TW200925500A - High power LED light source illumination device - Google Patents

Abstract

The present invention discloses a high power LED light source illumination devicesuitable to be used for a lamp set of transportation vehicle, the said lamp set of transportation vehicle comprises a plurality of high power LED light source illumination devices. The present invention utilizes the theory of light reflection, with a reflection module and two reflection sheets, the light source can be efficiently reused, and the illumination efficiency and illumination density are raised, moreover, the two reflection sheets can form a desired illumination shape. The described structure can overcome the disadvantages of illumination energy loss due to a blocking sheet or a shielding mask utilized in the prior art.

Description

200925500 IX. Description of the Invention: [Technical Field] The present invention relates to a light-emitting device', particularly a high-power light-emitting diode (LED) light source light-emitting device. [Prior Art] Traditionally, the illuminating lamp set for a car is a mirror made of a smooth paraboloid, with a transparent lamp © a case, which places a light source at a focal length of a paraboloid to generate a parallel beam, and then sculpts the light through a convex lens. At present, the two mainstream lights are multiple mirrored headlights and projected headlights. The multiple mirrored headlights are made by cutting a paraboloid into many small square mirrors and changing the curvature and rotation of each small mirror. Angle 'and use stacking to enhance the brightness value, its shape is similar to diamond, also known as crystal drill bit lamp; projection type lamp is designed by using elliptical mirror, the light source is placed in the first focus of the ellipse, the light is reflected After concentrating to the second focus, and placing the fascia at the second focus to create the desired light shape, then placing an aspherical convex lens in front of the baffle, at which time the baffle position © is the focus of the lenticular lens, making the light It can be emitted in parallel via a convex lens. Projection lights 'The advantage of the system is that the cut-off line is clear and clear, but due to the baffle, there are more energy loss and more reflective mirror lights. As shown in FIG. 1A and FIG. 2B, the projection LED lamp structure 1 is one of the prior art, and the projection LED lamp structure 1 is composed of a plurality of reflective LED point light sources. The reflective LED point light source 10a is disposed on a pedestal 120 with its light emitting surface facing upward, and the LED light source 140 is refracted toward the half reflector 160 by the half reflector 160 above the susceptor 120. The front end opening 'except for this, the light is changed by the shape of the mask 13 〇 6 200925500 which is disposed at the front end of the semi-reflective cover 16 其, the chamfered edge / the horizontal side or the horizontal side / a horizontal side Light shape. However, the design of the reflective LED point light source 100a, which has a mask 13〇, may make some of the light sources unable to be effective, thereby causing the LED system 14Q navigation scale to be reduced, resulting in a drastic reduction in the intensity of the filament shape. - In view of the above-mentioned various aspects, the present invention provides an improved light source hairline arrangement to improve the above disadvantages. SUMMARY OF THE INVENTION In the above background, in order to meet the needs of certain interests in the industry, the present invention provides a local power illuminating two-layer (led) wire hair set which can be used to solve the above-mentioned conventional illuminating lamp group failure. Achieved the target. The invention relates to the principle of light reflection of paste, in order to make the wire effective, and to increase the luminous efficiency and the light output intensity. The high-power LED light source illuminating device disclosed in the invention is suitable for the vehicle lamp group use of the vehicle. The group can be composed of several high-power LED light source illuminating devices. Each high-power LED light source is arranged to treat the LED wire as a __point source, and a reflector is placed above the light source holder, the reflector and the lens holder, and finally the reflected light is concentrated by the lens. The detailed structure and the optical path analysis of the LED light source are placed on the first focus of the light source seat and the elliptical reflector, and a reflecting device higher than the LED light source is placed at the front end of the LED light source. The purpose is to make the LED light source The light shape is reduced and concentrated, and the light emitted by the LED is effectively reflected again. The light is reflected by the column reflector to the front lens holder, and the light is generated by the lens through different reflective surfaces on the lens holder. The required light shape, the setting of different reflective surfaces on the lens holder, in addition to the function of the baffle to form different light shapes, can better solve the lack of light efficiency caused by the baffle. The high-power LED light source illuminating device of the invention and the LED light source with the illuminating surface facing up can make the component miniaturized, and more importantly, the reflecting surface placed on the front side of the LED light source and the reflecting surface on the lens holder are all effective for making the light source effective. Re-use and improve the light intensity to solve the lack of energy loss of the light source caused by the conventional technology due to the baffle or the mask. [Embodiment] The present invention is directed to a high-resolution LED light source illuminating device. In order to fully understand the present invention, detailed steps and compositions thereof will be set forth in the following description. Obviously, the practice of the present invention is not limited to the specific details familiar to those skilled in the art of light-emitting devices. On the other hand, well-known components or steps are not described in detail to avoid unnecessarily limiting the invention. The preferred embodiments of the present invention are described in detail below, but the present invention may be widely practiced in other embodiments, and the scope of the present invention is not limited by the scope of the following patents. . Refer to the second A ® Qing's department for the reduction of the (four) - age implementation of the construction of the high-powered # LED light source hairline set 2GG component exploded view, the second B _ second c _ for the assembly of the finished LED The illuminating device 200 has a shed and a side closure, and includes a pedestal set 220', an LED illuminating element 240', a reflecting cover 260, and a lens 280. The lens 280 is disposed at the foremost end of the susceptor group 22, and the reflector 26 and the LED illuminating element 24 are disposed above the rear portion of the pedestal group 220, and the reflector 26 is located above the LED illuminating element 24A. The pedestal set 220 has a light source holder 222, a reflective module 224 and a lens holder 226. Wherein the 'light source holder 222 is located at the rear of the base group 220 and located under the LED illuminator 8 200925500 240; the lens holder 226 is located at the front of the pedestal group 220 and is located behind the lens 280 and in front of the reflective module 224; The module 224 is located behind the lens holder 226 and in front of the light source holder 222. In addition, the lens holder 226 has a first reflecting plate 226a, a second reflecting plate 226b and a recess 226c, and the first reflecting plate 226a and the second reflecting plate 226b are located near the lens of the reflective module 224. At the rear of the seat 226, the two left and right reflecting plates are divided by the optical axis 226d, and the optical axis 226d is a line connecting the center of the lens 280 and the LED light-emitting element 240 to locate the remaining components; in addition, the groove 226c is Located at the front end of the lens holder 226 near the lens 28' is used to position the lens 280 therein. The reflective module 224 is a square reflector disposed between 0.1 mm and 20 mm in front of the LED light-emitting element 240, preferably χ mm, and the height of the reflective module 224 is higher than the LED light-emitting element 240 0.1 The millimeter to 20 mm, preferably 1 mm, is used to reduce the light shape of the concentrated LED light-emitting element 24, and to make the light source effectively reused, thereby improving luminous efficiency and light intensity. Wherein, the LED light-emitting element 24 can be a single-color LED light source (white light, yellow light, white yellow light, blue light, red light, red orange light, cyan light, etc.) or a mixed light color LED light source, in addition to the LED light-emitting element 240 The light emitting surface faces upward, is disposed on the light source holder 222, and is located at the first focus 260a of the reflective cover 260. In addition, the reflector 260 may be semi-elliptical and disposed above the combination of the light source holder 222, the reflective module 224 and the lens holder 226. Referring to FIG. 2D, it is an exploded view of the light path inside the high-power LED light source device 200. The light emitted by the LED light-emitting element 240 is incident on the reflector 26 and the reflective module 224, and the light is reflected by the reflective module 224. After being reflected, it is incident on the reflector 26, and the light that changes the optical path is reflected by the reflector 26 to the first reflector 226a and the second reflector 226b of the lens holder 226, and then reflected to the lens 280' or the light that changes the optical path directly passes through the concave The groove 226c is incident on the lens 28, 9 200925500. The last light is refracted by the lens 280 to produce a light pattern, wherein the groove 226c is disposed to enable the light diverging from the reflector 260 to be smoothly incident on the lens 280. The lens 280 can be a spherical surface, a paraboloid or an aspheric lens 280 for collecting and refracting the light reflected by the reflector 260 and the lens holder 226. In addition, if the first reflecting plate 226a is a horizontal plane, the second reflecting plate 226b is downwardly extended 15 by the optical axis 226d. The beveled surface has a light-emitting shape which is a distinctly light-shaped shape of the cut-off line; if both the first reflecting plate 226a and the second reflecting plate 226b are a horizontal plane, the outgoing light shape is a small-area light shape of the diffusion distribution. The first reflector 226a © and the second reflector 226b are located on the second focus 260b of the semi-elliptical reflector 260. In addition, if the second focus 260b is moved by a distance of five millimeters from the light reflecting module 224, the diffused light shape of the light emitted by the lens 28 can be amplified. In order to meet the needs of the industry, in a preferred example, if the reflective module 224 is removed from the pedestal group 220, a high-power LED light source for forming a small-area light shape of a near-light shape and a diffusion distribution can be specifically achieved. The device 200, wherein the remaining base group 220 is a light source holder 222 and a lens holder 226. The lens holder 226 includes a first reflector 226a, a second reflector 226b and a recess 226c. If the first reflecting plate 226a and the second reflecting plate 226b are removed from the lens holder 226, a power LED light source device 200 having a light source capable of effectively utilizing the LED light emitting element can be specifically realized, wherein the remaining base group 220 The components are a light source holder 222, a light reflecting module 224 and a lens holder 226 having only one recess 226c. If the above two examples are implemented together in the component structure, the high power LED light source is used for both functions. Light emitting device 200. Obviously, many modifications and differences may be made to the invention in light of the above description. 200925500 is therefore intended to be understood within the scope of the appended claims, and the invention may be widely practiced otherwise. The ship is a preferred embodiment of Shuming, and the patents of the invention are claimed. All other modifications, such as those performed without departing from the spirit of the present invention, shall be included in the scope of the next patent. . [Simple description of the diagram] ❹ The first-A® is a schematic diagram of the light-weight structure of the LEDs of the gamma-known; the first-B _ is a schematic diagram of the reflective led point light source of the projection-type coffee-carriage towel of the traditional f; The second A _ An elemental exploded view of a high-resolution (four) light source illuminating device according to the present invention, which is a top view of a preferred embodiment of a high-power LED light source illuminating device; It is a side view of the high-sensitivity LED light source illuminating device according to the present invention, and the second D_transmission county (four) is used to implement the light path decomposition diagram inside the led wire illuminating device. [Main component symbol description] 100 Projection LED lamp structure 120 Base l〇〇a Reflective LED point light source 130 Mask 11 200925500 140 LED light source 160 Semi-reflective cover 200 High-power LED light source illuminator 220 Base group 222 Light source Block 224 Reflective Module 226 Lens Holder 226a First Reflector 226b Second Reflector 226c Groove 226d Optical Axis 240 LED Light Emitting Element 260 Reflector 260a First Focus 260 260b Second Focus 280 Lens 12

Claims (1)

200925500 X. Patent application scope: 1. A power-emitting diode light source illuminating device' The high-power illuminating diode light source illuminating device comprises: a pedestal group; an LED illuminating element, the illuminating surface of the LED illuminating element Upward, located above the rear section of the pedestal group; © a reflector, the reflector includes an inner surface for reflecting light emitted by the LED illuminating element, the reflector being disposed on the led illuminator a lens and a lens disposed at a front end of the base group for collecting and refracting light reflected by the reflector; a reflective module located in front of the LED light emitting device and the lens The rear side is for reflecting the light source emitted by the LED light-emitting element and reflecting to the reflector, so that the light source effectively utilizes 'and improves the light intensity of the light shape. ❹ .2. The high power light emitting diode light source illuminating device according to claim 1, wherein the reflecting mode group is a square reflecting plate. 3. The high-power light-emitting diode light source illuminating device according to claim 1, wherein the reflective module is disposed in front of the LED illuminating element and is used to make the LED illuminate. The light shape emitted by the component is reduced in concentration. 4. The high-power light-emitting diode light source illuminating device according to claim 1, wherein the height of the light-reflecting module is higher than the LED light-emitting element oi mm to 2 mm, which is used to make the LED 13 200925500 The light shape emitted by the illuminating element is reduced and concentrated. 5. The high-power light-emitting diode light source illuminating device according to claim 1, wherein the base group further comprises a groove disposed at a front portion of the base group and located at the reflective module The front side and the rear of the lens are used to position the lens in the recess, and the light reflected from the reflector can be smoothly incident on the lens. • 6· Please refer to the high-rotation dimming light-reducing neon wire described in item i of the patent scope. The inner surface of the reflector ❹ is an elliptical curved surface with a first focus and a second focus. 7. The high power light emitting diode light source illuminating device according to claim 6, wherein the LED light emitting element is disposed on the first focus of the reflector. 8. The high-light-emitting diode light source illuminating device according to the ninth aspect of the patent, wherein the LED illuminating element is a white LED element. 9' If you apply for a patent scope! The high-power light-emitting diode light source illuminating device is characterized in that the LED light-emitting element is a monochromatic light LED element or a mixed light-color LED element. 10. A high power light emitting diode light source illuminating device according to the scope of the patent application, wherein the lens system comprises one of the following groups: a parabolic lens, a spherical lens, and an aspheric lens. 11· - a high-intensity light-emitting diode light source, the high-light three-light source light-emitting device comprises: a base group; an LED light-emitting element, the light-emitting surface of the LED light-emitting element faces upward, is located at the base The rear cover of the seat; 200925500 a reflector, the reflector includes an inner surface for reflecting the light emitted by the LED light-emitting element, the reflector being disposed above the LED light-emitting element; a lens The first reflector is disposed at a front end of the base group for collecting and reflecting light reflected by the reflector and the light emitted by the LED light emitting element; a first reflector and a second reflector, the first reflector The second reflector is configured to reflect the light reflected from the reflector and to increase the intensity of the light to form different light patterns. The first reflector and the second reflector are adjacent to each other. On the front surface, that is, behind the lens and in front of the LED light-emitting element, the mutually adjacent center line overlaps the line of the lens and the LED light-emitting element. 12. The high power light emitting diode light source illuminating device of claim 11, wherein the first reflecting plate is a horizontal panel, and the second reflecting plate is a horizontally inclined 15 with a horizontal plane. The sloping plate of the corner. 13. The high power LED light source illumination device of claim U, wherein the first reflector and the second reflector are both a horizontal panel. 14. The high power light emitting diode light source illuminating device of claim 11, wherein the base group further comprises a groove, the groove being located in front of the first reflector and the second reflector; Behind the lens, the lens is placed in the recess, and the light diverging from the reflector can be smoothly shot to the lens. 15) The high power light emitting diode light source illuminating device of claim U, wherein the inner surface of the reflector is a thin curved surface having a -first focus and a second focus. The high-power light-emitting diode light source illuminating device according to claim 15, wherein the LED 15 200925500 light-emitting element is disposed on the first focus of the reflector. 17. The application of the high-resolution light-emitting diode light source illuminating device according to Item 15, wherein the first reflecting plate and the first reflecting plate are located at a second focus of the reflecting cover. 18. The light-emitting diode light source device of claim 4, wherein the LED component is a white LED component. 19. The high power LED light source illumination device of claim 5, wherein the LED 发光 illuminating element is a monochromatic LED element or a mixed color LED element. 20. The high power light emitting diode light source illumination device of claim 5, wherein the lens comprises one of the following groups: a parabolic lens, a spherical lens, and an aspheric lens. 21. A high-power light-emitting diode light source illuminating device for a vehicle, the high-power light-emitting diode light source illuminating device for a vehicle comprising: a light source holder; Ο an LED light source, the light-emitting surface of the LED light source Upwardly disposed above the light source holder; • a lens holder disposed in front of the light source holder; a reflective module disposed in front of the light source holder and behind the lens holder for The light source is effectively reused and the light intensity of the light shape is increased; a reflector, the reflector includes an inner surface for reflecting the light emitted by the LED light source, and the reflector is disposed on the light source holder, a combination of the reflector module and the lens holder; 16 200925500 a lens disposed at the front end of the lens holder for collecting and refracting light reflected by the reflector and light emitted by the LED light source; a first reflecting plate and a second reflecting plate, wherein the first reflecting plate and the second reflecting plate are configured to reflect light reflected from the reflecting cover and increase light intensity of the light shape to form In the same light-emitting shape, the first reflector and the second reflector are adjacent to each other, and are located on the surface of the rear surface of the lens holder adjacent to the LED light source and behind the lens, which are adjacent to the center line and the lens center and the LED The lines connecting the light sources overlap. The high-power light-emitting diode light source illuminating device for a vehicle according to claim 21, wherein the lens holder further comprises a groove disposed at a front portion of the lens holder and located at the lens holder The first reflecting plate and the front of the first reflecting plate and the rear of the lens are used for disposing the lens, and the light from the reflecting cover can be smoothly shot to the lens. The high-power light-emitting diode light source illuminating device for a vehicle according to the item is as described in claim 21 The first reflection (four) is a horizontal panel, and the second reflection plate is a sloping plate that is inclined at an angle of 15° to the horizontal. 24. The high power light emitting diode light source illuminating device of the vehicle of claim 21, wherein the first reflecting plate has no second reflecting scale-horizontal panel. 25. As mentioned in the 21st patent of the patent (4), the light-reflecting two-light source illuminating device is a square reflector. 26. For the vehicle to be poor according to the scope of claim 21 The magnetic u _ to the power LED light source illuminating device 'the reverse 7b view tilting Lai LED illuminating cattle 〇 〇 · 1 mm to 2 〇 mm, for 17