TW201038861A - LED lamp - Google Patents

Abstract

An LED lamp includes a lamp frame including a holding portion and a suspension portion. The holding portion includes two opposite side plates. Each side plate has a top fixing part, a bottom fixing part and a connecting part connected between the top and bottom fixing parts. The suspension portion is connected between the two bottom fixing parts of the two side plates. A heat dissipation plate is disposed between the two connecting parts of the two side plates. An LED module is disposed on a top surface of the heat dissipation plate. A reflector is disposed between the two side plates and is configured for reflecting light emitted from the LED module. A lamp cover is disposed between the two top fixing parts of the two side plates. A power supply module is disposed on the suspension portion.

Description

201038861 - VI. Description of the Invention: • Technical Field of the Invention The present invention relates to a light-emitting diode lamp, and more particularly to a light-emitting diode lamp having a lamp holder that can be adapted to a plurality of heat sinks. [Prior Art] As a highly efficient light source, light-emitting diodes have been widely used in various fields. However, when the light-emitting diode is in operation, a large amount of heat is generated, and if the heat is not dissipated in time, the light-emitting diode is easily overheated, which causes the luminous efficiency to decrease. The prior light-emitting diode lamp includes a plate-shaped heat sink and a light-emitting diode mounted on one side of the heat sink. These light-emitting diodes are evenly arranged on a plurality of straight lines. When the light-emitting diode is lit, the heat generated by it is dissipated into the surrounding air via the plate-shaped heat sink. ◎ In order to meet the installation of plate-shaped heat sinks of different structures and sizes, the lamp holder of the light-emitting diode lamp should also change the structure and size accordingly. At present, the light frame is usually an extruded structure, which is relatively expensive to manufacture. SUMMARY OF THE INVENTION It is necessary to provide a light-emitting diode lamp whose lamp holder can be adapted to a heat sink of various structures and sizes. A light-emitting diode lamp includes: a light stand comprising a receiving portion and a hanging portion; the receiving portion includes two opposite sides 4 201038861 plates, each side plate having an upper fixing portion and a lower fixing portion And a connection between the upper fixing portion and the lower fixing portion, the hanging portion is connected between the two lower fixing portions of the two side plates; a heat dissipation plate is disposed between the two connecting portions of the two side plates; a light emitting diode The body module is disposed on a top surface of the heat dissipation plate; a light reflection module is disposed between the two side plates for reflecting the light emitting diode module; and a light cover is disposed on the two side plates Between the upper fixing portions; and a power driving module disposed on the hanging portion. 〇 Compared with the prior art, the distance between the two side plates of the accommodating portion can be adjusted to match the heat dissipation plates of different widths, so that the structure of the two side plates is versatile. Compared with the manufacturing cost of the heat dissipation plate, the extrusion process of the two side plates of the accommodating portion is relatively high. Therefore, in this embodiment, by adjusting the distance between the two side plates, the heat dissipation plate and the different degree of dissipation are matched. Light-emitting diode modules with different structures can be obtained by using the LED module, the suspension part, the lamp cover and the like. ® Embodiments Hereinafter, a light-emitting diode lamp of the present technical solution will be described in detail with reference to the accompanying drawings and embodiments. Referring to Figures 1 to 3, a light-emitting diode lamp includes a lamp holder 10, a heat sink 20, a light-emitting diode module 3A, a reflective module 40, a lamp cover 50, and a power supply driving module. The lamp holder 10 includes an elongated receiving portion 1 j and a hanging portion 12. The lamp holder 10 is of an extruded structure which may be made of a plastic material such as 5 201038861 'polymeric acid ester, polymethyl methacrylate, or a metal material such as aluminum or the like. The accommodating portion 11 includes two opposite longitudinal side plates and two opposite baffles 112. The cross-section of each side plate 111 is a curved structure. In this embodiment, the cross-section of each side plate is approximately semi-elliptical. The two side plates 111 are disposed at a distance from each other, and the two baffles 112 are respectively disposed between the two Q end portions of the two side plates U1. Thus, the two side plates 111 and the two baffles 112 are enclosed in a horizontal direction. space. The LED module 30 and the reflective module 40 are disposed in the enclosed space. Each of the side plates 111 has an upper fixing portion 1110, a lower fixing portion 1120, and a connecting portion 1130 connected between the upper fixing portion 111A and the lower fixing portion 112A. The upper fixing portion ul is for engaging with the lamp cover 50, and the lower fixing portion 1120 is for engaging with the hanging portion 12. The thickness of the upper solid portion 1110 is greater than the thickness of the connecting portion 113. The upper fixing portion ηιο defines an elongated length along a longitudinal direction thereof: a groove 1111'. The groove 1111 has an upper wall 1112 and a lower wall 1113. The two grooves U11 of the two upper fixing portions 1110 of the two side plates 111 are oppositely opposed to receive the two end edges of the lamp cover 50, thereby fixing the lamp cover 50 between the two upper fixing portions 111〇 of the two side plates 111. . The lower wall 1113 extends obliquely downward and inwardly to extend an extension plate 1114 for the reflective module 4 to abut. The two extension plates 1114 of the two fixing portions mo of the two side plates ui form an inverted taper opening. 6 201038861 ' The connecting portion 1130 is adjacent to the inner surface of the lower fixing portion 1120 and protrudes from the longitudinal direction of the two longitudinally extending convex plates 1131. The two convex plates 1131 are spaced apart to form a longitudinally long groove 1132. It is used to receive the two end edges of the heat sink 20. The heat sink 20 includes a heat dissipation plate 21 and a plurality of heat dissipation fins 22 extending from a bottom surface of the heat dissipation plate 21. The opposite ends of the heat dissipating plate 21 are respectively received in the two grooves 1132 of the two connecting portions 1130 of the two side plates 111, so that the heat sink 20 is fixed between the two connecting portions 1130 of the two side plates 111. The LED module 30 is disposed on a top surface of the heat dissipation plate 21 of the heat sink 20. The LED module 30 includes a rectangular metal substrate 31, and a plurality of LEDs 32 are disposed on the top surface of the substrate 31. The structure and size of the substrate 31 are substantially the same as those of the heat sink 21 of the heat sink 20. Lines are arranged on the surface of the substrate 31, and two terminals 33 are respectively disposed at opposite corners of the substrate 31 to energize the lines. The retroreflective module 40 is configured to reflect the LED module 30, and includes a vertically long first reflector 41 and a second reflector 42. The first reflector 41 and the second reflector 42 are rectangular plates that are respectively fixed to the two extension plates 1114 of the two upper fixing portions 111 of the two side plates 111. Since the two extension plates 1114 extend downwardly and inwardly from the lower wall 1113, a reverse tapered opening is formed, that is, the opening between the two extension plates 1114 is from the light emitting diode module 30 to 7 201038861 The vertical direction gradually becomes larger, so that the light emitted from the lamp housing 50 can be enlarged while avoiding the loss of the light emitted by the LED module 30 due to scattering. Specifically, the lateral upper plate of the first reflector 41 abuts against the extension plate 1114 of the fixing portion 111 of the one side plate 1U, and the lateral lower plate of the first reflector 41 abuts against the pole The substrate 31 of the body module 3〇. And a portion of the first lower reflector of the first reflector 3 is cut away to form a notch to avoid the terminal 33 corresponding to the first reflector 41. Similarly, the upper plate of the second reflector 42 is in opposition to the extension plate 1114 of the fixing portion mo on the other side plate hi, and the lateral lower plate of the second reflector 42 abuts against the pole The substrate 31 of the body module 30 has another notch formed at one end corner of the lateral lower plate to avoid the terminal 33 corresponding to the second reflector 42. In order to achieve a better reflective effect, the reflective module 4 can further include a first side reflector 43 and a second side reflector 44. The first side reflector 43 and the second side reflector 44 are disposed between the first reflector 41 and the second reflector 42 and are located at both ends of the first reflector 41 and the second reflector 42. The first side reflector 43 and the second side reflector 44 are respectively fixed to the two baffles 112 of the accommodating portion 11. The first reflector 41, the second reflector 42, the first reflector 43 and the second The side reflectors 44 are each made of a material 8 201038861 having good light-reflecting properties. In this embodiment, it is made of polycarbonate (PC). The suspension portion 12 is a plastic body molding structure, and includes a carrier plate 121 and two support plates 122 extending upward from opposite ends of the carrier plate 121. The power driving module 60 is disposed on the top surface of the carrier board 121 and between the two supporting boards 122. The mother floor slab 122 includes a solitary body i22a and a mating plate 122b extending obliquely outwardly from the body 122a. The two supporting plates ι22 are disposed opposite to each other to form a structure having a large intermediate diameter and a small diameter at both ends. The upper ends of the two arcuate bodies 122a of the two supporting plates 122 are disposed between the two lower fixing portions 1120 of the two side plates, and the outer surfaces of the two supporting plates 122b and the two side plates are respectively lower than the two side plates ηι The inner surface of the fixing portion 112 is joined. When assembling, the suspension portion 12 and the accommodating portion 11 are assembled, that is, ◎ the outer surfaces of the two supporting plates 122b of the two supporting plates 122 of the hanging portion 12 are locked by screws and the two side plates of the accommodating portion U are The inner surface of the second lower solid portion 1120 is fixed. The two longitudinal ends of the heat sink 21 of the heat sink 2 are slid into the two longitudinal grooves 1132 along the longitudinal direction of the two side plates of the accommodating portion u. On the top surface of the heat dissipating plate 21, the two baffles 112 are respectively fixed to the two ends of the two side plates 111 by means of locking screws, and the two ends of the heat radiating plate 21 and the light emitting diode module 3 are provided. The two ends of the lamp cover 50 are fixedly received in the two grooves 1U1 of the two side plates (1). The power drive module 6 is clamped to the top surface of the carrier plate 121 to complete the assembly of the entire LED package. Compared with the prior art, in this embodiment, the distance between the two side plates ill of the accommodating portion i can be adjusted to match the heat radiating plates 21 of different widths, so that the structure of the two side plates U1 is versatile. Compared with the manufacturing cost of the heat dissipation plate 21, the extrusion cost of the two side slabs I11 of the accommodating portion n is relatively high. In this embodiment, the distance between the one side plates 111 is adjusted to match the heat dissipation of different widths. The plate 21 and the required light-emitting diode module 3〇, the hanging portion 12, the lamp cover 50, and the like can obtain a light-emitting diode lamp of different structure. In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application in this case. Any equivalent modifications or variations made by those who are familiar with the skill of the present invention in accordance with the spirit of the present invention should be included in the following. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a combination of a light-emitting diode lamp according to an embodiment of the present technical solution. 2 is a perspective view of the inverted LED of the light-emitting diode of FIG. 1 201038861 FIG. 3 is an enlarged cross-sectional view of the light-emitting diode lamp of FIG. [Main component symbol description] Lamp holder 10 accommodating portion 11 Suspension portion 12 Side plate 111 Baffle 112 Upper fixing portion 1110 Lower fixing portion 1120 Connecting portion 1130 Groove 1111 Upper wall 1112 Lower wall 1113 Extension plate 1114 Heat sink 20 Heat sink 21 Heat sink 22 Light-emitting diode module 30 Substrate 31 Light-emitting diode 32 Terminal block 33 Reflective module 40 First reflector 41 Second reflector 42 First-side reflector 43 Second-side reflector 44 Lampshade 50 Carrier board 121 support plate 122 body 122a mating plate 122b power drive module 60 11

Claims (1)

201038861 '7. Patent application scope: 'A kind of light-emitting diode lamp, the improvement is as follows: the light-emitting diode lamp comprises: the lamp holder comprises a receiving portion and a hanging portion; the receiving portion comprises two openings a side plate, each side plate has an upper fixing portion, a lower fixing portion and a connecting portion connecting the upper fixing portion and the lower fixing portion, wherein the hanging portion is connected between the two lower fixing portions of the two side plates; Between the two connecting portions of the two side plates; a light-emitting one-pole body module is disposed on the top surface of the heat-dissipating plate; a light-reflecting module is disposed between the two side plates for feeding the light-emitting diode The body module is reflective; a lamp cover is disposed between the two upper fixing portions of the two side plates; and a power driving module is disposed at the hanging portion. 2. The illuminating diode lamp of claim 2, wherein the two side plates are spaced apart, and each side plate is a longitudinally extruded structure having a curved surface. 3. The illuminating diode lamp of claim 2, wherein the fixing portion of the two side plates extends a longitudinal direction of the two longitudinal grooves for receiving the two end edges of the lamp cover. 4. The illuminating diode lamp of claim 3, wherein the lower wall of each groove extends downwardly and inwardly to extend an extension plate, and the reflective module comprises two first reflectors. Relying on the two extension plates of the two grooves respectively. 12 201038861 _ 5. The light-emitting diode lamp according to item 4 of the Shenjing patent scope, wherein the upper plate of each first reflector is abutted against the extension plate of each groove Relying on the diode module. 6. The illuminating diode lamp of claim 1, wherein the inner surface of the connecting portion of each of the side plates protrudes in a longitudinal direction and protrudes from the two spaced apart convex plates, and the two end edges of the heat dissipating plate receive Between the two spaced apart convex plates. The illuminating diode lamp of claim 6, wherein the lamp holder further comprises two baffles disposed at two ends of the two side plates, and the side plates and the two baffles are enclosed in the horizontal direction. In a closed space, the reflective module further includes two second reflectors respectively disposed on the two baffles and located in the closed space. 8. The illuminating diode lamp of claim 1, wherein the suspension portion comprises a carrier plate for arranging a power supply driving module and two upwardly extending from opposite ends of the carrier plate The floor slab and the two D slabs are respectively connected to the accommodating part. 9. The illuminating diode lamp of claim 8, wherein each of the struts comprises a body and a mating plate extending obliquely outward from the body, and the outer surfaces of the two supporting plates and the supporting plate are respectively The inner surface of the fixing portion under the side plate is fitted. 10. The illuminating diode lamp of claim 1, wherein a plurality of fins are formed on a bottom surface of the heat dissipating plate. 13