columnar shape having a flat light guide surface, it can be similarly applied to a flat-type LED lamp and a conical type in addition to the shape of a well-known bullet-like LED lamp. Note that the shape of the package is not limited to a bullet shape, a planar shape, or a column shape, and may be any shape.
[0013]
Next, a light emitter (hereinafter referred to as “bulb”) that emits light directly or indirectly by filament or discharge will be described.
As with LED lamps, by fixing beads on the surface of a light bulb, a light-emitting body of a light bulb that emits gentle light in all directions can be obtained by softening light emitted from a filament when heated to high temperatures and strong light generated by discharge.
[0014]
Next, as a light emitter using the light propagating body in which the light emitting portion is formed, for example, a light emitter using the tip of an optical fiber will be described.
As with LED lamps, the light emitting part (tip part) of the optical fiber, or the light emitting part and its surroundings are fixed with beads to soften the light emitted from the optical fiber, and the tip part emitting bright and gentle light also in the front and diagonal directions A light emitter using the formed optical fiber is formed. In addition to the optical fiber, the light propagating body is an arbitrary shape body such as glass, a resinous linear body, a rod-shaped body, or a planar body capable of propagating light. The light emitting part of the light propagating body is the tip of an optical fiber, the tip of a linear body, rod-shaped body, planar body, or tube-shaped body, or an arbitrary position of the optical fiber, linear body, rod-shaped body, planar body, or tubular body It is the protrusion and recessed part which were formed in.
As described above, there are three types of light emitters of the present invention: LED lamps based on LEDs, light emitters based on light bulbs, and light emitters based on light propagating bodies on which light emitting portions are formed. First, LED lamps will be described together with specific examples with reference to the drawings.
[0015]
【Example】
In the first embodiment, a conventional LED lamp includes a light emitting diode element, a package sealed with a light-transmitting material (for example, epoxy resin) having the light emitting diode element, and a light emitting diode element. A lead frame and electrodes attached to the element are provided. The light-emitting body of the present invention uses a light-emitting diode element used in a conventional LED lamp, and a package having the light-emitting diode element is crafted, or a cover case having any shape that has been crafted. An LED lamp that covers the package or is covered with a light diffuser of any shape, such as a bullet-shaped, conical or flat columnar or flat surface made of a transparent or translucent material. is there.
Specifically, for the package itself, as shown in FIG. 1, FIG. 2, FIG. 3 and FIG. 4, the spherical or hemispherical projection 4a, or the polygonal projection 4b, Or it is the LED lamp which wrapped the element 1 of the light emitting diode in the package 2 which provided the spherical recessed part 4c or the polygonal recessed part 4d.
A bullet-shaped package 2 including a light emitting diode element 1 having a lead frame 3 and having protrusions 4a and 4b on the surface is formed by integral molding. The material of the package 2 is usually a translucent epoxy resin, but can be made of transparent or translucent or other translucent material. Further, the work of the package 2 itself is performed by pouring an epoxy resin for forming the package 2 into a forming mold whose inner wall surface is uneven, or by processing the surface of the formed package 2. In addition, it can also comprise so that the cover case of arbitrary shapes, such as a cylinder shape, can be attached or detached detachably or fixedly on this package 2. FIG. Further, a large number of beads described later may be fixed to the surface of the package 2.
In the second embodiment, instead of providing projections on the surface of the package 2, the package 2 in which spherical, hemispherical, or polygonal particles (beads 5) made of a translucent material are fixed on the surface is used as the light emitting diode. It is the LED lamp which covered the element 1 of.
Specifically, as shown in FIG. 5, spherical or polygonal transparent beads 5 are attached to the surface of a package 2 containing a light emitting diode element 1 having a lead frame 3 with a transparent adhesive or the like. It is a bonded LED lamp. The beads 5 are spherical, hemispherical or polygonal particles formed of, for example, a translucent (usually transparent or translucent) material (glass, epoxy resin, plastic, etc.). Further, the size of the beads 5 is about 0.01 to 3 mm. Furthermore, the method for fixing the beads to the package 2 is to first apply a transparent or translucent adhesive to the package and then spray the beads 5 to bond them, or apply the adhesive in the container in which the beads 5 are placed. The package 2 is put and the beads are fixed, the beads coated with an adhesive are affixed to the package 2, or the beads and the package 2 are welded by heat or chemicals. In addition, it is preferable to use a large number of beads including two or more kinds of beads 5 having different sizes, shapes, and refractive indexes. In this way, the small beads 5 are configured to fill the gaps between the large beads 5, and if the refractive index of the beads 5 is different, the angle of diffusion can be expanded and light can be diffused more uniformly. it can.
As shown in FIG. 6, instead of fixing the beads 5 to the surface of the package 2, an LED lamp embedded in the package may be used. In this case, when the LED, which is a light emitting element, is sealed with the package 2, a large number of forming molds for forming the package 2, such as mixing a large number of beads 5 with an epoxy resin or forming an epoxy resin, are used. It is sufficient to attach individual beads.
The third embodiment is an LED lamp in which a cover case 7 having an arbitrary shape made of a translucent material is detachably or fixedly attached to the LED lamps of the first and second embodiments.
Specifically, as shown in FIG. 7, the package 2 shown in FIGS. 1 to 6 has a hollow, translucent cylindrical shape, conical shape, or pyramidal shape that is open on one side. This LED lamp is covered with the cover case 7 that is detachable or fixed to the package 2.
In the fourth embodiment, instead of crafting the package 2 described in the first to third embodiments, the cover case 7 covered with the package 2 is crafted, and the cover case 7 is replaced with a conventional LED package. 2 is an LED lamp overlaid on 2.
Specifically, as for the work on the cover case 7, as shown in FIG. 8, the beads 5 are fixed to the outer peripheral surface of the cover case 7 as shown in FIG. In this manner, the beads 5 are fixed to the inner surface of the cover case 7 or the beads 5 are buried in the cover case 7 as shown in FIG. Such a cover case 7 can be detachably or fixedly attached to a package 2 of a conventionally used LED lamp, whereby an LED lamp having the effects of the present invention can be obtained.
Instead of fixing the beads 5 to the cover case 7, as shown in FIG. 11, a projection 4 is provided on the inner surface of the cover case 7, and the cover case 7 is an LED lamp that covers the package 2 of a conventional LED lamp. In addition, you may provide a recessed part in the inner surface of the cover case 7, and may provide the protrusion 4 or a recessed part in an outer surface.
The fifth embodiment is an LED lamp in which the package 2 is covered with a light diffuser 8 having an arbitrary shape that is thicker and more transparent than the cover case 7 instead of using the cover case 7.
Specifically, as shown in FIG. 12, a thick hollow cylindrical body (light diffusing body) formed of a translucent material is detachable or fixed, and the LED lamp is placed on a conventional LED lamp. is there. This light diffuser 8 is made of a thick translucent material, is hollow with one surface open, and has a surface shape, for example, a bullet shape. The whole has a lens effect due to its thickness. Depending on the shape and length of the light diffuser, the visual length and width of the emitted light vary.
The sixth embodiment is an LED lamp in which protrusions 4a and 4b are provided on the outer surface or the inner surface, or the light diffuser 8 having the beads 5 fixed thereto is covered with a package.
Specifically, as shown in FIG. 13 or FIG. 14, a package 2 in which protrusions 4a and 4b are provided on the inner surface or outer surface of the light diffuser 8, and the light diffuser 8 includes the element 1 of the light emitting diode. Removable or fixed on top. Instead of providing the protrusions 4a and 4b, the light diffuser 8 having the above-described beads 5 fixed or simply may be configured to be detachably or fixedly covered on the package 2.
The seventh embodiment is an LED lamp in which a Fresnel lens 6 is bent so as to surround the package 2 and integrated with the LED lamp. In addition, the LED lamp is a group of LED lamps integrated with the Fresnel lens 6.
Specifically, as shown in FIGS. 15, 16, and 17, the Fresnel lens 6 that is bent so that the angle formed by the two lenses (the depression angle) is 90 degrees is attached so as to surround the package 2. 6 and the package 2 are formed integrally. The depression angle of the two lenses varies depending on the degree of light diffusion required by the user, but normally, the Fresnel lens 6 can be bent and used within a range from about 30 degrees to about 120 degrees.
The eighth embodiment includes an outer container having at least one LED lamp among the LED lamps of each of the embodiments described above, and the outer container is formed of a translucent material and at least a part thereof. Is formed in an arbitrary shape, and an electric circuit and a power source for causing the light emitting diode to emit light are provided inside the outer container, or an LED lamp having an electric circuit.
Specifically, as shown in the cross-sectional view of FIG. 18, an electric circuit including a switch 10 for turning on or off the LED lamp 11 and an LED lamp 11 are provided inside the lure 12 having a pseudo bait shape. A battery 9 for supplying power is mounted. The switch 10 is attached so that the LED lamp 11 is turned on or off by the movement of the lure 12. Note that the outer container is not limited to the shape of the lure 12 described above. For example, the outer container has a light emitting function for various ornaments such as accessories and figurines, various display lamps, various illumination lamps, various toys, and the like. The present invention can also be applied to instruments, devices, and devices that have
The ninth embodiment is a light-emitting body using a light-emitting body (hereinafter referred to as “bulb”) that emits light directly or indirectly by a filament or discharge instead of the element 1 of the light-emitting diode described above.
Specifically, as shown in FIG. 19, for example, spherical, hemispherical, or polygonal particles (beads 5) made of a translucent material are fixed to a surface 15 of a light bulb that emits light by a filament. For example, the filament 13, which is a light emitting element of the light bulb, generates light by the electric power supplied from the base 14. This light is radiated brightly in all directions by a large number of beads 5 fixed to the bulb surface 15. Therefore, the same effect as in the case of the element 1 of the light emitting diode can be obtained.
In the tenth embodiment, instead of the element 1 of the light emitting diode described above, one of the light propagating bodies in which the light emitting portion is formed, for example, a tip surface that is a tip portion of an optical fiber or a surrounding including a tip surface, or It is a light emitting body in which a large number of beads are fixed to protrusions and recesses of an optical fiber.
Specifically, as shown in FIGS. 20, 21, and 22, the light from the light source 17 is incident from the daylighting portion 18 of the optical fiber 16, and the light is emitted from the light emitting portion 19 of the optical fiber through the optical fiber 16. To do. Spherical, hemispherical, or polygonal particles (beads 5) made of a translucent material are fixed to the light emitting portion 19 or the light emitting portion 19 and the periphery thereof. Thereby, the light emitted from the light emitting portion 19 is emitted through each of the multiple beads 5. As a result, the entire tip of the optical fiber 19 to which a large number of beads 5 are fixed emits bright light. In addition, Preferably, the front-end | tip part of the optical fiber 16 is swelled in spherical shape or polygonal shape, or it is made to dent. In addition, the light emitting part of the light propagating body is connected to the tip of an optical fiber, the tip of a linear body, a rod, or a tube, the protrusion formed at an arbitrary position of the optical fiber, the linear body, the rod, or the tube, By setting it as a recessed part, the light from the light emission part can be radiated | emitted brightly in all directions. For example, the present invention can also be used for decorative items and figurines, light projecting elements of optical sensors, various display lamps, other various practical products, toys, and the like.
[0016]
【The invention's effect】
Each example mentioned above can acquire the effect shown below.
[0017]
LED lamps are more resistant to vibration than incandescent bulbs, do not run out of bulbs, consume less than half of the power, and are much cheaper to consume. However, the conventional LED lamp emits light so strongly as to stimulate the eyes only on the front side, but the light is hardly visible from the side, so that it is rarely used instead of the incandescent bulb.
In the light emitter (LED lamp) based on the light emitting diodes of the first to fourth embodiments, a light-transmitting spherical or polygonal particle bead is fixed to the surface of the package or the cover case that wraps the package. Or having a spherical or polygonal protrusion, or having a spherical or polygonal recess, so that the light emitted from the light emitting diode element 1 passes through a large number of beads or protrusions fixed to the surface, Diffused in each direction. Each individual bead or protrusion or recess diffuses light, and light is emitted brightly not only from the front (top surface) but also from the side of the package. The intense light that stimulates the eyes emitted from the light-emitting diode element passes through the beads or protrusions of the particles, so that the light is gentle enough not to hurt the eyes even if it looks directly.
Since the LED lamp of the present embodiment can brightly see light from the side and from below, it can be used in place of an incandescent light bulb, and power consumption can be greatly reduced. For example, many bean bulbs are hung on trees or the like as illumination. If this is changed to the LED lamp of this embodiment, the same effect can be achieved with about 1/5 of power consumption.
[0018]
In addition, even when a plurality of conventional LED lamps are used, if the LED lamp of this embodiment is used, light is emitted brightly from the front and side surfaces. Only about 5, it can save not only power consumption but also manufacturing cost and resources.
For example, about 60 LED lamps are used in small stacked rotating lamps and the like, but if the LED lamp of this embodiment is used, about 15 to 20 LED lamps can exhibit the same brightness and visual effect. it can.
A large number of LED lamps are used for an electric display board for displaying characters and the like, but this display board is clearly visible from the front, but is not clearly visible from an oblique side or a side, so that characters and designs cannot be read. Also, when viewed from the front, the light is too strong to stimulate the eyes and cause pain in the eyes. If the LED lamp of the present invention is used, it can be clearly seen from an oblique side or a side view. Also, even when viewed from the front, it is light that is gentle on the eyes, so it does not hurt your eyes.
In addition, the distance between the LED lamps can be made wider than the conventional LED display board, and the lines of characters and designs can be seen thick and clear, so when using the same number of LED lamps Large characters and designs can be displayed, and characters and designs can be displayed clearly and clearly.
[0019]
In the LED lamps using the light diffusers of the fifth and sixth embodiments, the width of light emitted from the front is further increased by using a light transmissive material having a light refractive index different from that of the package. The viewing distance of light can be increased depending on the length of the light diffuser, so depending on the application, the same effect as using a plurality of conventional LED lamps with one LED lamp of this embodiment Can be demonstrated.
[0020]
In the LED lamp using the Fresnel lens of the seventh embodiment, the light diffusion angle can be limited, and light with sufficient brightness can be supplied only to the necessary portions.
[0021]
The lure that is one of the light emitters of any shape in the eighth embodiment can realize a lure that shines brightly in all directions.
[0022]
The light emitter based on a light bulb using a filament, which is one of the light emitters that emit light directly or indirectly by a filament or discharge in the ninth embodiment, It emits light that is bright and gentle to the eyes without strongly stimulating the eyes like light from a light bulb.
[0023]
The light emitter based on the optical fiber, which is one of the light emitters using the light propagating body in which the light emitting portion is formed in the tenth embodiment, is bright and gentle both when viewed from the front and obliquely. Emits light.
[0024]
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an LED lamp of the present invention in which a spherical protrusion is provided on a package.
FIG. 2 is a cross-sectional view of an LED lamp of the present invention in which a polygonal protrusion is provided on a package.
FIG. 3 is a cross-sectional view of an LED lamp of the present invention in which a spherical recess is provided in a package.
FIG. 4 is a cross-sectional view of an LED lamp of the present invention in which a polygonal recess is provided in a package.
FIG. 5 is a cross-sectional view of an LED lamp of the present invention in which beads are fixed to a package.
FIG. 6 is a cross-sectional view of an LED lamp of the present invention in which beads are embedded in a package.
FIG. 7 is a cross-sectional view of the present invention in which an LED having a package to which beads are fixed is covered with a cover case.
FIG. 8 is a cross-sectional view of an LED lamp of the present invention in which a cover case with beads fixed to the outer surface is placed on a conventional LED.
FIG. 9 is a cross-sectional view of an LED lamp of the present invention in which a cover case with beads fixed on the inner surface is covered with a conventional LED.
FIG. 10 is a cross-sectional view of an LED lamp of the present invention in which a cover case in which beads are embedded is placed on a conventional LED.
FIG. 11 is a cross-sectional view of an LED lamp of the present invention in which a cover case having protrusions on the inner surface is covered with a conventional LED.
FIG. 12 is a cross-sectional view of an LED lamp of the present invention in which a light diffuser is placed on a conventional LED.
FIG. 13 is a cross-sectional view of a light diffuser having protrusions on the inner surface.
FIG. 14 is a cross-sectional view of a light diffuser having protrusions on the outer surface.
FIG. 15 is a plan view of an LED lamp of the present invention in which an LED is surrounded by a Fresnel lens.
FIG. 16 is a plan view of the LED lamp of the present invention in which the LED is surrounded by a Fresnel lens.
FIG. 17 is a plan view of an assembly of LED lamps of the present invention in which LEDs are surrounded by a Fresnel lens.
FIG. 18 is a cross-sectional view of a lure that is a light emitting body including an LED lamp, a battery, and a switch.
FIG. 19 is a cross-sectional view of a light emitter in which beads are fixed to the surface of a light bulb using a filament.
FIG. 20 is a cross-sectional view of a light emitter in which beads are fixed to a light emitting portion of an optical fiber.
FIG. 21 is a cross-sectional view of a light emitter in which beads are fixed to a light emitting portion of an optical fiber.
FIG. 22 is a cross-sectional view of a light emitter in which beads are fixed to a light emitting portion of an optical fiber.
[Explanation of symbols]
1 Light-emitting diode elements
2 packages
3 Lead frame
4 protrusions
4a Spherical or hemispherical projection
4b Polygonal protrusion
4c Spherical or hemispherical recess
4d Polygonal recess
5 beads
6 Fresnel lens
7 Cover case
8 Light diffuser
9 Battery
10 switch
11 LED lamp
12 Lure
13 Filament
14 base
15 Light bulb surface
16 Optical fiber
17 Light source
18 Daylighting part
19 Light emitting part

Claims (4)

In a light emitter in which a light emitting diode element is sealed by a light-transmitting package,
This package has a plurality of translucent beads on its outer surface,
The beads are fixed to the outer surface of the package by adhesion or welding, and the protrusions by the beads are formed on the outer surface of the package.
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. A light-emitting body comprising the above beads, wherein the light-emitting body is configured so that the small beads fill the gaps between the large beads. In a light emitter in which a light emitting diode element is sealed by a light-transmitting package,
This package has a plurality of translucent beads on its inner surface,
The beads are fixed to the inner surface of the package by adhesion or welding, and the protrusions by the beads are formed on the inner surface of the package,
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. A light-emitting body comprising the above beads, wherein the light-emitting body is configured so that the small beads fill the gaps between the large beads. It consists of a light emitting diode, a translucent cover case provided on the outside thereof, and a plurality of translucent beads provided on the outer surface of the cover case, and the translucent cover case is fixed to the light emitting diode. In the light-emitting body provided detachably ,
The beads are fixed to the outer surface of the cover case by adhesion or welding, and the protrusions by the beads are formed on the outer surface of the cover case,
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. A light-emitting body comprising the above beads, wherein the light-emitting body is configured so that the small beads fill the gaps between the large beads. It consists of a light emitting diode, a translucent cover case provided on the outside thereof, and a plurality of translucent beads provided on the inner surface of the cover case, and the translucent cover case is fixed to the light emitting diode. In the light-emitting body provided detachably ,
The beads are fixed to the inner surface of the cover case by adhesion or welding, and the protrusions by the beads are formed on the inner surface of the cover case.
Further, the beads are spherical, hemispherical or polygonal particles formed of a translucent material, and the size is 0.01 to 3 mm, and two types having different sizes. A light-emitting body comprising the above beads, wherein the light-emitting body is configured so that the small beads fill the gaps between the large beads.

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