KR200445445Y1 - Multi-functional LED lamp - Google Patents

Abstract

The present invention relates to a multi-functional LED lighting lamp, the characteristic of which is composed of the main parts such as the back light, the light source element, the light guide, the back cover, the light source element is installed on a single printed circuit board The light source is further attached to the backrest as a heat conductor, and at the same time, the work temperature of the light source device is diverted through the conduction of the backrest, and a light guide is formed to expose the shape of a transparent plate where the light of the light source comes out. Guide the direction, improve the brightness, and cover the outside of the light guide and the light source element with the light cover again to reduce the LED power consumption, extend the life and improve the luminous efficiency, etc. Combining to make energy-saving and high efficiency lighting.

LED, lighting, heat dissipation, light source, light guide, diffusion, reflection

Description

Multi-functional LED lighting lamp {Multi-functional LED lamp}

1 is a stereoscopic exploded view of a first embodiment of the present invention.

Figure 2 is a view from behind the back of the first embodiment of the present invention.

Figure 3 is a schematic diagram of the arrangement 1 of the first embodiment of the present invention.

Figure 4 is a schematic view from above of the first embodiment arrangement 2 of the present invention.

Figure 5 is a schematic view from above of the first embodiment arrangement 2 of the present invention.

Figure 6 is a schematic diagram of multiple installation of the lamp of the first embodiment of the present invention.

Figure 7 is a schematic view of the backrest overlap installation of the first embodiment of the present invention.

8 is a three-dimensional exploded view of a second embodiment of the present invention.

9 is a stereoscopic exploded view and installation schematic diagram 1 of the third embodiment of the present invention.

Figure 10 is a three-dimensional exploded view and installation schematic of the third embodiment of the present invention.

11 is a three-dimensional exploded view and installation schematic of the third embodiment of the present invention.

** Explanation of symbols for main parts of drawings **

1,2,4 ： Backrest 10,20 ： Storage space

11: heat radiating fin 12: heat radiating particles

13: Storage groove 21: Multi-dimensional concave convex body

3: light source element 30: LED

31: substrate 4: rectifier circuit chip

33: Guiding silicon glue 500: Light guide plate

501: Light guide tube 510, 511: Reflective light guide surface

520,521 ： light emitting light guide surface 530, 531 ： light reflector

540,541 ： reflective bar 550,551 ： light diffuser plate

560,561,562 ： condensing mirror 6,7 ： back cover

8: Fan 9: back head

The present invention relates to a LED lamp having a multi-function, more specifically, it refers to forming a LED lamp having power saving and high efficiency by combining components such as a backrest having a good heat dissipation effect using the LED lamp.

Conventional lightings, such as fluorescent lights and light bulbs, although widely used by the public, still have many improvements. For example, the work efficiency of a conventional lamp generally does not reach 100%. In short, the conventional lamp easily causes excessive consumption of power when emitting light, resulting in a cost burden in the long term use. In addition, the traditional lighting has a number of shortcomings, such as high consumption rate and short service life, greatly increasing the user's cost of use, such as protection and repair costs. In addition, the conventional conventional lighting lamps contain heavy metals such as mercury and lead in the manufacturing process, and easily generate polluting materials, which is a violation of the recently increased ecology and environmental protection awareness.

The main purpose of the present invention is to provide a multi-function LED lamp having electric saving and high efficiency.

Based on the above object, the multifunctional LED lamp of the present invention is mainly composed of parts such as a backrest, a light source element, a light guide and a back cover. The backrest is made of a material having good heat resistance to form a single body, and a heat dissipation body for mass heat dissipation is formed on the outer surface of the backrest, and a storage space is formed inside the backrest. The light source device attaches a plurality of LEDs to the periphery of an aluminum printed circuit board (AL PCB) or a printed circuit board (PCB) in a tin-junction manner, and fixes the position of the light source device in a suitable place in the backrest of the backrest by a heating element. Let's do it. Where light of the light source device is emitted, a light guide having a transparent plate shape is installed, and the back cover covers the light guide tube and the outside of the light source device in accordance with the shape of the backrest and fixes the position to the backrest.

As a result, the multi-functional LED lamp of the present invention generates an illumination light source as an LED, guides the progress of the LED light beam through the light guide, and improves its brightness. At the same time, the working temperature generated by the LED light is radiated to the outside by sending heat to the backrest through the heating element. This reduces the amount of electricity consumed by the LED, and achieves a power saving and high efficiency lighting through features such as long life and improved luminous efficiency.

1 and 2, which shows a three-dimensional exploded view and the back of the back of the first embodiment of the multi-function LED lamp described in the present invention.

By the drawings, the first embodiment is composed of parts such as the backrest 1, the light source element 3, the light guide plate 500, the reflective light guide surface 510, the light emitting light guide surface 520, and the back cover 6. It is.

The backrest (1) is made of aluminum or aluminum alloy, copper or copper alloy, gold or gold alloy or plastic, wood, ceramics, charcoal, quartz, carbon fiber, heat-resistant glass or glass fiber, Teflon, or metal (Teflon) For example, it adds quartz, aluminum, gold, copper, etc.) to form materials with very good thermal properties such as Teflon graphite, Teflon aluminum, and Teflon copper, and is usually manufactured by molding such as press, main pressure, or pressure. It forms a plate-shaped frame body of the, and on the outside and the rear side of the backrest (1) to form a large amount of heat radiation fins 11 and heat radiation particles 12, the heat radiation fins 11 and the heat radiation particles 12 The shape of the outer circumference is a variety of forms, such as square, round, pointed, and the like, such a heat sink (heat radiating fins and heat radiating particles) is molded integrally with the backrest, or the parts of each part are formed on the backrest (1). In addition, an accommodating space 10 is formed inside the backrest 1, and an accommodating space 13 is provided at the rear side of the backrest 1 so as to include a printed circuit board, an IC chip and a driven device (for example, For example, a rectifier circuit chip).

The light source element 3 attaches and installs a plurality of low, medium and high efficiency LEDs 30 to one substrate 31 in a tin-junction manner, and the substrate 31 is a printed circuit board or an aluminum printed circuit board. (AL PCB), and the light source element (3) to the backrest (1) of the backrest (1) using a heating element (for example, a thermal ointment, a thermal silicon glue, a thermal glue strip, a thermal support piece, etc.) ) In the proper position.

모양 혹은 긴 막대 모양을 드러내는 반사막대(540)를 설치하여 도광판(500) 외측의 반사 도광면(반사면)(510)이 프레스, 열압 혹은 인쇄 등 성형방식으로 도랑홈 모양의 이빨면을 가지거나 혹은 다수의 광학그물점으로 형성된 광학그물 점면(510)을 형성하고, 광 반사판(530)을 부착한다. Like the backrest 1, the substrate 31 is made of aluminum or aluminum alloy, copper or copper alloy, gold or gold alloy or plastic, wood, ceramics, carbon, quartz, carbon fiber, heat resistant glass or glass fiber, Teflon, or the like. In addition, by adding a metal (for example, quartz, aluminum, gold, copper, etc.) to Teflon, Teflon graphite (Teflon graphite), Teflon aluminum, Teflon copper and the like is made of a material having extremely good thermal conductivity, and the substrate (31) ) Is directly integrally molded with the backrest (1), the light guide plate 500 is a transparent plate-shaped light guide body, the light is formed on the side end of the light guide plate 500 is the light coming from the light source element (3) It is different from the one where the opaque shape is formed on the other side of the side where the light enters.

By installing a reflective rod 540 to reveal a shape or a long rod shape, the reflective light guide surface (reflective surface) 510 outside the light guide plate 500 has a groove-shaped tooth surface by a molding method such as press, heat pressure, or printing. Alternatively, the optical net point surface 510 formed of a plurality of optical net points is formed, and the light reflecting plate 530 is attached.

The light emitting light guiding surface (light emitting surface) 520 inside the light guide plate 500 forms a sliding plane by processing a groove-shaped tooth surface or an optical net surface formed by a molding method such as pressing, heat pressure, or printing. The light diffusing plate 550 is attached and installed so as to be the surface where the light of this embodiment is emitted.

The back cover 6 is formed in the shape of a square cover body according to the outer shape of the backrest 1, covering the outside of the light source element 3 and the light guide plate 500, and is installed on the backrest 1 to be positioned It is fixed.

The first embodiment generates an illumination light source by using the LED 30 of the light source element 3, and the light guide plate 500 and the light reflection plate 530 and the light diffusion plate 550 provided on the side surface of the light guide light source It leads the direction to increase the brightness of the light to reach the light effect.

The present invention adds one condenser 560 on the outside of the light diffusion plate 550 according to the demand of the lighting to increase the light transmittance of light or the light of PVC or PET or PMMA material on one side of the light emitting surface Brightness Adjustment A thin film or color chromaticity adjustment plate is added to adjust the brightness and chromaticity of light emitted from the light source element 3.

The heat dissipation fins 11 and the heat dissipation particles 12 formed on the outer and rear surfaces of the backrest 1 increase the heat dissipation area of the backrest 1, and when the LED 30 is working to generate a high temperature, A heat transfer body such as an ointment, a heat-glue, and the like quickly and effectively conducts heat to the backrest 1 to dissipate outwards, and provides a good heat dissipation path to the back light source element 3.

3, 4, and 5, in the installation of a space, the first embodiment uses a single installation lamp directly as a general lamp, for example, a stand, a wall, etc., which is expanded to FIG. The lights are arranged in a planar arrangement to form a surface where a large range of light is emitted to form a light used in a relatively large space, for example, a drawing room, an office or a classroom.

Or it is an installation that surrounds several sets of lights such as Fig. 4 and 5 in an upright shape so that the light exits outwards, and the light sources of the lamps can be multi-directionally irradiated and used for decoration on the street or art. .

6 and 7 illustrate various changes and applications in the application of the first embodiment. For example, the light source element 3 adopts a single set of sets to generate lighting brightness necessary for everyday use, and is widely applied to various lighting and indicator lamps. However, this light source element 3 can also adopt multiple installations according to demand.

For example, in FIG. 6, two or more sets of light source elements 3 are installed in the storage space 10 of the backrest 1, thereby providing higher brightness of light or two or more sets of different waveforms. It is also possible to provide a light source element of different waveforms using a regulator in the present invention with the light source element 3 composed of the LED 30 having an excitation, thereby generating light of different colors, which is applied to art decoration and aquarium lighting. do.

When several sets of light source elements are installed, power consumption and working temperature are increased, but two or more sets of backrests 1 are superimposed as shown in FIG. 7, and one heat exchange space is provided between the two sets of backrests 1. It is to be used to enhance the heat dissipation effect of the backrest (1). A fan (8) or a heat pipe is installed between the two backrests (1) to perform a forced heat exchange to test the power consumption and heat of 0-6 watts in the backrest of the surface area of 38000mm2. The addition of a fan 8 allows the rear side to withstand 0-12 watts of power consumption and calories. If you reach the fan (8) in the conduit again, you will endure the power consumption and calories of 0-24 watts, which greatly increases the effect.

8 is a three-dimensional exploded view of a second embodiment of the multifunctional LED lamp of the present invention. The present invention may be composed only of the backrest and the back light source element based on the need of volume or cost, and adjust the light out by adding a light diffuser plate and a condenser according to demand.

As shown in the drawing, the present invention uses one long aluminum rod as the backrest 4, and attaches the light source element 3 to the backrest 4 with the heat-sensitive silicon glue 33, which is a light source element 3 ), A condenser 562 is installed on the outside, and at the same time, the backrest 4 is bonded to the glass again with a heat-conducting silicone glue 33, and the glass is used to accelerate the heating and based on this characteristic, Increase the brightness. At the same time, the overheating situation is not generated due to the driving of high current. This method is applied to the lighting of the product display glass, and it is easy to reach the lighting brightness required for the glass display, but does not increase the temperature in the glass exhibition hall. The quality can be maintained and the glass display area occupied by the original lighting is so large that it avoids being disturbed by the display of goods.

Referring to Figure 9, this is a three-dimensional exploded view of a third embodiment of the multi-function LED lamp of the present invention, a representative view of the present invention.

As can be seen from the drawings, the backrest 2 of the third embodiment is manufactured by a molding method such as press, main pressure, or pressure suppression by adopting a material having extremely good thermal conductivity, and generally forms a funnel shape, and the funnel mouth portion A single E27 tubular head 9 is provided on the outside of the backrest 2, and a heat sink such as a multidimensional convex body 21 or a heat radiation fin is installed outside the backrest 2, and the heat sink is integrated with the backrest 2. It is produced by molding or the parts of each part are manufactured to be coupled to the backrest (2).

One accommodating space is formed inside the backrest 2, and in the light source element 3, a plurality of LEDs 30 are installed around one substrate 31 in a tin-junction manner, and then a heat conductor is used. Attaching the light source element 3 to an appropriate position in the storage space 20 of the backrest 2 to fix the position, and installing the rectifier circuit chip 4 and other driven elements in the center of the substrate 31. The board | substrate 31 is manufactured by the integral support with the backrest 2 directly.

The light guide tube 501 is a transparent tube-shaped light guide, and a cross section of the tube on one side of the light guide tube 501 is formed of a single transparent tube-shaped light guide, and a tube on one side of the light guide tube 501. A cross section is formed in which light enters, and a place where the light of the light source element 3 comes out is provided, which is different from attaching one circular reflecting rod 541 to the pipe surface of the light ingress plane. The reflective light guide surface (reflective surface) 511 inside the light guide tube 501 forms a groove-shaped tooth surface or an optical net point surface by a molding method such as press, hot pressure or printing, and rolls a rolled cylindrical light reflective plate ( 531).

The light emitting light guiding surface (light emitting surface) 521 on the outside of the light guiding tube 501 is a sliding surface formed by processing a groove-shaped tooth surface or an optical net surface formed by a molding method such as pressing, heat pressure, or printing. 521, and one rolled cylindrical light diffuser plate 551 is attached at the same time. This is the surface on which the light of this embodiment is emitted.

The back cover 7 is formed in one cover according to the outer shape of the backrest 2, which is covered on the outside of the light source element 3 and the light guide tube 501, the position is fixed to the backrest 2 .

In the third embodiment, the cylindrical head 9 of the E series is installed in the shape of the funnel mouth of the backrest 2 to form an electrical joint, but this part is also adopted for the installation of the 2PIN outlet or directly. Make a tangential connection to the electrical joint. In the third embodiment, the rectifier circuit chip 4 is used to convert an external power source into a DC power source and supply the LED 30 to the LED 30 of the light source element 3 to become a light source such as an illuminating lamp, and the light of the light source element 3. The light guide tube 501, the light reflection plate 531 inside and outside the light guide tube, and the light diffuser plate 551 are provided to guide the traveling direction of the light source and adjust the brightness of the light source to increase the effect of the lighting.

In addition, according to the present invention, according to the demand of a lighting lamp, a light collecting plate 561 is added to the outer surface of the light diffusion plate 551 to increase the light transmittance of light or PVC or PET on one side of the light emitting surface. Alternatively, the brightness and chromaticity of light emitted from the light source device can be adjusted by adding a light brightness adjusting thin film or a color chromaticity adjusting plate made of PMMA. On the outer surface of the backrest 2, a multi-dimensional concave convex body 21 or a heat sink such as a heat radiation fin is formed, and the heat dissipation area of the backrest 2 is increased to improve the heat conduction and heat dissipation speed of the LED working temperature.

9, 10 and 11 at the same time, the light guide tube 501 is a reflective light guide surface (reflection surface) 511, which is a net dot surface formed inside the tube, and a light emitting light guide surface (light emitting surface), which is an outer sliding plane. Through the reflecting rod 541 on the entrance side of the tube, the light reflecting plate 531 provided inside the tube, and the light diffusing plate 551 and the condenser 531 provided outside the tube. The light propagation direction of 3) is guided, and the brightness thereof is enhanced to emit the light from the light source element 3 in all directions from the side surrounding the light guide tube 501.

However, as illustrated in FIG. 10, the light guide tube 501 changes the inner surface of the tube into a light emitting light guide surface (light emitting surface) 521 which is a sliding plane so that the outer surface is a reflective light guide surface (reflective surface). 511 is formed, and the circular reflection rod 541 of the light guide tube is removed, and at the same time, the outside of the light guide tube is replaced with the light reflection plate 531, and the light diffuser plate 551 and the condenser 561 are placed inside the light guide tube. It is installed to change the direction of light coming from the light source element (3) to focus, and to emit a relatively concentrated light beam on a single side tube surface of the light guide tube 501 to suit different environments and situations.

On the other hand, the light guide tube 501, as shown in Figure 11, is a pillar of the actual core, and does not have a light reflecting plate and a light diffusion plate, so that the light beam of the light source element is emitted directly toward the outside, this column The inside of the body-shaped light guide tube forms a bubble shape or a stripe shape, or a sticker is attached to the outside of the light guide tube to be applied to a decorative pillar.

The present invention is to select the LED to the light emitting object of the light source element, which is based on the many excellent characteristics of the LED. For example, it has high luminous efficiency and low electricity consumption, and under the same illumination, LED consumption power is only 1 / 2-1 / 10 of traditional lighting, and electricity consumption is also less than that of traditional fluorescent lights and bulbs. In addition, the lifetime of the LED reaches 50,000 hours, and compared with traditional lighting, LED lighting effectively saves the cost of bulb protection and culling. In addition, LEDs do not contain heavy metals such as lead or mercury in traditional light bulbs or fluorescent lamps, so that heavy metals are not diluted and contaminate the environment. In addition, LEDs have more environmental protection benefits than conventional light bulbs.

As shown in the above-described three embodiments, the backrest, the light guide and other correlated parts of the present invention can be arbitrarily modified in appearance and size due to the demand of use and the application, such as square, rod, Many kinds of changes are possible, such as cones.

The present invention produces the light source with LED, guides the light through the light guide effectively, increases the intensity, and combines with the backrest of good heat effect to help heat dissipation of the LED, and also protects the light source element and the light guide, etc. The LED's excellent features make it possible to achieve power savings, sufficient light brightness, and high efficiency lighting, which replaces the design with various lights and indicators, such as stands or table lamps, ceiling lights, etc. It is used for providing warm and sufficient lighting, or it is installed in the car body for lighting or brake lights, direction indicators, or for decoration of street lights, advertisement lamps, art lamps, aquarium lights, etc. Its uses are very diverse.

As described above, it can be seen that the multifunctional LED lamp described in the present invention has the following advantages.

1. This design has various kinds of shapes and shapes, so it can cope with market demand very smoothly, and it is widely used in various lighting, decoration, and indicator lamp, so it can be used to replace traditional lighting lamp because of its wide use and high efficiency. have.

2. This design uses LED as the light source, which has the advantages of low electricity consumption, long life and high luminous efficiency of LED, and at the same time, it combines a backrest structure with good thermal effect, so that the LED effectively radiates its working temperature. It reduces the cost of power saving and selection in use, and improves lighting efficiency.

3. The present invention does not include heavy metal materials that cause environmental pollution, such as lead and mercury, which are included in general conventional lighting lamps as LED lighting sources. Therefore, it meets the concept and demand of environmental protection and has the benefit of environmental protection in use.

Claims (13)

Including a backrest, a light source element, a light guide, a back cover, The radiator is formed on the outside of the backrest and the storage space is installed inside, The light source device is made of a plurality of LED is installed on the printed circuit board, is attached to the storage space of the backrest by a heat conductor, The light guide has a transparent plate shape, and the light input surface of the light guide is installed where the light of the light source element comes out. The back cover is installed on the outside of the light guide and the multifunctional LED lamp, characterized in that the position is fixed to the backrest. The multi-function LED lamp of claim 1, wherein the heat sink is formed integrally with the backrest. The multi-function LED lamp of claim 1, wherein the heat sink is installed to be coupled to the backrest. The multi-function LED lamp of claim 1, wherein a light reflector is provided on the light guide surface of the light guide member. The multifunction LED lamp of claim 1, wherein a light diffuser plate is installed on a surface of the LED lamp. The multifunction LED lamp of claim 1, wherein a condenser is installed on a surface of the LED lamp. The multifunction LED lamp of claim 1, wherein a light brightness adjusting thin film is installed on a surface of the LED lamp. The multi-function LED lamp of claim 1, wherein a color chromaticity adjustment plate is installed on a surface of the LED lamp. The multifunctional LED lamp according to claim 1, wherein the LED lamp is composed of a light diffuser plate and a condenser in place of the light guide and the lamp cover. The multifunctional LED lamp according to claim 1, wherein the LED lamp is composed of a light diffuser plate instead of the light guide and the lamp cover. The multifunctional LED lamp according to claim 1, wherein the LED lamp is configured with a condenser in place of the light guide and the lamp cover. The multifunctional LED lamp of claim 1, wherein the LED lamp is formed of an optical brightness adjusting thin film in place of the light guide and the lamp cover. The multifunctional LED lamp according to claim 1, wherein the LED lamp is composed of a color chromaticity adjusting plate instead of the light guide and the lamp cover.

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