TWM426709U - Patch-typed light emitting diode lamp - Google Patents

Abstract

A patch-typed light emitting diode lamp includes a light emitting diode light source and a light emitting diode lamp base that further includes a refraction board. By Comparing with traditional light emitting diode lamp, which needed an additional aluminum base to disperse the heat, the improvement base could disperse the heat directly and the refraction board could refract light more efficiently.

Description

M426709 « V. New description: [New technical field] This creation is about a kind of light-emitting diode lamp, especially about a kind of patch-type light-emitting diode lamp. [Prior technology] Environmental awareness rises, energy-efficient LED lights gradually replace the traditional traditional lamps such as halogen lamps, incandescent lamps, compact fluorescent lamps (CFL) and T8 fluorescent lamps (such as LED lamps and incandescent lamps) For comparison, LED lights can emit the same light color as incandescent lamps, and the most important thing is that Led lamps have a lifespan 25 to 50 times higher than standard incandescent lamps. LED lamps do not emit when used for a long time. The thermal effect is generated, so no heat energy is generated to lose excess electric energy. In contrast, the old type of lamp has a high heating effect when used for a long time, so excessive power is wasted to generate a large amount of heat energy, compared to 'LED The lamp consumes 2 〇〇/0 less than the incandescent lamp. • Since the light emitted by LED does not flicker, the high-frequency flicker effect is softer than that of the traditional lamp. It is not easy to cause eye fatigue for users when used for a long time. Because of various advantages, traditional lamp consumers also have Going to the LED lamp consumer market. However, the shortcoming of commercially available LED lights is that the current price of goods still asks 'not accepted by mass consumers. If the current LED lights replace traditional light bulbs, the energy saved by LED lights has far exceeded its life cycle, but it is still not enough to make up for Its initial investment in R&D and manufacturing costs also contributed to the current high price of the commercially available 3 M426709 LED lamps. At present, LED brightness is close to 150 lumens/watt, making it the brightest light source available, so the main problem facing LEDs today is how to reduce costs. [New content] In order to reduce the manufacturing cost and improve the luminous efficiency of the LED light, this creation is about a light-emitting diode lamp, especially for a patch-type light-emitting diode lamp, which aims to reduce the old light. The manufacturing cost of the diode lamp; in the past, the old LED lamp was installed on the base of the lamp in a tubular form, and must be separately assembled and assembled with a heat-dissipating aluminum seat in the old-type LED lamp to achieve heat dissipation. efficacy. In order to reduce material cost, effectively dissipate heat and improve luminous efficiency, the present invention provides a patch-type light-emitting diode lamp, which can be assembled like an old-type LED lamp by using an improved lamp base design. The aluminum seat is equally effective in heat dissipation, but it saves manufacturing costs and environmental protection. In addition, the above-mentioned chip-type LED body base further includes a refracting plate, which effectively concentrates the light-emitting diode light source and improves luminous efficiency. In order to achieve the above object, the present invention provides a chip-type light-emitting diode lamp module, comprising: a lamp base; a heat-dissipating glue applied to the lamp base; and a light-emitting diode base, by the heat dissipation The glue is adhered to the base of the lamp; a light-emitting diode light source is assembled on the base of the light-emitting diode; a refractive plate is integrally formed with the base of the lamp; a mask, 4 M426709 is assembled on the above-mentioned refractive plate. It can be seen from the above that the lamp base of the present invention further comprises a refracting plate, which is integrally formed or assembled, and can be a substrate made of, but not limited to, aluminum metal, and the heat-emitting diode base is directly radiated. The glue or heat-dissipating tape is directly attached to the base of the lamp to achieve the direct heat-dissipating function, and the use of the refracting plate effectively improves the luminous efficiency of the light-emitting diode source. The above description is used to clarify the purpose of the creation, the technical means for achieving the object, the advantages thereof, and the like. The present invention can be more clearly understood from the following description of the preferred embodiments and the accompanying drawings and claims. The present invention will be described with reference to the preferred embodiments and the accompanying drawings, which are intended to illustrate and not to limit the scope of the invention. Therefore, in addition to the preferred embodiments in the specification, the present invention can also be widely practiced in other embodiments. The present invention provides a patch-type light-emitting diode lamp, and the improvement thereof is that the base of the light-emitting diode lamp and the light-emitting diode are The pole base is directly attached to the heat sink by means of a heat-dissipating glue or a heat-dissipating tape, so as to replace the heat-dissipating aluminum seat additionally assembled in the conventional light-emitting diode lamp tube, and the light-emitting diode light source is borrowed by the refracting plate The luminous efficiency is effectively improved, thereby overcoming the high manufacturing cost of the light-emitting diode lamp, and the situation that the light-emitting diode lamp cannot be popularized. 5 Electrode lamp diagram - a preferred embodiment of the illuminating illuminator </ RTI> flanked by a reticle, comprising: a reticle (9), a refracting plate 102, a lamp body light source 1 () 3, a illuminating diode pedestal 1G4 , heat dissipation wins 105, &amp; seat 1G6. The two sides of the reticle 1G1 are connected to the refracting plate 1 〇 2, and the space of the illuminating diode 1 〇 3 is covered therein to form a housing. In addition, the housing can extend to the outside of the paper and the paper to form a long strip light B, which can cover a plurality of light emitting diode light sources 1〇3; and the luminaire can comprise a plurality of individual outer casing units. A matrix light emitting array is formed. In the middle, the light-emitting one-pole light source 103 is preferably a light-emitting diode white light source. Other color-emitting diode light sources are also applicable. The light-emitting diode base 104 is preferably an FR-4 type printed circuit board. The base 1 6 is preferably aluminum metal 'which may be rectangular, square or circular in shape. The lamp base 106 is integrally formed or assembled with the refracting plate 102. A refracting plate 102 is a flexible metal. The refracting plate 1 〇 2 is a φ flexible metal for being disposed on the lamp base 106. And surrounding the light-emitting diode light source 1〇3 to refract the divergent light of the light-emitting diode light source 1〇3. The flexible metal top may have a groove latch for fixing the photomask 101; the top of the lamp base 106 is coated with a heat-dissipating glue 105 for attaching to the light-emitting diode base 104; and the light-emitting diode light source 103 is located at the light-emitting diode Above the pole body base 104 to assemble and bond the two. The heat dissipating glue 1〇5 is used to facilitate the heat extraction, and each of the heat dissipating glues 105 is individually attached to the 6 M426709?-light emitting diode light source 103 corresponding to the matrix type light emitting array, so as to separately dissipate heat, and the light emitting diodes The pedestal is directly attached to the base H) of the luminaire, which will be used as a large flat sheet. Based on the entire lamp base H)6 provides a large amount of area for heat dissipation, the configuration of the heat sink can be omitted to save cost and simplify construction. In addition, as shown in FIG. 2, this figure is a refraction diagram of the light source of the light-emitting diode light source through the refracting plate of the present invention. The light-emitting diode light source 〇3 is refracted by the refracting plate 102, thereby effectively improving the light source of the light-emitting diode. 1〇3 luminous efficiency. • It should be noted that the reticle ι〇1 provides a single penetration of light, while the refracting plate 102 below the two sides provides at least one reflection, providing light to the reflected light through the reticle 101. Penetration, in this way, can improve the light availability of the light-emitting diode and enhance the illumination; this is the effect that the prior art cannot expect and achieve. Referring to the third figure, it is shown that the illuminance angle of the diode is not consistent with the illuminance angle; therefore, the extension line of the main illuminating angle can be substantially aligned with the luma source on both sides of the reticle 101. In order to facilitate the collection of most of the main light; the light that escapes is reflected by the refracting plate 102 at least once to enter the reticle 101. Based on the different illuminating angles of each of the Dimensional Dimensions, the skilled artisan should be able to understand the physical parameters of the reticle 101 and the refracting plate 102 to achieve the effect of the creation. The above description is a preferred embodiment of the present invention. Artists in this field should be able to understand the scope of their patents and not to limit the scope of their patent rights. The scope of patent protection is subject to the scope of the patent application and its equivalent. Anyone who is familiar with the field, the change or refinement made by the company is the equivalent change or design of the creation, and should be included in the patent application or scope within the scope of the patent. Inside. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a preferred embodiment of the present invention. The second-system non-light-emitting diode source is the light source of the refracting plate. The second diagram shows the illuminating angle of the light-emitting diode source. [Major component symbol description] 100 SMD LED illuminator 101 reticle 102 refracting plate 103 illuminating diode source 104 illuminating diode pedestal 105 thermal ray 106 illuminator base 107 source refraction direction 108 source refraction direction 109 source Refraction direction 110 source refraction direction

Claims (1)

M426709 * VI. Patent application scope: L A patch-type light-emitting diode lamp, comprising: a lamp base; a heat-dissipating glue applied to a part of the lamp base; at least a light-emitting diode base, by The heat dissipating glue is attached to the base of the lamp; 'at least one light emitting diode light source is correspondingly assembled on the at least one diode base; a refracting plate, which is a flexible metal, is disposed on the base of the illuminating device and surrounds the illuminating diode light source to refract the divergent light of the illuminating diode body light source; and a reticle, the configuration thereof The illuminating diode is mounted on the illuminating diode and is coupled to the refracting plate; wherein the illuminating base is configured to enhance the heat dissipating area of the at least one illuminating diode source. 2. The spliced LED luminaire of claim 1, wherein the luminaire base shape comprises a rectangle, a square or a circle. The patch-type light-emitting diode lamp of claim 1, wherein the material of the lamp base comprises aluminum metal or an alloy thereof. 4. The chip-type light-emitting diode lamp of claim 1, wherein the heat-dissipating glue coated on the base of the lamp comprises a heat-dissipating tape. 9