KR102098235B1 - Emitting apparatus - Google Patents

Abstract

The present invention discloses a light emitting device. The present invention, a light source that emits light to the outside, the circuit board on which the light source is disposed, a reflection unit disposed on the circuit board to reflect the light emitted from the light source, and disposed on the upper surface of the reflector, the It includes a light guide for guiding the light emitted from the light source to the outside.

Description

Light emitting device {Emitting apparatus}

The present invention relates to a device, and more particularly, to a light emitting device.

The light emitting device can be arranged in various places to display various information. In this case, the light emitting device may include a display unit that transmits information to the outside, and may have a separate light emitting unit that informs whether the light emitting device is operating adjacent to the display unit. In general, the light emitting unit may inform the user whether the light emitting device is operating by emitting light generated inside the case to the outside. At this time, the light emitted from the light emitting unit to the outside may not be shining from the entire light emitting unit may occur brightly shining only in a specific area. This phenomenon is called a hot spot, and when a hot spot occurs, the intensity of light emitted from the light emitting unit may be weakened, and the visibility of a user recognizing light of the light emitting unit may be weakened.

It is quite difficult for conventional light emitting devices to be emitted to the outside with uniform brightness due to the occurrence of hot spots.

The present invention is to solve a number of problems, including the above problems, to provide a light emitting device with improved visibility. However, these problems are exemplary, and the scope of the present invention is not limited thereby.

An aspect of the present invention, a light source that emits light to the outside, a circuit board on which the light source is disposed, a reflector disposed on the circuit board to reflect light emitted from the light source, and disposed on an upper surface of the reflector In addition, it is possible to provide a light emitting device including a light guide unit for guiding light emitted from the light source to the outside.

In addition, the light source and the reflector may be arranged to be spaced apart from each other on the circuit board.

In addition, the reflection unit may refract light emitted from the light source to the light guide unit.

In addition, the reflective portion may be a printing ink.

In addition, the reflector may include a first reflector disposed on one surface of the circuit board, and a second reflector connected to the first reflector and protruding from the first reflector to the light guide.

In addition, one surface of the second reflector may be curved.

In addition, the light guide portion may be a transparent material.

In addition, the light guide portion may include a first light guide portion and a second light guide portion formed to extend from the first light guide portion and having a width greater than the width of the first light guide portion.

In addition, it may further include a transmission window disposed on the upper surface of the light guide portion.

In addition, the transmission window may be a transparent material.

Embodiments of the present invention can prevent the hot spot phenomenon caused by excessive light concentration in one part. In addition, embodiments of the present invention can prevent a hot spot phenomenon through a simple structure.

The embodiments of the present invention are easy to manufacture, and can shorten manufacturing cost and manufacturing time.

1 is a perspective view showing a light emitting device according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along the line II-II shown in FIG. 1.
3 is a plan view showing the circuit board and the reflector shown in FIG. 2.
4 is a cross-sectional view showing a part of a light emitting device according to another embodiment of the present invention.
5 is a cross-sectional view showing a part of a light emitting device according to another embodiment of the present invention.

The present invention will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and the ordinary knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims. Meanwhile, the terms used in the present specification are for explaining the embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein, "comprises" and / or "comprising" refers to the components, steps, operations and / or elements mentioned above, the presence of one or more other components, steps, operations and / or elements. Or do not exclude additions. Terms such as first and second may be used to describe various components, but the components should not be limited by terms. The terms are used only to distinguish one component from other components.

1 is a perspective view showing a light emitting device according to an embodiment of the present invention. FIG. 2 is a cross-sectional view taken along the line II-II shown in FIG. 1. 3 is a plan view showing the circuit board and the reflector shown in FIG. 2.

1 to 3, the light emitting device 100 includes a case 110, a light source 120, a circuit board 130, a reflecting part 140, a light guide part 150, a display part 160, and a transmission window It may include (170).

The case 110 may have a space formed therein, and may be formed of a plurality of pieces and combined with each other. In addition, a transmission window 170 and a display unit 160 may be disposed on the outer surface of the case 110, and a portion of the light guide unit 150 may be inserted into the case 110. At this time, the case 110 may include black.

The light source 120 may be disposed on the circuit board 130. At this time, the light source 120 may include an LED. The light source 120 may be disposed on the upper surface of the circuit board 130 to emit light to the outside. At this time, the light source 120 may emit light in various directions. Further, the light source 120 may be disposed on the side of the light guide unit 150 and the side of the reflection unit 140.

The circuit board 130 may be accommodated inside the case 110. The circuit board 130 may be connected to the light source 120 and the display unit 160 to control the light source 120 and the display unit 160. In addition, the circuit board 130 may be disposed on the bottom surface of the case 110. At this time, at least one or more elements for operating the light emitting device 100 may be disposed on the circuit board 130, and wirings connecting these elements to the outside may be arranged. Further, a non-conductive printing ink may be disposed on the circuit board 130 to display various contents.

The reflector 140 may be disposed on the circuit board 130. At this time, the reflector 140 may be arranged to be spaced from the light source 120. The reflective unit 140 may be disposed flat on the upper surface of the circuit board 130. The reflector 140 may have various shapes. For example, the reflector 140 may include printing ink (or paint) printed on the circuit board 130. At this time, the reflector 140 may be the same as the ink for printing the text on the circuit board 130. In another embodiment, the reflector 140 may include a metal plate that reflects light. As another embodiment, the reflector 140 may include the same material as the wiring disposed on the circuit board 130. In this case, the reflector 140 may be formed on the circuit board 130 to be insulated from other wires. As another embodiment, the reflector 140 may include a reflective film disposed on the circuit board 130. At this time, the reflector 140 is not limited to the above, and may include all forms capable of reflecting light emitted from the light source 120. However, hereinafter, for convenience of description, the reflection unit 140 will be described in detail mainly in the case of including printing ink. The reflector 140 may include various colors. In particular, the reflector 140 may include white.

The light guide unit 150 may be disposed on the upper surface of the reflective unit 140 to partially insert the case 110. In addition, one surface of the light guide unit 150 may contact the circuit board 130. The light guide unit 150 may be formed of various materials. For example, the light guide unit 150 may include silicone, rubber, plastic, acrylic, paper, and the like. At this time, the light guide unit 150 may be formed transparently. As another embodiment, the light guide unit 150 may be in a state in which paint is mixed with transparent silicone, rubber, plastic, acrylic, paper, and the like. Hereinafter, for convenience of description, the light guide unit 150 will be described in detail mainly in the case of transparent silicon.

The light guide unit 150 may include a first light guide unit 151 and a second light guide unit 152. The first light guide unit 151 may be inserted into the case 110, and the second light guide unit 152 may extend from the first light guide unit 151 to contact the circuit board 130. In this case, the first light guide unit 151 and the second light guide unit 152 may have different sizes. Specifically, the cross-sectional area of the first light guide portion 151 perpendicular to the height direction of the first light guide portion 151 and the second light guide portion 152 may be smaller than the cross-sectional area of the second light guide portion 152. That is, the first light guide unit 151 and the second light guide unit 152 may be formed stepwise. In this case, the second light guide unit 152 is formed to be larger than the first light guide unit 151 to prevent the shock transmitted to the case 110 during external impact from being transmitted to the circuit board 130. In addition, the second light guide unit 152 may prevent the light guide unit 150 from being detached from the case 110. The cross-sectional area of the second light guide unit 152 perpendicular to the height direction of the second light guide unit 152 may be formed smaller than the area of the reflection unit 140.

The display unit 160 may be attached to the outer surface of the case 110 and connected to the internal circuit board 130. In this case, the display unit 160 may include a liquid crystal display panel or an organic light emitting display panel. Hereinafter, for convenience of description, the display unit 160 will be described in detail mainly in the case of including a liquid crystal display panel.

The transmission window 170 may be attached to the case 110 to shield the display unit 160 and the light guide unit 150. At this time, the transparent window 170 may include a transparent material. For example, the transmission window 170 may include glass, plastic, acrylic, and the like. At this time, a separate paint or the like may not be mixed in the transmission window 170.

The light emitting device 100 as described above may include various configurations in addition to the above configuration. For example, the light emitting device 100 may include an input unit (not shown) that receives a signal from the outside. In addition, the light emitting device 100 is provided on the case 110 and may include a battery unit (not shown) including a primary battery or a secondary battery. In another embodiment, the light emitting device 100 may also include a circuit board 130 and a cable (not shown) connecting an external power source. Hereinafter, for convenience of description, the case where the light emitting device 100 includes the battery unit will be described in detail.

Meanwhile, the light emitting device 100 as described above may implement various functions. For example, the light emitting device 100 may include a pollution measurer having a sensor unit (not shown) to measure the degree of air pollution outside the case 110. In another embodiment, the light emitting device 100 may include a router connected to the external Internet. As another embodiment, the light emitting device 100 may include an electronic clock that displays time. In this case, the light emitting device 100 is not limited to the above, and may include all devices that sense various information or receive information from the outside and display it on the display unit 160. However, hereinafter, for convenience of description, the light emitting device 100 will be described in detail mainly in the case of including a pollution meter that measures the degree of air pollution outside the case 110.

When a user inputs a signal from the input unit, the light emitting device 100 may operate. At this time, various information such as the degree of contamination, humidity, and temperature of the outside may be displayed on the display unit 160. In addition, power may be applied to the light source 120 to emit light through the light source 120.

In this case, the light emitted from the light source 120 may be guided outside the case 110 by refraction and reflection through the second light guide unit 152 and the first light guide unit 151. The light may be used to inform the user whether the light emitting device 100 is operating. When light is emitted from the light source 120 as described above, the intensity of light is uneven across the entire upper surface of the first light guide unit 151, and the upper surface of the first light guide unit 151 may have a higher intensity than that of other parts of the first light guide unit 151. A hot spot phenomenon in which light intensity increases in a specific region of the upper surface may occur. In this case, the aesthetics of the product are not good, and since the light shines brightly only in a certain part, the user's discernment may be a problem.

However, the light emitted from the light source 120 is reflected through the reflector 140 and moves to the second light guide unit 152 and the first light guide unit 151 so that light is emitted from the entire upper surface of the first light guide unit 151. It can be released uniformly. Specifically, some of the light emitted from the light source 120 may go straight toward the second light guide unit 152. In addition, some of the light emitted from the light source 120 may go straight toward the circuit board 130. The light collides with the reflector 140 and some of the light may move toward the second light guide unit 152. At this time, some of the light may pass through the second light guide unit 152 to move to the first light guide unit 151 or be refracted or reflected by the second light guide unit 152 to move to the first light guide unit 151. . Light emitted from the first light guide unit 151 may have a uniform intensity over the entire upper surface of the first light guide unit 151 through the above process. In this case, the light perceived by the user from the outside may be recognized as uniform light being emitted from the entire upper surface of the first light guide unit 151.

In this case, the case 110 may be black. At this time, as described above, the transmission window 170 is formed of a transparent material so that the upper surface of at least a part of the case 110, the display unit 160, and the light guide unit 150 through the transmission window 170 is external. Can be exposed. Hereinafter, for convenience of description, the transmission window 170 will be described in detail with reference to a case in which a part of the case 110, the display unit 160, and the light guide unit 150 are all shielded.

When the light guide unit 150 is formed of a transparent material, the color of the light guide unit 150 may be the same as or similar to the case 110. Specifically, when the light source 120 does not operate, since there is no light inside the case 110, the color of the light guide unit 150 viewed by the user may be black. In this case, the light guide unit 150 is not distinguished from the case 110 even if a separate coating is not applied to the transmission window 170 by drawing the same or similar color to that of the case 110, thereby realizing a unified design. It is possible.

Therefore, the light emitting device 100 may prevent a hot spot phenomenon caused by excessive light concentration in a part. Further, the light emitting device 100 can prevent a hot spot phenomenon through a simple structure. The light emitting device 100 is easy to manufacture and can shorten manufacturing cost and manufacturing time. The light emitting device 100 may improve the design performance of the exterior by having the display unit 160 attached to the surface, the light guide unit 150, and the case 110 having similar colors.

4 is a cross-sectional view showing a part of a light emitting device according to another embodiment of the present invention.

Referring to FIG. 4, the light emitting device 200 includes a case 210, a light source 220, a circuit board 230, a reflecting portion 240, a light guide portion 250, a display portion (not shown), and a transmission window 270 ). At this time, since the case 210, the light source 220, the circuit board 230, the light guide unit 250, the display unit and the transmission window 270 are the same or similar to those described in FIGS. 1 to 3, detailed descriptions are omitted. I will do it.

The reflector 240 is formed of a material that reflects light, such as metal, in addition to including the printing ink as described above, it is also possible to have a separate shape. In another embodiment, the reflector 240 is formed of plastic, paper, wood, or the like, and it is also possible that a reflective coating is disposed on a surface facing the light source 220. However, hereinafter, for convenience of description, the reflector 240 will be described in detail mainly in the case of being formed of a metal that reflects light.

For example, the reflector 240 may be formed such that one surface is inclined. In particular, the reflector 240 may be formed to have an inclined surface facing the light source 220. In this case, the light emitted from the light source 220 may be reflected from the inclined surface of the reflector 240 and guided to the light guide unit 250. In particular, the reflector 240 may guide the light emitted from the light source 220 in the upper surface direction of the first light guide unit 251.

In this case, at least a portion of the reflector 240 may be disposed to be inserted into the light guide unit 250. Therefore, the reflector 240 can accurately transmit light emitted from the light source 220 to the first light guide unit 251, and it is possible to uniformly guide the top surface of the first light guide unit 251.

Therefore, the light emitting device 200 may prevent a hot spot phenomenon caused by excessive light concentration in a part.

5 is a cross-sectional view showing a part of a light emitting device according to another embodiment of the present invention.

Referring to FIG. 5, the light emitting device 300 includes a case 310, a light source 320, a circuit board 330, a reflection unit 340, a light guide unit 350, a display unit (not shown), and a transmission window 370 ). At this time, since the case 310, the light source 320, the circuit board 330, the light guide unit 350, the display unit and the transmission window 370 are the same or similar to those described in FIGS. 1 to 3, detailed descriptions are omitted. I will do it.

The reflector 340 may include a first reflector 341 disposed on the circuit board 330 and a second reflector 342 protruding from the first reflector 341. At this time, one surface of the second reflector 342 may be formed to be inclined or formed as a curved surface. In this case, the second reflector 342 may protrude toward the light source 320. In another embodiment, one surface of the second reflector 342 may be formed in multiple stages. In this case, the second reflector 342 may not only guide the light emitted from the light source 320 to the upper surface of the light guide unit 350, but also may transmit light in various directions by scattering the light. However, hereinafter, for convenience of description, one surface of the second reflector 342 will be described in detail mainly in the case of a curved surface.

One surface formed of the curved surface of the second reflector 342 is formed in a concave mirror or convex mirror shape to reflect light incident from the light source 320 in various directions. However, hereinafter, for convenience of description, one surface formed of the curved surface of the second reflector 342 will be described in detail mainly in the case of a convex mirror shape.

Light emitted from the light source 320 may be reflected in various directions through the convex surface of the second reflector 342. In this case, light may be reflected in the light guide unit 350 by the second reflector 342 and thus may travel in various directions. The light may reach various parts of the upper surface of the first light guide unit 351, and uniform light may be realized on the entire upper surface of the first light guide unit 351.

Therefore, the reflector 340 not only removes hot spots of light emitted from the upper surface of the light guide unit 350, but also helps light of uniform intensity from the upper surface of the light guide unit 350 to be emitted from the entire upper surface of the light guide unit 350. Can give.

The light emitting device 300 may prevent a hot spot phenomenon caused by excessive light concentration in a part.

Although the present invention has been described in connection with the preferred embodiments mentioned above, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Therefore, the scope of the appended claims will include such modifications or variations as long as they belong to the subject matter of the present invention.

100,200,300: Light emitting device
110,210,310: case
120,220,320: light source
130,230,330: circuit board
140,240,340: reflector
150,250,350: light guide
160: display unit
170,270,370: transmission window

Claims (10)

A light source that emits light to the outside;
A circuit board on which the light source is disposed;
A reflector disposed on the circuit board and reflecting light emitted from the light source;
A light guide part disposed on the upper surface of the reflection part and guiding light emitted from the light source to the outside; And
It includes; a transmission window disposed on the upper surface of the light guide portion,
The transmission window shields the display portion disposed adjacent to the light guide portion,
The light source is disposed on the side of the light guide portion and the reflection portion,
The light guide portion is disposed only on the upper surface of the reflection portion,
The light emitting device having an area of the reflector larger than a cross-sectional area of a lower portion of the light guide portion perpendicular to a height direction of the light guide portion. According to claim 1,
The light source and the reflection unit is a light emitting device that is arranged to be spaced apart from each other on the circuit board. According to claim 1,
The reflection unit is a light emitting device that refracts the light emitted from the light source to the light guide unit. According to claim 1,
The reflective portion is a light-emitting device that is a printing ink. According to claim 1,
The reflector,
A first reflector disposed on one surface of the circuit board; And
And a second reflector connected to the first reflector and disposed inside the light guide and protruding from the first reflector to the light guide. The method of claim 5,
One surface of the second reflecting portion protrudes from the light source and is a curved light emitting device. According to claim 1,
The light guide unit is a light emitting device that is a transparent material. According to claim 1,
The light guide unit,
A first light guide unit; And
It is formed to extend from the first light guide portion, the second light guide portion having a width greater than the width of the first light guide portion; including a light emitting device. delete According to claim 1,
The transmission window is a light emitting device of a transparent material.

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