KR101005400B1 - Disaster Response Display Board - Google Patents

Abstract

The present invention relates to a disaster response display board through power storage. Disaster-responsive electronic signage through power storage according to the present invention is an LED module (LED module) including at least one LED (Light Emitting Diode) pixel, supplying direct current (DC) power to turn on the LED pixel of the LED module A DC power supply system, a control system for providing at least one of control data for controlling the LED module and output data output to the LED module, and AC power supplied from the outside, and accumulate AC power in a disaster situation. When the power is cut off, the power storage system includes a power storage system for applying the pre-stored power to at least one of the LED module, the DC power supply system and the control system, in a disaster situation with the pre-stored power applied from the power storage system In the case that the AC power is cut off, the guidance message is displayed on the LED module It shall be.

Description

Display board for disaster response through electricity storage {DISPLAY BOARD FOR CALAMITY CONFRONTATION BY STORING ELECTRICITY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric signboard, and more particularly, to a disaster response signboard through electric storage that displays information on a disaster situation and the like through electric storage so as to respond to a disaster such as an interruption of power supply.

In general, the electronic signboard is a system for displaying various types of information in a visible state, and is widely used for delivering information or messages for commercial advertisement, stadium, multivision, traffic signal, and local government promotion. Although light bulbs were mainly used for electronic display boards, fluorescent lamps have been mainly used in consideration of the amount of electric power used by light bulbs. However, in the case of a light bulb or a fluorescent lamp, there is a limit to reducing the size, which is inadequate for representing an image. For this reason, recently, cathode ray tubes (CRTs) and the like have been used, but due to the limitations of the enlargement, an electronic display panel composed of LEDs (LEDs) has become popular.
1 is a view schematically showing a power system of a general LED sign. Referring to FIG. 1, an existing LED display board is output to an LED module (LED Module 10), a DC power supply system 20 to supply DC power to the LED module, and an LED module 10. And a control system 30 for providing output data and control data for controlling the LED module 10. The DC power supply system 20 and the control system 30 are typically supplied with commercial alternating current (AC) power.
The LED module 10 is composed of a plurality of pixels arranged horizontally and vertically. LED pixel refers to a basic unit that can change color by using one or more LEDs in one pixel unit. There are various types of LED pixels according to their shape and size, and they can be classified into B (Blue) pixels, RG (Red-Green) pixels, and Red (Green-Blue) pixels according to the number of LEDs combined. . That is, full-color LEDs composed of RGB, which constitute one LED pixel as the smallest unit that can be individually controlled, are configured by combining R, G, and B lamps or 3in1 RGB lamps. The control system 30 may be implemented as a personal computer (PC), but may be implemented by using a separate microprocessor or graphics processor. The control system 30 transmits output data including text, an image, a video, and the like output from the LED module 10 and control data for controlling the operation of the LED module 10 to the LED module 10. The DC power supply system 20 rectifies incoming AC power and converts the incoming AC power into DC power suitable for lighting the LED lamp of the LED module 10, or stabilizes the incoming DC power so as to light the LED lamp. By lowering the role to provide to the LED module 10, mainly implemented by SMPS (SMPS, Switching Mode Power Supply). Normally, SMPS is manufactured using a field effect transistor (FET), but is manufactured using an insulated gate bipolar transistor (IGBT) when a large capacity is required.
The LED module 10 of the general LED display panel shown in FIG. 1 may be implemented as a plurality of LED modules. FIG. 2 is a view schematically showing a configuration of a conventional LED signboard having an LED module including a plurality of LED submodules, and FIG. 3 is another configuration of a conventional LED signboard having an LED module including a plurality of LED submodules. Figure is a schematic diagram. 2 and 3, the LED module 10 includes a plurality of LED submodules, each of which consists of a plurality of LED pixels arranged horizontally and vertically. Corresponding to the configuration in which the LED module 10 includes a plurality of LED submodules, the DC power supply system 20 may also include a plurality of DC power supply subsystems configured to correspond to each of the plurality of LED submodules. . Each of the plurality of LED submodules may be supplied with DC power separately from a corresponding DC power supply sub system to turn on the LED lamp. In addition, some of the plurality of LED submodules, for example, LED submodules constituting a column or rows of LED submodules constituting a row in FIG. 3 and 4 may collectively have one corresponding DC power supply subsystem (FIG. Each of the LED lamps may be turned on by receiving DC power separately from the vertical busbar DC power supply subsystem of 2 or the horizontal row busbar DC power supply subsystem of FIG. 3.

Recently, local governments have used the conventional electronic display boards described with reference to FIGS. 1 to 3 for various purposes such as traffic information, environmental information, and disaster information. When various disasters such as fire, typhoon, earthquake, and earthquake are displayed, the information on evacuation situation or evacuation information is displayed on the signboard, so that the residents can easily understand the disaster situation and based on the evacuation information. It is expected to be able to evacuate quickly and effectively. However, if power is not applied to the display board due to the destruction of the power plant, which is a major hitting target in the event of power failure or exhibition due to natural disasters, it will be obvious that it will be useless to achieve the function of the display board in the most urgent situation. In the event of various disasters, a number of methods for solving communication problems have been found to maintain the function of the electronic sign. In other words, in order to maintain the function of the electronic signboard, in particular, in order to solve the communication problem, focusing on providing a detour communication function when a problem occurs in the wireless LAN communication, CDMA (Code Division Multiple Access) communication, etc. in addition to the existing LAN communication. Is aligned. In addition, the driving of the electric signboard using a capacitor is found, but it is simply used to supply the driving power of the mobile signboard, or to guarantee the stabilization of a built-in PC used as a control system or for the purpose of stable shutdown. Therefore, even when power is not supplied due to the destruction of electric power facilities in the event of power outage or display due to natural disasters, if the information on the disaster situation or evacuation information is displayed through the signboard, residents can recognize the disaster situation quickly and effectively and evacuate. It is expected to be able to.

In order to overcome the above-mentioned problems, an object of the present invention is to use the power stored in the electricity storage system, and even when the power is not supplied to the disaster situation by expressing the information message such as information on the disaster situation or evacuation information, residents It is to provide a disaster response signboard through electricity storage that can be quickly recognized and effectively evacuated.
Another object of the present invention is to provide a disaster response display board through power storage that can maximize the display time by minimizing the power consumption by applying the power stored in the power storage system to a part of the plurality of LED submodules. .
It is still another object of the present invention to apply power stored in a power storage system to at least one of a G (Green) pixel having a high luminance, a R (Red) pixel having a high linearity, and a RG (Red-Green) pixel combination thereof. The message is expressed in red, green or a color by a combination of red and green to provide a disaster response scoreboard through power storage that improves visibility.
Another object of the present invention is to include a microprocessor in addition to a PC in the control system or a graphics processor with a built-in prompt message display function, except for a PC that consumes a large amount of power in a power-free disaster situation. By providing power stored in a power storage system to a processor or a graphics processor, a disaster-proof display board through power storage can reduce power consumption.
Another object of the present invention is further provided with a speaker, by applying the power stored in the power storage system to the speaker and the LED module, the guidance message that can be visually recognized in the LED module in a disaster situation when the power is not supplied and At the same time, by providing a guide message that can be recognized as an auditory to the speaker to provide a disaster response display board through power storage that can efficiently respond to the disaster situation.
Another object of the present invention is to apply the electric power stored in the power storage system so that the LED module flashes to display a guidance message, thereby reducing power consumption, and providing a disaster response display board through power storage that can draw the attention of the residents. To provide.

In order to achieve the above objects, according to the first aspect of the present invention, an LED module comprising a plurality of LED sub-module including at least one LED pixel, the direct current (DC) power to turn on the LED pixel of the LED module; A DC power supply system for supplying, a control system for providing at least one of control data for controlling the LED module and output data output to the LED module, and AC power supplied from the outside, and storing an AC power in a disaster situation. When the AC power is cut off, including a power storage system for applying the pre-stored power to at least one of the LED module, the DC power supply system and the control system, a disaster with pre-stored power applied from the power storage system In the event that the AC power is cut off, a guidance message is provided in a plurality of LED submodules. And the guidance message is pre-written and stored in the control system or inputted from a user, and the control system further includes at least one of a separate microprocessor and a graphic processor, and the guidance message is configured to include the microprocessor. At least one of a processor and a graphics processor, wherein the LED pixel comprises at least a green pixel, wherein the pre-stored power is applied to a green pixel to guide the It is possible to provide a disaster response signage through power storage, characterized in that the message is output.
In a preferred embodiment, the disaster response signage through power storage further includes a speaker, wherein the pre-stored power applied from the power storage system is further applied to the speaker, and the guidance sound is applied when the AC power is cut off in a disaster situation. It is characterized in that the output to the speaker. In addition, the DC power supply system is characterized in that it comprises a plurality of DC power supply sub-system corresponding to each of the plurality of LED sub-modules.

According to the present invention, the following effects can be expected.
According to the present invention, by using the electric power stored in the power storage system, even when the power supply is not in a disaster situation, by expressing a message such as information about the disaster situation or evacuation information, residents can quickly recognize the disaster situation, and effectively evacuate It is possible to provide a disaster response scoreboard through power storage.
In addition, according to the present invention, another object of the present invention is to apply the electric power stored in the power storage system to only a part of the plurality of LED sub-modules to display a guide message to minimize the power consumption to maximize the display time disaster A corresponding display board can be provided.
In addition, according to the present invention, the guidance message is applied by applying the electric power stored in the power storage system to at least one of a G (Green) pixel having a high luminance, a R (Red) pixel having a high linearity, and an RG (Red-Green) pixel which is a combination thereof. By displaying the color by red, green, or a combination of red and green, it is possible to provide a disaster response display board through power storage that improves visibility.
In addition, according to the present invention, in addition to the PC in the control system, including a microprocessor or a graphics processor with a built-in message display function, a microprocessor configured separately, except for a PC that consumes a lot of power in the event of power failure In addition, the electric power stored in the power storage system may be applied to the graphic processor to provide a disaster response display board through power storage that can reduce power consumption.
In addition, according to the present invention, by further providing a speaker, by applying the electric power stored in the power storage system to the speaker and the LED module, a guide message that can be visually recognized to the LED module in the event of a power supply is displayed at the same time By outputting a guide message recognizable as an auditory sound to the speaker, it is possible to provide a disaster response display board through power storage that can efficiently respond to the disaster situation.
In addition, according to the present invention, by applying the power stored in the power storage system so that the LED module is flashing to display a guide message, not only can reduce the power consumption, but also provides a disaster response display board through power storage that can draw the attention of the residents. can do.

1 is a view schematically showing a power system of a general LED sign.
2 is a view schematically showing the configuration of a conventional LED signboard having an LED module including a plurality of LED submodules.
3 schematically illustrates another configuration of a conventional LED billboard having an LED module including a plurality of LED submodules.
Figure 4 is a schematic diagram showing the power system of the disaster response signage through power storage according to an embodiment of the present invention.
5 is a view schematically showing the configuration of a disaster response signage through power storage having an LED module including a plurality of LED submodules according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

4 is a diagram schematically illustrating a power system of a disaster response display board through power storage according to an exemplary embodiment of the present invention. Referring to Figure 4, the disaster response display board through power storage according to the present invention is an LED module (LED Module, 100), a DC power supply system for supplying DC (DC) power to the LED module (DC Power Supply System, 200), It is installed at the control system (Control System 300) for providing the output data output to the LED module 100 and the control data for controlling the LED module 100, and the input of the AC (AC) power, power failure due to natural disasters Or power storage system 400 that applies the pre-charged power to the LED module 100, the DC power supply system 200, and the control system 300 when power is not supplied due to the destruction of the power facility in an exhibition situation. Include.
The LED module 100 includes a plurality of pixels arranged horizontally and vertically. LED pixel refers to a basic unit that can change color by using one or more LEDs in one pixel unit. There are various types of LED pixels according to their shape and size, and they can be classified into B (Blue) pixels, RG (Red-Green) pixels, and Red (Green-Blue) pixels according to the number of LEDs combined. . That is, the full-color LED composed of RGB, which constitutes one LED pixel as the smallest unit that can be individually controlled, is configured by combining R, G, and B lamps or 3in1 RGB lamps. The control system 300 may be implemented as a personal computer (PC), but may be implemented by using a separate microprocessor or graphics processor. The control system 300 transmits output data including text, an image, a video, etc. output from the LED module 100 and control data for controlling the operation of the LED module 100 to the LED module 100. The DC power supply system 200 rectifies the incoming AC power to convert the DC power into DC power suitable for lighting the LED lamp of the LED module 100 or stabilizes the DC power input to direct the DC lamp suitable for lighting the LED lamp. It serves to provide power to the LED module 100 by lowering the power, it can be implemented as a Switching Mode Power Supply (SMPS). The power storage system 400 stores power while power is applied, and stores the stored power when the power is not supplied due to a disaster situation, such as the LED module 100, the DC power supply system 200, and the control system 300. To apply. In an embodiment of the present invention, even when the power supply is turned off so as not to use the electric sign, the AC power is applied to the power storage system 400 to be charged so that the electric power stored in the event that power is not supplied in a disaster situation By applying to the LED module 100, the DC power supply system 200 and the control system 300, it is possible to respond more closely to the disaster situation.
When power is not supplied due to a disaster situation, the power storage system 400 applies the stored power to the LED module 100, the DC power supply system 200, and the control system 300 to evacuate information or evacuation of the disaster situation. By displaying a guide message such as information to the LED module 100, it is possible to quickly recognize the disaster situation of the residents, and to effectively evacuate. The guidance message preferably expresses the information on the disaster situation or evacuation information in a compressed manner, and is prepared in advance and stored in the control system 300 or inputted directly into the control system 300 manually or using a remote controller. Can be. In the event that power is not supplied due to a disaster situation, the guide message is not stored in advance in the control system 300 or when the input message is not stored in advance, the stationary text indicating that the power is cut off is stored in advance in the LED module 100. It can also be expressed as).
The G (Green) pixels that can be included in the LED module 100 have much higher brightness (about 6 times) than the B (Blue) pixels when they consume the same power, and the R (Red) pixels are more linear than the B (Blue) pixels. This is strong (scattering approximately 1/3 times), so that at least one of the G (Green) pixels with high luminance, the R (Red) pixels with strong straightness, and RG (Red-Green) pixels, a combination thereof, is used in the power storage system. By applying the stored power, the guide message can be configured to be expressed in color by red, green or a combination of red and green. In a disaster situation, the fog or haze is likely to occur, and in this case, the brightness is high and the scattering is low, so that the color of the green, red, and a combination of green and red with high transmittance guides the message to the LED module 100, In addition to increasing visibility, power consumption can be reduced. In addition, when the power is not supplied due to the disaster situation, by applying the power stored in the power storage system 400 so that the LED lamp included in the LED module 100 is flashing, the guidance message will be flashing in the LED module 100 Can be. Accordingly, the power storage system 400 may not only reduce power consumption by applying the stored power to the LED lamp to blink, but also draw attention to the residents.
The disaster response display board according to the present invention described with reference to FIG. 1 may further include a speaker (not shown). In the event that power is not supplied in a disaster situation, the power storage system 400 may apply power previously stored to the LED module 100, the DC power supply system 200, the control system 300, and the speaker. By applying the electric power stored in the power storage system 400 to the speaker and the LED module 100, a guidance message that can be visually recognized by the LED module 100 is displayed in a disaster situation in which power is not supplied, and at the same time, the speaker is audible to the speaker. A guide message that can be recognized is output. Accordingly, the response of the disaster situation will be able to proceed efficiently. In addition, as described above, in the preferred embodiment of the present invention, the control system 300 may include a graphic processor that includes a microprocessor or a guide message display function, in addition to the PC. In this case, except for a PC that consumes a lot of power in a disaster situation where power is not supplied, a guidance message is displayed on the LED module 200 by applying power stored in the power storage system 400 to a microprocessor or a graphics processor configured separately. Can be. Accordingly, power consumption may be further reduced.

The LED module 100 of the disaster response display board through power storage according to an embodiment of the present invention shown in FIG. 4 may be implemented as a plurality of LED submodules. FIG. 5 is a diagram schematically illustrating a configuration of a disaster response display board having power storage having an LED module including a plurality of LED submodules according to another exemplary embodiment of the present invention. As shown in FIG. 5, the LED module 100 includes a plurality of LED submodules, each of which includes a plurality of LED pixels arranged horizontally and vertically. In response to the configuration in which the LED module 100 includes a plurality of LED submodules, the DC power supply system 200 may also include a plurality of DC power supply subsystems configured to correspond to each of the plurality of LED submodules. . Each of the plurality of LED submodules may be supplied with DC power separately from a corresponding DC power supply sub system to turn on the LED lamp. In addition, some of the plurality of LED submodules, LED submodules constituting the vertical row or LED submodules constituting the horizontal row may collectively include one corresponding DC power supply subsystem (eg, the vertical column of FIG. 5). Each LED lamp can be turned on by receiving DC power separately from the busbar DC power supply subsystem. Therefore, in the event that power is not supplied in a disaster situation, the power storage system 400 applies pre-stored power to at least some of the plurality of DC power supply subsystems included in the DC power supply system 200, thereby providing an LED module ( The guidance message may be output to at least a part of the plurality of LED submodules included in 100). Accordingly, the display time of the guide message can be maximized by minimizing the power consumption.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

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10: LED module 20: DC power supply system
30: control system
100: LED module 200: DC power supply system
300: control system 400: power storage system

Claims (5)

delete An LED module comprising a plurality of LED submodules including at least one LED pixel;
A direct current power supply system for supplying direct current (DC) power to light an LED pixel of the LED module;
A control system for providing at least one of control data for controlling the LED module and output data output to the LED module to the LED module; And
A power storage system for storing AC power introduced from the outside and applying power previously stored to at least one of the LED module, the DC power supply system, and the control system when the AC power is cut off in a disaster situation.
Including,
When the AC power is cut off in a disaster situation with pre-stored power applied from the power storage system, a guide message is displayed on some of the plurality of LED submodules.
The guide message is prepared in advance and stored in the control system or input from a user,
The control system further includes at least one of a separate microprocessor and a graphics processor, wherein the guidance message is included in some of the plurality of LED submodules by at least one of the microprocessor and the graphics processor.
The LED pixel includes at least a G (Green) pixel, wherein the pre-stored power is applied to the G (Green) pixel, the guidance message is output through the power storage.
delete The method of claim 2,
Include more speakers,
The pre-stored power applied from the power storage system is further applied to the speaker, and when the AC power is cut off in a disaster situation, a guide sound is output to the speaker.
The method of claim 2,
And the DC power supply system includes a plurality of DC power supply subsystems corresponding to each of the plurality of LED submodules.

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