TWM429830U - Structure of led light bulb - Google Patents

Abstract

The present invention discloses a LED light bulb including: a bulb head; a shell body arranged on the bulb head and having a containing space, wherein the shell body has at least one gas permeable opening; a convection heat sink including a first heat sink and a second heat sink there below; a LED module arranged on the top surface of the convection heat sink; and a bulb shade arranged on the top surface of the convection heat to cover the LED module.

Description

M429830. V. New description: [New technical field] This creation is about a lighting device, especially a light-emitting diode lamp. [Prior Art] Light-emitting diodes (LEDs) have long life and power saving.

Durable and so on, LED lighting is the mainstream of green energy. In the future, various LED bulbs will replace traditional incandescent bulbs or energy-saving bulbs. Since the LED bulbs are mostly made of 冋 power LED chips, they will generate high heat, and the heat dissipation problem will lead to the shortening of the service life of the bulbs. Therefore, in order to increase the heat dissipation effect, it is generally necessary to additionally design heat-dissipating components, such as heat-dissipating fins. However, it is not that the heat dissipation effect is not enough, that is, the heat dissipation structure is too complicated to increase the difficulty and cost of the production. · If the problem of heat in the light of the two ships is a very important issue for this industry. [New content] % In order to solve the above problems, one of the purposes of the present invention is to provide a light-emitting diode bulb, which can have a light-emitting diode bulb by convection residual parts and a shell-shaped structure. Cooling problems and improve heat dissipation efficiency. The light-emitting diode bulb of the present invention-embodiment includes: a lamp-housing, the side is disposed on the bulb connector and has an accommodating space, wherein the housing ', a venting hole convection heat sink, The system includes a first heat dissipation portion and a heat dissipation portion connected to the second body; the light emitting module is disposed on a top surface of the convection heat dissipation member; and is disposed on a top surface of the convection heat dissipation member and covers the light emitting module The fifth cover is located in the accommodating space of the housing; the outer edge of the first heat dissipation portion is exposed to the outer lower edge and has a first gap with the upper edge of the body; the second heat dissipation portion and the inner wall of the housing are two One or two gaps: the first gap and the second gap are in communication with the venting holes of the casing; the plurality of first through holes penetrate the top surface of the heat dissipating portion to the bottom surface and communicate with the first gap; The top surface of the first heat dissipating portion is connected to the bottom surface of the second heat dissipating portion; and the light emitting module has a third through hole communicating with the second through hole. The following is a concrete implementation of the __style Le ^ description, when it is easier to understand the purpose, technical content, characteristics and the effects achieved. [Embodiment] For the /, the details, and the following, the Lai Jia will continue to do the same - explain _ to record the intention. As shown! As shown, the external light-emitting head of the embodiment of the light-emitting diode bulb, the - housing and the light-emitting diode bulb include: a bubble connector = cover (10). Its $, the shell is thin - the setting · has a space inside the body. The shell has at least one; the venting is a plurality of venting holes, but it is well known in the art, so a gas permeable magnet reaches the amount of the venting hole depending on the shape and position of the venting portion, and the heat dissipating member 3GG includes - The first heat sink. Most of the two =. The second heat dissipating portion 320 is located in the first heat dissipating portion and is controlled by the heat dissipating portion. The upper edge 204 of the first body 200 has a second heat radiating portion 32 〇 β \, A of the lower edge 314 of the shell and the shell portion. The top surface of the first gap A will be exposed to the top surface of the heat element _, and the surface of the heat sink _ is disposed in the convection to scatter the light-emitting module (as shown in Figure u, the thin top surface) The lampshade will continue to be referred to (4) and FIG. 2B, and FIG. 2A and FIG. 2β are the creative light-emitting diodes 4 M429830. [Simple Description of the Drawings] FIG. 1 is a schematic view of an embodiment of the creation. FIG. 2A and FIG. 2B are schematic diagrams. FIG. 3A and FIG. 3B are schematic diagrams of exploded explosion at different angles according to an embodiment of the present invention. [Description of main component symbols]

100 bulb connector 200 housing 202 venting opening 204 housing upper edge 206 snap cylinder 300 'convection heat sink 302 first perforation 304 second perforation 310 first heat dissipation portion 312 first heat dissipation portion outer edge 314 first heat dissipation Lower edge 320 second heat dissipation portion 322 inclined groove 400 light-emitting module 402 third perforation M429830

500 Shade 600 Power Conversion Module 700 Separator HI Airflow Path H2 Airflow Path Cl Airflow Path C2 Airflow Path A First Clearance B Second Clearance

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Claims (1)

Patent application scope: A light-emitting diode bulb comprising: a bulb connector; and a lamp housing having an accommodating space, wherein the shell hot portion heat-sinking portion includes a first heat dissipating portion and is connected thereto a second heat dissipation portion is located in the accommodating space of the housing; the outer edge of the first heat dissipation portion is exposed to the outside and the upper edge of the first heat dissipation portion has a first edge a gap; the second heat dissipating portion has a second gap with the inner wall of the casing; the first gap and the second gap are in communication with the venting hole of the casing; the plurality of first perforations penetrating the first a top surface to a bottom surface of the heat dissipating portion and communicating with the first gap; and a second through hole penetrating through the top surface of the first heat dissipating portion and the bottom surface of the second heat dissipating portion and communicating with the second gap; a module disposed on a top surface of the convection heat sink and having a third through hole communicating with the second through hole; and a lamp cover disposed on a top surface of the convection heat sink and covering the light Module. The light-emitting diode bulb of claim 1, further comprising a power conversion module disposed in the accommodating space below the second heat dissipation portion. The light-emitting diode bulb of claim 1, wherein the plurality of first perforations are disposed on a top surface of the first heat dissipation portion surrounding the light-emitting module, and external air from the first gap is caused by the A plurality of first perforations enter the lampshade. The LED bulb of claim 3, wherein the hot air generated by the illumination module is led out by the second perforation and is dissipated by the venting hole of the housing. The light-emitting diode bulb of claim 1, wherein the bottom surface of the second heat dissipating portion has an airflow guiding portion for guiding the airflow from the second perforation to the region of the second gap and by the venting hole shed. The light-emitting diode bulb of claim 1, wherein the lampshade has a collecting lens and the lampshade has an arcuate shape. The light-emitting diode bulb of claim 1, wherein the lampshade and the first heat-dissipating portion are fixed by a snap-fit structure. 8. The light-emitting diode bulb of claim 1, wherein the interior of the housing has a plurality of snap posts for snap-fastening with the convection heat sink.