TWM394427U - Structure of electricity/heat separated LED bulb module - Google Patents

Description

M394427 V. New Description: [New Technology Field] This creation is about an LED bulb module structure, especially an LED bulb module that facilitates electrothermal separation and can increase the range of light emitted by LED light-emitting components. structure. [Prior Art] The concept of electrothermal separation has been applied to electrical products that require heat dissipation. The advantage of φ separation is that it can block the interference of heat and electricity, so that the illuminant source has a stable output, which can make the heat conduction of the heat sink concentrated and make the metal The material has low expansion characteristics; however, as for the structure of the prior art LED bulb, as shown in FIG. 4, the LED bulb comprises a power socket 9 一, a heat sink 91, an aluminum base 92' - an aluminum substrate 93 and a lamp cover 95. The power socket 9 is a hollow body and a plurality of slots 901 are formed in the outer wall surface, so that the inside and outside of the LED bulb can communicate with each other. The radiator 91 is a hollow heat pipe body 911, and the outer wall surface of the pipe body 911 The surrounding arrangement extends into a plurality of heat sinks 91 2 for use in the led bulb φ. P radiates heat to the outside air, and the two ends of the heat sink 91 are respectively connected to the power source base 90 and the aluminum base 92. The aluminum substrate 93 is disposed on the aluminum base 92, and the aluminum substrate 93 is formed with a plurality of loads. The insulating circuit board 96 of the LED light-emitting component 94, the electrical contact of the circuit board 96 is electrically connected to the power supply base 90 via a power line and a power conversion module (not shown), and the lamp cover 95 is covered with an aluminum base. The sheet 93 is on the aluminum base 92. When the LED bulb is installed in a power source, the LED light on the circuit board 96 emits heat, and the heat generated by the member 94 is re-conducted to the heat sink 912 of the heat sink 91 via the aluminum substrate 93 and the aluminum base 92 to dissipate into the external space, and the heat is dissipated. M394427 The internal space of the body 911 communicates with the interior of the power socket 9,, and the slot 901 of the power socket 90 flows out to the external space by thermal convection, but the circuit board 96 and the aluminum substrate 93 are combined with the aluminum base. The seat 92 is adhered to each other, and the heat dissipation effect is limited. When the structure of the high-power bulb is designed, the circuit board 96 is likely to form a high-temperature heat state, and the resistance of the conductive metal material on the circuit board increases with the temperature, and the resistance will increase. Affecting the conductivity of the conductive material affects the output luminous efficiency of the LED light-emitting element 94, causing a change in the brightness of the light-emitting layer, and the high-temperature heat on the circuit board 96 causes the LED light-emitting element 94 to be generated thereon. Out of damage and damage, this is caused by the failure of electricity and heat to separate; the aluminum substrate 93 and the aluminum base 92 are designed in a plane, and the emitted light is concentrated in the center of the lamp cover 95, @LED hair Issued element called light of a certain angle limit can not be irradiated to the surrounding space between the fins 912, to emit the irradiation light amplitude range is limited. In view of the limited heat dissipation efficiency of the aforementioned LED bulbs, the problems of the separation of the electric power and the range of the illumination range have not been achieved. The actual improvement of the bulb structure is corrected. [New content] The creator has redesigned the existing LED bulbs in view of the many shortcomings such as loose and uneven sentences. The structure of the LED bulb module can be increased by the electrothermal separation of the LED bulb module. The illuminating element emits a range of light irradiation amplitude for the purpose of achieving the purpose of the object of the present (4), the electrothermal separation LED bulb module structure, which includes a source base, a seed-chain base, a compound brain LED light-emitting element...15 The power socket is rc Ί 4 M394427 and has a plurality of slots penetrating through the wall surface. The radiator is a hollow body and the two ends are respectively connected with a power socket and an aluminum base. The inner space communicates with the inner space of the heat sink body, and the lamp cover covers the aluminum base relative to the heat sink; the aluminum base is a piece of body at the center of the planar portion of the aluminum base piece Projecting upwardly, a pedestal having a plane and a slanted surface, the plane being located at the center of the pedestal and at a position higher than a plane portion of the aluminum base, the slope surrounding the center of the aluminum base Between the surface and the plane portion, a plurality of fixing holes are formed on the plane and the inclined surface of the pedestal, and the pedestal forms a space in the lower direction and has an opening which communicates with the inner space of the heat pipe body; The LED light-emitting element has a bottom surface which is a fixed column, and the fixing column is fixed in the fixing hole of the plane and the inclined surface of the pedestal. The electrothermally separated LED bulb module structure, the LED light-emitting component has a single-layer circuit board, and the circuit board carries a light-emitting diode. The top surface of the circuit board is provided with a light-emitting diode Conductor connection of electrical connection • Point 'Electrical connection between the guiding points of each LED light-emitting element, the bottom surface of the circuit board is combined with a fixing column, the fixing 枉 is made of metal, and the outer diameter of the fixing column is fixed and fixed. The holes are matched and can be fixed in the fixing holes in an urgent manner, and are combined with the pedestal. The structure of the electrothermally-separated LED light bulb module, wherein the tube body of the heat sink is arranged in a surrounding manner to protrude and extend a plurality of heat dissipation, and the heat sink is configured as a body. The tube body forms a card slot on the inner wall surface of the upper edge. 'The pedestal protrudes from the bottom of the binding post'. The card slot can be engaged with the binding post of the pedestal. The electrothermally separated LED bulb module structure is made of a metal material of thermal conductivity Γ M394427. The electrothermally separated LED bulb module structure, wherein the aluminum base is provided with a perforation. The electrothermal separation LED bulb module structure has a ten-metal heat sink forming a body on the outer edge of the outer side of the sheet body. By the foregoing technical means, the author can achieve the following advantages and functions: - 1 The electrothermally separated LED bulb module structure is designed, the material of the platform is made of - heat conductive material, the pedestal has a plane and a slope, the plane and the inclined surface of the pedestal are provided with a plurality of fixing holes, and the fixing column of the LED light-emitting component is provided. The fixing hole can be disposed on the plane and the inclined surface of the pedestal, and the high-temperature heat generated by the led illuminating π piece disposed on the circuit board is transmitted to the fixed column through the fixing column protruding from the plane of the pedestal and the inclined surface. The aluminum base is larger, and the high temperature heat is transmitted to the heat sink through the aluminum base. The heat sink then discharges the high temperature heat into the external space environment, so the design of the fixed column can make the LED _ light-emitting element high. The warmth can be quickly transmitted to the external environment to achieve the effect of electrothermal separation; the pedestal can increase the heat dissipation area of the aluminum base, and the pedestal forms a hollow space inside for convection of hot air, hot air Further by the radiator or heat sink for the power base of the slot between the external space scattered 'to enhance heat dissipation efficiency. 2. The structure of the electrothermal separation LED bulb module designed by the author, the platform of the platform on the base of the pedestal, the LED light-emitting component is mounted on the pedestal - 7-- 1, A. a < On the slope, the range of light emitted by the LED bulb can be expanded. [Embodiment] M394427 This is an electrothermal separation LED bulb module structure, as shown in Figure i and Figure 2, which includes a power socket 4〇, a heat sink 3〇, an aluminum base 10, and multiple LEDs. The component 20 and a lamp cover 50 are hollow bodies and are provided with a plurality of slots 41 extending through the wall surface on the wall surface to dissipate heat. ° 0 is a hollow pipe body 301 and the two ends are respectively connected to the power base 4〇 and the base base 1 , and the lamp cover 50 covers the aluminum base 1〇 with respect to the heat sink 30. As shown in FIG. 2 and FIG. 3 , the aluminum base 1 is a one-piece body, which is a heat-conducting material, and protrudes upward from the center of the aluminum base 1 , and the base 11 has a plane and a slope 112 which is located at the center of the pedestal 11 and is located higher than the plane portion of the aluminum base 1 该. The slope 11 2 is located between the plane 1 彳彳 and the aluminum base, between the planar portions of the raft, A plurality of fixing holes and perforations 13 are formed in the plane 111 and the inclined surface 彳彳2 of the mouth seat 11, so that the fixing post 24 is disposed at the fixing hole 12, and the hole required for the circuit setting uses the through hole 13, which is placed under the hole The inner recessed portion defines a space 11 3 and has an opening 11 4 . The opening 14 14 communicates with the inner space of the tube body 301 of the heat sink 30 , and a combined column 11 5 ' power conversion module protrudes below the pedestal 11 . The component can be installed in the space 彳彳3 and the tube body 301. The plurality of LED light-emitting elements 20 have a single-layer circuit board 21, and the circuit board 21 carries a light-emitting diode 22, and the circuit board 21 On both sides of the top surface, there are guiding points 23 electrically connected to the LEDs 22, and the LEDs are distributed. The bottom surface of the circuit board 21 is electrically connected to a fixed post 24, and the fixing post 24 is made of a metal material. The outer diameter of the fixing post 24 is fixed to the fixing hole 12 The heat sink 30' The body 311 is formed as a body 311, and a body 312 is formed on the outer edge of the outer side of the body 311. The tube body 301 forms a card slot 302 on the inner wall surface of the upper edge, and the card slot 302 can be engaged with the binding post 115 of the pedestal 11. The inner space of the power socket 40' communicates with the inner space of the heat sink 3〇3. 1 Please refer to FIG. 3, when the assembly is completed and assembled, by protruding from the plane 111 and the inclined surface of the pedestal 11 The fixing post 24 of the 112 is designed such that the high temperature heat generated by the LED light emitting element 20 disposed on the circuit board 21 is conducted to the aluminum base having a large area via the fixing post 24, and the high temperature heat is transmitted to the aluminum base 1 The radiator is 3 〇, and the radiator 30 discharges the high temperature heat to the outside space. In the environment, the fixed column 24 protrudes from the pedestal 11 plane 111 and the inclined surface 112 " and the tenth can cause the high-temperature heat generated by the LED light-emitting element 2 to be quickly discharged to the external environment to achieve the effect of electrothermal separation; The pedestal 11 can increase the heat dissipation area of the Ming pedestal. The pedestal 11 forms a hollow space 113 inside to increase the heat convection space, and the hot air flow enters the inside of the heat sink 3 through the opening 彳彳4. The slot 41 of the power socket 40 is dissipated to the external space to improve the heat dissipation efficiency. At the same time, the pedestal 11 has a plane m and a slope 112, so that the LED light-emitting element 20 on the fixed column 24 of the slope 112 can increase the illumination. The LED light-emitting element 20 is provided with light to emit light through a peripheral portion of the globe 50. The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Although the present invention has been disclosed above in the preferred embodiments, but is not intended to limit the present invention, R 8 M394427 Those skilled in the art will make some modifications or modifications to the technical content disclosed in the scope of the present technical solution, but the technical essence of the content without departing from the technical solution of the present invention is the same as the above embodiment. Any simple modifications made are still within the scope of this creative technical solution. [Simple description of the drawing] Fig. 1 is a perspective view of the creation. 'When the equivalent of the last three changes can be used ‘based on this creation, equivalent changes and

Figure 2 is an exploded perspective view of the creation. Figure 3 is a cross-sectional view of the present creation. Figure 4 is a cross-sectional view of the prior art. [Main component symbol description] 10 aluminum base 11 pedestal 12 fixing hole 13 perforation 111 plane 1 1 2 inclined surface 1 1 3 space 1 14 opening 1 1 5 binding post 12 fixing hole 13 perforation 20 LED light-emitting element 21 circuit board 22 light-emitting two Polar body 23 lead point 24 fixed column 3 〇 heat sink 301 tube body 302 card slot 31 heat sink 311 piece body 312 block body 40 power socket 41 slot 50 lampshade 90 power socket M394427 91 heat sink 901 91 1 heat pipe body 912 92 Aluminum base 93 94 LED light-emitting element 95 96 Circuit board slot heat sink circuit board lampshade 10

Claims (1)

M394427 VI. Patent application scope: 1 · An electrothermal separation LED bulb module structure, comprising a power base, a heat sink, an aluminum base, a plurality of LED light-emitting components and a lamp cover, the power socket is a hollow body and The wall surface is provided with a plurality of slots penetrating through the wall surface, the heat sink is a hollow tube body and the two ends are respectively connected with the power base and the Shao base, and the inner space of the power socket and the inner space of the heat pipe body communicate with each other, the lampshade Covering the aluminum base relative to the heat sink; the aluminum base is a piece of body, and a seat is protruded upward from a center of the planar portion of the aluminum base piece, the base has a plane and The inclined surface 'the plane is located at the center of the pedestal and is higher than the plane portion of the aluminum base'. The inclined surface surrounds the plane and the plane portion located at the center of the aluminum base, and a plurality of fixing holes are provided on the plane and the inclined surface of the pedestal. The pedestal forms a space in the lower direction and has an opening, and the opening communicates with the inner space of the tube body of the heat sink; the LED light-emitting element has a bottom surface of a fixed column, and the fixed column Disposed in a plane with the slope of the seat fixing hole. 2. The electrothermal separation LED bulb module structure as described in claim i of the scope of the patent, the LED light emitting element has a solar panel disposed on the circuit board, the circuit board carrying a light emitting diode, the top of the circuit board The two sides of the surface are provided with a conductive connection with the light-emitting body, and the electrical connection between the guiding points of the LED light-emitting element is electrically connected by a wire. The bottom surface of the circuit board is combined with a fixing column, and the fixing column is made of metal. The outer diameter of the fixed column is matched with the fixing hole, and can be fixed in the fixing hole in an urgent manner, and is combined with the pedestal. ^ The electrothermal separation LED lamp 'module structure' as described in claim i or 2, wherein the tube body of the heat sink is circumferentially arranged to protrude a plurality of ί 5 M394427 heat sinks, and the heat sink is constructed as a piece The body body forms a card slot on the inner wall surface of the upper edge, and the pedestal protrudes from the bottom of the binding post, and the card slot can be engaged with the binding post of the pedestal. 4. The electrothermal separation LED bulb module structure as described in item 3 of the patent application scope* is the material of heat conduction. 5. The electrothermally separated LED bulb module structure of claim 4, wherein the aluminum base is provided with perforations. 6. The electrothermal separation L E D bulb module structure according to claim 5, wherein the heat sink forms a body on an outer edge of the outer side of the sheet. Seven, the pattern: (such as the next page) 12