KR20170033050A - Apparatus for Surface lighting - Google Patents

Abstract

The present invention relates to a surface lighting apparatus, which comprises: a light transmission unit; a light source connected to one end of the light transmission unit; and a light emitting unit connected to the other end of the light transmission unit. The light transmission unit includes an optical fiber. The light emitting unit includes a light guide plate connected to the light transmission unit. The surface lighting apparatus is configured to separate the light source and the light emitting unit, thereby facilitating maintenance and replacement.

Description

[0001] Apparatus for Surface lighting [0002]

The light emitting device includes a light transmitting portion, a light source connected to one end of the light transmitting portion, and a light emitting portion connected to the other end of the light transmitting portion, wherein the light transmitting portion includes an optical fiber, The present invention relates to a planar illumination device.

Surface lighting is used in various products in various fields. For example, in places such as a flower room or a museum where color is important, a living room where a visual effect is important, a place such as a kitchen or a restaurant, a side lighting inside a vehicle such as a car or a bus, a restaurant / a department store / It can be used in terms of interior instead of a fluorescent lamp or a general lighting device.

In this case, a general backlight unit is used for a display or a surface illuminator for providing light to a liquid crystal display, and in the conventional method, a light source must be enlarged or a bright LED must be used in order to increase brightness. There was a limitation in increasing the brightness.

In addition, in the conventional planar illumination, the planar illumination is indirectly produced through the light diffusion of the LED by using the light guide plate or the diffusion sheet, and the development of the planar illumination by which the planar light is emitted is very small. Although inorganic EL and organic EL (OLED) are used as surface illumination, the luminance of surface illumination itself (100Cd / m2 in inorganic EL) is low and reliability (half-life in inorganic EL is 2000 hr) is poor. Further, in the case of organic EL (OLED), there is a problem that the process is complicated, the large area is difficult, and the durability is weak.

In addition to the inorganic EL and the organic EL (OLED), there is a method of emitting the light of the LED using the diffusion plate for the surface illumination, a method of mounting the LED on the side and diffusing the light using the light guide plate, A method of mounting a light emitting diode (LED) or the like at regular intervals and emitting light through a reflection plate and a diffusion plate is used. However, when LEDs are used, there is a disadvantage in that the thickness of the LEDs increases according to the thickness of the LED chips, and when the LEDs are defective, the entire lighting module must be disassembled.

As described above, in order to solve the disadvantages of the conventional surface illumination, the light source and the light emitting unit are separated by connecting one end of the light transmitting unit to the light source and the other end to the light emitting unit, And it is an object of the present invention to provide a one-sided lighting apparatus.

The technical problem to be solved by the present invention is not limited to the above-mentioned technical problems, and various technical problems can be included within the scope of what is well known to a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a surface illuminator including a light transmitting unit, a light source connected to one end of the light transmitting unit, and a light emitting unit connected to the other end of the light transmitting unit, And an optical fiber, and the light emitting unit includes a light guide plate connected to the light transmitting unit. In this case, the surface light device according to an embodiment of the present invention is characterized in that the optical transmission part is an optical fiber bundle.

According to an embodiment of the present invention, the light emitting unit further includes a reflection plate under the light guide plate and a diffusion plate on the light guide plate.

The surface lighting device according to an embodiment of the present invention may further include a light transmitting fabric having a transmittance of less than 30% when the light emitting portion is mounted on an automobile. In this case, the light emitting unit is turned on or off according to the opening and closing of the door of the vehicle, and is turned on or off according to whether the vehicle is worn or not. do.

According to another aspect of the present invention, there is provided a surface illuminator, wherein the illuminator has a luminance of 200 to 600 nit.

According to another aspect of the present invention, there is provided a surface illumination apparatus including an operation sensor for sensing operation information input to a surface.

In this case, the surface illumination device according to an embodiment of the present invention is characterized in that the motion sensor includes at least one of a pressure sensor, a capacitance sensor, a resistance change sensor, and a light amount change sensor, And position information in which an operation is input to the light emitting unit.

According to another aspect of the present invention, there is provided a surface lighting apparatus, comprising: a controller for receiving operation information input to the operation sensor and adjusting the light source. In this case, when the control unit receives the operation information from the operation sensor, the control unit adjusts the light source by the light source control operation.

The planar illumination device of the present invention is configured to separate the light source and the light emitting portion, and the other end of the light transmission portion is connected to the light emitting portion to emit light, thereby realizing highly efficient surface illumination according to the light source. In addition, since the color of the light emitted by the light emitting portion varies according to the color of the light source, it is possible to realize various color changes according to the light source.

In addition, since the light source and the light emitting portion are separately provided, the thickness of the light transmitting portion can be reduced, and the thickness of the surface illuminator itself can be reduced. In addition, when the optical transmission unit is implemented as an optical fiber bundle, curved surface illumination can be realized due to the flexibility of the optical fiber itself, and loss in optical signal transmission can be minimized because the optical fiber performs optical transmission.

In addition, when the optical transmission unit is implemented by an optical fiber, the surface illumination device of the present invention can realize a surface illumination device having the same brightness even if the optical fiber is made thinner than the conventional LED thickness by changing or minimizing the thickness of the optical fiber.

Further, in the conventional surface lighting apparatus, when the LED fails, there is a need to replace the entire LED or replace the entire LED to replace the LED. However, in the surface lighting apparatus of the present invention, the light source and the light emitting unit are separately implemented Therefore, maintenance of the lighting apparatus is easy if only the light source can be replaced without replacing the entire surface lighting apparatus when the life of the light source is exhausted.

In addition, since the light source and the light emitting portion are separately separated from each other in a manner of bringing light of the light source from the outside, there is no heat dissipation, so that the light emitting portion of the surface illuminating device does not have to consider the heat generated from the light source separately. In addition, since the light from the light source is not directly shot, the light emitted from the light emitting portion is lightly irradiated, so that it can be widely used for interior design or interior.

In addition, the conventional planar illumination device has its own area and its size and thickness limitations. However, since the size and thickness of the light-emitting portion are not limited by adjusting the brightness of the light source of the present invention, There are advantages to be able to.

In addition, the surface lighting device of the present invention is composed of a light source, a light transmitting portion, and a light emitting portion, which is advantageous in that the manufacturing process is simple and the manufacturing cost is reduced.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a configuration diagram showing a planar illumination device according to an embodiment of the present invention; FIG.
2 is a circuit diagram showing a planar illumination device according to an embodiment of the present invention.
FIG. 3 is an exemplary view illustrating transmission of light through an optical fiber of a plane illumination device according to an embodiment of the present invention. Referring to FIG.
FIGS. 4A, 4B and 4C are views showing an example of a configuration in which a surface lighting apparatus according to an embodiment of the present invention is positioned and operated in a vehicle. FIG.
5A and 5B are diagrams illustrating an example in which the controller of the plane illumination apparatus according to an embodiment of the present invention adjusts according to operation information input.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a 'plane illumination apparatus' according to the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

In the meantime, each constituent unit described below is only an example for implementing the present invention. Thus, in other implementations of the present invention, other components may be used without departing from the spirit and scope of the present invention.

Also, the expression " comprising " is intended to merely denote that such elements are present as an expression of " open ", and should not be understood to exclude additional elements.

Also, the expressions such as 'first, second', etc. are used only to distinguish between plural configurations, and do not limit the order or other features among the configurations.

In the description of the embodiments, it is to be understood that each layer (film), area, pattern or structure may be referred to as being "on" or "under / under" Quot; includes all that is formed directly or through another layer. The criteria for top / bottom or bottom / bottom of each layer are described with reference to the drawings.

 When a part is "connected" to another part, it includes not only "directly connected" but also "indirectly connected" with another part in between. Also, when an element is referred to as "comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a configuration diagram showing a planar illumination device according to an embodiment of the present invention; FIG.

1, in the case of the surface lighting apparatus of the present invention, a surface light source (LED) 110 is present, and light (visible light) 111, a reflector sheet 120 according to a surface light source, A light guide panel 130, a diffuser sheet 140, a prism sheet 150, and a protective sheet 160 were used. However, in the conventional method, in order to increase the brightness, it is necessary to use a large light source or a bright LED. Accordingly, there is a limit to the heat generation and thickness of the LED (thick LED must be used when using high- And there is a disadvantage in that it is inconvenient for maintenance because the entire lighting module must be disassembled when an LED failure occurs.

2 is a circuit diagram showing a planar illumination device according to an embodiment of the present invention.

2, the planar illumination device 200 of the present invention may include a light source 210, a light transmission unit 220, and a light emission unit 230.

The light source 210 is connected to one end of the light transmitting unit and is connected to a power source to generate light energy. In this case, the light source may be any light source that can be used in general, such as an incandescent lamp, an LED, a lamp, a mercury lamp, a discharge tube, a neon lamp, In addition, various colors may be used for the light source according to the user's demand, and the color of the light appearing in the light emitting portion may vary in accordance with the color change of the light source.

At this time, the luminance value range of the light source (the value on the basic BLU) may have a value from 6,000 nits to 13,000 nits, and the optimum value corresponds to 9,000 nits. When considering daytime visibility, the lower limit value should be 6,000 nit or more. This is because 300 ~ 600Cd / m2 (nit) is obtained when the light transmittance of the light source is about 5 ~ 10% and at least 300nit is more necessary. Also, when fever is considered, the upper limit value should not exceed 13,000 nit. This is because the luminance value of LED BLU generally used is approximately 12,000 nit, and if it exceeds this value, the problem of heat generation becomes large.

In addition, it is preferable that the optimum range of the light source luminance value is set to a value of 6,000 nits to 10,000 nits. This is because the optimum light amount for securing visibility in the daytime is about 6,000 nit in the case of improving the fabric transmittance, and the readability can be improved as the light amount increases. However, in the case of 10,000 nit, the visibility of the driver may be hindered. Therefore, the optimum value of the light source luminance value is 9,000 nit. This is because a sufficient amount of light of about 300 nits can be secured in the case of applying a fabric and a warning light display film (real film), and an appropriate value should be secured in consideration of optimization of the fabric and structure.

The light transmitting unit 220 has a light source connected to one end thereof and a light emitting unit connected to the other end thereof to transmit the light emitted from the light source.

At this time, the light transmitting portion includes an optical fiber. Also, the optical transmission unit may be formed of an optical fiber bundle. Conventional surface illuminators have a problem in that they can not be used where a curved surface display or a shape can be changed because the surface illuminants are made of solid light emitting sources such as metal or plastic, etc. In the case where the optical transmission part is made of an optical fiber bundle, The flexibility is so high that it can be used in a variety of applications such as surface illuminators.

Referring to FIG. 3, in the case of the optical fiber 221 constituting the light transmitting portion, the refractive index difference between the core, which is a core part through which light passes, and the clad, Clad, The light is repeatedly propagated.

At this time, the optical fiber can be applied to all commonly used optical fibers such as multimode fiber and single mode optical fiber. In the case of a multimode optical fiber, it is cheap and easy to handle, but there is a disadvantage that the transmission rate (bit rate) and transmission distance are largely limited by the mode dispersion phenomenon. In addition, single mode optical fibers are commonly used in long-haul optical communication systems and can completely eliminate the mode dispersion phenomenon.

The light emitting unit 230 is connected to the other end of the light transmitting unit and plays a role of emitting light. In particular, when the optical transmission unit is an optical fiber, since one end of the optical fiber is connected to the light source, light can be transmitted to the other end of the optical fiber without loss.

The light emitting unit of the planar illumination device 200 may further include a reflection plate 240, a light guide plate 250, and a diffusion plate 260. Specifically, an optical signal is transmitted from one end of a light transmitting unit connected to the light source to a light emitting unit connected to the other end of the light transmitting unit. At this time, the other end of the light transmitting portion is connected to the light guide plate 250, and the optical signal transmitted from the light source is spread through the light guide plate. Also, a reflection plate 240 may be positioned below the light guide plate, and a diffusion plate 260 may be positioned above the light guide plate.

The reflection plate 240 serves to prevent the light coming from the light source and passing through the light transmission unit from coming out. When the light is irradiated from the light source, the light propagates to the reflector at the other end of the light transmitting portion, and the reflector prevents the light coming through the light transmitting portion from coming out. At this time, the reflection plate may be positioned on the upper surface or the lower surface of the light transmitting unit and the light emitting unit as shown in FIG. 2 and FIG. 2, and may be concentrated in the light emitting direction. Further, the light transmitting portion and the light emitting portion may be located at the corner portions to prevent the light from spreading to the surroundings.

The reflector may be formed by selectively mixing at least two materials selected from the group consisting of TiO ₂ , SiN _x , ZnO, Al ₂ O ₃ , TiO ₂ , SiN _x , ZnO, and Al ₂ O ₃ And can be formed of any material that can be used generally with reflective properties.

The light guide plate 250 serves to change the direction of light received through the optical fiber. The light guide plate may be made of a material that performs the brightness and uniform lighting function of the backlight unit and guides the light to the display side in the display device.

In this case, the light guide plate may be formed of a transparent plastic such as transparent acrylic, plastic, tempered glass, poly methyl methacrylate (PMMA), methyl methacrylate (MMA), polycarbonate (PC), methacrylate styrene (MS) And may be formed of any material that can be used.

The diffusion plate 260 plays the role of evenly spreading the light emitted from the light emitting unit, and makes the color or brightness uniform throughout the surface lighting apparatus. At this time, the diffusion plate plays a role of evenly spreading the light coming from the light guide plate. In this case, the diffusion plate is generally made of a transparent plastic such as acrylic, plastic, tempered glass, poly methyl methacrylate (PMMA), methyl methacrylate (MMA), polycarbonate (PC), methacrylate styrene (MS), poly May be formed of any material that can be used.

As the reflection plate, the diffusion plate, and the light guide plate, a film, an acrylic plate, a metal plate, a resin, or the like can be used.

Further, the reflection plate, the diffusion plate, and the light guide plate may have a flexible characteristic of being bent. Therefore, when manufacturing a planar illumination device, not only planar illumination can be realized, but a planar illumination device having a curved surface or a partial curved surface can be realized. The surface illuminator can have a flexible characteristic by being bent in a flat and partially curved surface, and can be attached to the curved surface while maintaining a uniform luminance. In addition, the end of the surface illuminator may have a curved surface, a surface with random curvature, a curved or bent surface, and may have a flexible, curved, or bent characteristic. Such a surface illuminating device can be changed into various designs.

FIGS. 4A, 4B and 4C are views showing an example of a configuration in which a surface lighting apparatus according to an embodiment of the present invention is positioned and operated in a vehicle. FIG.

4A, 4B and 4C, the surface lighting device of the present invention is mounted on a vehicle. At this time, the planar illumination device 200 may be located on a dashboard of an automobile as shown in FIG. 4A, or may be placed anywhere that can be used as a surface illumination in a vehicle interior or exterior.

Also, the light transmitting fabric may be disposed on the surface illuminator, and may be located inside the automobile. This is to ensure that the inside of the vehicle and the inside of the plane illumination device are not visually recognized, and that adequate luminance is maintained. At this time, the transmittance of the light-transmitting fabric is about 3% to 30%. This is because if the transmittance is less than 3%, the brightness of the light source must be increased to cause a problem of heat generation, and if the transmittance exceeds 30%, the rear portion of the fabric is visible. The transmittance of the light transmitting fabric is preferably about 5% to 15%. This is because if the transmittance is less than 5%, the visibility is degraded, and if the transmittance is 20% or more, it is difficult to control the brightness of the surface illuminator.

In addition, the surface illuminator of the present invention may have a luminance of 200 to 600 nit in a state including a light transmitting cloth. The brightness means the brightness of the surface illuminator, and the higher the brightness, the brighter the screen. At this time, daytime visibility should be at least 200 nit if the weather is cloudy, and at least 300 nit if the weather is clear. Further, when the light emitting portion has a luminance exceeding 600 nits, it may interfere with the driver ' s visual field, resulting in a problem that the heat of the light source becomes excessively high. Accordingly, it is most preferable that the surface illuminator of the present invention has a luminance of 200 to 600 nit, with a critical meaning therebetween.

The light transmitting fabric included in the surface lighting device of the present invention may include natural fibers such as cotton, hemp, silk, asbestos, and the like, and may include polyvinyl chloride, polyvinyl alcohol fiber, polyamide fiber, , Acrylic fibers, nylon, polyethylene terephthalate, polyacrylonitrile, polypropylene, polyurethane, polyalkyl paraoxybenzoate, polytetrafluoroethylene, and the like.

At this time, the surface lighting apparatus of the present invention can determine on or off according to whether or not the apparatus provided in the vehicle is used. For example, the light emitting portion may be turned on or off according to opening and closing of a car door, and may be turned on or off depending on whether or not the vehicle is wearing a seat belt.

Referring to FIG. 4B, when the door 271 of the automobile 270 is opened, the surface lighting apparatus 200 may be kept on, periodically blinking, (on) state, and the surface illuminator can emit light according to an operation preset by the user. 4C, when the seat belt 272 of the automobile 270 is worn, the surface illuminator 200 can be kept off, and when the seat belt 272 is not worn, The illuminating device may be changed to an on state, and the surface illuminating device may emit light in accordance with the operation preset by the user.

Accordingly, the user can recognize the fact that the vehicle door is opened while the user is driving, the absence of the seatbelt of the vehicle at once, and can quickly establish a countermeasure against the safety belt, thereby greatly helping the safe driving of the vehicle. Since the general instrument panel has a small size of several centimeters, it can not be easily recognized by the driver or the auxiliary driver. However, since the surface lighting apparatus of the present invention can be implemented regardless of the size, there is an advantage that the user can easily grasp it.

5A and 5B are diagrams illustrating an example in which the controller of the plane illumination apparatus according to an embodiment of the present invention adjusts according to operation information input.

5A, the planar illumination device 200 of the present invention may further include an operation sensor 261, a control unit 263, and a light transmissive fabric 264.

The operation sensor 261 can detect the operation information input to the surface of the light emitting portion. At this time, the motion sensor may include at least one of a pressure sensor, a capacitance sensor, a resistance change sensor, and a light amount change sensor. In this case, the operation information may be position information in which an operation is input to the light emitting unit.

For example, motion information 262 directed from the left to the right may be input to the motion sensor 261, and motion information from the right to the left may be input. Further, it is possible to separately detect the operation information in a predetermined portion of the surface of the light emitting portion. For example, it may be input up / down on the left side, or up / down on the right side.

The controller 263 receives the operation information input to the operation sensor and adjusts the intensity of the light source. At this time, when the control unit receives the operation information corresponding to the predetermined light source control operation from the operation sensor, the control unit can adjust the light source by the light source control operation. The light source control operation can use all the operations related to the light source such as the control of the blinking period of the light emitting portion, the adjustment of the RGB value to change the color of the light source, the illumination or illumination control of the light source.

For example, when operation information directed from left to right is input, the control unit can adjust the light source by improving illumination or illumination, which is a predetermined control operation corresponding to the operation information. Also, when the operation information from the right to the left is input, the light source can be adjusted by lowering the illuminance or illuminance. When the operation information from the upper side to the lower side is inputted, it is possible to detect whether the input position is the left side or the right side of the light emitting portion, change the blinking period in case of the left side, and change the RGB value in the right side.

Further, referring to FIG. 5B, the surface illuminator of the present invention may further include a light transmitting fabric. The light emitting portion of the surface illuminating device may be installed in the interior of the vehicle so that the light emitting portion may be directly visible to the user. However, the light emitting portion may be protected by further including the light transmitting raw material. Further, by further including the light transmitting cloth, the luminance can be more easily adjusted and the interior decoration of the vehicle can be more easily decorated. At this time, the light-transmissive fabric is contained in the outer surface of the motion sensor, and the operation sensor receives the operation information inputted to the surface of the light-transmissive fabric, and can control the light source by the light source control operation.

The embodiments of the present invention described above are disclosed for the purpose of illustration, and the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention.

110: LED 111: light emission
120: reflection plate 130: light guide plate
140: diffusion plate 150: prism sheet
160: Protective sheet
200: surface illuminator 210: light source
220: optical transmission section 221: optical fiber bundle
230: light emitting portion 240: reflector
250: light guide plate 260: diffuser plate
261: Motion sensor 262: Operation information input
263: Control section 264: Light transmissive fabric
270: car 271: car door
272: Car seat belt

Claims (12)

A light transmitting portion;
A light source connected to one end of the light transmission unit; And
A light emitting unit connected to the other end of the light transmitting unit;
Lt; / RTI >
Wherein the light transmitting portion includes an optical fiber,
Wherein the light emitting unit includes a light guide plate connected to the light transmitting unit.
The method according to claim 1,
The light-
Wherein the optical fiber bundle is an optical fiber bundle.
The method according to claim 1,
The light-
A reflection plate under the light guide plate;
A diffusion plate on the light guide plate;
Further comprising:
The method according to claim 1,
The light-
Further comprising a light transmissive fabric having a transmittance of less than 30% when mounted on a motor vehicle.
5. The method of claim 4,
The light-
And is turned on or off according to opening and closing of a car door of the automobile.
5. The method of claim 4,
The light-
Wherein the light emitting diode is turned on or off according to whether or not the vehicle is worn by the seat belt.
5. The method of claim 4,
The brightness of the surface illuminator may be,
And has a luminance of 200 to 600 nits.
The method according to claim 1,
An operation sensor for sensing operation information input to the surface;
Further comprising:
9. The method of claim 8,
Wherein the motion sensor comprises:
A pressure sensor, a capacitance sensor, a resistance change sensor, and a light amount change sensor.
9. The method of claim 8,
Wherein the operation information includes:
Wherein the position information is information on an operation input to the light emitting unit.
9. The method of claim 8,
A control unit for receiving operation information input to the motion sensor and adjusting the light source;
Further comprising:
12. The method of claim 11,
Wherein,
And when the operation information is received from the operation sensor, controls the light source by the light source control operation.

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