TW201011200A - A high-illumination projection lamp with blaze, average light and fixed incidence angles for adjustment of far-reaching light, left and right dipped headlights - Google Patents

Abstract

The present invention relates to a high-illumination projection lamp with blaze, average light and fixed incidence angles for adjustment for far-reaching light, left and right dipped headlights. A step is constituted on an end surface of a lamp stand being fixed with an aluminum substrate. The aluminum substrate is fixed with a light emitting element, such as LEDs, SMDs or chips, on the upper end surface thereof, and constituted with a radiating stand on the other end surface thereof. The bottom of the radiating stand is connected to a transformation driving element. Furthermore, a diaphragm is fixed at the periphery of the LEDs, and light guide adhesive covered on a gap and projection surface of the LED to form integrated light. An optical transparent convex lens is fitted on the opposite surface of the LED to form a projection lamp with blaze, average light and fixed incidence angles. Then, a proper location at 45 DEG on the right upper or left upper of the projection surface of the aluminum substrate is taken as a center to join to the LED and constitute a dual-driving component to form a two-section light projection, i. e. the light projected from the far-reaching light with a center line of the circle center of the convex lens as the first light projection, and the light projected eccentrically by refraction from the center of the convex lens as the second light projection. Accordingly, the aforesaid structure can be constituted on the lamps additionally assembled on a projection lamp or a fog lamp to allow all of light from LEDs to collect and emit, which can not only increase brightness but also make light averagely distributed and projected. Still, the distance between the light source surface of the LED and the light receiving surface of the optical transparent convex lens can be further constituted depending on the projection angles as needed for increase of brightness and average light ratio.

Description

201011200 VIII. Description of the invention: [Technical field of the invention] The present invention relates to a high-illumination projection light lamp capable of glare, uniform and fixed angles, and capable of adjusting a headlight and a left and right driving light, especially a kind The light-emitting elements (LED/SMD/wafer) bulbs constructed in the high-illumination projection light fixtures can be respectively projected for the high beam and low beam of the headlights. [Prior Art] According to 'LED as light energy, it has the advantages of energy saving, carbon reduction, low heat, cleanness and long service life. It is used as a light source for vehicle projection lamps. It is necessary to set the projection angle for the safety of two cars. The LED chip has a projection angle of about

- 140 or so (as shown in the first figure); therefore, generally [ED - is fixed on the bottom of a circular V-shaped groove [as shown in the second figure], the round end face of the upper edge of the v-shaped groove and The projection point of the LED light source of the LED forms a desired projection angle, such as a projection lamp of 3 turns. However, this fixed angle design can cut the scattered light into 30. Light, but the residual light of (140.-30.) forms refracting stray light in the V-shaped groove, which does not contribute to the increase of illuminance, but instead forms astigmatism without concentrating φ. The glare 'obscures the line of sight and creates danger. In addition, the LED is designed on a halogen lamp head (as shown in the third figure) and is mounted on the projection lamp (as shown in the fourth figure), but due to the wide angle of the projected light, 55 is formed on the lamp. ~1〇〇. The big shooting angle is a big danger for the car to come. Moreover, due to the current LED projection lamp design, the LED is used as a single-angle projection light source as a projection lamp, and it cannot be constructed as a vehicle for near-night lamp exchange at night driving. 7 ' The present inventor is in view of the above-mentioned existing LED bulbs, which may be added with multiple functions in actual implementation or may be used to strengthen the irradiation zone 6 201011200 domain for the application site, thus being a tireless spirit and by virtue of its many years of The professional knowledge and practical experience are assisted to improve and the invention is created accordingly. SUMMARY OF THE INVENTION [Invention] The present invention relates to a high-illumination projection light lamp capable of illuminating, dimming, and fixed angle ϋ adjustable headlights and left and right driving lights, and constructing a lamp holder end face. The step 'fixes a substrate, and the upper surface of the substrate is fixed with a light-emitting element [LED/SMD/wafer]. The other end surface is connected with a heat-dissipating block, and a driving variable-voltage element is connected to the periphery of the LED. The beam aperture, and the light guide glue is formed on the gap and the projection surface of the LED to form a bundle light, and the corresponding light surface of the LED is designed to form a projection lamp with a strong light uniformity and a fixed angle. Connected to the right of the projecting surface of the substrate or the upper left 45 * ° angle as the center, the connection set up several LEDs and beam aperture, and build a dual drive component 'to form two sections of light, the first section of light to convex The center of the mirror is the center line of the far-light projection light; the second section of the projection light is refracted by the center of the convex mirror to produce a left-centered projection light of the center of the circle, which can be used as the left-side lower-light projection light of the right-hand drive vehicle; Construct the above structure in a projection single lamp or Φ fog On the luminaires that are assembled and assembled, all the light of the LEDs are collectively transmitted, which not only increases the brightness but also increases the uniformity to reach the uniform light of the projection surface; and the light-receiving surface of the LED light source surface and the optical light-transmitting convex mirror The pitch can be built to increase the brightness and increase the uniformity ratio depending on the projection angle required. [Embodiment] In order to make the technical means of the present invention more complete and clear, please refer to the drawings and drawings, and the details are as follows: First, please refer to the figure shown in the fifth figure. A schematic cross-sectional view of the present invention, the high-illumination projection light fixture includes: Please refer to the fifth to seventh, twelve to thirteenth drawings as shown in the figure, construct a step on the end surface of a lamp holder 7 201011200 (1), And fixing a substrate (11) [or PCB], and fixing one or more light-emitting elements (12) [LED/SMD/wafer] at the center of the upper end surface of the substrate (11) [or PCB], another The end face is constructed with a heat sink (13), and at the bottom of the heat sink (13) is a variable-voltage driving component (14), and an optical light is designed on the corresponding surface of the light-emitting component (12) [LED/SMD/wafer]. The convex mirror (15) has a diameter of a light receiving surface of the convex mirror (15) which is proportional to a center thickness of the convex mirror (15), and can form a projection lamp having a strong light uniformizing and a fixed angle. Please refer to the eighth to tenth drawings. Continued, a beam (16) can be fixed on the periphery of the light-emitting element (12) [LED/SMD/wafer]. The beam aperture (16) ~ needs to be higher than The height of the light-emitting element (12) [LED/SMD/wafer] is applied to the gap between the light-emitting element (12) [LED/SMD/wafer] and the projection surface of the light-emitting element (I2) [LED/SMD/wafer] With the light guiding glue (17), the respective light sources of one or more light-emitting elements (12) [LED/SMD/wafer] can form a bundled light, which can enhance the uniformity surface. Please refer to the eleventh, fourteenth to sixteenth drawings, and extend the above-mentioned design basis, and project the light-emitting element (I2) [LED/SMD/wafer] at the center of the substrate (11) on the substrate (11). The right side of the face is 45° at the appropriate position or the upper left is 45. The appropriate position of the corner is centered, and one or more light-emitting elements (12) [LED/SMD/wafer] are connected, and a dual-drive component (14) is constructed to form two-stage projection light (such as the eleventh to thirteenth As shown in the figure] 'The first section of light is projected to the center of the substrate (11). The light-emitting element (12) [LED/SMD/wafer] is directly transmitted through the center of the convex mirror (15) to form the center of the convex mirror (15). The far-light projection light (A); the second-stage projection light is refracted by the center of the light source transmission convex mirror (15) of the light-emitting element (12) [LED/SMD/wafer] on the upper right side to generate a left-side projection light of the center of the circle. As a right-hand drive vehicle, the left-lighter 8 201011200 near-light technology (B). The light source of the upper left light-emitting element (12) [LED/SMD/wafer] is transmitted through the convex mirror (15) to be refracted into a right-bottom projection light of the center of the circle, which can be used as the right lower beam low beam of the left-hand drive vehicle. . In addition, the light-emitting element (12) [LED/SMD/wafer] may also have a beam aperture above the light-emitting element (12) [LED/SMD/wafer] on the periphery thereof, and the light-emitting element (12) [LED/SMD] / Wafer] The light guiding glue (17) is coated to form a light collecting structure of the light emitting element (12) [LED/SMD/wafer] (as shown in Figs. 17 to 19). Please refer to the twentieth to twenty-first figure together. The above structure can be built on the luminaires that are assembled in the early-light or fog-light mode. See also the twenty-second to the second. As shown in the fourteenth figure, the light-emitting element (12) is used to transmit the light-transmitting convex mirror (15), and the optical light-transmitting convex-mirror (15) can illuminate the light-emitting element (12). All the light of the LED/SMD/wafer is assembled and transmitted, which not only increases the brightness but also increases the uniformity to reach the uniform light of the projection surface; and the light source surface and the optical component of the light-emitting element (12) [LED/SMD/wafer] The light-receiving surface of the light-transmitting convex mirror (15) can be constructed with a pitch (D) to increase the brightness and increase the uniformity ratio according to the required projection angle. Referring to the twenty-fifth to twenty-eighth drawings, a schematic view of another embodiment of the present invention is provided for continuing the above structure, and is a light-emitting element (12) (LED/SMD/) at the center of the substrate. One or more light-emitting elements (12) [LED/SMD/wafer] are extended at the appropriate position directly above the wafer, and a dual-drive component is constructed to form two-stage headlights, which can be used for headlights of locomotives, central light-emitting elements (12) [LED/SMD/Wafer] is a high beam light for locomotive driving. The light-emitting element (12) [LED/SMD/wafer] directly above is refracted to become a low beam light directly below the headlight of the locomotive. The near-lamp projection can construct the illuminating element (12) [LED/SMD/wafer] to create a warm light [leucorrhea yellow light] that can penetrate the rain and dense fog, resulting in poor line of sight. 201011200 Increase driving safety. From the above, the structural composition and implementation description of the present invention show that the present invention has the following advantages: 1. The present invention utilizes an optical transmissive convex mirror for a corresponding surface of a light-emitting element [LED/SMD/wafer], and a convex mirror thereof The diameter of the light receiving surface is proportional to the center thickness of the convex mirror, and the projection lamp having a strong light uniformity and a fixed angle is formed. 2. The invention is used for fixing the periphery of the light-emitting element [LED/SMD/wafer], the beam aperture of the LED and the projection surface coated with the light-guiding glue, and the light source forming the bundle light to enhance the uniformity surface. Brightness. 3. The present invention utilizes a 45° angular position on the upper right side of the projection surface of the substrate or an appropriate position at the upper left-45° angle to establish a light-emitting element [LED/SMD/wafer] and construct a dual drive element to form two The design of the light projected by the segment and the light of the near lamp. 4. The structure of the present invention can be constructed on a lamp that is assembled in addition to a headlight, a projection single lamp or a fog lamp, and is a structural designer with a wide range of uses. # 5. The present invention utilizes a suitable position directly above the projection surface of the substrate, and establishes a light-emitting element [LED/SMD/wafer], and constructs a dual-drive component to form a two-segment light-emitting and near-light projection light of the locomotive. the design of. 6. The light projection of the present invention can form a light-emitting element to form a warm white light of leucorrhea yellow light, which can penetrate the rain and dense fog, resulting in poor line of sight to increase driving safety. In summary, the embodiments of the present invention can achieve the expected use efficiency, and the specific structure disclosed therein has not been seen in similar products, nor has it been disclosed before the application, and has completely complied with the provisions of the Patent Law. And the request, the application for the invention of a patent in accordance with the law, please forgive the review, and grant the 10 201011200 patent, it is really sensible. 201011200 [Simple diagram of the diagram] The first picture: the existing one diagram The second diagram: the existing two diagrams The third diagram: the existing three diagrams The fourth diagram. The existing four is not intended to be the fifth diagram · The side view of the embodiment of the present invention Figure 6 is a top plan view of a first embodiment of the present invention. Figure 7 is a plan view showing another embodiment of the present invention. Figure 8 is a side view of the second embodiment of the present invention. The second embodiment of the present invention is a top view of the second embodiment of the present invention. The eleventh embodiment of the present invention is a three-side cross-sectional view of the third embodiment of the present invention. Figure 13: Embodiment 3 of the present invention is a top view of another state. Fig. 14: Schematic diagram of light projection of the present invention (1) FIG. 15: Schematic diagram of light projection of the present invention (2) Φ Figure 16: BRIEF DESCRIPTION OF THE DRAWINGS FIG. 17 is a side view of a fourth embodiment of the present invention. FIG. 18 is a top plan view of an embodiment of the present invention. FIG. Example 4: a top view of another state of the fourth embodiment: a side view of the fifth embodiment of the present invention: a second side view of the fifth embodiment of the present invention: a schematic view of the fifth embodiment of the present invention: the brightness of the light bulb of the LED bulb of the present invention, Angle diagram 23: The brightness and angle of the LED plus optical convex lens of the present invention (1) 12 201011200 The twenty-fourth twenty-fifth twenty-sixth twenty-seventh twenty-eighth twenty-eighth BRIEF DESCRIPTION OF THE DRAWINGS FIG. 6 is a top plan view of another embodiment of the present invention. FIG. 6 is a schematic plan view of another embodiment of the present invention. FIG. Example 6 ray projection diagram (2) Main component symbol description ❿ <The present invention> (1) Lamp holder (11) Substrate (12) Light-emitting element (13) Heat sink (14) Driving element (15) Convex mirror (16) ) Beam aperture (17) Light guide rubber (A) High beam projection light (B) Near light projection light (D) Pitch reference 13

Claims (1)

201011200 IX. Patent application scope: 1. A high-illumination projection light fixture capable of glazing, uniformizing and fixed angles and capable of adjusting the headlights and the left and right driving lights, comprising: constructing a lamp end face Stepping and fixing a substrate, and one or more light-emitting elements are fixed at a central portion of the upper end surface of the substrate, and a beam of aperture is fixed to the periphery, and a gap between the plurality of light-emitting elements and a projection surface is covered with a light-guiding glue. The other end surface of the substrate is constructed with a heat sink, and a driving component is disposed at the bottom of the heat sink, and an optical 透光 transparent mirror is disposed on the corresponding surface of the light emitting component. 2. For high-illumination projection light fixtures with glare, uniform and fixed angles as described in the first paragraph of the patent application, and for adjusting the high-beam and left and right driving lights, 45 on the upper right side of the projection surface of the substrate. An angular position where one or more light-emitting elements are connected and a dual-drive component is constructed. 3. For the high-illumination projection light fixtures that can be used for glare, uniform light and fixed angles as described in the first paragraph of the patent application, and that can adjust the high-beam and left and right driving lights, which are 45 on the upper left side of the projection surface of the substrate. The angular position is connected to one or more lighting elements and a dual driving element is constructed. 4. A high-illumination projection light fixture capable of glare, uniform and fixed angles and capable of adjusting the high-light and left and right driving lights as described in the scope of the patent application, wherein the position above the projection surface of the substrate is appropriate , connecting one or more light-emitting elements and constructing a dual-drive component. 5. For high-illumination projection light fixtures that can be glare, uniform and fixed angles as described in the scope of patent application, and can adjust the high-light and left and right driving lights, the substrate is made of aluminum. 6. The high-illumination projection light fixture capable of glare, hook light and fixed angle, and which can adjust the high beam and the left and right driving lights as described in the first paragraph of the patent application, wherein the 14 201011200 substrate is made of copper. 7. The high-illumination projection light fixture that can be used for glare, uniform light and fixed angle, and can adjust the high-light and left and right driving lights, as described in the first paragraph of the patent application, wherein the substrate is made of ceramic material. 8. The high-illumination projection light lamp capable of illuminating, illuminating and steering angles and adjusting the headlights and the left and right driving lights as described in the first paragraph of the patent application, wherein the substrate is a printed circuit board (PCB) By. 9. A high-illumination projection light fixture capable of illuminating, illuminating, and morphing angles, and capable of adjusting a high beam and left and right driving lights, as described in claim 1, 2, 3 or 4, wherein the illuminating element For the light-emitting diode [LED]. 10. A high-illumination projection light fixture capable of illuminating, illuminating, and illuminating angles, and capable of adjusting a high beam and left and right driving lights, as claimed in claim 1, 2, 3 or 4, wherein the illuminating element For the SMD. 11. A high-illumination projection light fixture capable of illuminating, illuminating, and illuminating angles, and capable of adjusting a high beam and left and right driving lights, as claimed in claim 1, 2, 3 or 4, wherein the illuminating element For the chipper. 12. A high-illumination projection light fixture capable of illuminating, illuminating, and illuminating angles, and capable of adjusting a high beam and left and right driving lights, as described in the scope of Patent Application No. 2, 3, or 4, wherein the convex mirror The diameter of the light receiving surface is proportional to the center thickness of the convex mirror. 13. The high-illumination projection light fixture of the high-light, uniform and fixed angles and the left and right driving lights can be adjusted as described in the patent specification (4)丨, 2, 3 or 4, where the aperture It needs to be higher than the height of the light-emitting element. 15