KR20120093712A - Led lighting device that irradiation angle of light is regulated - Google Patents

Abstract

PURPOSE: An LED lighting device capable of controlling an irradiation angle is provided to prevent the reduction of lifetime due to high temperature generated from inside by obtaining high heat radiation efficiency using a multiple heat radiation structure. CONSTITUTION: An LED lamp(200) includes a heat radiation unit(210). The heat radiation unit is the shape of a hemisphere. The heat radiation unit is composed of a plurality of heat radiation fins to discharge the heat. A heat radiation plate(100) includes an installation groove(110) for mounting the heat radiation unit. The installation groove is the shape of a hemisphere corresponding to the heat radiation unit.

Description

LED lighting device with adjustable angle of illumination {LED lIGHTING DEVICE THAT IRRADIATION ANGLE OF LIGHT IS REGULATED}

The present invention relates to an LED lighting device having a high light distribution efficiency while being able to adjust the irradiation angle according to a user's desired irradiation area.

In general, the conventional street lamps installed on the road are regularly arranged at intervals of approximately 30M to 50M along the road, and it is common to use sodium lamps or ordinary metals as lighting lamps. However, such a conventional lighting lamp such as sodium or metal, such as a discharge type consumes a lot of power and wasted electrical consumption, so a lamp for a street lamp using an LED chip as a light source has been developed.

As described above, most of the lamps for street lamps using the LED chip as a light source use a LED chip having a capacity of 1 W as the light source, and many of them are assembled and packaged. However, the street light using LED as a light source has a problem that the characteristics of the LED light source are direct, so that the irradiation angle can not be adjusted widely and narrowly depending on the installation location, so that it can always be illuminated only at a certain angle.

In more detail, the lighting lamp using the LED chip is usually installed in the interval of 30M to 50M in the light, so that the so-called lighting between the street lamps there is a very dark so-called blind spots. In other words, the conventional LED chip lighting lamps have a very small amount of light between the street lamp and the street lamp due to the lack of diffusion of the LED, so frequently formed dark so-called blind spots, such blind spots are difficult to pass the vehicle at night, as well as pedestrians It gave them a big obstacle in moving safely.

The present invention was devised to solve the above problems, and can be used by adjusting the irradiation angle according to the user's desired irradiation area, excellent heat generation efficiency, excellent durability and high light distribution rate compared to other lighting devices even at the same illuminance rate. The purpose of the provision of an LED lighting device that can adjust the irradiation angle can have.

In order to achieve the above object, the present invention includes a heat dissipation plate formed with an LED lighting lamp having a heat dissipation unit at the rear end and an installation groove to which the heat dissipation unit is coupled, and irradiating the heat dissipation plate by adjusting an installation angle of the light. We propose an LED lighting device that can adjust the angle.

The present invention can be used by the user to selectively adjust the illuminance area according to the installation situation and at the same time as the other illumination lamps emit a large amount of reflected light to the outside to have an excellent light distribution rate and excellent in use efficiency and diffusion of LED It is possible to minimize the occurrence of a blind spot due to lack of light.

In addition, it has a high heat dissipation efficiency through a multi-heat dissipation structure, it is possible to prevent shortening of life, reduced brightness due to high heat generated inside.

1 is a perspective view of the combination of the LED lighting apparatus according to the present invention,
2 is an exploded perspective view of the LED lighting apparatus according to the present invention,
3 is a bottom perspective view of a heat sink according to the present invention;
Figure 4 is a combined cross-sectional view of the LED lamp and the lighting device according to the present invention,
5 is a cross-sectional view showing that the angle of the LED lamp and the lighting device according to the present invention is adjusted,
6 is an exploded perspective view of an LED lamp according to the present invention;
7 is a cross-sectional view of the coupling between the reflector and the lens according to the present invention;
8 is a cross-sectional view showing that the lens is adjusted angle according to the present invention,
9 is an exploded bottom perspective view of the reflector according to the present invention;
10 is a combined perspective view of the reflector according to the present invention;
11 is an exploded perspective view of a PCB according to the present invention;
12 is a perspective view of the combination of the PCB and the intermediate ring in accordance with the present invention,
Figure 13 is a cross-sectional view of the coupling of the LED lamp according to the invention,
14 is a perspective view of a fixing member according to the present invention;
15 is a perspective view of the combination of the heat dissipation member and the fixing member according to the present invention;
16 is a cross-sectional view of the heat radiation fin unit in accordance with the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

1 is a combined perspective view of the LED lighting apparatus according to the present invention, Figure 2 is an exploded perspective view of the LED lighting apparatus according to the present invention, Figure 3 is a bottom perspective view of the heat sink according to the invention, Figure 4 according to the present invention Combined cross-sectional view of the LED lamp and the lighting device, Figure 5 is a combined cross-sectional view showing that the angle of the LED lamp and the lighting device according to the invention is adjusted, Figure 6 is an exploded perspective view of the LED lamp according to the invention, Figure 7 Combined cross-sectional view of the reflector and the lens according to the invention, Figure 8 is a combined cross-sectional view showing that the lens according to the invention the angle adjustment, Figure 9 is an exploded bottom perspective view of the reflector according to the invention, Figure 10 is in accordance with the present invention The combined perspective view of the reflector, Figure 11 is an exploded perspective view of the PCB according to the invention, Figure 12 is a perspective view of the combination of the PCB and the intermediate ring according to the invention, Figure 13 is a texture of the LED lamp according to the invention It is a cross-sectional view, Figure 14 is a perspective view of a fixing member according to the present invention, Figure 15 is a perspective view of the combination of the heat dissipation member and the fixing member according to the present invention, Figure 16 is a cross-sectional view of the heat radiation fin portion according to the present invention.

1 to 5, the rear end is provided with a heat dissipation unit 210 consisting of a plurality of heat dissipation fins, and a plurality of mounting lamps 200 and the heat dissipation unit 210 is mounted LED light source for emitting light The installation groove 110 of the formed is made to include a heat sink 100, the heat sink 100 can be combined to adjust the installation angle of the lamp 200, the bar is seated in the installation groove 110 The mounting angle of the heat dissipation unit 210 is adjusted to the irradiation direction desired by the user to couple the lamp 200 to the heat dissipation plate 100.

At this time, the heat dissipation unit 210 of the lamp 200 is formed by forming a plurality of heat dissipation fins that can discharge the heat generated by the LED light emitting, a plurality of heat dissipation fins are formed in a hemispherical shape. In addition, the installation groove 110 of the heat dissipation plate 100 has a hemispherical shape corresponding to the hemispherical shape of the heat dissipation part 210 so that the heat dissipation part 210 can be completely seated. Accordingly, as shown in FIGS. 4 to 5, the angle at which the heat dissipation unit 210 is seated in the installation groove 110 is free, and thus, the installation angle of the lamp 200 can be easily adjusted in various directions. will be.

On the other hand, the lamp 200 is installed on the heat sink 100 is a PCB 230 and the PCB 230 is mounted with a plurality of LEDs to express the light supplied with power as shown in Figures 6 to 13 and It is coupled to and comprises a reflector 220 for diffusing light emitted from the LED.

The PCB 230 is mounted with a plurality of LEDs expressing light on a surface thereof, and a power terminal for supplying power to the LEDs is formed.

The reflector 220 is a light emitted from the LED is reflected through the inner circumferential surface is diffused and emitted, the reflector 220 is applied to the present invention is to form a radial shape to increase the light diffusion rate.

In this case, as shown in FIG. 7, the reflector 220 is provided with a lens 222 in which the light expressed by the LED is refracted and is transmitted in the middle of the reflector 220. A convex lens is applied to maximize the refractive index of light. Accordingly, the light emitted from the LED is primarily refracted by the lens 222, and secondly, the diffusion is maximized while passing through the inner circumferential surface of the reflector 220, thereby having a high light distribution efficiency, so that the light is illuminated. It is possible to minimize blind spots.

Meanwhile, the reflector 220 has a pair of coupling grooves 221 formed therein, and the lens 222 has coupling protrusions 223 corresponding to the coupling grooves 221 to form the coupling grooves ( 221 is coupled to the coupling protrusion 223 is fitted. At this time, the coupling groove 221 is formed to be open upward, the lens 222 is formed in a radial shape can be easily coupled by inserting in the rear end direction from the front end direction of the reflector 220 having a large space area. will be.

6 and 8, the coupling protrusion 223 is formed in a circular shape so as to rotate inside the coupling groove 221, and the lens 222 is the coupling protrusion ( 223 may be installed on the reflector 220 by rotating a predetermined angle in the horizontal direction. Therefore, when irradiating light to a specific area, the lens 222 coupled to the reflector 220 is rotated and installed in the direction to be irradiated, so that the user can irradiate light intensively to a desired area. will be.

As shown in FIG. 7, the reflector 220 is coupled with a screw penetrating the coupling groove 221 from the outside, and the screw strongly asks the side surface of the coupling protrusion 223 and the lens ( By firmly fixing the 222, the installation angle of the lens 222, which is installed at a specific angle, is prevented from being changed.

At this time, the reflector 220 is formed with a washer groove 224 is fitted with a washer 225 is coupled to the outer peripheral surface of the portion where the coupling groove 221 is located, as shown in Figs. The washer groove 224 has the same shape as the washer 225 so that the washer 225 fitted therein does not move, and a screw thread is formed in the washer 225 through which the screw penetrates the coupling groove. The lens 222 may be more firmly fixed at the same time as the screw piercing the coupling protrusion 223 is prevented from being loosened.

Meanwhile, the reflector 220 has a plurality of fitting protrusions 226 formed at a rear end thereof, and the PCB 230 has fitting grooves 232 to which the fitting protrusions 226 are coupled, as shown in FIG. 11. The PCB 230 and the reflector 220 can be easily and firmly coupled in an interference fit manner.

In addition, the PCB 230 is a sealant is applied to the surface to protect the LED to be mounted, as shown in Figure 6 and 11 to easily apply the sealant to the surface of the PCB 230 made of a flat surface An intermediate ring 234 having a band shape is provided. The intermediate ring 234 is formed to a size that can wrap all the LED mounted on the PCB 230, it is preferable that the applied sealant is formed to a height that can not overflow. Accordingly, as shown in FIG. 12, the intermediate ring 234 is positioned on the upper surface of the PCB 230 on which the LED is mounted, and then the sealant may be easily applied.

6 and 13, at least one step 228 is formed at the bottom of the reflector 220, and the step 228 is formed by extending both sides of the fitting protrusion 226 to a predetermined length. Will be. Accordingly, as shown in FIG. 13, when the reflector 220 and the intermediate ring 234 are coupled to the PCB 230 placed on the upper surface, the lower end and the intermediate ring 234 are caused by the step 228. A space is generated between the spaces, and heat generated by LEDs is emitted to the spaces, thereby improving heat dissipation efficiency.

On the other hand, the heat dissipation plate 100 further includes a fixing member 300 to prevent the separation when the lamp 200 having the configuration as described above and to be firmly coupled to the bar, as shown in FIG. As described above, the fixing member 300 includes a coupling part 310 coupled to the heat dissipation plate 100 and a fixing part 320 extending vertically bent to the coupling part 310 to contact the lamp 200. . The coupling portion 310 is coupled to the coupling groove 221 formed on one side of the installation groove 110 in which the lamp 200 is installed, the coupling portion 310 has a screw groove 120 through which the screw penetrates Is formed and the coupling groove 221 is formed with a screw groove 120 that can be screwed to be able to firmly couple the fixing member 300 in a screw coupling manner. In addition, the fixing part 320 may be in contact with the upper surface of the PCB 230 and may prevent the lamp 200 from being separated. The fixing part 320 may be in contact with the PCB 230 in accordance with an installed angle of the lamp 200. Surface is formed to be inclined at an angle corresponding to the installation angle is to be able to securely fix the lamp 200 as shown in FIG.

In addition, as shown in FIG. 16, the heat dissipation plate 100 is provided with a heat dissipation fin unit 130 for smoothly discharging heat generated from the lamp 200 to the outside, and the heat dissipation fin unit 130 is provided. The plurality of heat dissipation fins are formed in one cluster, and the heat dissipation fin unit 130 having a plurality of heat dissipation fins in one cluster as described above is uniformly formed on the rear surface of the heat dissipation plate 100, thereby improving heat dissipation efficiency. do. In addition, the heat dissipation fin unit 130 may be additionally assembled with a separate heat dissipation fin bar, and the heat dissipation fin ring 140 formed of a plurality of heat dissipation fins in a ring shape is further assembled and coupled to the heat dissipation fin unit 130, and thus, It is to have a high heat dissipation effect.

100: heat sink 110: mounting groove
200: light 210: heat dissipation
220: reflector 221: coupling groove
222 lens 224 washer groove
226: fitting protrusion 228: step
230: PCB 234: middle ring
300: fixing member

Claims (10)

LED lamp 200 provided with a heat dissipation unit 210 at the rear end; And
And a heat sink 100 having an installation groove 110 on which the heat sink 210 is seated.
The heat dissipating plate 100 is an LED lighting device that can adjust the irradiation angle, characterized in that it can be combined by adjusting the installation angle of the lamp (200). The method according to claim 1,
The heat dissipation unit 210 is made of a hemispherical shape,
The installation groove 110 is made of a hemispherical shape corresponding to the heat dissipation unit 210, LED lighting apparatus that can adjust the irradiation angle, characterized in that to easily adjust the installation angle of the lamp (200). The method according to claim 1,
The heat dissipation plate 100 is coupled to the heat dissipation plate 100, LED lighting apparatus that can adjust the irradiation angle, characterized in that it further comprises a fixing member 300 that can be fixed in contact with the lamp 200. The method of claim 3,
The fixing member 300 is composed of a coupling portion 310 coupled to the heat sink 100 and the fixing portion 320 extending to the coupling portion 310 to contact the lamp 200,
The fixing part 320 is an LED lighting device that can adjust the irradiation angle, characterized in that formed to be inclined at an angle corresponding to the installation angle of the lamp (200). The method of claim 2,
The lamp 200 includes a PCB 230 coupled to the heat dissipation unit 210 and a plurality of LEDs mounted thereon, and a reflector 220 coupled to the PCB 230 to diffuse light.
The lens 222 is refracted by the light is installed inside the reflector 220 to generate a large amount of reflected light, LED lighting apparatus that can adjust the irradiation angle, characterized in that the light distribution efficiency is improved. 6. The method of claim 5,
The reflector 220 is a pair of coupling groove 221 is formed, the lens 222 is a coupling protrusion 223 corresponding to the coupling groove 221 is formed,
The lens 222 is a LED illumination device that can adjust the irradiation angle, characterized in that for adjusting the installation angle by rotating the coupling protrusion 223 to the axis. The method of claim 6,
The reflector 220 has a washer groove 224 is formed on the outer circumferential surface corresponding to the coupling groove 221, the washer groove 224 is coupled to the washer 225 with a screw thread, the screw is the coupling groove ( 221 through and asks the coupling protrusion 223, LED illumination device that can adjust the irradiation angle, characterized in that the lens 222 can be firmly coupled. 6. The method of claim 5,
The reflector 220 has one or more fitting protrusions 226 formed at a rear end thereof, and a fitting groove 232 to which the fitting protrusions 226 are coupled is formed at the PCB 230 to be firmly coupled to the interference fit. LED lighting device that can adjust the irradiation angle. 6. The method of claim 5,
At least one step 228 is formed at the bottom of the reflector 220 to be spaced apart from the contact portion, thereby improving the heat radiation efficiency of the LED lighting device, characterized in that. The method according to claim 1,
The heat sink 100 is provided with a plurality of heat radiation fins 130 on the back,
The heat dissipation fin unit 130 is an LED lighting device that can adjust the irradiation angle, characterized in that the additional heat dissipation fin is further assembled, heat dissipation efficiency is improved.

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