TW200946834A - Reflective component of light-emitting unit - Google Patents

Abstract

The present invention provides a reflective component of light-emitting unit, which is mainly installed with an LED light-emitting component. The LED light-emitting component is correspondingly installed on a heat-dissipation component. Through a light-transmissive reflective mask, the LED light-emitting component is capable of irradiating out light rays, in which a lateral side of the light-transmissive reflective mask is installed with a light-transmissive reflective layer with reflection functions in order to use the optical reflective principle to reflect a portion of light energy to the pre-determined position. Accordingly, the light source excited by the LED light-emitting component is modified by the light incident region, together with the properties of transparent reflective mask, to achieve the functions of light scattering, being uniformized into a sphere-like light source, uniformizing and softening the light rays emitted from the LED light-emitting device for preventing the occurrence of dazzling caused by over-concentration of light spots, fully utilizing the spatial advantage of LED flattened mechanism, and altering the limitations in use of directive light emission associated with LED. Moreover, the light-emitting device is applicable on any lighting facility and has the advantages of novelty, Non-obviousness(or Inventive Step), and Industrial Application.

Description

200946834 IX. Description of the invention: '[Technical field to which the invention pertains] The present invention relates to a reflective element of a light-emitting unit, and more particularly to a light source structure that can be applied to any lighting unit or device, which uses LED light-emitting elements to match flat The high-light-conducting light-transmissive reflector has the characteristics of light diffusion, homogenization and reflection, and achieves the directional light-emitting characteristic that can improve the forward illumination of the conventional LED light source, and can increase the LED light-emitting device. Irradiating the character and area, and producing a homogenized and soft point light effect, it can effectively suppress the glare of glare. [Prior Art] According to 'the most commonly used illumination unit in daily life, such as: traditional tungsten filament bulb, long strip fluorescent tube containing mercury, spiral or multi-U tube type electronic energy saving bulb...etc. Because the light of each average area unit is not very large, and the phosphor glass containing mercury is coated on the outer cover glass tube or the atomized light diffusion layer with surface irregularities is produced by sandblasting. ❹ Light can be evenly illuminated through the outer cover, allowing the user to feel soft and not glare and dazzle when looking directly at the light source body. Moreover, the light source is spherical after the light-emitting surface is enlarged and homogenized. , strip type body, rod-shaped ϋ type body ·. · type illuminating, when the illuminating source is conductive, it generates light energy, and it is directed to the large-scale outer cover body, and then uniformly omnidirectional all-directional non-directional non-directional light. 'Can be widely used in the main lighting and atmosphere lighting * with 'Rare! Due to the increasing emphasis on environmental protection and energy conservation, the above-mentioned light-emitting elements have been replaced and will be banned in the near future. 5 200946834 The most environmentally friendly lighting unit of the new generation is not a LED, but its directivity and forward light source are concentrated on the characteristics of such a small unit area of the wafer. It is convenient for indoor atmosphere lighting and space landscaping. Sexuality brings great challenges. 'It is difficult to completely replace the old light source in this use in the short term', so that the new technology products with environmental protection functions cannot be fully applied to daily life in general. The present inventors The lack of optical technology in LED lighting equipment, and in the spirit of seeking good spirit and professional knowledge, and after many ingenuity and experimentation, and developed this statement. SUMMARY OF THE INVENTION In order to achieve the above-mentioned effects, the reflective element of the light-emitting unit is further provided, the overall illumination angle of the LED light-emitting element can be increased, and the illuminating device which generates glare effect due to excessive concentration of the light source can be reduced, and the front side of the LED light-emitting element is flattened. A plate-type light-transmissive reflector is used to achieve the above effects. The invention relates to a reflective component of a light-emitting unit, which is mainly provided with an ❹LED light-emitting component, and the LED light-emitting component is correspondingly assembled on the heat-dissipating component, and the light energy of the LED light-emitting component can transmit light through the transparent reflective cover body. The light-transmitting reflector body may be a high-light-conductivity material containing light-diffusing micro-particles, and a light-transmitting reflective layer having a light-reflecting effect on the side surface; accordingly, using the LED light-emitting element The excited light energy passes through the light-hole portion to match the high light transmittance and light diffusion and reflection function of the light-transmitting reflector. The characteristics of the light energy are carried into the light-transmitting reflector and diffused and homogenized. , in order to achieve the effect of generating reflected light and softening the intensity of the spot, so that the gaze is not glare and dazzling when the gaze is directly viewed, and part of the light energy reflection 200946834 can be guided to the side of the illuminating device, so that the LED illuminator The application is more extensive, and the illuminating device can be applied to any lighting facility, and has more practical benefits. [Embodiment] In order to make the technical content, the object of the invention and the effects thereof achieved by the present invention more complete and clear, the following is explained in detail: First, please refer to the first figure, which is the present invention. A schematic diagram of the combination of the light-emitting unit of the present invention, the light-emitting device comprising: @一 LED light-emitting element 1, which may be one or a plurality of combinations, arranged in the light-emitting unit and condensable in a light-input region 3 1 LED light-emitting element 1; a heat-dissipating element 2, which is a heat-dissipating member for the LED light-emitting element 1 to be assembled and which can dissipate the heat energy generated by the LED light-emitting element 1; and a light-transmissive reflector 3 The fastening portion 30 is fixedly coupled to the heat dissipating component 2 and correspondingly disposed directly in front of the LED light emitting component 1 and is a high light guiding material having 10 light diffusing microparticles 36 and having a light on the side surface. The cover of the partially reflective light transmissive reflective layer 3 3 . Please refer to the second figure, which is a schematic diagram (1) of the present invention. When the L ED light-emitting element 1 is correspondingly assembled on a heat-dissipating component 2, the light-transmissive reflector body 3 is fixed by the fastening portion 30. Directly in front of the heat dissipating component 2 -, the light emitted by the LED light-emitting element 1 is concentrated in the light-incident region 3 1 of the light-transmitting reflector 3, and the light condensed by the light-incident region 31 Corresponding to the light-incident hole portion 3 2 of the light-transmissive reflector body 3, and then directly passing through the front hole opening through the light-transmissive reflector body 3, a part of the light of 200946834 is absorbed by human light and is worn by Zheng "卩3 2 The through-hole oblique hole 3 2 1 has a light-expanding refraction wheel on the wall surface, and because of the characteristics of the material of the light-transmitting reflector body 1 ί:=Γ36, there is a light refracting and expanding (four) light-transmitting reflection 3 3 » Transmitting the light-emitting surface of the side surface of the light-transmissive reflector 3 = the cover reflects the body: the line is reflected to the reflected light surface 34 and passes through the side of the transmitted light. According to this, a part of the light energy is reflected to the light. Please refer to g H c Γ - v - \ ~, shown in the four figures, which is the light inspired by the implementation diagram of the present invention. According to the example, the light of the 1 hole (4) of the fLED light-emitting element is replaced by the light-transmitting reflector 3 of the light-transmitting hole of the fLED light-emitting element: the groove] because the 2 2 light energy will penetrate into the ^ and the light is entering And the anti-grooves 322, 32 of the front and back surfaces to produce different refractive effects of the poly; dissipating; (illustrated by the third legend) when the light penetrates the positive groove of the human light 3 2 2 positive concave lens type surface, due to the concave principle The light will be dispersed, the angle will be refracted into the light reflecting cover 1 , and most of the light energy will be refracted by the front curved transparent reflective layer 3 3 2 and will be set by the light energy The spot conversion of the towel is expanded to a surface light source (such as the third®) with a discrete amount of slits, which suppresses the glare of the point source, and the other part of the light is reflected by the curved transparent reflective layer 3 1 2 And reflecting the light surface 3 4 through the transparent reflector 3' and focusing on the rear of the light source point. If the light source is used in the environment, want to take the light (4) < directly in front of the small fan _ need to focus more light flux ' It can be used to apply the light hole _ part 3 2 into the light reverse groove 3 2 3 of the spherical song 200946834 'And another convex convex body 3 5 1 (as shown in the fourth figure) can be used to converge the luminous flux in a smaller area, and the other part of the light will be transmitted through the light. The reflective layer 3 3 1 penetrates the front side of the transmission side, and reflects part of the light energy to the flat surface of the light-emitting surface 34, and the light energy is transmitted through the light-transmitting reflector 3 to the side of the light-emitting device. Referring to the fifth embodiment, it is a schematic diagram (4) of the implementation of the present invention, and the applicable embodiment shows that 'if the light energy of the light-emitting unit is properly adjusted, the distribution ratio of the front side and the rear side and the irradiation direction can be changed. The design of the light-transmissive reflector 3 is to achieve the desired effect. 'When the luminous flux of the side and the rear side is large, the transmissive oblique hole 3 2 1 can be changed. The inclination and the opening size and direction of the opening hole 3 2 1 'In order to control the proportion of light entering the body of the light-transmitting reflector 3', the slope and the cut surface of the obliquely-transparent reflective layer 331 can be used to change the direction of reflection and the direction and angle of the reflected light. Please refer to the sixth figure as a schematic diagram (5) of the implementation of the present invention. The example of the applicable embodiment of the present invention shows that the larger the proportion of the area of the obliquely transparent reflective layer 3 31, the more the light reflection amount is. Large, allowing more light to be reflected to the rear. The larger the area of the flat surface reflected by the flat surface, the larger the area of the reflected light is, the more widely and evenly distributed, the lower the difference between the light and the shadow. Further, if the light is to be emitted from the light-transmissive reflector 3, the light ripple effect can be produced, and the light-emitting structure 39 can be made on the light-emitting surface of the light-transmitting reflector 3. The stripe or fine-grained light corrugated structure 39 can be made. When the light penetrates the illuminable surface, the light energy overlaps due to the refraction angle staggering factor. When the sunlight is injected into the water surface with the corrugated structure, the light ripple generated at the bottom of the water is generally. 9 200946834 Please refer to the seventh figure, which is a schematic diagram (6) of the implementation of the present invention. The applicable embodiments illustrate that 'when the ambient atmosphere is required to be used, the luminous unit needs to be a light source with a soft light source'. The light-injecting hole portion 3 2 is designed to fold the light source into the shape of the light positive groove 3 2 2, and to form a uniform light micro-structure of the diffusible light source on the surface of the light-transmitting reflective cover 3 to allow light to pass through. 7. The light can be made softer and less glare when it passes through the transparent reflector 3. It can replace the nighttime bedside atmosphere lamp cover, making the use of space more flexible' to meet the needs of the urban living environment. Please refer to the figure of the eighth figure, which is a schematic diagram of the implementation of the present invention (7), and the applicable embodiment shows that 'the use range of the light-emitting unit is wider' can be reflected on the light-transmissive reflective layer 3 3 1 The surface of the light-emitting surface 3 4 3 and the surface of the light-emitting surface 3 5 are various light-shadow patterns 38 or colors thereof, so that the light-transmissive reflector 3 is emitted and projected into the surrounding environment, and various types of desires can be created. Take the totem to make the cover more widely used. Please refer to the ninth figure, which is a practical display diagram of the conventional technology. ® This is an embodiment of a conventional LED light-emitting unit. The LED light-emitting chip needs to be fixed on a large-sized heat-conducting carrier board, so that the light-emitting angle is affected. Extremely limited, only light can be emitted directly in front (above the normal). Please refer to the tenth figure again, which is a practical technical display diagram of the present invention. The image is the actual implementation of the recording file of the sixth figure, and the light distribution above the normal line is more uniform and can be generated. Several light-corrugated strips are extremely creative. Please refer to the eleventh and twelfth drawings for the actual technical display of the present invention. (2) (3) 'The two images are the actual implementation of the second figure. Figure 10 200946834 Broadcast, when the oblique flat light When the inclined surface of the reflective layer 3 3 1 is inclined toward the center, the reflected light is concentrated more directly behind the light source; otherwise, if the oblique flat transparent reflective layer 3 3 1 is inclined to the outside, the reflected light also turns to the side. . Moreover, the light-emitting surface 35 and the light-emitting surface of the light-transmitting reflective layer 3 3, such as the production of the uniform light microstructure 37 can make the halo softer (such as the eleventh figure) effectively suppress the generation of the optical ring, and the reflected light of the present invention The face 3 4 can be various shapes such as a circular arc surface or a circular oblique plane or a circular plane or a polygonal oblique plane or a polygonal circular plane. In summary, the light energy of the more environmentally-friendly ED light-emitting element and the flattened light-reflecting reflector 3 are used to achieve the purpose of folding and reflecting the light energy to the destination to be guided and can be increased. The illumination device's illumination angle and the effect of the Fan Park are used to replace the old L e 〇 bulb that can only be illuminated to the front, and the illuminating device can be applied to any lighting facility, and has practical utility. . Therefore, it can be seen from the description of the overall molding structure of the embodiment of the present invention that the present invention can achieve the effect of perfectly exhibiting the illuminating device, and the component design of the present invention is provided by simultaneously providing the LED illuminating component 1, the heat dissipating component 2 and the light transmitting The reflective cover 3 can achieve the effect of generating refraction, reflecting light and diffusing the brightness of the light source, and increasing the illumination angle of the illuminating device, which can be called a progressive invention creation. In summary, the present invention has * progressive and industrial applicability, and the structural features of the present invention have not been publicly published, and the novel has novelty, and the inquiry has met the requirements of the invention patents. Patent applications, please give us a review and give us a patent as soon as possible. 11 200946834

However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, equivalent changes and modifications made by the present invention in the scope of the invention and the contents of the description of the invention, All should remain within the scope of the practice of the invention. 12 200946834 [Simplified description of the drawings] The first figure is a schematic diagram of the combination of the present invention. Second Figure: A schematic diagram (I) of the implementation of the present invention. The third figure is a schematic diagram (2) of the implementation of the present invention. Fourth figure: A schematic diagram (3) of the implementation of the present invention. Figure 5 is a schematic diagram of the implementation of the present invention (4). Figure 6 is a schematic diagram (5) of the implementation of the present invention. Figure 7 is a schematic diagram of the implementation of the present invention (6). Figure 8 is a schematic diagram of the implementation of the present invention (7). The ninth picture: is the actual display of the technology used. The tenth figure is a practical technical display diagram (1) of the present invention. Figure 11 is a diagram showing the actual technology of the present invention (2). Twelfth figure: It is a practical technical display diagram (3) of the present invention. [Main component symbol description] 2 - heat dissipating component 3 0 - fastening portion 3 2 - light entrance hole portion 3 4 - reflected light surface 3 5 1 - refractive body 3 7 - uniform light microstructure 3 2 2 - light entrance positive groove 3 9 - Light corrugated structure 10 1 - LED light-emitting element 3 - Light-transmissive reflector 3 1_ light-in area 3 3 - Light-transmissive reflective layer 3 5 - Positive light-emitting surface - 36 - Light-diffusing micro-particle 3 21 - Penetration Inclined hole 3 2 3 - light-inverted groove 3 8 - light-shadow pattern 13 200946834 3 3 1 - oblique flat transparent reflective layer 3 4 1_reflected light surface 332 - curved transparent reflective layer 342 - reflected light surface 3 4 3 — Round solitary

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Claims (1)

200946834 X. Patent Application Range: 1. A reflective element of a light-emitting unit, comprising: one or more LED light-emitting elements, which are LED light-emitting arranged in the light-emitting unit and capable of concentrating to form one or more light-in areas a heat dissipating component is a heat dissipating member that can be assembled for the LED light emitting component and can dissipate heat generated by the LED light emitting component; and a light transmissive reflector body correspondingly disposed to be coupled to the heat dissipating component and located at the LED light emitting component Directly in front of it, there is a light-input area and a light-incident hole that receives light and penetrates through it, and a light-transmissive reflective layer that reflects the light toward the back side is provided on the side surface, and the reflected light is guided out. The light-reflecting reflector is reflected by the glossy surface. 2. The reflective element of the light-emitting unit according to claim 2, wherein the light-transmissive reflector has a light-transmissive reflective layer that is a circular or circular arc surface or a polygonal oblique plane or a polygonal curved surface. Any one of them. The reflective element of the light-emitting unit of claim 1, wherein the light-transmissive reflector has a curved surface or a circular or circular plane or a polygonal or polygonal plane. Any one of them. 4. The reflective element of the light-emitting unit according to the invention of claim 2, wherein the light-transmissive reflector body has a non-penetrating positive groove or a reverse groove or a penetrating oblique hole or a through hole. Perforated straight holes, either of them. 5. The reflecting element of the light-emitting unit according to claim 1, wherein the light-transmitting reflector has a light-emitting surface, and further has a convex-shaped refractive body. The light-reflecting element of the light-emitting unit of claim 1, wherein the light-transmitting reflector has a light-transmitting reflective layer, a light-emitting surface, and a reflected light-emitting surface. 7. The reflective element of the light-emitting unit of claim 2, wherein the light-transmitting reflector has a light-transmitting reflective layer, a reflected light-emitting surface, and a light-emitting surface. 8. The reflective element of the light-emitting unit of claim 2, wherein the light-transmitting reflective layer, the reflected light-emitting surface, and the light-emitting surface of the light-transmitting reflector have a structure of light and shadow. The counter element of the light-emitting unit of claim 2, wherein the light-transmitting reflective layer, the reflected light-emitting surface, and the light-emitting surface of the light-transmitting reflector have a light-corrugated structure. 16