KR102105806B1 - LED Lighting Apparatus and Method of Manufacturing the Same - Google Patents

Abstract

The present invention relates to a sheet-type LED lighting apparatus using sunlight and a method for manufacturing the same, and more specifically, to a sheet-type LED lighting apparatus in which a power source can be used in a hybrid form by using any one or both among power generated by photovoltaic power generation and common power. In addition, the present invention relates to a sheet-type LED lighting apparatus using sunlight in which a sheet by itself performs a lighting function, and a method for manufacturing the same. The present invention can use a technique, in which conductive ink is quantitatively discharged, to mount an LED package, which is a light emitting means, on a sheet and to perform a lighting function by the sheet itself, thereby not installing any additional lighting apparatus, control an LED lighting, and improve the functional quality of the sheet by attaching the illumination sensing sensor and the motion sensing sensor. Thus, the present invention can reduce costs and improve environmental pollution by minimizing power loss. In addition, the present invention uses any one or both of power generated by photovoltaic power generation and common power, thereby using a power source in a hybrid form, and intelligently controlling the power, and there is thus the advantage that a problem of costs with respect to a power generation and use can be ameliorated.

Description

Sheet-type LED lighting device using sunlight and its manufacturing method {LED Lighting Apparatus and Method of Manufacturing the Same}

The present invention relates to a sheet-type LED lighting device using solar light and a method for manufacturing the same, and more specifically, to use a power source in a hybrid form by simultaneously using one or both of power generated through solar power and commercial power. It is possible. The illuminance sensor and motion detector are attached to automatically turn on after the sunshine time. In addition, the present invention relates to a sheet-like LED lighting device using solar light, which performs its own lighting function, and a manufacturing method thereof.

Recently, for the purpose of transmitting and designing information inside and outside the building, a variety of sheet paper installations, such as UV printouts and photorealistic printouts, are simple and relatively inexpensive.

However, existing products such as UV printouts and photorealistic printouts can be exposed to the inside and outside of the building during the day when it is possible to secure the field of view, and can perform the purpose of information transfer and design without a separate lighting device, but without a lighting device at night when it is difficult to secure the field of view. Since it is not possible to perform the above object, there are disclosed technologies that have added functionality, such as multi-functional sheet paper according to Korean Patent Publication No. 10-2016-0006572.

The multi-functional sheet paper according to the published patent No. 10-2016-0006572 is a sheet paper (L) formed of a sheet of paper and vinyl paper as shown in Figure 1, a number of brushed is formed and the electric wire (2) in the inner center It is composed of a fiber yarn 21, a light emitting diode, a self-powered device, and a static electricity generating device.

The multi-functional sheet paper according to the aforementioned Patent Publication No. 10-2016-0006572 can obtain an effect on the interior decoration, but has various problems as follows.

First, the above-described multi-functional sheet paper is configured to artificially induce static electricity with an electrostatic generating device so that fine dust is adsorbed on the multi-functional sheet paper. However, there are disadvantages of being an inhibitor.

In addition, the aforementioned multi-functional sheet paper has the disadvantage that an increase in the number of processes generated and an increase in manufacturing cost due to the need for the electric wire to be made of a fiber yarn in which a plurality of brushed hairs are formed.

In addition, the conductor of the electric conductor is composed of a number of strands formed in a diameter ranging from 10 to 500 micrometers (µm), and thus has limitations with respect to the change in the resistance value of the electrical conductor or the thickness of the electrical conductor.

Also, in order to attach the fiber yarn in a desired shape, a plurality of pins are used to fix it in a desired shape and a shape retainer must be added, which increases manufacturing time and increases costs.

In addition, there is a disadvantage in that once the product is manufactured, if the electric wire is short-circuited or damaged, it cannot be repaired and rework is required.

Patent Publication No. 10-2016-0006572 (application number: 1020140086789) Patent Registration 10-0779703

The present invention has been proposed in view of the above, and the technology for discharging the conductive ink on the sheet paper using a technique of discharging the conductive circuit on the sheet paper is simple and easy to repair, and is formed into a desired shape, and the LED package, which is a light emitting means, of the sheet paper The purpose of this is to provide a sheet-type LED lighting device and a method for manufacturing the sheet-type LED lighting device that enables the function of transmitting and designing information, which is the purpose of the sheet-sheet itself, even at night by mounting the surface or inside using a conductive adhesive and performing the lighting function by itself. There is this.

Another object of the present invention is to place a solar panel on one side of the sheet paper, and use one or both of the power generated from solar power and commercial power at the same time, using a power source in a hybrid form to maximize energy efficiency. It is an object to provide a lighting device and a manufacturing method thereof.

Another object of the present invention is to attach an illumination sensor and a motion sensor, and adjust the power for lighting of solar electricity, commercial electricity, and sheet paper intelligently to increase power use efficiency and save fixed costs. And an object of the present invention.

A sheet paper-type LED lighting device using sunlight according to the present invention and a manufacturing method for achieving the above object are sheet paper formed on a surface; And a power supply circuit disposed on or inside the sheet paper. Conductive adhesive for connecting the LED package and the power supply circuit disposed on the surface or inside of the sheet paper and fixing the LED package: An LED package array composed of a plurality of LED packages electrically connected to the sheet circuit power supply circuit or on the surface or inside of the sheet paper ; Controller for controlling the LED package: Design unit such as a photorealistic output formed by UV printing or inkjet printing: a solar panel for using a power source in a hybrid form; It is characterized by attaching an illuminance sensor and a motion sensor to efficiently reduce the supply power, so that it can intelligently adjust the power for lighting of solar electricity, commercial electricity, and sheet paper to convert and produce specific images.

The material of the sheet is a transparent PET (Poly Ethylene terephthalate polyethylene terephthalate) film, PI (Polyimide, polyimide) film, PE (Poly Ethylene polyethylene) film, PEN (PE (Poly Ethylene Naphthalene) film or acrylic (Acrylic) or glass It is characterized in that any material that does not deform at room temperature of 300 degrees or less can be used.

Since the sheet paper is elastic, it may be used to stretch the sheet paper when attached to a window or curved surface.

The conductive circuit is a metal ink formed of conductive nanoparticles or micron-sized conductive particles, and any one of the conductive ink selected from conductive ink containing copper particles, graphene particles, carbon particles, and silver particles is selected. It is characterized by being disposed integrally on the surface or inside.

The conductive ink is characterized in that a binder for facilitating adhesion to the sheet paper is added and fixed in one piece with the sheet paper by quantitatively discharging it into a desired shape on the surface or inside of the sheet paper.

The conductive circuit may be applied with a conductive ink of sintering at a temperature of 80 to 150 ° C , natural sintering at room temperature, and curing at a constant temperature or higher depending on the additive.

The energizing circuit may have a multi-layered layer configuration for driving the RGB package. For this purpose, the sheet is punched into the sheet to create the energizing circuit on the top and bottom of the sheet, and discharge conductive ink between the perforated spaces of the sheet. It is characterized by being configured to energize by connecting.

In addition, in order to construct the multilayer layer of the energizing circuit, a non-conductive material is coated on the energizing circuit by quantitative discharge to prevent energization, and then a conducting circuit is formed with conductive ink on the non-conducting material, and only the necessary parts are applied to the lower energizing circuit and the upper energizing circuit. Since it is configured to connect, it is possible to configure a multi-layered layer, and it is characterized in that two can be configured together as needed.

The energizing circuit may further include a power supply for supplying power.

And the power supply unit is characterized in that it includes a secondary battery in the current state of the rechargeable battery to store the power of commercial electricity and the power produced by the solar panel and use the power when needed.

The energizing circuit may further include a bridge diode in order to eliminate the polarity of the electrodes DC + and-in front of the LED package array.

The current-carrying circuit is characterized in that a waterproof layer can be applied on the current-carrying circuit using epoxy or UV resin for waterproofing and moisture-proofing and can be coated using a separate thin and transparent sheet paper.

The conductive adhesive may use an epoxy-based, silicon-based, or carbon-based, and the surface resistance value is 4 X 10 ^-4 ohm (Ω) or more, and the position where the lead frame of the LED package is placed and the external power and conductive ink It is characterized in that it is applied to the location of various parts, such as the position of the copper plate for connection of, and used for the purpose of applying electricity and fixing the parts.

The LED package array is electrically connected to the energizing circuit of the sheet to make a LED light source of various colors by configuring any one or multiple of white, blue, red, green, and RGB on the surface or inside of the sheet. It is characterized by being able to.

The LED package array may additionally configure and connect a drive IC to control each LED package, and through this, various directions may be performed.

The LED package array may be further connected to an LED controller for controlling the drive IC.

The design part is formed by using UV print or inkjet print, and the design can be formed in the process before the current-carrying circuit is formed on the surface or inside of the sheet paper, or the design part can be formed in the process after the LED package array is formed. .

The design part may be used by cutting a sheet with color in a specific shape or form without additional printing.

The solar panel is characterized in that an organic solar cell is disposed on one side of the sheet to use a power source in a hybrid form by using one or both of power generated through solar power and commercial power at the same time.

The size of the photovoltaic panel used in the solar panel may vary depending on the surrounding environment information of the sheet-type LED lighting device and the amount of power required for a power supply circuit and a plurality of LED packages.

The illuminance detection sensor connects to one side of the sheet to detect the amount of illuminance and signals the solar panel to self-generate during the daylight hours and signals to supply power to the LED package array during the sunset time. It is characterized in that power loss can be reduced by controlling and controlling power to the LED package array according to the illuminance.

The motion detection sensor line connects to one side of the sheet and senses the movement of an object, such as a person or a car. Normally, a signal is applied to the LED package array or LED controller to supply the power of the LED package array to a minimum. A person senses the movement of an object such as a person or a vehicle and applies a signal to the LED controller, and the LED controller adjusts the power of the LED package array to improve the visibility of the information and design expressed on the sheet, and the LED package array In addition, it is characterized in that the power of solar and commercial electricity can be intelligently adjusted to convert and produce specific images.

In order to achieve the above object, a method of manufacturing a sheet paper-type LED lighting device using sunlight according to the present invention includes a sheet paper body forming step; Forming an energizing circuit on the inside or the surface of the sheet; An LED array forming step of forming a plurality of LED packages on the surface or inside of the sheet paper by being electrically connected to a power supply circuit formed on the sheet paper; A design part forming step such as photorealistic printing formed by UV printing or inkjet printing; Connecting a solar panel to one side of the sheet; It characterized in that it comprises a step of connecting the sensor, the motion detection sensor when detecting the illumination to control the power intelligently, the controller on one side of the sheet.

The sheet-type LED lighting device using sunlight according to the present invention and its manufacturing method are equipped with LED lights that cannot be seen in conventional photorealistic output or UV-printed sheet paper, which is the purpose of the sheet paper itself at night as well as in the dark. It can function as a delivery of information and design, and it can replace existing signboards at low cost by making various presentations and attaching them to windows.

In addition, the conduction circuit can be made by controlling the desired thickness and width by quantitatively discharging the conductive ink according to the required resistance value even in a non-constant location. The shape-retaining member for and the working process therefor are significantly reduced, so the production cost is reduced, so the price competitiveness is improved.

In addition, the present invention solves the problem of environmental pollution by using a power source in a hybrid form by using one or both of power generated from solar power and commercial power at the same time, thereby reducing the cost of power generation and use and using eco-friendly alternative energy. There is an advantage that can be improved.

In addition, it is possible to intelligently minimize power loss through the motion detection sensor, thereby reducing economic loss.

1 is a view for explaining the prior art,
2 is a view showing a sheet-shaped LED lighting device using sunlight in an embodiment of the present invention.
3 is a cross-sectional view illustrating a structure of a sheet-type LED lighting device using sunlight shown in FIG. 2.
FIG. 4 is a view according to an embodiment of configuring a power supply circuit of a sheet-type LED lighting device using sunlight shown in FIG. 2.
5 is another view of the embodiment in which the LED package is attached to the embodiment of FIG. 4.
FIG. 6 is a view for explaining a method of forming a multilayer layer of a sheet-like LED lighting device using sunlight shown in FIG. 2.
7 is a view of the configuration of the power supply of the sheet-shaped LED lighting apparatus using sunlight according to the embodiment 2 of the present invention.
8 is a view showing another manufacturing method of a sheet-type LED lighting device using sunlight in an embodiment of the present invention.
9 is a view showing the overall configuration of a sheet-shaped LED lighting apparatus using sunlight in an embodiment of the present invention.

The present invention can be applied to a variety of transformations and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, it is not intended to be limited to the specific embodiments of the present invention, it should be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention. In the description of the present invention, when it is determined that a detailed description of known technologies related to the present invention may obscure the subject matter of the present invention, the detailed description will be omitted.

Terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "include" or "have" are intended to indicate the presence of features, numbers, steps, actions, components, parts or combinations thereof described herein, one or more other features. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Sheet paper-type LED lighting device using sunlight according to a preferred embodiment of the present invention (Fig. 2) is a sheet paper 100,

LED package 200, a plurality of power supply circuits 300 for supplying power required for lighting of devices such as, a conductive ink (300 (a)) for configuring the power supply circuit 300, LED package 200 for lighting ), A conductive adhesive 400 for fixing the LED package 200, a power supply unit 500 for supplying power to a current-carrying circuit, a design unit 600 composed of color or monochromatic ink for expressing an image, hybrid electric power Solar panel 700 for writing in form, a drive IC (h) for controlling a plurality of LED packages 200, a drive IC (h) or a controller 800 for directly controlling a plurality of LED packages 200 , It is composed of an illumination detection sensor (900) for automatically lighting after sunset, and a motion detection sensor (1000) for minimizing power consumption.

The material of the sheet 100 is a transparent PET (Poly Ethylene terephthalate polyethylene terephthalate) film, PI (Polyimide, polyimide) film, PE (Poly Ethylene polyethylene) film, PEN (PE (Poly Ethylene Naphthalene) film or acrylic (Acrylic) Alternatively, a material that does not deform or stretches at room temperature of 300 degrees or less, such as glass, can also be used.

Using the dispenser for quantitative dispensing on the sheet 100, draw the energizing circuit 300 in a desired shape on the sheet.

At this time, the attachment position of the LED package 200 for the purpose of light emission, the position of the bridge diode (g) to eliminate the +,-polarity, and the pattern of the power supply unit 500 is sequentially discharged quantitatively to form an energizing circuit (300). do.

 The energizing circuit 300 is composed of a conductive ink 300 (a), and the conductive ink 300 (a) is palladium (Pd, Palladium) or aluminum (Al), chromium (Cr, Chromium) having excellent electrical conductivity. ), Copper (Cu), silver (Ag), nichrome (NiCr, Nichrome) or titanium (Ti, Titanium), or at least a combination of one or more of these.

Then, a conductive adhesive using a dispenser for quantitative dispensing on the position where the lead frame (c) in the part is placed at a position where an electronic component such as an LED package 20 or a bridge diode (g) is mounted in the energizing circuit 300 The 400 is discharged in the form of a dot so that the part is fixed.

In addition, the conductive adhesive 400 may change the order of the process of attaching the LED package array and other components and applying the conductive adhesive 400 according to the characteristics of the sheet-type LED lighting device using sunlight.

At this time, the conductive adhesive 400 should not be fixed before the component is attached using a material that is not sintered, dried, or cured within 10 minutes at room temperature.

Then, the LED package 200 and electronic components required on the sheet formed by the energizing circuit 300 are mounted by pick and place or manually to form an LED package array, dried at room temperature, cured, or sintered at 130 ° C for 10 minutes. , Curing is applied to make the resistance value to a minimum. In this case, the time and temperature for sintering and curing may be different depending on the physical properties of the conductive adhesive 400 and the conductive ink 300 (a).

Also, as shown in FIG. 6, to form a multi-layered layer of the energizing circuit 300, perforating the sheet paper to make the energizing circuit 300 on the top and bottom surfaces of the sheet paper, and perforating (b) the sheet paper 100. Conductive ink 300 (a) may be discharged and connected between spaces to conduct electricity.

In addition, in order to form a multi-layered layer of the energizing circuit 300, a conductive ink (300 (a)) is applied on the non-conductive material (d) after the non-conductive material (d) is applied to the energizing circuit 300 by quantitative discharge to prevent energization. A multi-layered layer can be configured because the current-carrying circuit is configured and only necessary parts are configured to connect the lower current-carrying circuit 300 and the upper current-carrying circuit 300.

The sheet 100 may be coated with a waterproof layer (f) on the conductive circuit using epoxy or UV resin for waterproofing and moisture-proofing the conductive circuit 300, and coated with a film on the finished sheet 100 You can also do

At this time, by changing the working process, as shown in FIG. 8, the energizing circuit 300 is formed on the sheet paper 100, and a separate sheet paper 100-1 is adhered to the sheet paper 100 forming the LED package array. You can also make products. In addition, the power supply circuit, LED package array power supply, etc. may be formed on the sheet paper 100-1 first, and a waterproof layer may be formed of a material such as epoxy or UV sheet for waterproof and moisture-proof.

For example, both the sheet 100 and the sheet 100-1 may be made of a transparent material.

The sheet paper 100-1 forms a design unit such as a photorealistic output formed by UV printing or inkjet printing.

The power supply unit 500 is composed of a commercial power source (c), a charging battery (e) for using electricity of the solar panel 700 at night, and a solar panel 700. Here, since the detailed configuration is similar to the conventional configuration, detailed description is omitted.

The design unit 600 uses a color or monochrome ink for expressing an image to shape a desired shape with a photorealistic output device and a UV print.

The UV print is a printing method that is instantaneously fixed and cured by irradiating ultraviolet light using the chemical reaction property of UV ink in a liquid state, and it is possible to describe and express high-quality images on soft and hard materials. It is an odorless, non-toxic and eco-friendly photorealistic printout that has strong durability against the environment such as decoloration by light, deformation by humidity, etc., and does not generate harmful substances such as organic compounds.

UV output can be printed on sheet paper, film, fabric, etc., as well as all interior materials, including glass or acrylic, formax, foam board, plastic, tile, iron plate, wood, and industrial materials with a thickness of 50 mm or less. .

In addition, a solar panel 700 for using a power source in a hybrid form by generating power on one side of the sheet is connected. At this time, the solar panel 700 may use various types of solar cells, but it is preferable to attach a dye-sensitized solar cell among organic solar cells.

The solar panel 700 is also called a solar cell, and is a device that generates power by directly and parallel connecting several solar cells that convert solar energy into electrical energy. The solar cell panel 700 generates electron / hole pairs when light having an energy equal to or higher than the energy gap of the semiconductor is projected at the pn junction of the semiconductor or the contact of the short group, and the electrons and holes are separated by the electric field at the junction, thereby forming an external circuit. It uses the photoelectric effect that flows as a current. The size of the photovoltaic panel used in the solar panel 700 may vary depending on the surrounding environment information of the sheet-type LED lighting device and the amount of power required for the power supply circuit 300 and the plurality of LED packages 200.

Then, the energizing circuit 300 and the controller 800 of the sheet 100 are connected.

In addition, the energizing circuit 300 of the sheet 100 and the illumination sensor 900 are connected.

Then, the energizing circuit 300 of the base sheet 100 and the motion detection sensor 1000 are connected.

100: sheet paper
100-1: sheet with a design part formed
200: LED package
300: energizing circuit
300 (a): Conductive nano ink
400: conductive adhesive
500: power supply
600: design department
700: solar panel
800: controller
900: Illumination detection sensor
1000: Motion detection sensor
(b): punching
(c): Lead frame
(d): Non-conductive material
(e): Rechargeable battery
(f): Waterproof layer
(g): Bridge diode
(h): Drive IC

Claims (12)

In the sheet-type LED lighting device using sunlight,
Sheet paper formed in a plane; And a conductive ink containing copper particles, graphene particles, carbon particles, and silver particles as a metal ink formed of conductive nanoparticles or micron-sized conductive particles inside the sheet paper, and using a dispenser. An energized circuit arranged; A conductive adhesive for connecting a power supply circuit disposed inside the sheet paper and the LED package and fixing the LED package; An LED package array which is electrically connected to the energizing circuit of the sheet and is composed of a plurality of LED packages inside the sheet; Controller for controlling the LED package; A design unit formed by at least one of UV printing, sheet cutting, inkjet printing, and photorealistic printing; A solar panel for using a power source in a hybrid form; a sheet paper type LED lighting device using sunlight, characterized by intelligently controlling power by including an illumination sensor and a motion sensor.
According to claim 1,
The energizing circuit is a sheet paper type LED lighting device using sunlight, characterized in that it is disposed integrally on the surface or inside of the sheet by adjusting the width and height of the energizing circuit using a dispenser that is discharged in a fixed amount.
According to claim 1,
The energizing circuit includes a power supply for supplying power and a bridge diode to eliminate the polarity of the electrodes (DC +,-) in front of the LED package array.
According to claim 1,
The energizing circuit is a sheet-type LED lighting device using sunlight, characterized in that a multi-layer layer is formed using a non-conductive material or perforation.
According to claim 1,
Conductive adhesive is a material made of one of epoxy, silicon, and carbon series. The surface resistance value is 4 X 10 ^-4 ohm (Ω) or higher, and the location of the lead frame of the LED package and the external power supply and the power supply circuit. A sheet-type LED lighting device using sunlight, which is applied to a position of a copper plate for connection and is used for the purpose of fixing electricity and fixing parts.
According to claim 1,
The LED package array is a sheet-type LED lighting device using sunlight, characterized in that one or a combination of white, blue, red, green, and RGB LED packages can be used to make LED light sources of various colors.
According to claim 1,
The controller is a sheet-type LED lighting device using sunlight, characterized in that a drive IC can be additionally configured to connect or to control the LED package with the controller itself to create various colors or directions.
According to claim 1,
The solar panel is formed on one side of the sheet paper and is connected to the energizing circuit through a secondary battery, and uses one of the generated power and commercial power or simultaneously using the power source in a hybrid form. Sheet type LED lighting device using light
According to claim 1,
A sheet-type LED lighting device using sunlight, characterized in that it is possible to minimize power loss by intelligently controlling the power supply by attaching an illumination sensor and a motion sensor.
In the manufacturing method of the sheet-type LED lighting device using sunlight,
Sheet paper body forming step; One of the conductive ink containing copper particles, graphene particles, carbon particles, and silver particles is a metal ink formed of conductive nanoparticles or micron-sized conductive particles inside the sheet paper, and a conductive circuit using a dispenser is selected. Forming a; An LED array forming step of forming a plurality of LED packages on the surface or inside of the sheet paper by being electrically connected to a power supply circuit formed on the sheet paper; A design part forming step of forming by at least one of UV printing, sheet cutting, inkjet printing, and photorealistic printing; Connecting a solar panel to one side of the sheet; A method of manufacturing a sheet-like LED lighting device using sunlight, comprising the step of connecting a controller, an illumination sensor, and a motion sensor to the outside of the sheet to intelligently adjust power.
The method of claim 10,
The forming of the energizing circuit is a method of manufacturing a sheet-type LED lighting device using sunlight, characterized in that a conductive circuit is formed by applying a conductive ink and a conductive adhesive using a dispenser for quantitative dispensing.
The method of claim 10,
The step of forming the energizing circuit is a method of manufacturing a sheet-like LED lighting device using sunlight, characterized by forming a multilayer layer to control an LED package and to produce an image.

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