KR101892708B1 - Lighting device - Google Patents

Abstract

An embodiment of the present invention provides a light emitting device comprising a heat emitting element, a light emitting module part including a plurality of light emitting elements disposed on the substrate, a cover coupled with a part of the heat emitting element, and a light emitting element located between the heat emitting element and the substrate, And an adjusting unit for adjusting a distance between the heat dissipator and the substrate, wherein the ratio of the distance between the heat dissipator and the substrate relative to the distance from the heat dissipator to the top of the cover increases.

Description

LIGHTING DEVICE

An embodiment relates to a lighting device.

Light emitting diodes (LEDs) are a type of semiconductor devices that convert electrical energy into light. The light emitting diode has advantages of low power consumption, semi-permanent lifetime, fast response speed, safety, and environmental friendliness compared with conventional light sources such as fluorescent lamps and incandescent lamps. Therefore, much research has been conducted to replace conventional light sources with light emitting diodes. Light emitting diodes are increasingly used as light sources for various lamps used in indoor / outdoor, liquid crystal display devices, electric sign boards, streetlights, and the like .

Japanese Laid-Open Patent No. 2009-206104 (Published on June 15, 2009)

The embodiment provides a lighting device capable of adjusting the height of a light source.

The embodiment provides a lighting device capable of adjusting the light distribution characteristics.

A lighting apparatus according to an embodiment of the present invention includes a heat radiator, a light emitting module portion including a plurality of light emitting elements disposed on the substrate, a cover coupled to a portion of the heat radiator, And an adjusting unit adjusting the distance between the substrate and the substrate.

The use of the illumination device according to the embodiment has an advantage in that the height of the light source can be adjusted according to the installation environment and use of the illumination device.

Further, there is an advantage that the light distribution characteristic of the illumination device can be adjusted.

1 is a sectional view of a lighting device according to an embodiment;
2A to 2E are graphs showing light distribution characteristics according to the ratio of the distance A and the distance B shown in Fig.
3 is a sectional view of a lighting device according to the first embodiment;
4 is a sectional view of a lighting device according to a second embodiment;
5 is a sectional view of a lighting device according to a third embodiment;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

In addition, the upper or lower reference of each component is described with reference to the drawings. The thickness and size of each layer in the drawings are exaggerated, omitted, or schematically shown for convenience and clarity of explanation. Also, the size of each component does not entirely reflect the actual size.

In the description of the embodiments, in the case where an element is described as being formed "on or under" another element, the upper (upper) or lower (lower) (On or under) all include that the two components are in direct contact with one another or that one or more other components are indirectly formed between the two components. Also, when expressed as "on or under", it may include not only an upward direction but also a downward direction with respect to one component.

Hereinafter, a lighting apparatus according to an embodiment will be described with reference to the accompanying drawings.

1 is a sectional view of a lighting apparatus according to an embodiment. The lighting apparatus may include a cover 100, a light emitting module unit 200, a heat emitting unit 300, a power supply unit 400, an inner case 500, and an adjusting unit 600.

The cover 100 may have the shape of a bulb or hemisphere. In addition, the cover 100 may have a hollow shape and an open portion, and may include an upper portion of the heat discharging body 300 and a light emitting module portion 200 therein. The cover 100 may be coupled to an external case (not shown) surrounding the heat discharging body 300 or the heat discharging body 300.

The cover 100 is optically coupled to the light emitting module unit 200. For example, the cover 100 can diffuse, scatter, or excite light generated from the light emitting module unit 200.

The inner surface of the cover 100 may be coated with a milky white paint. Milky white paints may contain a diffusing agent to diffuse light. The surface roughness of the inner surface of the cover 100 is larger than the surface roughness of the outer surface of the cover 100. This is for sufficiently diffusing and diffusing light from the light emitting module unit 200 and emitting it to the outside.

The cover 100 may be made of glass, plastic, polypropylene (PP), polyethylene (PE), polycarbonate (PC), or the like. Here, polycarbonate is excellent in light resistance, heat resistance and strength. The cover 100 may be transparent so that the light emitting module unit 200 is visible from the outside, and may be opaque. The cover 100 may be formed by blow molding.

The light emitting module unit 200 may include a substrate 210 and a plurality of light emitting devices 220 mounted on the substrate 210.

The substrate 210 may be a printed circuit pattern on an insulator. For example, a printed circuit board (PCB), a metal core PCB, a flexible PCB, a ceramic PCB, . The surface of the substrate 210 may be a material that efficiently reflects light, or may be coated with a color in which light is efficiently reflected, for example, white, silver, or the like.

The light emitting device 220 may be a light emitting diode chip that emits red, green, or blue light, or a light emitting diode chip that emits ultraviolet light. Here, the light emitting diode may be a lateral type or a vertical type, and may emit blue, red, yellow, or green. And may include at least one light emitting diode (LED).

The heat dissipating unit 300 receives heat from the light emitting module unit 200 and the power supply unit 400 to dissipate heat. The heat discharging body 300 may be formed of a metal material or a resin material having excellent heat dissipation efficiency, but the invention is not limited thereto. For example, the material of the heat discharging body 300 may include at least one of aluminum (Al), nickel (Ni), copper (Cu), silver (Ag), and tin (Sn).

The heat discharging body 300 can house the power supply unit 400 therein. The power supply unit 400 transmits a power supply signal to the light emitting module unit 200. The power supply unit 400 and the light emitting module unit 200 may be connected by a wire. For such a wire passage, cylindrical holes c1 and c2 may be formed at the center of the heat discharging body 300 and the adjusting part 600, respectively.

The heat discharging body 300 may further include a seating part 310 on which the light emitting module 200 or the adjusting part 600 can be mounted. The heat dissipating unit 300 may be referred to as including the seating unit 310 and the upper surface of the heat dissipating unit 300 may include a seating portion 310, 310 < / RTI > For example, the seating part 310 may have a structure in which the light emitting module part 200 or the adjusting part 600 can be fixed.

A part of the inner case 500 may be inserted into the heat discharging body 300 and may include a connection terminal electrically connected to an external power source at a lower end thereof. The connection terminal may be connected to an external power source, for example, in a socket manner. The shape of the inner case 500 and the connection terminal may be variously modified depending on the design of the lighting apparatus.

The inner case 500 may be formed of a material excellent in insulation and durability. For example, the inner case 500 may be formed of a resin material. The inner case 500 prevents an electric short between the heat discharging body 300 and the power supply unit 400, thereby improving the withstand voltage of the lighting apparatus.

The adjusting unit 600 may adjust the distance between the heat discharging unit 300 and the light emitting module unit 200. The relative position of the light emitting module unit 200 can be changed within the cover 100 by the adjusting unit 600. [ Accordingly, the light distribution characteristic of the illumination device can be changed according to the intention of the user. The adjuster 600 may be mechanically manipulated in height and electronically adjustable in height. For example, the height of the adjusting unit 600 can be adjusted by operating a switch or the like outside the lighting apparatus.

The light distribution characteristics according to the ratio of the height B of the regulating portion 600 to the distance A from the heat discharging body 300 and / or the heat discharging body 300 to the top of the cover 100 are shown in Figs. 2A to 2E Lt; / RTI > The height B of the adjusting unit 600 indicates the distance between the heat discharging unit 300 and the light emitting module unit 200.

The direction to the point at which the waterline P intersects with the cover 100 when the waterline P passing through the center of the light emitting module 200 in the section of the illumination device shown in Fig. And the light distribution characteristics in the cross section are shown. For example, the direction of the rear surface of the light emitting module unit 200, that is, the point where the water P intersects with the heat discharging body 300 is indicated by 180 degrees in FIGS. 2A to 2E.

2A, when the distance B between the light emitting module unit 200 and the heat emitting unit 300 is 0, the light is hardly distributed in the rear direction of the light emitting module unit 200. This is due to the light-directing characteristics of the light emitting device 220.

As shown in FIGS. 2B to 2E, the distribution of light in the rear direction of the light emitting module unit 200 increases as the B / A ratio changes to 0.1, 0.2, 0.4, and 0.5. This is because the amount of light reflected, scattered or diffused from the cover 100 increases as the light emitting module unit 200 approaches the cover 100.

The light distribution characteristic of the illumination device can be selected according to the use environment and the use of the illumination device by relatively adjusting the height of the light emitting module part 200 in the cover 100 through the adjustment part 600. [

Since the adjusting unit 600 is disposed between the light emitting module unit 200 and the heat discharging unit 300, the adjusting unit 600 may be formed of a material having a high thermal conductivity. Accordingly, the adjusting unit 600 can quickly transmit the heat of the light emitting module unit 200 to the heat discharging unit 300. For example, the regulating unit 600 may be formed of the same material as the heat discharging unit 300.

The adjusting unit 600 may be configured to adjust the distance from the heat discharging unit 300 to the light emitting module 200.

An illumination device according to the first embodiment, in which an example of implementing the regulating part 600 is applied, is shown in Fig.

As shown in Figure 3, the adjuster 600a may have the form of a screw. For example, a screw thread may be formed on a side surface of the regulating portion 600a, and a groove may be formed on the heat discharging body 300 to engage with the thread.

The screw-shaped adjusting portion 600a can be turned or loosened or loosened with respect to the heat discharging body 300 to adjust the relative height from the heat discharging body 300 of the light emitting module 200. At this time, the power supply unit 400 inside the heat discharging body 300 may be located at a distance of at least the height h of the regulating unit 600a from the heat discharging body 300. This is for the case where the screw-shaped adjusting portion 600a is completely tightened to the heat discharging body 300. [ When the distance from the heat discharging body 300 to the light emitting module 200 is zero, the entire height of the adjusting portion 600a is located inside the heat discharging body 300. [ Therefore, the power supply unit 400 may be located away from the heat discharging body 300 by more than the height h of the adjusting unit 600a.

An illumination apparatus according to the second embodiment, to which another example of implementing the adjustment unit 600 is applied, is shown in Fig.

As shown in Figure 4, the regulator 600b may include one or more regulator units 610b, 620b, 630b. Each of the adjustment units 610b, 620b, 630b is individually removable. For example, each of the adjusting units 610b, 620b, and 630b may be inserted or removed between the light emitting module unit 200 and the heat discharging unit 300. [

These control units 610b, 620b, 630b may be implemented in various ways. For example, a groove may be formed on the upper surface of the heat discharging body 300 so as to fix the adjusting units 610b, 620b, and 630b or the light emitting module unit 200. At this time, protrusions corresponding to the grooves may be formed on the lower surface of each of the control units 610b, 620b, and 630b, and grooves may be formed on the upper surface thereof. Further, protrusions corresponding to the grooves may be formed on the lower surface of the light emitting module unit 200. [ Accordingly, the upper surface of the heat discharging body 300, the adjusting units 610b, 620b, and 630b, and the light emitting module unit 200 can be coupled and fixed to each other. The light emitting module unit 200 can be fixed in contact with the heat discharging body 300 when the control unit 610b, 620b, 630b is not included.

The illumination device according to an embodiment may further include a reflector 700 surrounding the regulator 600 on the heat sink 300, as shown in FIG. The reflector 700 may be formed on the upper surface of the heat discharging body 300 in the form of a film or a coating when the distance between the light emitting module unit 600 and the heat discharging body 300 is zero. When the distance between the light emitting module unit 600 and the heat dissipating unit 300 is greater than 0 by the adjusting unit 600, the reflector 700 may have a conical shape whose top surface is cut off. As shown in FIG. 5, the cone-shaped reflector 700 may have a shape in which the adjusting unit 600 penetrates. At this time, the reflector 700 may have a reflecting surface extending from the outer circumference of the substrate 210 to the heat discharging body.

As such, by including the reflector 700, the direction of light from the light emitting module unit 200 toward the rear surface of the light emitting module unit 200 can be efficiently changed.

The reflector 700 may be formed of a metal material or a resin material having high reflection efficiency. The resin material may include, for example, any one of PET, PC, and PVC resin. The metal material may be an alloy containing silver (Ag), silver (Ag), aluminum (Al) Or an alloy containing at least one of them.

The material and color of the reflector 700 are not limited, and may be variously selected depending on the illumination the device is intended to implement.

The features, structures, effects and the like described in the embodiments are included in at least one embodiment of the present invention and are not necessarily limited to only one embodiment. Furthermore, the features, structures, effects and the like illustrated in the embodiments can be combined and modified by other persons skilled in the art to which the embodiments belong. Therefore, it should be understood that the present invention is not limited to these combinations and modifications.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It can be seen that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

100: cover
200: Light emitting module section
300:
400: Power supply
500: inner case
600:
700: reflector

Claims (9)

A heat radiator;
A light emitting module section including a plurality of light emitting elements arranged on a substrate;
A cover coupled to a part of the heat discharging body; And
And an adjusting unit positioned between the heat discharger and the substrate and adjusting a distance between the heat discharger and the substrate,
Wherein a ratio of a distance between the heat discharging body and the substrate relative to a distance from the heat discharging body to the top of the cover increases, and the afterglow characteristics are improved. The method according to claim 1,
The light distribution characteristic can be changed by adjusting the adjustment portion,
Lighting device. delete The method according to claim 1,
Wherein a thread is formed on a side surface of the regulating portion, and a groove is formed in the heat discharging member so as to engage with the thread. 5. The method of claim 4,
Wherein the heat discharging body includes a power providing portion and a distance from the heat discharging body to the power supplying portion is equal to or greater than a height of the controlling portion. A heat radiator;
A light emitting module section including a plurality of light emitting elements arranged on a substrate;
A cover coupled to a part of the heat discharging body; And
An adjusting unit positioned between the heat discharger and the substrate and adjusting a distance between the heat discharger and the substrate; Lt; / RTI >
Wherein the regulating unit comprises one or more regulating units, and the regulating unit is individually releasable. A heat radiator;
A light emitting module section including a plurality of light emitting elements arranged on a substrate;
A cover coupled to a part of the heat discharging body; And
And an adjusting unit positioned between the heat discharger and the substrate and adjusting a distance between the heat discharger and the substrate,
And a reflector on a side surface of the regulating portion on the heat discharging body. 8. The method of claim 7,
Wherein the reflector has a reflecting surface that extends from an outer periphery of the substrate to the heat discharging body. A heat radiator;
A light emitting module section including a plurality of light emitting elements arranged on a substrate;
A cover coupled to a part of the heat discharging body; And
And an adjusting unit positioned between the heat discharger and the substrate and adjusting a distance between the heat discharger and the substrate,
The light distribution characteristic can be changed by adjusting the adjustment portion,
Wherein the regulating unit comprises one or more regulating units, and the regulating unit is individually releasable.

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