KR102638241B1 - Photovoltaic acrylic panel for historical analysis and graphic output method thereof - Google Patents

Abstract

The solar acrylic panel for historical interpretation according to the embodiment displays graphics combined with the remnants of cultural properties outdoors, and combines the displayed graphics with the remnants of cultural properties to create the completed shape of cultural properties through the solar acrylic panel for historical interpretation. , so that the viewer can appreciate the completed form of the cultural property. In addition, the output illuminance of graphics is automatically adjusted according to the outdoor illuminance, making it possible to view cultural assets outdoors even in rainy weather or at night. In addition, it automatically charges the battery of the solar acrylic panel for historical interpretation through solar power and automatically adjusts the graphic output illuminance according to the battery charge status, allowing graphics for cultural property restoration to be output without manual charging of the battery and time constraints. . In addition, when a spectator is recognized, graphics are output, and when a spectator object is not recognized in the vicinity, a charging mode can be executed to improve battery efficiency.

Description

Solar acrylic panel for historical interpretation and graphic output method of acrylic panel {PHOTOVOLTAIC ACRYLIC PANEL FOR HISTORICAL ANALYSIS AND GRAPHIC OUTPUT METHOD THEREOF}

The present disclosure relates to a solar acrylic panel and a method for printing graphics on an acrylic panel. Specifically, when graphics that reproduce cultural properties are printed on a solar acrylic panel and the cultural property is viewed through the solar acrylic panel, the cultural property is It is about solar-powered acrylic panels for historical interpretation that recreate scenes from the most prosperous period.

Unless otherwise indicated herein, the material described in this section is not prior art to the claims of this application, and is not admitted to be prior art by inclusion in this section.

The Light Guide Panel is a transparent acrylic panel made of pure PMMA (Poly Methyl Meth Acrylate) resin. The lower surface of the panel is printed with a matrix of dots or grooved in the form of lines, allowing light to spread evenly throughout the screen. The light guide plate is a key component of the LCD's BLU (Back Light Unit) and allows the light generated within the liquid crystal display to be spread evenly across the screen. Line light sources such as fluorescent lights or point light sources such as LED (Light Emitting Diode) are visualized by converting them into planar light sources. The lower part of the light guide plate has a dot-print or line-shaped print or groove that allows the concentrated light source to spread throughout the screen. The dot-shaped light guide plate contains a scattering agent that can scatter light within each dot, and the size and spacing of the dots need to be adjusted in order for each dot to spread light uniformly across the screen. Compared to the line-type method, the point-type method is more stable and widely used. These acrylic panels are made of transparent acrylic sheet material with a transparency of 93% or more, and are widely used in lighting and advertising.

On the other hand, since cultural assets displayed outdoors often contain only remnants of the cultural assets, viewers must predict the completed form of the cultural assets on their own. In addition, cultural assets displayed outdoors are difficult to view at night or in rainy weather, which imposes many restrictions on the appreciation of cultural assets.

1. Korean Patent No. 10-1216487 (2012.12.21) 2. Korean Patent No. 10-2283823 (2021.07.26)

The solar acrylic panel for historical interpretation according to the embodiment displays graphics combined with the remnants of cultural properties outdoors, and combines the displayed graphics with the remnants of cultural properties to create the completed shape of cultural properties through the solar acrylic panel for historical interpretation. , so that the viewer can appreciate the completed form of the cultural property.

In addition, the output illuminance of graphics is automatically adjusted according to the outdoor illuminance, making it possible to view cultural assets outdoors even in rainy weather or at night.

In addition, it automatically charges the battery of the solar acrylic panel for historical interpretation through solar power and automatically adjusts the graphic output illuminance according to the battery charge status, allowing graphics for cultural property restoration to be output without manual charging of the battery and time constraints. .

In addition, when a spectator is recognized, graphics are output, and when a spectator object is not recognized in the vicinity, a charging mode can be executed to improve battery efficiency.

The solar acrylic panel for historical interpretation according to the embodiment includes a light guide plate with an engraved graphic that is combined with the remnants of cultural assets; LED that outputs light irradiated to the light guide plate; A control module that controls the illuminance of light irradiated to the LED; and a charging module that automatically charges the battery with solar energy. Includes.

The solar acrylic panel for historical interpretation according to the embodiment as described above is created through an acrylic panel in the shape of a cultural property by combining the graphic for restoration of cultural property engraved on the acrylic panel and the remnants of cultural property, so that the viewer can easily see the shape of the completed cultural property. Let it be appreciated.

In addition, it makes it possible to view outdoor cultural properties even in rainy weather or at night, and provides high-quality outdoor cultural property viewing services without restrictions on weather or illumination. Additionally, device management efficiency is improved by automatically adjusting the illumination intensity according to the battery charge status. Additionally, in the embodiment, battery usage efficiency can be increased by outputting graphics only when surrounding viewer objects are recognized. In addition, a mood lighting effect can be created by operating solar acrylic panels for historical interpretation at night.

The effects of the present invention are not limited to the effects described above, and should be understood to include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

Figure 1 is a diagram showing a solar acrylic panel for historical analysis according to an embodiment
Figure 2 is a diagram showing a design example of graphics displayed on an acrylic panel according to an embodiment
Figure 3 is a diagram showing an example of graphic output of an acrylic panel according to an embodiment
Figure 4 is a diagram showing the data processing flow of the graphic output method of solar acrylic panels for historical analysis in an embodiment.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely provided to ensure that the disclosure of the present invention is complete and to provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In describing embodiments of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. The terms described below are terms defined in consideration of functions in embodiments of the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification.

Figure 1 is a diagram showing a solar acrylic panel for historical analysis according to an embodiment.

Referring to Figure 1, the solar acrylic panel for historical analysis according to the embodiment includes a light guide panel (10), LEDs (21, 22, 23, 24, 25, 26), a control module (100), and a charging module. It may be configured to include (200) and a surrounding object detection module (300). The term 'module' used in this specification should be interpreted to include software, hardware, or a combination thereof, depending on the context in which the term is used. For example, software may be machine language, firmware, embedded code, and application software. As another example, hardware may be a circuit, processor, computer, integrated circuit, integrated circuit core, sensor, Micro-Electro-Mechanical System (MEMS), passive device, or a combination thereof.

The light guide plate 10 is engraved with graphics for the restoration of cultural assets that are combined with the remains of cultural assets, and displays the engraved graphics by receiving light from the LED. In an embodiment, the light guide plate 10 may include a backlight with a luminance distribution on the rear side. The Light Guide Panel uses transparent acrylic to let in the light emitted from a light source lamp such as LED, and spreads the light across the entire screen through a pattern with a certain area and shape deposited on the surface of this acrylic. Evenly distributed. The light flowing in from the side of the light guide plate is transmitted to the inside of the light guide plate through low reflection, and a scattering pattern is installed on the back of the light guide plate, so the light hitting it is diffusely reflected and emitted. At this time, the density distribution of the scattering pattern on the back of the light guide plate can be adjusted to achieve maximum brightness while maintaining uniformity in the distribution of light emitted from the front of the light guide plate.

LEDs (21, 22, 23, 24, 25, 26) are installed at the top and bottom of the light guide plate, output light, and the output light is irradiated to the light guide plate (10).

The control module 100 controls the illuminance of light irradiated to the light guide plate. In the embodiment, the control module 100 maintains graphic output by controlling the graphic output power by controlling the illuminance of light emitted from the LED according to the battery charging state. Specifically, when the state of charge is 90 percent, the control module 100 adjusts the output illuminance to 90 percent of the maximum output illuminance, and when the state of charge of the battery of the device is 50 percent, the control module 100 adjusts the output illuminance to 50 percent of the maximum output illuminance. Controls to prevent graphic output from being interrupted by battery consumption.

Additionally, in the embodiment, the control module 100 maintains graphic visibility by controlling the illuminance of light output from the LED irradiated to the light guide plate according to the ambient illuminance. For example, when the surrounding illumination is low, such as at night or in rainy weather, the output illuminance is increased so that the viewer can easily perceive the graphics through the solar acrylic panel for historical interpretation according to the embodiment. In addition, when the surrounding illumination is high, such as in the middle of the day or sunny weather, the graphic output illuminance is adjusted and raised to match the surrounding illuminance, so that the completed cultural property with graphics combined can be easily recognized without the influence of sunlight.

The charging module 200 automatically charges the battery using solar energy. In an embodiment, the charging module 200 may automatically charge by recognizing sunlight and control whether or not charging progresses depending on the remaining battery capacity. In the embodiment, when the remaining battery capacity is less than a certain percentage of the maximum charge, the mode is switched to charging mode to charge the solar acrylic panel for historical interpretation. The surrounding object detection module 300 senses surrounding objects. In an embodiment, the charging module 200 may be switched to a charging mode according to the result of detecting surrounding objects and the charging amount. For example, when the surrounding object detection module 300 recognizes a viewer object around the acrylic panel, the charging mode can be stopped and graphics can be displayed. In addition, if a viewer object is not recognized around the acrylic panel, it can be switched to charging mode. In an embodiment, when the acrylic panel is driven in a mood lighting mode, it can maintain a graphic display regardless of whether surrounding objects are recognized.

Additionally, in the embodiment, the control module 100 controls graphic output by controlling the illuminance of light output from the LED and irradiated to the light guide plate according to the result of detecting surrounding objects, ambient illuminance, and battery charge level. In the embodiment, the control module 100 controls the illuminance of the graphics output from the virtual object output device by comprehensively considering the graphic output condition information including the surrounding object detection results, ambient illuminance, and battery charge amount, thereby maintaining cultural heritage even at night or in rainy weather. Make viewing possible. Additionally, in an embodiment, the acrylic panel can be used as an outdoor mood light by setting the acrylic panel to a mood lighting mode at night or in rainy weather to continuously output graphics.

Figure 2 is a diagram showing a design example of graphics displayed on an acrylic panel according to an embodiment.

Figure 2(a) is a drawing showing the remains of the water tower at Wonju Station, a modern cultural asset. Referring to (a) in Figure 2, among the cultural assets, only the water tower remains, making it difficult to determine how the water tower operates. Figure 2(b) is a diagram showing an example of graphic design for reproducing the completed appearance of a cultural asset. Referring to (b) of FIG. 2, in the embodiment, the water supply pipe and the train connected to the water supply pipe are engraved on the light guide plate to create a graphic combined with the remains of the cultural property, and the graphic is overlapped with the water tower, which is the remaining cultural property.

Figure 2(c) is a diagram showing a display that reproduces the use of cultural assets by overlaying graphics on remaining cultural assets. Referring to (c) of Figure 2, in the embodiment, graphics including a water pipe and a train are combined with a water tower, which is a remaining cultural property, and displayed through an acrylic panel according to the embodiment, so that the viewer can see the completed form and shape of the cultural property displayed outdoors. Make it easy to recognize and observe how it is used.

Figure 3 is a diagram showing an example of graphic output of an acrylic panel according to an embodiment.

Referring to FIG. 3, the acrylic panel according to the embodiment displays a graphic (b) that is combined with the remaining cultural property (a) outdoors, so that the graphic (b) for restoring the cultural property is visible overlapping the remaining cultural property (a), Make it easy for viewers to recognize the restored shape of cultural assets. In addition, in the embodiment, the output illuminance of the restored shape of the cultural property with overlapping graphics is controlled according to the surrounding illuminance, surrounding objects, and battery charge level, so that the viewer can view the cultural property without restrictions even in rainy weather or at night.

Hereinafter, a graphic output method of a solar acrylic panel for historical interpretation according to an embodiment will be sequentially described. Since the operation (function) of the graphic output method of the solar acrylic panel for historical interpretation according to the embodiment is essentially the same as the function of the solar acrylic panel for historical interpretation, descriptions overlapping with FIGS. 1 to 3 will be omitted.

Figure 4 is a diagram showing the data processing flow of the graphic output method of the solar acrylic panel for historical analysis in an embodiment.

Referring to FIG. 4, in step S100, the solar acrylic panel for historical interpretation outputs a graphic representing the shape of the restored cultural property, and the three-dimensional combined graphic is combined with the remains of the cultural property to complete the restored shape of the cultural property.

In step S200, the surrounding object detection module senses objects surrounding the solar acrylic panel for historical interpretation. In step S300, the battery charge status and surrounding illumination of the acrylic panel are detected. In step S400, the control module controls and outputs the display illuminance of the graphic according to the detected surrounding objects, charging status, and surrounding illuminance information.

The solar acrylic panel for historical interpretation according to the embodiment displays graphics combined with the remnants of cultural properties outdoors, and combines the displayed graphics with the remnants of cultural properties to create the completed shape of cultural properties through the solar acrylic panel for historical interpretation. , so that the viewer can appreciate the completed form of the cultural property. In addition, the display that outputs graphics according to the outdoor illumination level automatically adjusts the illumination level, making it possible to view cultural assets outdoors even in rainy weather or at night.

In addition, the battery of the graphic output device is automatically charged using solar energy, and the graphic output illuminance is automatically adjusted according to the battery charging status through battery monitoring, allowing graphics for cultural property restoration to be output without manual charging of the battery and time constraints. do. In addition, the solar acrylic panel for historical interpretation according to the embodiment can improve battery efficiency by outputting graphics when a viewer is recognized and executing a charging mode when no viewer object is recognized in the surrounding area.

The solar acrylic panel for historical interpretation according to the above embodiment creates a completed cultural property shape by combining displayed graphics and cultural property remnants, allowing viewers to easily appreciate the completed cultural property shape.

In addition, it makes it possible to view outdoor cultural properties even in rainy weather or at night, and provides high-quality outdoor cultural property viewing services without restrictions on weather or illumination. Additionally, device management efficiency is improved by automatically adjusting the illumination intensity according to the battery charge status. Additionally, in the embodiment, battery usage efficiency can be increased by outputting graphics only when surrounding viewer objects are recognized. In addition, a mood lighting effect can be created by operating solar acrylic panels for historical interpretation at night.

The disclosed content is merely an example, and various modifications and implementations may be made by those skilled in the art without departing from the gist of the claims, so the scope of protection of the disclosed content is limited to the above-mentioned specific scope. It is not limited to the examples.

Claims (6)

In solar acrylic panels for historical interpretation,
Light guide plates with engraved graphics combined with cultural remnants;
an LED that outputs light irradiated to the light guide plate;
A charging module that automatically charges the battery with solar energy;
A surrounding object detection module that senses surrounding objects;
A control module that controls the illuminance of light output from the LED and irradiated to the light guide plate according to the result of detecting the surrounding object, at least one of ambient illuminance and battery charge level;
contains
The control module; silver
By controlling the graphic output power by controlling the illuminance of the light emitted from the LED according to the battery charge status, the graphic output is maintained.
Maintains graphic visibility by controlling the illuminance of light emitted from the LED according to the surrounding illumination.
As a result of detecting surrounding objects, the graphic output is controlled by controlling the illuminance of the light irradiated to the LED according to the ambient illuminance and battery charge level,
the charging module; silver
If the remaining battery capacity is less than a certain percentage of the maximum charge, it switches to charging mode and charges the solar acrylic panel for historical interpretation.
When a viewer object around the acrylic panel is recognized, the charging mode is stopped and
If viewer objects around the acrylic panel are not recognized, switch to charging mode,
The control module; silver
Adjust the illuminance of the light emitted from the LED to a percentage value corresponding to the battery charge state,
When the ambient illumination is low, including at night or in rainy weather, the output illuminance is increased compared to the ambient illuminance. When the ambient illuminance is high, including during the day or in sunny weather, the ambient illuminance is adjusted to match the graphic output illuminance.
A solar-powered acrylic panel for historical interpretation that maintains a graphic display regardless of whether surrounding objects are recognized when the acrylic panel is set to mood lighting mode at night or in rainy weather. delete delete delete delete delete