KR101038499B1 - Solarcel Powered LED Sign - Google Patents

Abstract

Due to the increasing global warming, interest in solar energy, a sustainable and clean energy, continues to increase.

The present invention relates to an LED sign using a solar cell module that is a solar cell module that emits a sign using a solar cell. More specifically, a plurality of LEDs (LEDs) using a solar cell of a solar collector used as a light source supply means ( Light Emitting Diode) is installed, but the power required to emit light of the LED is characterized by using the current generated by using the solar cell.

In addition, it consists of LED and control unit as a unit set, and it is stored in battery through inverter which is a current supply control device and is supplied with power. It relates to an LED sign using a solar cell module.

LED, power saving, signage, light emitting diode, lighting, advertising, interior

Description

LED signboard using solar cell module {Solarcel Powered LED Sign}

The present invention relates to a signboard that can light or flash an LED installed on a signboard using a solar cell, and more particularly, the LEDs of the signboard are operated by a power source of a solar cell, which is an infinite resource. It is automatically turned on by the light sensor at sunset time and turned off at sunrise time and at the same time, it relates to an LED signboard using a solar cell module that can continuously generate power using solar cells.
Prior to the present invention, a number of prior arts are disclosed. First of all, Utility Model Registration Application No. 2005-0023185 (Landscape LED light emitting part using a solar cell), which is a prior art, is formed in a cylindrical shape having an open top at a transparent material, The first stage jaw 111 is formed at the periphery, and the lower case 110 having a protruding surface 113 is bent inwardly with a bottom central portion, and a plurality of coupling pins 115 protrude from the inner circumferential surface to the upper end thereof. The lower side of the lower case 110 is made of a transparent material and is formed in a cylindrical shape with an opening, and the upper surface is bent to be coupled with a signboard panel (not shown) to form a coupling jaw 121. A second step 123 is formed to be coupled to the first step 111 of 110, and an upper case 120 to which a reflective film 125 is attached to a side surface, a plurality of LEDs 131, and a circuit unit 133. ) Is mounted, and the coupling pin 115 of the lower case 110 The coupling hole 135 is formed at a corresponding position, the PCB 130 having a plurality of support pins 137 formed on the upper surface thereof, and the plurality of solar cells 141 arranged on the upper surface thereof, supporting the PCB 130. It is fixed by the pin 137, consists of a diffuser plate 160 for diffusing the light of the LED 131, when the LED 131 is lit, the light is diffused by the diffuser plate 160, the entire diffuser plate 160 Is emitted and light is reflected toward the diffuser plate 160 by the reflective film 125 attached to the side surface of the upper case 120.
However, such a conventional LED induction lamp using a solar cell is controlled by simply illuminance and does not have confidence in its lighting and blinking time, and emits a single color, thus giving a visual simplicity and boring the user. have.
In addition, Korean Utility Model Registration No. 20-0275710 introduces a technique that enables surface light emission by transmitting a sheet that diffuses light emitted by an LED. However, the conventional technology regulates the height of a channel along an optical path. Because of this, it is difficult to obtain the effect of obtaining surface emission in a low channel.
In addition, since the surface light emission is constituted by the channel height, there is a problem that the luminance is lowered. Another conventional method for surface luminescence, surface emitting solar cells filling epoxy into a channel
Panel lighting is introduced.
In addition, Korean Patent Laid-Open No. 2003-0055843 introduces an LED surface signage lighting device using a resin filler. However, in the conventional technologies, since the material is charged with resin, it is difficult to replace the existing neon channel signage because the material cost is high, heavy, and maintenance is difficult.
The present invention relates to an LED signboard using a solar cell module that functions to light or blink an LED attached to a signboard that has been generated by using a solar cell module that improves the above problems.
Supplying the driving power of the LED installed on the signboard to the solar cell, which uses solar light, to supply free power, and to reduce the fossil fuel by reducing carbon and carbon dioxide and consequently reducing power consumption. It is about the LED sign that can reduce the factor.

The present invention relates to an LED signboard lighting device using a solar cell module as described above, and in particular to an LED signboard, which is a high-luminance light emitting diode, is installed in the signboard unit and used for interior lighting and advertising signboards.
In general, the LED signboard is used for interior and advertising. LED surface-emitting solar panel lights using surface-emitting and diffusion sheets have been introduced by conventional methods.
LED (LED) has been widely applied for lighting output with the appearance of high luminous intensity and a variety of monochromatic light, and is widely spread around the world for signs such as traffic lights outdoor advertising signboards.
In order to solve the above problems, the present invention has been devised. The present invention has a long lifespan, greatly reduces the power consumption, and supplies free power using solar cells to LEDs that are environmentally friendly, and at the same time, uniform illumination is provided. Providing a luminous body, and also
By reducing the use of fossil fuels, it saves energy and reduces environmental pollution.
The purpose is to increase the efficiency of solar cells that convert light energy into electrical energy in the storage of electricity in the battery by converting sunlight from solar cells to electricity.
The LED light emitting diode using the solar cell module according to the present invention comprises a solar cell module for converting solar energy into electrical energy, a battery accumulating the converted electricity, and an LED lighting unit for emitting light by receiving the accumulated electricity in the battery. Connect the current supply control device and the light sensor between the LED light emitting device and the battery, and form the general power terminal to receive the general electricity for the insufficient electricity supply when the solar light is insufficient. Design the inverter, the current supply regulator to convert.
As described above, the LED light-emitting diode stores the power produced by the solar cell module in the battery through the reverse current prevention diode and the inverter of the current supply control device using solar energy, which is infinite energy, and stores the regulated specific power on one side of the signboard. It is supplied to a plurality of LED light emitting diodes.
LED light-emitting diodes are usually formed of a set of LED objects of the same color or different colors, depending on the signage or use of the sign.
The current supply must be connected in series or in parallel in order to form a circuit in conjunction with an adjustable resistor R and to ensure that a certain constant voltage is supplied.
In general, in the case of a traffic light, about 20 to 400 LEDs can be used for each color depending on the size of the lamp and the type of the LEDs. Each LED object constituting the LED light emitting device is generally a light emitter. It consumes DC power of less than 1W (e.g., 1 ~ 4V; 10 ~ 40mA) and is small (diameter: 3 ~ 5mm), and semiconductor devices are different depending on the color of light generated. Generally, red is AlGaAs (or GaP: Zn), blue is GaN (or SiC), green is GaP: N, yellow is GaAs and the like.
White is manufactured by adding a phosphor to a blue LED and using a special semiconductor directly. The solar cell module, which is a power supply device for LED light emitting diodes, is a module composed of several semiconductors (such as Si or GaAs) of a certain size electrically connected in series and in parallel according to a specific voltage and current required. When silver receives sunlight, current is generated by the characteristics of the semiconductor.
The efficiency of converting solar energy into electrical energy is about 12 ~ 14% in case of Si-semiconductor and about 18% in case of GaAs-semiconductor when using planar concentrator. The specific current and voltage regulated by the regulator are supplied to the LEDs.
The power stored in the battery continues to be supplied at a constant power level during the night or during the low insolation period.
In the general power supply, the regulated DC power through the AC / DC converter can be stored in the battery and supplied to the LED (LED) light emitting diode is an object of the present invention.

The LED signboard using the solar cell module of the present invention supplies power using the infinite energy of solar light, which saves cost and has a long service life (solar cell life: 10 to 15 years), reduces environmental pollution, and maintains The lamp is a device that operates significantly lower cost than incandescent lamps, fluorescent lamps, neon tubes, etc. and discloses a signboard lighting device having the advantage of not emitting carbon or carbon dioxide.
The present invention is to implement a signboard lighting device by attaching a solar cell module to the panel portion of the signboard of the shape desired by the consumer to install an LED diode thereto.
Another object of the present invention is to reduce the production cost by designing the size and width of the signboard slim, and another object is to allow a variety of letters or letter fonts of the signboard to be arranged by connecting the module to the LED of various sizes.

The present invention relates to an LED sign using a solar cell module using a solar cell module as described above, and in particular, a solar cell module, an LED diode, a controller, an inverter, and a battery are configured in a unit set, and each unit set is a flexible connection wire. By connecting, according to the shape of the signboard, it is possible to properly arrange and configure the solar cell module and the signboard lighting apparatus for the signage using the LED to improve the energy efficiency and lighting efficiency.
In general, indoor or outdoor advertisements or signs, neon signs using neon gas or signs that illuminate floodlights by lighting halogen lamps are known so that they can be easily recognized at night. If the lamp breaks down, it is very difficult to manage because of its high position.
The present invention has been made to solve the above problems, the object of the present invention is to significantly reduce the energy after installation and maintenance-free and has a solar cell module having many advantages that can reproduce a variety of figures and characters It relates to the LED sign used.

LED sign using the solar cell module according to the present invention as described above
Since there is no light weight, a slimness, and no risk of damage, no maintenance is required after installation, and a manufacturing cost is low, the conventional neon channel signboard may be replaced with an LED signboard using the solar cell module of the present application.
In addition, the LED module arranges LEDs of various sizes according to fonts, and can produce various lights by arranging three primary colors and single colors of high luminance blue, green, and red lights regardless of the font shape.
According to the LED signboard using the solar cell module of the present invention configured as described above, each of which is operated by the power of the solar cell, is automatically turned on at sunset time under the control of the main control module, the combination of various colors in the LED light emitting unit It is preferably used in road signs, caution signs, and the like, and can be used semi-permanently, and can be visually protruded to provide convenience.

The present invention relates to an LED sign using a solar cell that is a solar cell module 20 that emits a sign using a solar cell as described above. More particularly, the present invention relates to a plurality of solar cells of a solar collector used as a light source supply means. The LED (Light Emitting Diode) is installed on the signboard, but the power required to emit light of the LED (LED) is characterized in that the current generated by using the solar cell attached to the signboard.
A solar cell is typically 0.5V per piece, which is made by attaching several pieces in parallel or in series on a PCB and then covering them with tempered glass or epoxy.
The solar panel has a similar characteristic to a battery in terms of supplying electricity easily, but the battery 100 can be used at any time because electricity is stored, but the solar cell can be used only when the sun shines.
The present invention relates to an LED signage system using a solar cell module 20 that emits a commercial signage using a solar cell, and more particularly, a light source using a solar collector or a light emitting diode used as a light source supply means. In order to install LED (Light Emitting Diode) in place of power supply, the power required to emit light of this LED (LED) is composed of LED and control unit 140 in unit set of current generated by using solar cell and controlling current supply The device is stored in the battery 100 through the inverter 80, which is a device, is supplied as a power source, and is used semi-permanently as it is used in letters of the outdoor sign that the sunlight shines on, and can be visually protruded to provide convenience.
The solar cell used in the present application is the most urgent task to be solved in order to move toward a green power.
With the current energy consumption structure, which relies on fossil fuels, environmentally friendly growth such as carbon emission reduction is inevitable.
Among the green energy, the most attention is the photovoltaic and the advantages of this photovoltaic are three. First, it is easy to raise resources.
Polysilicon, a raw material for solar cells, a key component of photovoltaic power generation, is made by processing silicon (silicon), and silicon can be used indefinitely from sand or gravel silica.
Second is easy to install.
Wind and hydro are limited in terms of terrain and size, but solar can be installed as desired, whether it's window size or soccer field, as long as it's sun.
Third, electricity production peaks when electricity demand is highest.
In Korea, the demand for power generation reaches its peak in the summer due to the operation of air conditioners, and the solar power peaks in the summer. Because of these advantages, large companies as well as SMEs
The industry has been selected as a new business and is rapidly promoting commercialization.
The polysilicon is a raw material of the solar cell (solar cell), which is a key component of photovoltaic power generation
The polo silicon market is growing at an average annual rate of 26% and is currently experiencing supply and demand, which is due to high barriers to polysilicon production technology.
* The production of photovoltaic polysilicon requires a highly difficult chemical process that utilizes potentially dangerous substances such as explosion corrosion such as hydrogen (H₂) and hydrogen chloride (HCI).
Solar cell is the core part of photovoltaic power generation that receives light and converts it into electricity. Solar cell is made of polysilicon as a whole according to the production method. It is divided into thin film method that makes thin coating.
To date, the crystalline method of receiving light and converting it into electricity (light conversion efficiency) of 15-18% level has occupied more than 90% of the entire solar cell market after the thin film method of which efficiency drops to 6-7%.
However, due to the high price of polysilicon, research and development (R & D) on thin film methods that can produce solar cells at a lower cost than that of crystal methods is being actively conducted.
In addition, in order to lower the production cost of solar cells and increase the efficiency of light conversion, technology development is being actively carried out to realize the thickness of the solar cell plate, which is 200 micrometers or more, as thin as 100 μm.
Solar cells used in photovoltaic power generation include silicon solar cells, silicon thin films, CIGS (copper, indium, gallium, selenium) cells, dye-sensitized cells, and organic solar cells. The most common of these is silicon solar cell, and silicon solar cell is mainly used to produce polysilicon as raw material, process it into wafer and solar cell (solar cell), and finally combine it to complete solar power plant. It is divided into three stages.
Solar cells are made through various processes such as polysilicon into ingots, which are large crystalline masses, and cut into thin layers of about 200 μm (micrometers) to form wafers and forming electrodes. It is a key part of solar power generation that functions to convert.
Currently, solar cell companies in Korea are mostly focused on producing polysilicon, the raw material, and installing the power plant, the last stage of solar energy.In 2010, the polysilicon market has reached a saturation state where supply exceeds demand. 'Becomes.
In addition, solar cells are being imported from China and Taiwan and technology from Germany and Japan because there is no intermediate technology and material supply.
Solar power generation is being actively introduced around Germany, Spain, Japan and the United States.
In particular, Germany accounts for one-third of the world's photovoltaic power generation, while Korea's power generation is only 2% globally as of 2008, and is expected to remain at 3%, up 1% in 2010. The solar cell market is expected to outgrow the semiconductor memory market by 40% annually, showing 4.8% annual growth by 2015.
LED signage using the solar cell module of the present invention to achieve the above object
The solar cell module 20 for converting solar energy into electrical energy and the battery 100 for accumulating the converted electricity through the inverter 80 and the LED emitting light by receiving the electricity accumulated in the battery 100 Consists of a lighting unit, and connects the current supply control device and the light sensor and the illumination sensor between the LED light emitting device and the battery 100, the battery 100 to receive the general electricity for the insufficient electricity supply when solar light is insufficient The inverter 80, which is a current supply control device for converting alternating current electricity into direct current electricity, forms a common power supply unit 120.
When the inverter 80 is described in more detail, it refers to the oscillation of a specific frequency by using DC electricity as an input and switching the power semiconductor device on and off with the oscillated voltage (switching). Can be oscillated, stepped up or stepped down to the desired voltage;
If the DC voltage is increased in power to increase the frequency to another voltage, the large power developed in the present application can be used as a small high frequency transformer made of a ferrite core.
As described above, the LED light emitting diode module 40 uses the photovoltaic energy of infinite energy to pass the power produced by the solar cell module 40 through the reverse current prevention diode 60 and the inverter 80 as a current supply control device. Stored in the battery 100, and supplies the adjusted specific power to the plurality of LED light emitting diode module 40 installed on one side of the sign.
In addition, the LED (LED) light emitting diode is usually formed of a set of a plurality of LED (LED) objects of the same color or different colors according to the status or purpose of the sign, the resistance (R) that can be adjusted current supply Must be connected in series or in parallel in order to form a circuit and to supply a certain constant voltage.
* Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings, and in the following description of the present invention, detailed descriptions of related well-known functions or configurations complicated or unnecessary to the gist of the present invention. If it is determined that it can be blurred, the detailed description will be omitted.
Figure 1 is a photograph showing an embodiment of a power generation device using a conventional solar cell module showing a conventional photovoltaic device as a photograph.
2 is a perspective view according to an embodiment of the LED signboard using the solar cell module of the present invention, the self-powered signage of the present application to at least one solar cell module 20 and the electricity produced to produce electricity from sunlight A battery 100 having a function of storing the battery 100 and a stored power supply are made constant through the inverter 80 to be input to the LED diode module 40 so as to light a plurality of LED lamps.
In addition, the LED diode module 40 is a reverse current prevention diode 60 is placed on the PCB 160 of the control unit 140, the reverse current prevention diode 60 is the solar cell module 20 power generation When not at night or when the sun does not shine due to bad weather is stored in the battery 100 is attached to prevent the reverse current to the solar cell module 20.
In addition, the PCB 160 has a switch for operating the signboard of the present application, the sub-memory that causes the LED diode module 40 to emit light in a predetermined shape, and the LED sensor module 40 is turned on at night and is turned off during the day. The light sensor 280 is characterized in that the LED diode is turned on and off by a CDS (cadmium sulfide electric photometer) or (photodetector) light receiving element.
As such, the LED diode module 40 is configured with a control unit 140, and the PCB unit 160 is installed therein, and the PCB unit 160 controls the lighting of the signboard and has a unique color of the LED diode module 40. A sub memory and an optical sensor 280 are installed to store or output codes, signs, and codes of codes and signs.
On the other hand, the light emitting system of the LED used in the above briefly describes a cdm (cadmium sulfide electric photometer) or (photodetector) light receiving element;
First, CDS acts as a switch to operate a relay. That is, a device whose internal resistance changes according to the amount of light (brightness of light), and CDS is used for an optical sensor. It uses the principle to distinguish between night and day.
Attach the CDS or light-receiving element to the PCB part of the present application to distinguish between night and day, and operate the relay with the signal generated here to turn on or off the signboard of the present application.
The CDS has a low internal resistance when the amount of light is high and an internal resistance when the amount of light is low.
Since each CDS has a characteristic, the resistance value of dark (very dark) is generally several tens to several hundred ohms, and drops to several hundred ohms when sunlight is shot.
In indoor lighting it is several ohms, and the hand-capped CDS window is several hundred ohms.
If the light quantity change is large, the resistance value takes the center value of the normal state of the CDS.
In addition, there is a depletion layer at the junction between the p-type and n-type portions of the diode. At this time, if the power and the LED are connected in series with the photodiode in the reverse direction and the light is not emitted, the reverse direction is applied and the resistance is too large. LED does not light up.
In addition, the photoelectric device is a device that measures the photon flux or optical power by converting the energy of the photon absorbed by the photodetector device into a form that can measure the photoelectric device is based on the photoeffect (photoeffect). Photons absorbed by the device generate carriers, such as electrons and holes, in the material of the device, and a measurable current is generated by the flow of the carrier.
* The light receiving device has the advantages of high sensitivity, fast response speed, and minimum noise. It is widely used as an optical signal detecting device in optical fiber communication systems operating in the near infrared region (0.8 ~ 1.6 μm).
However, when light is received, the light goes through the depletion layer, and the current of the diode applied in the reverse direction is proportional to the electron and hole pair generated in the depletion layer.
In this circuit, it is preferable that one CDS and a resistor are connected in parallel to the base of the transistor, and the CDS and a resistor are connected together to the base of the transistor, and then one is at the top of the circuit, and the resistor is separated at the bottom of the circuit. To be connected to the part
do.
Figure 3 is an exploded perspective view according to an embodiment of the LED signboard using the solar cell module of the present invention, the LED signboard using the solar cell module of the present invention solar panel module 20 on the signboard panel 180 solar cell module bracket The LED diode module 40 is fixed by the LED bracket 240 to be attached by the 220 and to display a signboard between the cells of the solar cell module 20 or between the solar cell module bracket 220 or an upper portion of the solar cell module 20. It is to be communicated by the (200) is shown in a perspective view that the signage is fixed by the signage fixing member 260.
Figure 4 shows an arrangement perspective view according to an embodiment of the solar cell module in the LED signboard using the solar cell module of the present invention, the LED signboard using the solar cell module of the present application is a solar cell module ( 20) is attached to the solar cell module bracket 220, for a more smooth power generation, the secondary solar cell module 300 is installed in a well-transmitted part, such as a rooftop, and the electricity generated by the auxiliary solar cell connection wire 320 When the power of the power generation unit is not smooth and the power is supplied to the battery 100 is to be supplied to the LED diode module 40 by the general power supply unit 120 directly.
5 is an arrangement perspective view of an LED light emitting diode using the solar cell module of the present invention according to an embodiment of the embodiment between the cells of the solar cell module 20 or the solar cell module bracket 220 or the top of the signage The LED diode module 40 for illuminating is shown in perspective view that it is fixed by the LED bracket 240 and is communicated by the connecting wire 200, and the spacing between each of the LED diode modules 40 is 0.7 to 5 cm. It is preferred to be spaced apart.
FIG. 6 is a perspective view according to an embodiment of the second solar cell module in the LED signboard using the solar cell module of the present invention, when the irradiation amount is small, the solar cell module 20 is attached to the front and side surfaces of the signboard body. And here is shown an embodiment to turn on the letters on the side with the power generated.
In addition, the secondary solar cell module 300 is installed in a well-transmitted part, such as a rooftop or a top of a building or a wall, for a smoother power generation than when it is difficult to generate power in the solar cell module 20 or cover other buildings. A perspective view shows that electricity generated by the auxiliary solar cell connection wire 320 is introduced into the battery 100.
7 is a perspective view according to an embodiment in which the LED lamp is attached to the solar cell module in the LED signboard using the solar cell module of the present invention, the solar cell module 20 is freely attached to the upper side of the front surface of the signboard It may be preferably attached to any one selected from the upper side of the front portion of the signboard or may be attached to the entire signboard to generate power, and may be installed in the form of an interplate board, the top of the solar cell module 20 The LED diode module 40 of the present application is installed to the inside or the gap of the solar cell.
8 is an operation block diagram according to an embodiment of the LED sign using the solar cell module of the present invention, the sign panel 180 is a solar cell module 20 and the auxiliary solar cell module of the main body to generate power by sunlight 300 and the general power supply unit 120 used when the amount of power generation is insufficient and the power generated above by the connection wire 200
The power stored and stored in the battery 100 is stored by the inverter 80 as described above.
The LED diode module 40 is turned on to light up.
On the other hand, the LED diode module 40 is configured with a controller 140, which is provided with a PCB 160, the sub-memory that recognizes the lighting of the signboard and stores a variety of programs, and the unique color code given; An optical sensor 280 is installed, but the optical sensor does not operate during the daytime when the lighting of the signboard is not necessary, and the light sensor 280 is activated to illuminate the LED of the signboard, thereby lighting the LED. 140)
The light sensor 280 is characterized in that the LED diode is turned on and off by a CDS (cadmium sulfide electric photometer) or (photodetector) light receiving element.
In addition, due to the characteristics of the solar cell, power generation is not possible in the absence of sunlight, so when connected to a battery (sometimes used to charge the battery), electricity must flow from the cell to the battery. This is because electricity to the cell can be reversed.
It is a reverse current prevention diode (60) to prevent it, and there are many kinds of diodes. The reverse current prevention diode is mainly used in solar cells such as a reverse current prevention diode and a constant current diode.
In addition, the LED diode is a reverse current prevention diode 60 is installed in the control unit 140 or the PCB unit 160, which is not the sun shines due to bad weather or weather when the solar cell module 20 does not generate power When not, the power stored in the battery 100 is reverse current to the solar cell module 20 will be attached to prevent the solar cell module 20 is damaged.
On the other hand, the upper part of the building is attached to the secondary solar cell module 300 separately on the rooftop, which is directly connected to the LED diode module 40 through the auxiliary solar cell connection wire 320 when the main power generation unit is not smooth. Power is supplied to the power source is preferably supplied by the general power supply unit 120.
The operation of lighting for the LED signboard using the solar cell modules 20 and 280 according to the present invention is composed of a control unit 140 in which a microcomputer is configured to control a power unit capable of stably maintaining appropriate brightness.
In addition, since the LED diode module 40 of the present invention preferably implements three colors of red, green, and blue colors in one module, a large current flows in switching TR by the PWM method, so that the microcomputer control current is applied to the NPNC 1008. It is preferable to drive the TR of PNP B227 to control ON, OFF, and current.
The microcomputer control unit 140 will be described in detail as follows.
The signage user can set the input part 1 to DIP S / W to control various numbers of characters so that anyone can use it, and the input part 2 to set various colors and techniques to suit the installation location and their signals. It is part of the microcontroller that can be implemented by the program already built in.
The controller 140 is attached with an inverter 80 having a constant voltage and a constant current circuit for maintaining the voltage so that the DC voltage supplied from the connection wire 200 matches the driving voltage of the LED diode module 40.
In addition, one side of the signboard panel 180 is formed with at least one signboard fixing member 240 for fastening with a screw or rivet and bolts, screws, etc. to the signboard.
When the power generated from the solar cell modules 20 and 280 is supplied with DC power to each controller 140 from the connection wire 200, the inverter 80 is a transformer in which the constant voltage and constant current circuits of the controller 140 are installed. Maintains the voltage so that the DC voltage supplied from the connecting wire 200 matches the driving voltage of the LED diode module 40.
Subsequently, each control unit 140 turns on the LED lamp by applying power to the LED diode module 40.
The signage panel 180 charges the battery 100 with the solar cell modules 20 and 280 in which a plurality of solar cells are arranged on one side of the signage unit, and the voltage output from the solar cell modules 20 and 280, and converts the charged voltages. The solar cell module, characterized in that consisting of a control unit 140, the inverter 80 to input and output, the optical sensor 260 to detect the sunset and sunrise around the operation and the printed circuit board 160 to operate it The purpose of the present invention to construct the LED sign used.
While the specification of the present invention has been shown and described with respect to a preferred embodiment according to an embodiment, the present invention is not limited to the above embodiment, various modifications may be made without departing from the spirit of the invention claimed in the claims. And above
The present invention described is not to be construed as limited to the terms or words used in the specification and claims in the usual or dictionary sense, the inventors of the present invention is appropriate to explain the concept of the term in order to best describe his invention It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined.
Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, it can be replaced at the time of the present application Those skilled in the art should understand that there may be various equivalents and variations.
In addition, terms to be described below are terms which are briefly defined in consideration of functions in the present invention, and may be changed according to the intention or custom of those skilled in the art, and the method of manufacturing needles of the present application may be included in a general preferable manufacturing method and therefore the definition thereof. Will be made based on the contents throughout the specification.

The present invention relates to a signboard capable of lighting or blinking an LED installed on a signboard using a solar cell as described above. More particularly, the LEDs of the signboard are operated by a power source of a solar cell, which is an infinite resource. The light sensor attached is automatically turned on at sunset time and turned off at sunrise time, and the LED signboard using the solar cell module which can continuously generate power using solar cells.
In the solar cell module of the present invention, a solar cell converts solar energy into light energy, and the solar cell makes a solar panel by hitting several pieces of the solar cell as a basic unit of the solar cell.
Solar cell devices (modules) and solar batteries using solar light are generalized, and the area of solar cells is installed to supply sufficient electromotive force to the battery to continuously supply a constant voltage and current according to the characteristics of the LEDs (LEDs) used. The amount of insolation at the place should be adjusted.
And if the rainy season or other weather is not enough to use enough electricity with only the solar cell module (20 280), simply use the general electric devices including the AC / DC converter, or using the general battery's LED diode module (40) on
Can supply power
In addition, the present invention can supply free power or minimize general power consumption by supplying power to the LED light emitting diode module 40, which is preferably used for display signs and signaling devices, as well as solar panels. . In addition, it is possible to supply a uniform luminous flux (light), the light density of the light emitter is constant, and by minimizing the general power consumption can reduce the environmental pollution by reducing the use of fossil fuel for electricity generation.
In addition, the application of economical solar cells using a solar concentrator can be diversified, and unlike the conventional light emitting device using a thermal lamp or an optical fiber, the device has little power consumption, requires no maintenance, and has a long life and economical efficiency.
In addition, it is environmentally friendly because dust is not generated due to high heat such as incandescent lamps, and the light emitting device according to the present invention is driven by converting solar light into electrical energy so that it can be installed in a place where a general electric cable is not wired. Since LEDs can emit three primary colors and white light, there are many advantages that can be produced in various combinations of light colors (16 million).

1 is a photograph showing an embodiment of a power generation apparatus using a conventional solar cell module.
Figure 2 is an overall perspective view according to one embodiment of the LED signboard using the solar cell module of the present invention.
Figure 3 is an exploded perspective view according to an embodiment of the LED signboard using the solar cell module of the present invention.
Figure 4 is a perspective view of the arrangement according to an embodiment of the solar cell module in the LED signboard using the solar cell module of the present invention.
Figure 5 is a perspective view of the arrangement according to an embodiment of the LED light emitting diode in the LED signboard using the solar cell module of the present invention.
Figure 6 is a perspective view according to an embodiment of the second solar cell module in the LED signboard using the solar cell module of the present invention.
7 is a perspective view according to an embodiment in which the LED lamp is attached to the solar cell module in the LED signboard using the solar cell module of the present invention.
8 is an operation block diagram according to an embodiment of the LED signboard using the solar cell module of the present invention.
Brief description of the main parts of the drawing
20: solar cell module 40: LED diode module
60: reverse current protection diode 80: inverter
100: battery 120: general power supply
140: control unit 160: PCB sub memory
180: sign panel 200: connecting wire
220: solar cell module bracket 240: LED bracket
260: signboard fixing member 280: light sensor
300: auxiliary solar cell module 320: auxiliary solar cell connection wire

Claims (12)

In the signboard The signboard is configured with a signboard panel 180 and at least one solar cell module 20 is installed at one side of the signboard panel 180 to produce electricity from the LED and the solar module; Power stored in the battery 100 for storing the electricity produced from the solar cell module 20 and the power stored in the battery by the inverter 80 to supply it to the LED diode module 40 installed in the signboard LED signage using a solar cell module, characterized in that consisting of the device. delete The method of claim 1, The LED signboard using the solar cell module 20 is attached to the signboard panel 180, the solar cell module 20 is attached by the solar cell module bracket 220, the solar cell module 20 and the LED diode module 40 The LED signboard using the solar cell module characterized in that the communication by the connection wires 200 and the gap between the LED diode module 40 is installed spaced apart from 0.7 ~ 5cm. The method of claim 3, wherein The LED signboard using the solar cell module 20 is attached to the solar cell module 20 on the sign panel 180 by the solar cell module bracket 220, and a separate auxiliary solar cell module 300 is installed and assisted. The electricity generated by the solar cell connection wire 320 is supplied to the battery 100, and the auxiliary solar cell module 300 is installed on the roof of the building or on the upper wall of the building so that the LED diode module 40 installed on the sign is emitted. LED signboard using the solar cell module characterized in that. delete delete delete The method of claim 1, The LED diode module 40 is provided with a control unit 140 and the PCB unit 160, the PCB 160 to control the lighting of the sign and the unique color code of the LED diode module 40 is stored or output A sub memory and an optical sensor 280 are installed, and the optical sensor 280 is not activated during the daytime when lighting of the signboard is not necessary, and it is activated at sunset to illuminate the LED of the signboard. LED sign using a solar cell module, characterized in that the LED diode module 40 is turned on and off by a (cadmium sulfide electric photometer) or (photodetector) light receiving element. delete delete delete delete

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