KR101161851B1 - Led illuminating device - Google Patents

Abstract

The present invention heats the heat generated from the LED element, which is an illumination light source, on each side of the polygonal frame having a U shape to prevent light output and life deterioration, and the LED is provided by the polygon reflecting tube and the reflective polyhedron provided inside the polygon frame. It relates to an LED lighting device that the light source is diffusely reflected to the front to achieve a soft light without glare.
To this end, a polygonal frame of a U-shaped polygon frame is formed on each side of the bottom surface, which is a polygon fixed to one side of the power module housing at an inclined angle, and radiates heat from the outside of each surface, and an LED module on each side of the inside thereof. Each mounting, and the reflecting surface is molded into a polygon for each surface inside the polygon frame to cover all the LED modules, but the U-shaped polygon with the reflective surface perforated so that the light emitting surface of each LED element is exposed inward. A reflecting polyhedron having a reflecting passage and a pyramidal reflecting surface is provided at the center of the bottom surface of the polygon reflecting cylinder, and the light emitting light source of the LED element is diffusely reflected by each reflecting surface inside the reflecting polygon and the inclined reflecting surface of the reflecting polyhedron. It is projected in the direction, the glare is included a light diffusion light cover coupled to detachable with a bolt around the bottom of the polygon frame Is provided by the LED lighting apparatus lights are formed.

Description

LED lighting device {LED ILLUMINATING DEVICE}

The present invention prevents degradation of light output and lifespan by radiating heat generated from a light emitting diode (LED) element, which is a light source for illumination, on each side of a polygonal U-shaped polygon frame, and preventing polygonal reflection provided inside the polygon frame. The present invention relates to an LED lighting device in which a LED light source is diffusely reflected to the front by a pass reflection polyhedron to achieve soft lighting without glare.

Recently, LED devices have been in the spotlight as light sources of various lighting devices. LED devices have less heat generation than conventional illumination light sources, and have advantages such as low power consumption, long lifespan, and impact resistance. In addition, since mercury or a discharge gas is not used, such as a fluorescent lamp, the manufacturing process has an advantage of not causing environmental pollution.

If the LED device provides proper power supply and heat dissipation means, it can be kept on even after 100,000 hours of use. The light output of all the light sources gradually decreases over time. Up to 80% of the initial light intensity is not easily perceived by humans. Based on this, the lighting life of the LED device is currently estimated to be about 40,000 to 50,000 hours. Therefore, the LED element can be said to be a long lifespan light source with a very long life compared to 1500 hours of incandescent bulbs and 10,000 hours of fluorescent lamps.

However, when the driving current is increased in the LED device to obtain a high brightness and high output light source, the power loss of the LED device is increased, so that most of the electrical energy is converted into heat and the junction of the LED device is in a high temperature state.

Even if the current flows in a constant state, the LED device has a characteristic of not only declining light output and light efficiency when the junction temperature increases, but also reducing operating life. Therefore, in order to improve lighting performance and operation life, the heat generated at the junction of the LED device should be discharged to the outside as soon as possible.

In order to solve this problem, conventionally, a high brightness LED device is mounted on a front surface of an integrated metal housing (housing) in which cooling fins are formed in various heat dissipation structures, and a semicircular milky white diffusion cover is mounted thereon to manufacture LED lighting lamps. . However, this method not only reduces the projection angle of the LED light source and increases the light attenuation by the milky white diffuser cover, but also reduces the illuminance. There was a problem that is shortened.

In addition, as the PCB circuit board with a large number of LED elements is mounted on the front side of the heat dissipation unit, the area of the circuit board is limited and many LED elements having low luminance and low heat cannot be arranged. Therefore, in order to obtain a large amount of light in a limited quantity, The use of power LED devices or heat sinks must be made larger, which increases the manufacturing cost, which makes it difficult to spread the LED lighting products.

In addition, the LED element is a point light source that emits light from the semiconductor element, and the light emitting surface of the LED element has a structure in which light is collected and emitted on the entire surface using a small reflector and an epoxy lens. In general LED lighting products, the heat generated from the LED element is emitted to the outside through the heat radiating part through the heat dissipation circuit board mounted with the LED element, but some heat is transferred to the light emitting surface of the LED element and heat is accumulated at the top of the package. Accordingly, the transparency of the diffusion lens such as epoxy is reduced to reduce the light output of the LED device, and to deteriorate the phosphor converting to white light, thereby changing the color of the illumination light source.

The present invention has been made in order to solve the problems described above, the side surface is erected at an inclined angle on each side of the bottom surface that is a polygon fixed to one side of the power module housing, the heat radiation (U) shape that is radiated from the outside of each surface Each LED module is mounted on each polygonal frame and its inner surface, and the reflecting surface is formed into a polygon for each surface inside the polygon frame so that all LED modules are covered, but the light emitting surface of each LED element is exposed inward. A U-shaped polygon reflector having a perforated reflecting surface and a reflecting polyhedron having a polygonal reflecting surface in the shape of a pyramid are provided at the center of the bottom surface of the polygon reflector. It is diffusely reflected by the reflecting surface of the slope and the reflecting polyhedron and projected in all directions. It is to provide an LED lighting device that includes a light diffusion light cover coupled to be able to be illuminated without glare.

One embodiment of the present invention, the power module housing is coupled to the power connection on one side, the bottom surface is fixed to one side of the power module housing, but the side surface is erected on each side of the bottom of the polygonal polygonal angle to radiate heat from the outside of each side The U-shaped polygon frame is formed, the LED module is installed on each side of the inner side of the polygon frame, the plurality of LED modules are arranged on the heat dissipation circuit board, and the power module is installed inside the power module housing The reflecting surface is formed into a polygon to fit each side of the inside of the polygon frame to cover the LED module, but the corresponding reflecting surface is perforated to expose the light emitting surface of each LED element arranged in the LED module. And a U-shaped polygon reflector shaped to project the light source in all directions by the diffuse reflection action It provides an LED lighting apparatus, characterized in that that contains the light diffusion light covers for detachably coupled to the bottom periphery of the polygonal frame.

Another embodiment of the present invention, the power module housing is provided with a support rod and a power connection portion connected to the column on one side, and the side of the polygon is formed on the sides of the bottom side at an inclined angle to heat radiation from the outside of each surface ( U) the shape of the polygon frame, each of the inner surface of the polygon frame, the LED module is a plurality of LED elements are arranged on the heat dissipation circuit board, the power module unit is installed inside the power module housing, and Reflecting surfaces are formed into polygons to conform to each surface inside the polygon frame to cover the LED module, but the respective reflecting surfaces are perforated to expose the emitting surface of each LED element arranged in the LED module, thereby inclining the light source of the LED element. A U-shaped polygon reflector projected onto the reflecting surface and shaped to project the light source in all directions by a diffuse reflection action, and the polygon reflector It is installed in the central portion of the base, the reflecting polyhedron having a pyramidal inclined reflecting surface made of a polygon, and provides an LED lighting device comprising a light diffusion lighting cover coupled to detachable around the bottom of the polygon frame do.

LED lighting device of the present invention is widely distributed on the outside of each side of the polygon frame of the U-shaped polygonal light emitting light source to radiate heat quickly to prevent degradation of light output and life of the LED module, The LED light source diffused and reflected by the polygon reflector and the reflecting polyhedron provided inside can be projected in all directions to achieve a soft lighting without glare.

In addition, the LED lighting device of the present invention can be mounted on the inner bottom and each side of the polygon frame of the U-shaped polygon frame wide, so that the light emission by arranging the high-brightness LED elements on the front of the heat radiation frame generally Compared to general LED lighting lamps, which are limited in area, low-brightness LED devices are inexpensive and can be arranged in large quantities to obtain desired amount of light. Therefore, LED lighting devices can be economically manufactured to supply cheaper lighting devices.

In addition, the LED lighting apparatus of the present invention is provided with a different pyramidal shaped reflecting polyhedral protruding from the center of the light emitting unit, and the number and inclination angle of the reflecting surface are different, thereby replacing the reflecting polyhedron according to the lighting purpose to use a wider or narrower projection angle of the light source. Therefore, it is possible to increase the usefulness of the lighting device when applied to street lights and security lights.

In addition, the LED lighting device of the present invention by placing the LED elements of various colors for each LED module installed on each side of the inside of the polygon frame, each LED module selectively emits all or part of the color by the remote control color rendering and illumination Because it can be illuminated differently, it can be usefully used for various lighting purposes.

1 is a perspective view of the LED lighting apparatus according to an embodiment of the present invention as viewed from the side of the light transmitting unit.
Figure 2 is an exploded perspective view showing the main components of the LED lighting apparatus shown in FIG.
Figure 3 is a state diagram showing the diffuse reflection action of the LED lighting apparatus shown in FIG.
Figure 4 is a perspective view of the LED lighting apparatus according to another embodiment of the present invention from the side of the light transmitting unit.
5 is an exploded perspective view showing the main components of the LED lighting apparatus shown in FIG.
Figure 6 is a state diagram showing the diffuse reflection action of the LED lighting apparatus shown in FIGS.
7 is a plan view of the LED lighting apparatus according to another embodiment of the present invention as viewed from the light-transmitting side.
8 is an exploded perspective view showing the main components of the LED lighting apparatus shown in FIG.
9 is a state diagram showing the diffuse reflection action of the LED lighting apparatus shown in FIG.

1 is a perspective view of an LED lighting apparatus according to an embodiment of the present invention as viewed from the light transmitting portion side, Figure 2 is an exploded perspective view showing the main components of the LED lighting apparatus shown in Figure 1, Figure 3 and Figure 1 and Figure 2 is a state diagram showing the diffuse reflection effect of the LED lighting apparatus shown in FIG.

LED lighting apparatus according to a preferred embodiment of the present invention, as shown in Figures 1 to 3, the power module housing 14, polygon frame 10, LED module 30, polygon reflector 20, a reflective polyhedron (22), the lighting cover 17 is included to form a main configuration.

When explaining the configuration in detail, the LED lighting apparatus of the present invention is a power module housing 14 coupled to the power connection portion on one side, and the bottom side is fixed on one side, but the sides of each side of the bottom of the polygon is set to the inclined angle U-shaped polygon frame 10 which radiates heat from the outside of the surface, LED module 30 which is installed on each side of the inside of the polygon frame, and a plurality of LED elements are arranged on the heat dissipation circuit board, and a power supply A power module unit installed inside the module housing 14 and reflecting surfaces are molded to conform to each surface of the inner side of the polygonal frame 10 to cover the LED module 30, and each LED element 31 arranged in the LED module 31. Polygonal reflection of the U-shaped polygon reflector 20 formed of the U-shaped polygonal reflector 20 formed by drilling the corresponding reflecting surface 21 and the polygonal reflection surface 22 having a pyramidal inclined reflecting surface formed of polygons. Of the bottom of the barrel 20 It is provided on the angular part, and is diffused and reflected on the reflective polyhedron 22 and the inclined reflective surface 20 on the side so that the light source of the LED element 31 is projected in all directions. The LED lighting device is configured to include a light diffusion lighting cover 17 coupled to the fastener 15 so as to be detachable with a bolt.

Referring to the diffuse reflection of the LED lighting apparatus shown in Figures 1 and 2 based on Figure 3, the light emitted from the LED module 30 passes through the hole 21 of the polygon reflector 20, respectively Thus, the illumination light reflected through several diffuse reflection processes incident and reflected on the inclined reflective surface of the reflective polyhedron 22 in the center portion is projected in all directions through the lighting cover 17 to illuminate. Therefore, LED lighting light, which is a high-brightness point light source, is not directly reflected to the human eye, and soft illumination light diffused from the inside of the lighting device is projected, thereby achieving a comfortable emotional lighting.

In addition, since a plurality of LED modules 30 can be widely mounted on the inner bottom and inside of each side of the polygonal frame 10 having a U-shape, the light emitting area by arranging a high-brightness LED element in front of the heat dissipation frame in general. Compared to the general LED lighting lamps that are limited by the low-brightness LED devices inexpensive array of a large amount of the desired amount of light can be obtained, it is possible to economically produce LED lighting devices to supply cheaper lighting devices.

In the above-described embodiment of the present invention, it is preferable that the sensor 40 is provided at the vertex of the reflection polyhedron 22 having a pyramidal shape to add a function of adjusting illuminance and color rendering of the lighting apparatus. In addition, by arranging a variety of LED elements of different colors for each of the LED module 30, by the remote control through the sensor 40 provided in the lighting device, each LED module selectively emits all or part of the illumination light source It is more preferable that the color rendering and illumination are illuminated differently.

4 is a perspective view of the LED lighting apparatus according to another embodiment of the present invention as viewed from the light-transmitting side, Figure 5 is an exploded perspective view showing the main components of the LED lighting apparatus shown in Figure 4, Figure 6 and Figure 4 and Figure 5 is a state diagram showing the diffuse reflection of the LED lighting apparatus shown in FIG.

LED lighting apparatus according to a preferred embodiment of the present invention is a power module housing 14, polygon frame 10, LED module 30, polygon reflector 20, lighting cover as shown in Figure 4 to 6 (17) is included in the main configuration, and instead of omitting the reflective polyhedron 22 shown in FIG. 1, the entire side surface 20-2 opposite to the light emitting surface of each LED element is configured as a reflective surface. The light emitting light source of the LED element is projected in all directions so that the diffuse reflection is different.

When explaining the configuration in detail, the LED lighting apparatus of the present invention is a power module housing 14 coupled to the power connection portion on one side, and the bottom side is fixed on one side, but the sides of each side of the bottom of the polygon is set to the inclined angle U-shaped polygon frame 10 which radiates heat from the outside of the surface, LED module 30 which is installed on each side of the inside of the polygon frame, and a plurality of LED elements are arranged on the heat dissipation circuit board, and a power supply The power module unit installed inside the module housing 14 and the reflecting surface 20 are molded to correspond to each side of the inner side of the polygonal frame 10 to cover the LED module 30, but each LED arranged in the LED module The reflecting surface is perforated 21 so that the light emitting surface of the element 31 is exposed, and the citron (U) shape polygonal reflection composed of the reflecting surface 20-2 opposite to the light emitting surface of each LED element 31 is formed. With the cylinder 20, the light emitting light source of the LED element 31 Diffuse reflection on each of the facing reflection surface 20-2 and the reflection surface 20-1 at the bottom so as to project in all directions, and bolted to the fastener 15 formed around the lower end of the polygon frame 10 The LED lighting device is configured to include a light diffusion lighting cover 17 that is detachably coupled.

Referring to the diffuse reflection action of the LED lighting device shown in Figures 4 and 5 based on Figure 6, the light emitted from the LED module 30 passes through the hole 21 of the polygon reflector 20, respectively Thus, the illumination light reflected through a plurality of diffuse reflection processes incident and reflected on the opposite inclined reflection surface 20-2 is projected in all directions through the illumination cover 17 to illuminate. Therefore, LED lighting light, which is a high-brightness point light source, is not directly reflected to the human eye, and soft illumination light diffused from the inside of the lighting device is projected, thereby achieving a comfortable emotional lighting.

In the above-described embodiment of the present invention, it is preferable that the sensor 40 is provided at the center of the bottom surface of the polygon reflector 20 to add a function of adjusting illuminance and color rendering of the lighting apparatus. Since the configuration of the sensor and the illumination control unit for the configuration is a conventional widely used configuration diagram and detailed description thereof will be omitted.

FIG. 7 is a plan view of the LED lighting apparatus according to another embodiment of the present invention as viewed from the light transmitting part side, and FIG. 8 is an exploded perspective view showing the main components of the LED lighting apparatus illustrated in FIG. 7, and FIG. 8 is a state diagram showing the diffuse reflection effect of the LED lighting apparatus shown in FIG.

LED lighting apparatus according to a preferred embodiment of the present invention is mainly used for street lamps and security lights, as shown in Figures 7 to 9 column support rod 26, power module housing 14, polygon frame 10 ), The LED module 30, the polygon reflector 20, the reflecting polyhedron 22, the lighting cover 17 is included to achieve the main configuration.

When the configuration thereof is described in detail, the sidewalls are erected at inclined angles on each side of the polygonal base, which is provided with a columnar support rod 26 connected to a street lamp or a security lamp column on one side, a power module housing 14 provided with a power connection portion, The U-shaped polygon frame 10 that radiates heat from the outside of each surface, and the LED module 30 is installed on each side of the inside of the polygon frame 10, but a plurality of LED elements are arranged on the heat radiation circuit board (30) ), A power module unit installed inside the power module housing 14, and reflecting surfaces are molded to fit each side of the inner side of the polygonal frame 10 to cover the LED module 30, but to the LED module 30. The reflective surface is drilled to expose the light emitting surface of each of the arranged LED elements 30, and the light source of the LED element 30 is projected onto the inner reflective surfaces 20-1 and 20-2 to be omnidirectional by diffusion reflection. U-shaped polygon reflector shaped to project light source 0), the light is installed in the center of the bottom of the polygon reflector 20, the light is coupled to the bolt so as to be detachable around the bottom of the reflection polyhedron 22 and polygonal frame 10 having a polygonal pyramidal inclined reflecting surface Provided is an LED lighting device comprising a diffused light cover 17.

9 and 8, the light emitted from the LED module 30 passes through the hole 21 of the polygon reflector 20. Thus, the illumination light reflected through several diffuse reflection processes incident and reflected on the inclined reflective surface of the reflective polyhedron 22 in the center portion is projected in all directions through the lighting cover 17 to illuminate. Therefore, LED illumination light, which is a high-brightness point light source, is not directly projected to the human eye, but soft illumination light diffused and reflected from inside the lighting device is projected, thereby achieving more comfortable emotional lighting.

In addition, since the plurality of LED modules 30 can be widely mounted on the inner bottom and inner side surfaces of the polygon frame 10 having a U shape, the present invention can be utilized for street lights or security lights as in the present embodiment. Since a large amount of LED elements of brightness can be arranged in a large amount, a desired amount of light can be obtained abundantly, and thus, LED lighting devices can be economically manufactured to supply a cheaper lighting device.

In the embodiment of the present invention shown in Figures 1 to 9, it is more preferable to increase the convective heat dissipation effect by forming a plurality of heat dissipation fins 11 in the longitudinal direction on each side of the outer side of the polygonal frame (10) In addition, it is more preferable to increase the heat dissipation effect by applying a heat dissipating ceramic or heat dissipating paint on the outside of the polygonal frame 10.

In addition, in the embodiment of the present invention shown in Figures 1 to 9, the reflection surface of the polygon reflector 20 and the reflecting polyhedron 22 is coated with aluminum or silver nano-coating or the equivalent of high light reflectance diffuse reflection The loss of the visual light source is more preferable, and it is preferable that a diffusion lens is provided in each of the perforation holes of the polygonal reflector 20 to diffuse the light source of the LED element.

In addition, in the embodiment of the present invention shown in Figures 1 to 9, the reflective polyhedron 22 has a different size and the number and the inclination angle of the reflective surface, so that the user can easily reflect the reflective polyhedron 22 according to the lighting purpose It is also preferable to replace the light source so that the projection angle of the light source can be used in a wide or narrow manner.

In addition, in the embodiment of the present invention shown in Figures 1 to 9, the illumination cover 17 is a Fresnel for diffusing or condensing and projecting the light source diffused and reflected by the polygon reflector 20 and the reflecting polyhedron 22 It is also preferable that a lens is formed, and the illumination cover 17 is also preferably provided with a color filter to adjust the color rendering of the projected LED light source or to change the illumination color.

In addition, in the embodiment of the present invention shown in Figures 1 to 9, the power module unit provided in the power module housing 14 is provided with a conventional lighting control unit for controlling the illuminance of the LED module 30, the lighting device It is also preferable that the illuminance is automatically adjusted in response to the amount of ambient light. The configuration and operation of the lighting control unit and the sensor for the above configuration is generally used, and thus the configuration drawing and detailed description are omitted.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is not limited.

The present invention is a LED lighting device that does not reduce the life and light output of the LED light source by rapid convection heat radiation, the light source is diffusely reflected to achieve a soft light without glare, long-life to replace ordinary fluorescent lamps or incandescent lamps and street lights, security lights It is industrially useful as an eco-friendly lighting device.

10: polygon frame 11: heat sink fin
12: power connection 13: housing cover
14: power module housing 15: fastener
17: light cover 18: diffused window 19: power connection 20: polygon reflector
20-1: Bottom Reflective Surface 20-2: Side Reflective Surface
21: drilling hole 22: reflective polyhedron 25: frame cover 26: columnar support rod 30: LED module 31: LED element 32: illumination lens 40: remote control sensor 41: light sensor

Claims (14)

A power module housing having a power connection coupled to one side;
A U-shaped polygon frame having a bottom surface fixed to one side of the power module housing, the side surface of which is formed at an inclined angle on each side of the bottom surface which is polygonal to radiate heat from the outside of each surface;
LED modules each installed on each side of the inside of the polygonal frame, the plurality of LED elements are arranged on a heat dissipation circuit board;
A power module unit installed inside the power module housing;
The reflective surface is formed into a polygon to conform to each surface inside the polygon frame to cover the LED module, and the corresponding reflective surface is perforated so that the light emitting surface of each LED element arranged in the LED module is exposed. A citron-shaped polygon reflector shaped such that the light source is projected onto the inclined reflecting surface so that the light source is projected in all directions by the diffuse reflection action; And
LED lighting device comprising a light diffusion lighting cover coupled to be detachable with a bolt around the bottom of the polygon frame. A power module housing having a support rod and a power connection portion connected to the column at one side;
A citron-shaped polygon frame in which a side surface is erected at an inclined angle on each side of the bottom surface that is polygonal to radiate heat from the outside of each surface;
LED modules each installed on each side of the inside of the polygonal frame, the plurality of LED elements are arranged on a heat dissipation circuit board;
A power module unit installed inside the power module housing;
The reflective surface is formed into a polygon to conform to each surface inside the polygon frame to cover the LED module, and the corresponding reflective surface is perforated so that the light emitting surface of each LED element arranged in the LED module is exposed. A citron-shaped polygon reflector shaped such that the light source is projected onto the inclined reflecting surface so that the light source is projected in all directions by the diffuse reflection action;
A reflective polyhedron installed at the center of the bottom surface of the reflector and having a polygonal pyramidal inclined reflecting surface; And
LED lighting device comprising a light diffusion lighting cover coupled to be detachable with a bolt around the bottom of the polygon frame. The method of claim 1,
LED illuminating device is installed in the central portion of the bottom of the polygon reflector, a reflective polyhedron having a polygonal pyramidal inclined reflecting surface is installed. The method of claim 3, wherein
LED lighting device, characterized in that the sensor to adjust the illuminance and color rendering at the vertex of the reflective polyhedron or the center of the bottom surface of the polygon reflector. The method of claim 4, wherein
The LED module is an LED lighting device, characterized in that the LED element of a variety of colors are arranged for each LED module, each LED module selectively emits all or a part of the color by different color rendering and illuminance by remote control. The method according to claim 1 or 2,
LED lighting device, characterized in that a plurality of heat radiation fins are formed on each outer surface of the polygon frame. The method according to claim 6,
LED reflector, characterized in that the reflecting surface of the polygon reflector is aluminum or silver nano-coating treatment. The method of claim 7, wherein
The illumination cover is an LED illumination device, characterized in that a Fresnel lens for diffusing or condensing and projecting the light source diffused and reflected by the polygon reflector and the reflecting polyhedron. The method of claim 8,
LED apertures, characterized in that each of the perforated holes of the polygonal reflector is provided with a diffusion lens to widely diffuse the light source of the LED element. The method of claim 9,
LED lighting device further comprises a color filter to adjust the color rendering of the projected LED light source or to change the illumination color. 11. The method of claim 10,
The power module unit is provided with a control unit for controlling the illuminance of the LED module, LED illumination device, characterized in that the illumination is automatically adjusted in response to the amount of light around the illumination device. The method of claim 11,
The reflecting polyhedron of the LED lighting apparatus, characterized in that the size and the number and the angle of inclination of the reflecting surface is different so as to replace the reflecting polyhedron according to the purpose of illumination to use a wide or narrow projection angle of the light source. The method of claim 12,
LED lighting device, characterized in that the heat dissipation action is increased by applying a heat-dissipating ceramic or heat-dissipating paint on the outer surface of the polygon frame. The method of claim 2,
LED reflecting surface of the reflective polyhedron is characterized in that the aluminum or silver nano-coating treatment.

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