KR101083323B1 - Lighting Device and Light System including the same - Google Patents

Abstract

A light emitting device and a light emitting system including the same are provided. The light emitting device includes a hollow body including an upper space at a lower surface thereof and extending in a horizontal direction, the upper body defined by a separator plate, a heat pipe disposed in the upper space, a light emitting element connected to a lower portion of the heat pipe, and It includes a heat sink provided on the outer wall of the upper surface of the main body.

Description

Light-emitting device and light-emitting system including the same

The present invention relates to a light emitting device and a light emitting system including the same, and more particularly, to a light emitting device using a light emitting diode as a light emitting element and a light emitting system including the same.

In general, various lightings including headlamps, rear combination lamps, street lamps, and fluorescent lamps of automobiles are used as general bulb light sources. However, since the bulb has a short service life and low impact resistance, the bulb has recently been used as a high brightness LED (Light Emitting Diode) light source having excellent impact resistance while greatly extending its service life. However, since the high-brightness LED generates very high heat when it is turned on, there are many difficulties in applying and designing it by the high heat generation temperature.

One object of the present invention is to provide a light emitting device having excellent heat dissipation efficiency.

One object of the present invention is to provide a light emitting system including the light emitting device.

The problem to be solved by the present invention is not limited to the above-mentioned problem, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

One embodiment according to the concept of the present invention provides a light emitting device. The light emitting device includes: a hollow body having an upper surface open and extending in a horizontal direction, the hollow body including an upper space defined by a separating plate, a heat pipe disposed in the upper space, a light emitting element connected to a lower portion of the heat pipe, and And a heat sink provided on an outer wall of the upper surface of the main body.

According to an embodiment of the present invention, the light emitting device may include a light emitting diode disposed to face an open lower surface of the main body, and a metal pad disposed between the light emitting diode and the heat pipe.

According to another embodiment of the present invention, one vertical end of the heat pipe may be connected to the metal pad, and another vertical end of the heat pipe may be connected to an inner upper surface of the main body.

According to another embodiment of the present invention, when there are a plurality of light emitting diodes, the plurality of light emitting diodes may be provided at equal intervals on the metal pad.

According to another embodiment of the present invention, the heat pipe may extend in the same direction as the extending direction of the body.

According to another embodiment of the present invention, when there are a plurality of heat pipes, the plurality of heat pipes may be spaced at equal intervals and provided in parallel with each other.

According to another embodiment of the present invention, when the vertical cross section of the main body has a semi-circular shape, the plurality of heat pipes have different heights from each other, and the height of the plurality of heat pipes increases from the center to the edge of the main body. Can be lowered.

According to still another embodiment of the present invention, the heat sink may protrude from the outer wall of the main body and extend in the same direction as the extending direction of the main body, and is formed on the protruding portion and has a wider width than the protruding portion. It may include a flange having a.

According to another embodiment of the present invention, when there are a plurality of heat sinks, the plurality of heat sinks may be provided at equal intervals.

According to another embodiment of the present invention, the light emitting device may further include a transparent window movably provided on an open lower surface of the main body, and covers covering both ends of the heat pipe.

Another embodiment according to the concept of the present invention provides a light emitting device. The light emitting device may include a hollow body including an upper space at a lower surface thereof, extending in a horizontal direction, and defined by a separator plate, a plurality of heat pipes disposed in an upper space of the body, and connected to a lower portion of the heat pipe. At least two light emitting structures including a plurality of light emitting devices and a plurality of internal heat sinks provided on an outer wall of the upper surface of the main body, a plurality of external heat sink structures having a structure corresponding to the internal heat sinks, and And a frame surrounding the light emitting structures and the external heat sink structures.

According to an embodiment of the present invention, the frame includes a bottom surface on which recesses are formed, a side surface extending from the bottom surface, and extending from the side surface, wherein the external heat sink structures are disposed together with the bottom surface and the side surface. It may include a top surface defining a space to be.

According to another embodiment of the invention, each external heat sink structure comprises a plurality of first heat sinks extending downwards from each recess of the frame and at the bottom, side and top surfaces of the frame. It may include a plurality of second heat sinks disposed in the space defined by.

According to another embodiment of the present invention, grooves corresponding to the structure of the internal heat sink are formed in each first heat sink, and the light emitting device including the internal heat sinks is formed by the grooves of the first heat sinks. Can be detachably fastened.

According to another embodiment of the present invention, the light emitting system may further include side covers covering both ends of the frame.

According to another embodiment of the present invention, each light emitting device is provided with a metal pad disposed on the bottom of each heat pipe, and the bottom of the metal pad so as to face an open bottom surface of the main body, and are equally spaced from each other. It may include a plurality of light emitting diodes spaced apart.

According to another embodiment of the present invention, the plurality of heat pipes may be provided parallel to each other at equal intervals, and the plurality of internal heat sinks may be provided parallel to each other at equal intervals.

According to another embodiment of the present invention, each light emitting device may further include a transparent window that is detachably fastened to an open lower surface of the main body, and covers covering both ends of the plurality of heat pipes.

According to embodiments according to the inventive concept, the heat pipe and the heat sink are integrally provided and adjacent to the light emitting device, so that heat generated from the light emitting device can be more efficiently radiated. In addition, the manufacturing cost can be reduced by the heat pipe and the heat sink are integrally provided and structured and positioned to complement each other.

In addition, the light emitting system according to the present embodiment, by having a plurality of light emitting devices, can be used at the same time or a part of the light emitting device according to the purpose, it may be utilized in various environments.

1 is a perspective view illustrating a light emitting device according to an embodiment of the present invention.
FIG. 2 is a rear perspective view of the light emitting device shown in FIG. 1.
3 and 4 are a perspective view and a cross-sectional view of the light emitting device illustrated in FIG. 1 taken at AA ′.
FIG. 5 is a cross-sectional view for describing the heat pipe illustrated in FIG. 3.
6 is a perspective view illustrating a light emitting system according to an embodiment of the present invention.
7 and 9 are rear perspective views of the light emitting system shown in FIG. 6.
FIG. 8 is a perspective view taken along the line AA ′ of the light emitting system shown in FIG. 6.

Objects, other objects, features and advantages of the present invention will be readily understood through the following preferred embodiments associated with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

In this specification, when an element is referred to as being on another element, it may be directly formed on another element, or a third element may be interposed therebetween. In addition, in the drawings, the thickness of the components are exaggerated for the effective description of the technical content.

Embodiments described herein will be described with reference to cross-sectional and / or plan views, which are ideal exemplary views of the present invention. In the drawings, the thicknesses of films and regions are exaggerated for effective explanation of technical content. Accordingly, shapes of the exemplary views may be modified by manufacturing techniques and / or tolerances. Accordingly, the embodiments of the present invention are not limited to the specific forms shown, but also include variations in forms generated by the manufacturing process. For example, the etched regions shown at right angles may be rounded or have a predetermined curvature. Thus, the regions illustrated in the figures have attributes, and the shapes of the regions illustrated in the figures are intended to illustrate specific forms of regions of the elements and are not intended to limit the scope of the invention. Although the terms first, second, etc. have been used in various embodiments of the present disclosure to describe various components, these components should not be limited by these terms. These terms are only used to distinguish one component from another. The embodiments described and illustrated herein also include complementary embodiments thereof.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used herein, the words 'comprises' and / or 'comprising' do not exclude the presence or addition of one or more other components.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(First Example )

1 is a perspective view illustrating a light emitting device according to an embodiment of the present invention, FIG. 2 is a rear perspective view of the light emitting device shown in FIG. 1, and FIGS. 3 and 4 are AA of the light emitting device shown in FIG. 1. It is a perspective view and a cross-sectional view. FIG. 5 is a cross-sectional view for describing the heat pipe illustrated in FIG. 3.

1 to 4, the light emitting device 10 includes a main body 100, a transparent window 110, a light emitting element 120, a heat pipe 130, a heat sink 140, and a cover 146. It may include.

The main body 100 may have a tube shape extending in the horizontal direction. For example, the vertical cross section of the main body 100 may have a semicircular shape. As another example, the vertical cross section of the main body 100 may have a polygonal shape.

The body 100 may include a lower space 106, a middle space 107, and an upper space 108. The upper space 108 of the main body 100 may be separated from the middle and lower spaces 106 by a separator plate. A transparent window 110 may be provided in the lower space 106, a light emitting device 120 may be provided in the central space 107, and a heat pipe 130 may be disposed in the upper space 108.

The main body 100 may have an open lower surface. The transparent window 110 may be disposed on the bottom surface of the opened body 100 to be movable. Support structures 102 and 104 may be formed on the bottom surface of the main body 100 to fasten and move the transparent window 110. The support structures 102, 104 may include a lower support 102 and an upper support 104. The lower support part 102 is formed to protrude from the lower surface of the main body 100 into the main body 100, and grooves may be formed. The upper support part 104 is provided to be spaced apart from the lower support part 102 by a predetermined distance, and may be formed to protrude into the main body 100 from the inner wall of the main body 100. Grooves may also be formed in the upper support 104.

The transparent window 110 may be provided on the bottom surface of the opened body 100. According to embodiments of the present invention, the transparent window 110 is fastened to the support structure of the main body 100, and can slide by the grooves of the support structures 102 and 104. In addition, grooves corresponding to grooves formed in the upper support part 104 and the lower support part 102 of the support structure 102 and 104 may be formed in the upper and lower parts of the transparent window 110.

The transparent window 110 may pass light emitted from the light emitting device 120 provided in the main body 100, and may perform a function of suppressing foreign matter from entering the main body 100 from the outside.

The light emitting device 120 may be disposed in the central space 107 in the main body 100. In this case, the light emitting device 120 may be provided in contact with the bottom surface of the separator.

According to some embodiments of the present disclosure, the light emitting device 120 may include a metal pad 124 and a light emitting diode 122. The metal pad 124 may be provided in contact with the separator. The light emitting diode 122 may be electrically connected to the metal pad 124. The light emitting diode 122 may emit light while simultaneously generating light. Meanwhile, a plurality of light emitting diodes 122 may be provided, and the plurality of light emitting diodes 122 may be provided on the metal pad 124 at equal intervals.

Heat emitted from the light emitting device 120 may be radiated to the outside by the heat pipe 130 and the heat sink 140.

The heat pipe 130 may be provided in the upper space 108 in the main body 100. For example, the heat pipe 130 may be integrated with the main body 100. As another example, the heat pipe 130 may have a structure separated from the main body 100.

According to embodiments of the present invention, one vertical end of the heat pipe 130 may be connected to the metal pad 124, and the other vertical end of the heat pipe 130 may be connected to the upper surface of the main body 100. In addition, the heat pipe 130 may extend horizontally in a direction substantially the same as a direction in which the body 100 extends.

The heat pipe 130 may be provided in plural in the upper space 108 of the main body 100. The plurality of heat pipes 130 may be equally spaced apart and may be disposed in parallel to each other. For example, when the main body 100 has a semicircular vertical cross section, the plurality of heat pipes 130 may have different vertical heights. That is, the height of the heat pipes 130 may be substantially lowered from the center to the edge of the main body 100. As another example, when the main body 100 has a vertical cross section having a rectangular shape, the plurality of heat pies may have substantially the same vertical height.

The heat pipe 130 will be briefly described. Referring to FIG. 5, the heat pipe 130 may include a housing 132, a working fluid 134, and a wick 136. The wick 136 is disposed along the inner wall of the housing 132, and a working fluid 134 may be formed inside the housing 132 provided with the wick 136. Examples of working fluid 134 may be ammonia, methanol, water, freon, and the like. In this case, the operating temperature range of the heat pipe 130 may vary depending on the working fluid 134. Examples of the wick 136 may be swage, protruding irregularities, screen mesh, sintered powder alloy, or the like. In addition, the wick may have a structure having a porous surface treatment such as a groove, a net, and a bundle of micro wires.

The heat pipe 130 has a working fluid 134 in the housing 132 absorbing heat from the surroundings, the working fluid 134 phase changes into a vapor state, and the steam has a density difference toward the opposite end of the housing 132. After losing the absorbed heat during the movement by the phase change back to the liquid state, it is moved back toward the heated housing 132 through the wick by capillary pressure difference through the wick structure 136. Since the latent heat of evaporation is significantly greater than the temperature change occurring in a single phase, a significant amount of heat transfer can occur as compared to the presence of a small temperature difference while the steam moves from one end to the opposite end.

Horizontal ends of the heat pipe 130 may be protected by the cover 146. The cover 146 may be provided covering the upper space 108 at both ends of the main body 100. The cover 146 may be installed to be detachable from the main body 100.

The heat sink 140 may be provided on an outer wall of the upper surface of the main body 100. For example, the heat sink 140 may be integrated with the main body 100. As another example, the heat sink 140 may have a structure separated from the main body 100.

In accordance with some embodiments of the present invention, the heat sink 140 may include a protrusion 142 and a flange 144. The protrusion 142 may protrude from an outer wall of the main body 100 and may extend in a direction substantially the same as an extending direction of the main body 100. The flange portion 144 is formed on the protrusion 142 and may have a substantially wider width than the protrusion 142.

When there are a plurality of heat sinks 140, the plurality of heat sinks 140 may be provided at equal intervals. For example, when the main body 100 has a semicircular vertical cross section, the heat sinks 140 may be provided on the outer wall of the main body 100 so as to pass through the same center when the heat sinks 140 extend in an imaginary line. As another example, when the main body 100 has a vertical cross section having a rectangular shape, the plurality of heat sinks 140 may be provided in parallel with each other.

The heat sink 140 may perform a function of radiating heat transferred from the heat pipe 130 to the outside. As a result, heat emitted from the light emitting device 120 may be radiated to the outside more efficiently by using the heat pipe 130 and the heat sink 140.

(Second Example )

6 is a perspective view illustrating a light emitting system according to an embodiment of the present invention, FIGS. 7 and 8 are rear perspective views of the light emitting system shown in FIG. 6, and FIG. 9 is a light emitting system AA of FIG. 6. It is a perspective view cut with `.

6 to 9, the light emitting system 20 may include a frame 200, at least two light emitting devices 10, and external heat sink structures 218.

The frame 200 may surround the light emitting devices 10 and the external heat sink structures 218. In the present embodiment, a case where three light emitting devices 10 are three will be described as an example. However, the present invention is not limited to the number of light emitting devices 10. According to some embodiments of the present invention, when the light emitting devices 10 are three, the external heat sink structures 218 may also be three. In addition, the light emitting devices 10 and the external sink structures 218 may be provided to be fastened to each other.

The three light emitting devices 10 can be used selectively or simultaneously with each other, depending on their use. As a result, the light emitting system 20 may be utilized in various environments.

The frame 200 may have a tubular shape extending in the horizontal direction. The frame 200 may include a bottom surface 202, a side 206, and a top surface 210, and a space defined by the bottom surface 202, the side 206, and the top surface 210 is formed. Can be.

The bottom surface 202 of the frame 200 may be formed with recesses 204 on which the light emitting devices 10 are mounted. Since three light emitting devices 10 are installed in the frame 200, three recesses 204 may be formed. Each recess 204 of the bottom surface 202 of the frame 200 may be provided with an external heat sink structure. Each light emitting device 10 may be mounted to the external heat sink structure 218. This will be described in more detail later.

Frame 200 side 206 may have a slop with a negative slope going from bottom to top.

The upper surface 210 of the frame 200 may be divided into a first region 207, a second region 208, and a third region 209. In the present embodiment, since the light emitting system 20 includes three light emitting devices 10, the top surface 210 of the frame 200 may be divided into three regions. That is, the top surface 210 of the frame 200 may be divided according to the quantity of the light emitting devices 10.

The second area 208 of the top surface 210 of the frame 200 may be located at the center, and the first area and the third area 207 and 209 may be located at the edge. In this case, the second region 208 of the top surface 210 of the frame 200 may have a level substantially lower than the first and third regions 207 and 209. Top surfaces of the first and third regions 207 and 209 may be extended to the second region 208, respectively, above the second region 208 having a substantially low level.

The frame 200 may be provided with a plurality of first fastening parts 212. The plurality of first fastening parts 212 are connected to the plurality of second fastening parts 222 of the side cover when the side cover 220 covers both ends of the frame 200, and the side cover 220 is connected to the frame 200. ) Can be fixed. The plurality of first and second fastening parts 212 and 222 may have a fixed and detachable structure. For example, the first and second fastening portions 212 and 222 may be bolts and nuts.

The external heat sink structures 218 can include a plurality of first heat sinks 214 and a plurality of second heat sinks 216.

The first heat sinks 214 may be disposed in the recesses 204 of the bottom surface 202 of the frame 200, respectively. For example, the first heat sinks 214 may have a structure extending from the bottom of the recesses 204. The first heat sinks 214 may include a plurality of heat sinks. The plurality of heat sinks may be provided in a fan shape at the bottom of the recesses 204.

According to the exemplary embodiment of the present invention, the first heat sinks 214 may have a structure in which the first heat sinks 214 are coupled to the internal heat sinks 140 of the light emitting device 10, respectively. In more detail, each internal heat sink 140 may include a protrusion 142 and a flange 144. Accordingly, grooves corresponding to the protrusion 142 and the flange 144 may be formed in each of the first heat sinks 214. The internal heat sinks 140 may be fastened by the first heat sink. In addition, the internal heat sinks 140 and the first heat sinks 214 may slide by grooves.

The second heat sinks 216 may be provided in a space defined by the bottom surface 202, the side surface 206, and the top surface 210 of the frame 200. According to an embodiment of the present invention, the second heat sinks 216 may include a plurality of heat sinks. The plurality of heat sinks may be provided in a fan shape on top of the recesses 204.

While the light emitting diodes 122 emit light, the heat generated is more efficiently radiated by the heat pipes 130, the internal heat sinks 140 and the external heat sink structures 218 of the light emitting device 10. Can be. In addition, a plurality of light emitting devices 10 may be provided in the frame 200 to provide a high power light emitting system 20 in a smaller area.

Each light emitting device 10 includes a main body 100, a transparent window 110, a plurality of light emitting elements 120, a plurality of heat pipes 130, a plurality of internal heat sinks 140, and covers. 146 may include. The light emitting device 10 of this embodiment is substantially the same as the light emitting device 10 described in the first embodiment, and a detailed description thereof will be omitted.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

10; Light emitting device 100; main body
102; Lower support 104; Upper support
110; Transparent window 120; Light emitting element
130; Heat pipe 140; Heat sink
146; cover

Claims (8)

A hollow body including an upper space at a lower surface thereof and extending in a horizontal direction and defined by a separator plate, a plurality of heat pipes disposed in the upper space of the body, a plurality of light emitting elements connected to a lower portion of the heat pipe, At least two light emitting devices including a plurality of internal heat sinks provided on an outer wall of the upper surface of the main body;
A plurality of external heat sink structures coupled with the internal heat sinks; And,
And a frame surrounding the light emitting devices and the external heat sink structures.
And each of the inner heat sinks and the outer heat sink structures are coupled to each other. The method of claim 1,
The frame includes:
A bottom surface on which recesses are formed;
A side extending from the bottom surface; And,
And a top surface extending from the side surface and defining a space in which the external heat sink structures are disposed together with the bottom surface and the side surface. The method of claim 2,
Each external heat sink structure is
A plurality of first heat sinks extending downwardly from each recess of the frame; And,
And a plurality of second heat sinks disposed in a space defined by the bottom, side, and top surfaces of the frame. The method of claim 3,
Each first heat sink is formed with grooves engaged with the structure of the internal heat sink,
The light emitting device including the internal heat sinks is detachably fastened by grooves of the first heat sinks. The method of claim 1,
And side covers covering both ends of the frame. The method of claim 1,
Each light emitting element,
Metal pads disposed under each of the heat pipes; And,
Light emitting system comprising a plurality of light emitting diodes provided on the metal pad spaced apart from each other at equal intervals. The method of claim 1,
The plurality of heat pipes are provided parallel to each other spaced at equal intervals,
The plurality of internal heat sinks are provided in parallel with each other spaced at equal intervals. The method of claim 1,
Each light emitting device,
A transparent window detachably fastened to an open lower surface of the main body; And,
And a covers covering both ends of the plurality of heat pipes.

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