KR102129660B1 - Side light device controlling light direction and method for implementing Side light device - Google Patents

Abstract

The present invention relates to a surface-illumination device capable of adjusting light direction and a method for generating a surface-illumination device. The light-direction-adjustable surface-illumination device may include a light source unit that supplies light, a reflector that reflects the light, and a light panel that transmits the light to at least one surface, wherein the light panel is disposed on the one surface. It may include a groove structure for generating light in a specific direction and a specific intensity.

Description

Side light device controlling light direction and method for implementing Side light device}

The present invention relates to a surface-illumination device capable of adjusting light direction and a method for implementing a surface-illumination device. More specifically, it relates to a surface-illuminated light emitting device capable of emitting light in various directions.

The Back Light Unit is used in LCD, advertising, lighting, floor exhibition lighting, taxiways and decorations. The backlight unit includes a light panel. The light panel is configured to induce and diffuse light by placing a light source at the tip of the light guide plate, thereby realizing soft lighting that prevents glare. The light panel is easy to custom-made, so it can be customized for various demands of general consumers as well as demands for businesses.

In order to induce light paths and scattering of the lamp, the surface of the light panel may be formed with grooves, irregular dots or printing dots or sanding irregularities of a predetermined pattern.

In the case of the existing light panel, the grooves, uneven dots or printing dots or sanding irregularities of the pattern are implemented to reflect the light evenly over the entire surface of the light panel, rather than reflecting light in a specific direction of the surface of the light panel. Therefore, it was impossible to reflect light in different directions from the surface of the light panel. Therefore, there is a need for a method for reflecting light in different directions according to the purpose of implementing the light panel.

The present invention aims to solve all the above-mentioned problems.

In addition, another object of the present invention is to provide a surface-illumination device capable of adjusting light direction.

In addition, another object of the present invention is to provide a method for implementing a surface-illumination device having adjustable light direction.

The representative configuration of the present invention for achieving the above object is as follows.

According to one aspect of the present invention, the light direction adjustable surface-illumination device may include a light source unit for supplying light, a reflecting plate reflecting the light, and a light panel transmitting the light to at least one surface. The panel may include a groove structure for generating the light in a specific direction and specific intensity on the one surface.

Meanwhile, the groove structure includes a first surface parallel to the reflector, a second surface contacting the first surface and perpendicular to the reflector, and a third surface contacting the first surface and the second surface. The specific direction may be determined based on the direction of the third surface.

In addition, the cross section of the groove structure may be a right triangle.

Further, the groove structure is determined based on user input information, and the user input information includes light illuminance information and light direction information to be emitted on the surface of the light panel, and the light panel processor is based on the user input information. It is possible to determine the three-dimensional movement of the groove forming tool.

According to another aspect of the present invention, a method for generating a surface-illuminated light emitting device comprises: a light panel processor receiving user input information; and the light panel processor is configured to groove a light panel of the surface-illuminated light device based on the user input information The light panel may transmit light generated by the light source unit to at least one surface, and the groove structure may generate the light in a specific direction and intensity on the one surface. .

Meanwhile, the groove structure includes a first surface parallel to the reflector, a second surface contacting the first surface and perpendicular to the reflector, and a third surface contacting the first surface and the second surface. The specific direction may be determined based on the direction of the third surface.

In addition, the cross section of the groove structure may be a right triangle.

In addition, the user input information includes light illuminance information and light direction information to be emitted on the surface of the light panel, and the light panel processor can determine a three-dimensional movement of the groove forming tool based on the user input information.

According to the present invention, the direction of light irradiated through the surface of the light panel can be adjusted in a desired direction through a surface-illuminated device capable of adjusting light direction and a method of implementing a surface-illuminated device. Accordingly, when it is necessary to irradiate light in a specific direction on the light panel, a light panel irradiating light in a desired light direction may be supplied.

1 is a conceptual view showing a groove structure of a conventional light panel.
2 is a conceptual diagram showing a surface-illumination device according to an embodiment of the present invention.
3 is a conceptual view showing a light panel processing machine according to an embodiment of the present invention.
4 is a conceptual view showing a direction of light irradiation on a light panel according to an embodiment of the present invention.
5 is a conceptual diagram illustrating a method of implementing a light panel according to an embodiment of the present invention.
6 is a conceptual diagram showing the operation of a light panel processing machine according to an embodiment of the present invention.
7 is a conceptual diagram illustrating a method of implementing a surface rough emitting device according to an embodiment of the present invention.
8 is a conceptual diagram showing a method of implementing a surface rough emitting device according to an embodiment of the present invention.

For a detailed description of the present invention, which will be described later, reference is made to the accompanying drawings that illustrate, by way of example, specific embodiments in which the present invention may be practiced. These embodiments are described in detail enough to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described in this specification may be implemented by changing from one embodiment to another without departing from the spirit and scope of the present invention. In addition, it should be understood that the position or arrangement of individual components within each embodiment may be changed without departing from the spirit and scope of the present invention. Therefore, the following detailed description is not intended to be done in a limiting sense, and the scope of the present invention should be taken to cover the scope claimed by the claims of the claims and all equivalents thereto. In the drawings, similar reference numerals denote the same or similar components throughout several aspects.

Hereinafter, various preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to enable those skilled in the art to easily implement the present invention.

1 is a conceptual view showing a groove structure of a conventional light panel.

In FIG. 1, a groove pattern structure of a light panel for diffusing light over an entire surface is disclosed.

Referring to FIG. 1, the groove 110 of the light panel 100 of the conventional surface-illumination device can be processed into a V-groove pattern 110 in a Y-shaped equilateral triangle structure under an acrylic plate.

When such a groove pattern is used, light irradiated through a light emitting diode (LED) may be uniformly irradiated in the X direction 120 through the reflector 140 and the V groove pattern 110. Therefore, light can be uniformly irradiated to the entire surface of the light panel 100 through the divergence of the light. In the case of the light panel 100 of the conventional V-groove pattern 110, the surface of the light panel 100 was able to generate light in a similar range on the front surface by irradiating light evenly in all directions.

However, in a specific place (for example, a shopping mall), there is a demand for a light panel that is irradiated in a specific direction rather than an even amount of light on the front. In the surface-direction light-emitting device with adjustable light direction according to an embodiment of the present invention, the light direction for irradiating light in a specific direction is not a surface-light-emitting device including a light panel that irradiates light in a similar range to the entire surface as in the prior art. An adjustable surface illumination light emitting device is disclosed.

2 is a conceptual diagram showing a surface-illumination device according to an embodiment of the present invention.

In Fig. 2, a surface-illuminated light emitting device including a light panel irradiating light in a specific direction is disclosed. In particular, a groove pattern structure of a light panel for relatively increasing the amount of light in a specific direction is disclosed.

Referring to FIG. 2, the surface illumination device may include a light panel 200, a light source installation groove (not shown), a light source 220, a reflector 240, and a heat dissipation unit 210.

The light source installation groove (not shown) may be a groove structure for inserting the light source 220 implemented on one side of the light panel 200.

The light source 220 may be a source for supplying light to the light panel 200 such as an LED (light emitting diode).

The reflector 240 may be implemented to reflect light emitted from the light source 220.

The heat dissipation unit 210 may be implemented to transfer heat generated by the light source 220 to the outside.

According to an embodiment of the present invention, the groove structure 230 may be implemented on one or both surfaces of the light panel 200, and the path of light formed by the light source 220 based on the groove structure 230 is adaptive. Can be changed to

For example, the groove (or the cross-section of the groove) of the light panel 200 of the surface-illumination device may be processed into a right triangle structure under the acrylic plate. When the groove (or the cross-section of the groove) of the light panel 200 is processed into a right-angled triangular structure, light reflected by the reflector 240 is irradiated in a direction of one surface of the right-angled triangle, and among the entire surfaces of the light panel 200 The amount of light in a specific direction may be relatively large.

When the irradiation direction of light in the X'direction 250 is required, the groove structure 230 of the light panel 200 can be processed in a direction to send the light emission direction, and the X'direction on the light panel 200 The light panel 200 may be processed such that the irradiation amount of light to the 250 is relatively larger than the irradiation amount of light in the other direction.

In another expression, the groove structure 230 includes a first surface parallel to the reflector 240, a second surface contacting the first surface, and a second surface perpendicular to the reflector 240 and a third surface contacting the first surface and the second surface. It may include. The specific direction of light generated by the light panel on at least one surface of the light panel 200 based on the groove structure 230 may be determined based on the direction of the third surface.

Through this method of changing the structure of the groove, it is possible to adjust the direction of light irradiated on the light panel 200 in a desired direction. When a surface-illumination device according to an embodiment of the present invention is used, it is possible to give an illumination point in a specific direction to a product displayed in a store. In addition, since the amount of light in an unnecessary portion on the surface of the light panel 200 is reduced, fatigue of light may be reduced.

3 is a conceptual view showing a light panel processing machine according to an embodiment of the present invention.

In FIG. 3, a tool structure for creating a right triangle-shaped groove structure disclosed in FIG. 2 is disclosed.

Referring to the top of Figure 3, the first groove forming tool 310 is installed on the existing light panel machine shaft is disclosed. The first groove forming tool 310 may form a V groove pattern in a Y-shaped equilateral triangular structure on the lower portion of the light panel in order to irradiate light evenly over the entire surface of the light panel.

Referring to the bottom of FIG. 3, a second groove forming tool 320 for implementing a surface-illumination device according to an embodiment of the present invention is disclosed. When the second groove forming tool 320 is used, the groove of the light panel may be processed into a right triangle structure at the bottom.

In another expression, the second groove forming tool may form the groove structure into a first surface parallel to the reflector, a second surface perpendicular to the reflector while contacting the first surface, and a third surface contacting the first and second surfaces. Can. Through this method, a specific direction of light generated by the light panel on at least one surface of the light panel based on the groove structure may be determined based on the direction of the third surface.

When the groove of the light panel is processed into a right-angled triangular structure, the light reflected by the reflector is irradiated in the direction of one side of the right-angled triangle as described above, and the amount of light in a specific direction among the entire surfaces of the light panel may be relatively large.

The light panel groove pattern forming apparatus according to an embodiment of the present invention receives information on the direction of light to be irradiated from the light panel, and considers information on the direction of light, in the tool space of the light panel groove pattern forming apparatus. The moving direction (X-axis direction, Y-axis direction, Z-axis direction) may be determined.

4 is a conceptual view showing a direction of light irradiation on a light panel according to an embodiment of the present invention.

In FIG. 4, a direction of irradiation of light based on a groove structure on a conventional light panel and a groove structure of a light panel according to an embodiment of the present invention is disclosed.

Referring to the top of FIG. 4, a light irradiation direction based on the groove structure of the light panel included in the surface illumination device (V groove pattern in a Y-shaped equilateral triangle structure at the bottom of the light panel) is disclosed. The amount of light of the light of the existing light panel is relatively stronger than the amount of light in the first region 410 and the third region 430, but the first region 410, the second region ( 420), the third region 430 may be uniformly irradiated with light.

Referring to the bottom of FIG. 4, the direction of light irradiation in the groove structure (the right triangle structure groove pattern) of the light panel included in the surface-illumination device according to the embodiment of the present invention is disclosed.

The amount of light of the existing light panel according to the exemplary embodiment of the present invention may be increased in the order of the third area 470, the second area 460, and the first area 450.

Table 1 below discloses the illuminance on each area of the conventional surface illumination device (surface illumination device 1) and the surface illumination device (surface illumination device 2) according to an embodiment of the present invention.

Illuminance (lux) Area 1 Area 2 Area 3 LED lighting equipment1 2900 3000 2920 Surface illuminating device 2 4100 2900 2100

The size of the light panel for the experiment was 300 mm x 600 mm, the thickness of the light panel was 4 mm, and the light source and chip spacing were Samsung chip 3528/15 mm spacing.

As shown in Table 1, in the case of the surface-illuminated light emitting device 1, even illumination values on the first area 410, the second area 420, and the third area 430 are confirmed. The illuminance values of the order of the first region 450, the second region 460 and the third region 470 may be confirmed.

5 is a conceptual diagram illustrating a method of implementing a light panel according to an embodiment of the present invention.

In FIG. 5, a method for realizing a groove of a light panel in consideration of a light direction desired by a user is disclosed.

Referring to FIG. 5, the user may determine the illuminance 510 of light emitted on the surface of the desired light panel based on the user input information 500. In addition, the user may determine the direction 520 of light emitted on the surface of the desired light panel based on the user input information.

The user input information 500 may include information about the light intensity 510 to be emitted on the surface of the light panel and information about the light direction 520. User input information may be determined by adjusting the height of the graph disclosed in FIG. 4 by the user.

The light panel processor may determine a groove forming method of the groove forming tool based on the user input information 500. A separate server may determine the work method information based on the user input information 500, and the light panel processing machine may perform a groove forming operation based on the work method information. For convenience of description, in the embodiment of the present invention, a method for determining a working method based on user input information by a light panel processor and forming a groove using a groove forming tool is disclosed.

The light panel processing machine may determine the structure of the groove based on user input information.

6 is a conceptual diagram showing the operation of a light panel processing machine according to an embodiment of the present invention.

Referring to FIG. 6, the light panel processor may determine the location of the groove on the light panel based on the light intensity information and light direction information to be emitted on the surface of the light panel.

The light panel processor may determine the position 600 of the groove in consideration of the intensity and direction of light on the light panel indicated by the user input information. The light panel processing machine may sell the grooves in various forms such as a straight line or a curved line according to the determined position of the groove 620 on the light panel. In other words, the position of the groove may be a line (or groove line) on the light panel where the groove structure is formed. That is, the light panel processing machine can form a groove structure on the groove line.

The location 600 of the home may be determined by additionally considering the location of the light source as well as user input information. In addition, according to an embodiment of the present invention, the light panel processor may determine not only the location of the groove 600 based on the user input information, but also the location of the light source and determine the light source installation groove according to the location of the light source to proceed. have.

The light panel processing machine may determine the shape 620 of the groove for each position 600 of the groove to sell the groove.

For example, when the irradiation direction of light in the X'direction is required as described above in FIG. 2, the groove structure of the light panel can be processed in a direction to send the light emission direction. If the shape is a right-angled triangle, the length of the side of the right-angled triangle, the angle of the side, and the like may be determined to determine the shape 620 of the groove. The shape 620 of the groove may vary depending on the location 610 of the groove.

After assembling the light panel produced as a result of the first operation, compare the direction and intensity of light irradiated from the light panel with the direction and intensity of light on the light panel indicated by the user input information, and then rewrite the feedback information. It can also be provided as a panel machine. The position of the groove 610 and the groove on the light panel is based on the difference between the light direction and light intensity irradiated from the light panel and the light direction and light intensity on the light panel indicated by user input information. The form 620 may be determined again.

7 is a conceptual diagram illustrating a method of implementing a surface rough emitting device according to an embodiment of the present invention.

In FIG. 7, a method for implementing a groove structure on a surface rough emitting device in consideration of the position of the light emitting unit is disclosed.

Referring to FIG. 7, as the distance between the groove structure and the light emitting unit 720 increases, the amount of light reflected by the light generated by the light emitting unit 720 may decrease, and accordingly, the light generated in the groove structure may be reduced. The intensity can also be reduced. Therefore, in the surface rough emitting device according to the embodiment of the present invention, the slope of the surface on the groove structure may be changed in consideration of the distance between the groove structure and the light emitting unit 720.

The light panel processing machine may determine a distance based on the light emitting unit 720 to form a groove structure. For example, when the groove structure is to be implemented at the first distance 750, the second distance 760, and the third distance 770, the surface of the groove structure to be located at the first distance 750 is a reflector The surface of the groove structure to be positioned at the second distance 760 with the first angle 755 relative to the parallel surface has the second angle 765 with respect to the surface parallel to the reflector, and the third distance The surface of the groove structure to be located at 777 may have a third angle 775 based on a surface parallel to the reflector.

If it is necessary to generate a certain range of light amount over the entire reflector, the above-described cross section has an existing groove structure (V groove pattern in a Y-shaped equilateral triangle structure at the bottom of the light panel). The angles may be increased in the order of 2 angles 765 and 3rd angles 775. If the amount of light in the first direction is to be increased, the groove structure of the light panel has a cross section as described above in FIG. 2, but the first angle, the second angle, the third angle are the same, or the third angle, the second angle, The angle may be increased in the first angle order.

The above example is an example of a method for adjusting the groove angle of the light panel. In various ways, the light panel may determine the shape of the groove structure in consideration of the position with the light emitting unit.

Further, according to another embodiment of the present invention, the angle of the groove structure may be determined in consideration of the position with the light emitting unit. For example, when it is assumed that the light emitting unit is located only at the first corner, the groove structure located at the first position 730 of the light panel receives more light from the light emitting unit than the groove structure located at the second position 740 of the light panel. Can receive Depending on the direction in which light is emitted on the light panel, the angle of the groove structure located at the first position 730 and the angle of the groove structure located at the second position 740 may be implemented differently. That is, the angle of the groove structure may be implemented differently in consideration of the amount of light reaching the groove structure on the light panel.

In addition, according to an embodiment of the present invention, the light panel plane is divided into a plurality of regions according to a distance, and a groove structure for each of the plurality of regions is considered in consideration of the amount of light to be generated on the divided regions. Can be determined. For example, the area on the light panel may be divided into first to fourth areas, and the groove angle of each of the first to fourth areas may have different values. The first region and the fourth region may be determined in consideration of the position of the light emitting portion, the distance between the light emitting portion and the groove structure, and the direction of light irradiation on the light panel.

8 is a conceptual diagram showing a method of implementing a surface rough emitting device according to an embodiment of the present invention.

8, a method for implementing a groove structure on a surface rough emitting device in consideration of a position of a light emitting unit is disclosed.

Referring to FIG. 8, the position of the groove in which the groove structure is formed may be determined based on the position of the light emitting unit 850.

The position of the groove may be a groove line on the light panel 800 where the groove structure is formed. On the light panel 800, a plurality of home lines may be determined based on a distance from the light emitting unit 850.

The light panel processing machine may determine a distance based on the light emitting unit 850 to form a groove line. As the distance from the light emitting unit 850 increases, the amount of light arrival decreases, so the number of home lines per region may be determined in consideration of this.

For example, as the first area 810, the second area 820, and the third area 830 on the light panel 800 are based on the position of the light emitting part 850, the positions of the corresponding area and the light emitting part are farther away. Can lose. A home line must be formed in the first region 810, the second region 820, and the third region 830, and light having a similar range is formed in the first region 810, the second region 820, and the third region. If it should be generated on the 830, the density of the home line on the region in the order of the first region 810, the second region 820, and the third region 830 may be relatively high. That is, the first density 815, the second density 825, and the third density 835 may be implemented to increase the density of the groove line.

The division of the region on the light panel 800 may be determined in consideration of the direction of light and the amount of light to be generated on the light panel 800.

According to an embodiment of the present invention, the light panel processor divides the surface of the light panel based on the position of the light emitting unit 850 and user input information (light illuminance information and light direction information to be emitted on the surface of the light panel), The density of the groove line and the angle of the groove structure can be set. Based on the structure of the light panel 800, the light panel processing machine needs to set a similar range of light illuminance when dividing the surface of the light panel 800 and reflect light with similar characteristics by setting a similar range of light direction. You can classify areas. When the characteristics of the light panel should be relatively accurately, a similar range of light illuminance may be set, and the similar range of the light direction may be set relatively narrow. In addition, according to an embodiment of the present invention, since the influence of light on the light panel may be smaller as it is farther from the light emitting unit, the divided region may be set to be relatively wider as it is farther from the light emitting unit.

The above-described embodiment according to the present invention is implemented in the form of program instructions that can be executed through various computer components and can be recorded in a computer-readable recording medium. The computer-readable recording medium may include program instructions, data files, data structures, or the like alone or in combination. The program instructions recorded on the computer-readable recording medium may be specially designed and configured for the present invention or may be known and available to those skilled in the computer software field. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical recording media such as CD-ROMs and DVDs, and magneto-optical media such as floptical disks. medium), and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device can be changed to one or more software modules to perform the processing according to the present invention, and vice versa.

In the above, the present invention has been described by specific matters such as specific components and limited examples and drawings, but it is provided to help a more comprehensive understanding of the present invention, and the present invention is not limited to the above embodiments, Those skilled in the art to which the invention pertains may seek various modifications and changes from these descriptions.

Therefore, the spirit of the present invention is not limited to the above-described embodiments, and should not be determined, and the scope of the spirit of the present invention, as well as the claims to be described later, as well as all ranges that are equivalent to or equivalently changed from the claims Would belong to

Claims (8)

The light-direction-adjustable surface light emitting device,
A light source unit that supplies light;
A reflector reflecting the light; And
It includes a light panel for transmitting the light to at least one side,
The light panel includes a groove structure for generating the light in a specific direction and intensity on the one surface,
The home structure is determined based on user input information,
The user input information includes light illuminance information and light direction information to be emitted on the surface of the light panel,
The light panel processing machine determines the three-dimensional movement of the groove forming tool based on the user input information,
The angle of the groove structure is determined based on the position of the light source and the specific direction of the light and the specific intensity of the light,
The angle of the groove structure is determined for each of the plurality of divided regions in which the light panel is divided in consideration of the position of the light source unit. According to claim 1,
The surface characterized in that the density of the groove line forming the groove structure on the line is determined for each of the plurality of divided regions based on the specific direction of the light and the specific intensity of the light when it is generated on the light panel. Lighting luminous device. According to claim 2,
The groove structure includes a first surface parallel to the reflection plate, a second surface contacting the first surface and perpendicular to the reflection plate, and a third surface contacting the first surface and the second surface,
The specific direction is determined based on the direction of the third surface,
The cross-section of the groove structure is a surface-illumination device, characterized in that the right triangle. delete The method for generating a surface-illumination device is
The light panel processor receiving user input information;
The light panel processor comprises forming a groove structure in the light panel of the surface-illumination device based on the user input information,
The light panel transmits light generated by the light source unit to at least one surface,
The groove structure generates the light in a specific direction and a specific intensity on the one surface,
The user input information includes light illuminance information and light direction information to be emitted on the surface of the light panel,
The light panel processing machine determines the three-dimensional movement of the groove forming tool based on the user input information,
The angle of the groove structure is determined based on the position of the light source supplying the light, the specific direction of the light and the specific intensity of the light,
The angle of the groove structure is determined for each of the plurality of divided regions in which the light panel is divided in consideration of the position of the light source unit. The method of claim 5,
The surface characterized in that the density of the groove line forming the groove structure on the line is determined for each of the plurality of divided regions based on the specific direction of the light and the specific intensity of the light when it is generated on the light panel. Method of generating a light emitting device. delete delete

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