KR102016934B1 - a device with the function of both the solar cell module and the beacon - Google Patents

Abstract

The present invention relates to a device having an Iot function and a solar cell module function, and more particularly, to a device having a solar cell module and a beacon function in which a panel of the solar cell module includes Bluetooth, a battery charge / discharge circuit, and the like.
The present invention is a solar cell module including a solar cell 10, a substrate 20, a short-range communication module 30, a battery charge and discharge module 40, a battery contact terminal module 50 and a device 100 having a beacon function To provide.
In another aspect, the present invention provides a solar cell module and a device 100 having a beacon function, characterized in that it further comprises a control module (60).
In another aspect, the present invention provides a control module 60, the UV sensor module 70 further comprises a solar cell module and a device 100 having a beacon function.

Description

A device with the function of both the solar cell module and the beacon}

The present invention relates to a device having an Iot function and a solar cell module function, and more particularly, to a device having a solar cell module and a beacon function in which a panel of the solar cell module includes Bluetooth, a battery charge / discharge circuit, and the like.

In general, a solar cell is a device that converts solar light into electrical energy by using a semiconductor property, and recently, a small, thin, and light that can be used as an auxiliary power source for a portable information device such as a mobile phone or a PDA (Personal Digital Assistance).

High power solar cell modules are being studied.

In a typical solar cell, a cell is composed of a semiconductor that absorbs sunlight and generates charges, an upper electrode positioned on the side of the light receiving surface where light is incident, and a lower electrode positioned on the opposite side of the upper electrode. Each cell is connected by a metal ribbon (metal connector).

The entire connected solar cell is then filled with transparent resin and protected from the external environment by the lower sheet and the transparent upper sheet.

In this case, since most individual cells have an output voltage of 0.6 or less, several cells must be connected in series in order to obtain a high voltage actually required. As a result, each metal ribbon is arranged to connect the upper electrode of one cell and the lower electrode of a neighboring cell.

In addition, the beacon means a next-generation smartphone short-range communication technology or a device through low-power Bluetooth (BLE).

Beacon is a smartphone short-range communication technology that enables users to send messages and mobile payments by finding a user's location within a radius of 50 to 70 meters.

It has longer distance than NFC (Near Field Communication), which is suitable for O2O service connecting online and offline. Using this technology, guide services, mobile coupons, etc. can be used at specific places. The low power consumption of the smartphone consumes less battery, and the advantage of more precise positioning in the room than GPS. However, since the location of the smartphone user can be accurately identified, it can be used for collecting personal information, and unwanted spam can be sent to the user due to the fact that the user's consent is not required.

Apple launched a beacon service called iBeacon at the Apple Store in the US in late 2013. Customers who use this service can automatically check product information, customer reviews, etc., and receive discount coupons. In Korea, when you arrive at the entrance of Myeongdong Cathedral, a web page containing the history of the cathedral and the mass is displayed on your smartphone, and when you go down to the underground cathedral, it is being used in various ways.

Related technology registration No. 10-1269853 (method of transmitting and receiving beacon information in a wireless LAN mesh network) is described in "In a wireless LAN mesh network, a transmitting node transmits beacon (beacon timing information), each of the plurality of nodes are Beacon timing is set to transmit a beacon signal with a unique offset within a preset beacon signal transmission time period, and within the beacon signal transmission time period, the transmitting node includes a beacon timing including a first offset value which is its only offset value. Periodically transmitting information to adjacent nodes, setting a second offset value different from the first offset value, and probe beacon timing information including the first offset value and the second offset value. A method of transmitting beacon timing information by a transmitting node including a transmitting step "

This has been provided.

In addition, the registration number 20-0351438 (structure of the beacon signal equipment for the base station device) is a "main control unit for receiving a signal from the parent equipment to control the system, and a digital up-converter that receives the baseband signal and generates a multi-FA waveform ( Digital Up Converter), a digital IF signal receiver for adjusting and matching the power of the input signal, an IF amplifier for receiving and amplifying intermediate frequency signals, and an RF amplifier for processing large RF frequency signals. A beacon apparatus for processing a multi-FA, wherein the digital up-converter for generating a multi-FA waveform and the digital IF input unit are configured to combine with an RF amplifier having an IF amplifier and an RF local oscillator. Structure of Beacon Signaling Equipment "has been disclosed.

In the case of the prior art and the prior art, in the case of the panel of the solar cell module, the rear surface is simply used as a contact terminal, but the present invention produces a PCB panel by mounting circuits and components on the rear surface and mounts the solar cell. To provide a device with a module and beacon function.

In the case of the conventional solar cell module, the solar cell is mounted on the substrate, and the rear side of the substrate of the small-sized solar cell module is composed of only a power supply terminal, which causes a problem that the remaining space is not required. It is an object of the present invention to provide a solar cell module and a beacon function device that solves a problem of space efficiency by adding a circuit, a battery charge / discharge circuit, a sensor, and / or a battery contact terminal to an abandoned space.

In addition, a conventional communication device such as a smart phone, etc., there is a problem that takes a lot of space when adding a Bluetooth circuit, a battery charge and discharge circuit, a sensor or / and battery contact terminals, the present invention has a beacon function in the solar cell module The present invention provides a device having a solar cell module and a beacon function that efficiently configures a Bluetooth circuit, a battery charge / discharge circuit, a sensor or / and a battery contact terminal, and the like to perform an auxiliary function for a conventional communication device.

In another aspect, the present invention has the advantage of being charged in the vicinity of the light emitter, such as near the fluorescent lamp, electric light, to provide a solar cell module and a beacon function that can be used as the indoor advertising beacon bar can be used in the building.

In addition, the device according to the present invention is to provide a device having a solar module and a beacon function that can be used as a control module for home network IOT in the house.

In addition, the device according to the present invention is to provide a device with a solar module and beacon function that can be used in mountain rescue and forest monitoring system.

In addition, the device according to the present invention is to provide a device having a solar cell module and a beacon function applicable to outdoor applications such as ships and vehicles.

In addition, the device according to the present invention is to provide a device having a solar module and a beacon function applicable to providing stadium information and convenience services, such as baseball field and sports stadium.

In addition, the device according to the present invention is to provide a device with a solar module and a beacon function that can be applied to provide a notification service that can be notified when arriving at a specific place.

In addition, the apparatus according to the present invention is to provide a device having a solar cell module and a beacon function that can be applied to provide tourist attractions linked products and tourist attractions game services.

In addition, the device according to the present invention is to provide a device having a solar cell module and a beacon function applicable to the provision of PET loss management services of free communication costs.

In another aspect, the present invention is to meet the increasing demand of low-power IOT module, to provide a device with a solar module and beacon function significantly more economical by eco-friendly and simpler manufacturing method than the wireless charging method.

The present invention to solve the above problems and needs,

A solar cell module including a solar cell 10, a substrate 20, a Bluetooth module 30, a battery charge / discharge module 40, a battery contact terminal module 50, and a device 100 having a beacon function are provided.

In another aspect, the present invention provides a solar cell module and a device 100 having a beacon function, characterized in that it further comprises a control module (60).

In another aspect, the present invention provides a control module 60, the UV sensor module 70 further comprises a solar cell module and a device 100 having a beacon function.

In the case of the prior art and the prior art, in the case of the panel of the solar cell module, the rear surface is simply used as a contact terminal, but the present invention produces a PCB panel by mounting circuits and components on the rear surface and mounts the solar cell. The effect is to provide a device with modules and beacons.

In the case of the conventional solar cell module, the solar cell is mounted on the substrate, and the rear side of the substrate of the small-sized solar cell module is composed of only a power supply terminal, which causes a problem that the remaining space is not required, according to the present invention. Cellular modules and devices with beacons have the added benefit of addressing space efficiency issues by adding Bluetooth circuits, battery charge / discharge circuits, sensors or / and battery contacts to abandoned spaces. This effect will appear.

In addition, a conventional communication device such as a smart phone has a problem that takes a lot of space when adding a Bluetooth circuit, a battery charge and discharge circuit, a sensor or / and battery contact terminals, the solar cell module and beacon function according to the present invention is The device having an efficient configuration of a Bluetooth circuit, a battery charge and discharge circuit, a sensor or a battery contact terminal, etc. has an effect of performing an auxiliary function for a conventional communication device.

In addition, the device according to the present invention has the advantage of being charged in the vicinity of the light emitting body, such as near the fluorescent lamp, electric light, there is an advantage that can be used as indoor advertising beacons can use the light emitting body in the building.

In addition, the device according to the invention has the advantage that can be used as a control module for home network IOT in the house.

In addition, the device according to the present invention has the advantage that can be used in mountain rescue and forest monitoring system.

In addition, the device according to the present invention has the advantage that can be applied to outdoor applications such as ships and vehicles.

In addition, the apparatus according to the present invention has an advantage that can be applied to provide stadium information and convenience services, such as baseball field and sports stadium.

In addition, the device according to the present invention has an advantage that can be applied to provide a notification service that can be notified when arriving at a specific place.

In addition, the apparatus according to the present invention has an advantage that can be applied to provide tourist attractions linked products and tourist attractions game services.

In addition, the device according to the present invention has an advantage that can be applied to provide a PET loss management service of free communication costs.

In addition, the device according to the present invention has an advantage of being applied as a device having a beacon function of a very long life by being installed in the attachment type near the billboard (lighting).

In particular, when the demand for low-power IOT modules in recent years increases, the device according to the present invention will be a device that performs a breakthrough beacon function, much more eco-friendly than the wireless charging method and simple manufacturing method is a technology that significantly increased the economics.

As a result of conducting a power consumption test for the solar cell module and the beacon function device equipped with the solar cell module and the Bluetooth module according to the present invention, there is a problem that the conventional battery, battery, battery, etc., fall off compared to Bluetooth using a power source. It is not at all, but rather more effective at operating at lower power.

In addition, the present invention is a chip antenna, bio-signal sensor, temperature sensor, humidity sensor, buzzer, LED, electromagnet sensor, pressure sensor, microphone output sensor, illuminance sensor, acceleration sensor, gyro sensor, magneto 9-axis sensor, etc. Various sensors of the 80 can be selectively mounted is characterized in that a variety of sensing functions are possible.

In particular, the present invention has a peak having a life of more than 20 years when mounted once by the charging and discharging algorithm when attached to a place exposed to lighting, outdoor sun.

1 is a view illustrating a solar cell of a conventional solar cell module.
Figure 1b is a view showing the back of the substrate of the conventional solar cell module.
2 is a view illustrating an embodiment of a solar cell module and a beacon function in which a Bluetooth circuit, a battery charge / discharge circuit, a sensor or a battery contact terminal, and the like are mounted on a substrate backside of a solar cell module according to the present invention.
Figure 2b is another embodiment of the device with a solar module and beacon function according to the present invention (charged form added).
Figure 2c is another embodiment of a device with a solar module and a beacon function according to the present invention.
Figure 2d is another embodiment of a device with a solar module and beacon function according to the present invention.
3 is a functional explanatory diagram of a device having a solar module and a beacon function according to the present invention.
Figure 4 is a solar cell module and Bluetooth module equipped with the solar cell module and the device power consumption test result data having a beacon function according to the present invention.

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

The present invention provides a device having a solar cell module and a beacon function by adding a Bluetooth circuit, a battery charge / discharge circuit, and / or a battery contact terminal, focusing on the discarding of the back side of the solar cell substrate without the need. .

As shown in FIG. 1 and FIG. 1B, a typical solar cell module includes a solar cell 10 and a substrate 20.

The substrate of FIG. 1B is a conventional PCB substrate, and the plurality of unit cells are mounted to form a solar cell module that converts solar energy into electric power.

The present invention is characterized by providing a beacon function by adding a Bluetooth circuit, a battery charge / discharge circuit, and / or a battery contact terminal in view of the waste of the space on the rear surface of the substrate 20 without the need.

As shown in FIG. 2, the present invention provides a solar cell module and a beacon function including a solar cell 10, a substrate 20, a short range communication module 30, a battery charge / discharge module 40, and a battery contact terminal module 50. There is provided an apparatus 100.

In addition, the present invention is a solar cell module and beacon including the solar cell 10, the substrate 20, the short-range communication module 30, the battery charge and discharge module 40, the battery contact terminal module 50, the control module 60 It provides a device 100 with a function.

In addition, the present invention, the solar cell 10, the substrate 20, the short-range communication module 30, the battery charge and discharge module 40, the battery contact terminal module 50, the control module 60, UV sensor module 70 Provides a device 100 with a solar module and a beacon function, including.

The device of the present invention can be manufactured in a variety of sizes, the solar cell 10 has the advantage of making the maximum output voltage and current in a combination of a small solar cell in parallel or in series.

The solar cell 10 of the present invention refers to a conventional solar cell, and refers to a solar cell mounted by combining a plurality of solar cell discs (mother solar cells) into unit cells. do.

The solar cell of the present invention starts by performing a process of cutting a mother solar cell into a unit cell by a scribing technique, by half cutting the half of a unit cell. Manufacture. One of the technical features of the present invention is to half-cut the solar cell.

In general, the method of cutting any material can be carried out by physical and chemical means. Various cutting means, such as a method of applying an external force, a method of chemically cutting, or a method of using a laser, may be used according to the physical characteristics such as the type or strength or hardness of the material to be cut.

Therefore, the present invention is carried out by half-cutting the cutting cross-sectional area of the solar cell using any of the above methods. Recently, a method of cutting a material using a laser is known in detail among the cutting methods. In the present invention, cutting by scribing (cutting) using a laser is efficient and preferable.

As a method of irradiating a workpiece with a laser beam to remove a small amount, scribing, trimming, mask making and mask repair, engraving, etc., in the present invention, Ice cutting is efficient. Scribing generally refers to a method of making a groove using a diamond scriber when cutting a semiconductor wafer and then breaking the wafer by applying stress to the back side of the wafer. Although many diamond scribers are used in the scribing process, scribing using a laser is also widely used. Therefore, the present invention may use a scriber such as diamond, but scribing using a laser is more preferable.

Diamond scribing is efficient because laser scribing has the disadvantage of having a large cutting width, defects at the tip of the material, and minute cracks that affect the performance of the solar cell device. This is because laser scribing can sharpen the end shape of the cutting groove very much and concentrate the stress on the very sharply formed groove when stress is applied so that the cutting of the solar cell is very easy and the cutting surface is clean. Moreover, in the related art, full cutting for completely cutting a solar cell through laser scribing has been performed, but such a full cutting has a disadvantage of lowering the efficiency of solar cell engraving. In addition, the full cutting using this laser was mainly suitable for manufacturing a large-sized solar cell. In general, when cutting a solar cell using a laser, a small solar cell is manufactured because the cutting edge of the solar cell is melted and solidified again by laser heat, thereby causing a problem of significantly deteriorating the function of the solar cell. Because it was very unsuitable.

In particular, when a small solar cell is completely cut through laser scribing, the cutting surface is melted by the heat of the laser and cooled again, which significantly reduces the function of the solar cell. Therefore, it cannot be used as a small solar cell that can be used for IT equipment. .

Furthermore, considering that the size of the small solar cell is 4mm ~ 10mm, it can be said that the function of the small solar cell is completely deteriorated when the laser is used for full cutting. Therefore, through such a conventional scribing it is impossible to manufacture an intact solar cell module.

On the other hand, the present invention can manufacture a complete unit solar cell through a process of half-cutting a solar cell using laser scribing and then completely cutting it in a breaking process. Such half-cutting scribing / breaking process of the present invention can be said to be one of the technical breakthroughs in the manufacture of small solar cells. Laser half-cutting of a cell means cutting 45 to 60% of the cell cross-sectional area, and when in this range, a clean solar cell cross section can be obtained for the next braking operation. You will be able to produce.

The substrate 20 of the present invention refers to a solar cell substrate on which the solar cell is mounted using various materials, and preferably, a PCB (Printed Circuit Board) substrate having a circuit.

The substrate 20 of the present invention is connected to the solar cell 10 to perform a function of generating power and providing a function.

As an embodiment of the above-described substrate 20 of the present invention, the substrate 20 is a solar cell substrate, and the positive terminal and the negative terminal are formed on one side of the front surface. The (+) terminal and (-) terminal are connected in series on the surface, and on one side of the front side of the electrode substrate, the unit solar cells are mounted side by side with the same electrode terminal facing the same direction. The positive bus bar of the solar cell is soldered to the positive terminal on the front of the substrate and the negative bus bar of the solar cell is soldered to the negative terminal on the front of the substrate. have.

As the solar cell substrate structure is taken, solder cream is applied to the same electrode terminal (specifically, the (+) terminal), and the (+) bus bar of the unit cell is mounted side by side so that it is naturally bonded to the (+) terminal. do. In addition, the (-) bus bar of the unit cells is oriented side by side in the opposite direction of the (+) bus bar. Therefore, the connection between the (-) terminal of the solar cell board and the (+) bus bar of the unit solar cell is simple. Soldering not only makes the production considerably easier, but also enables large-scale production and standardizes the process, resulting in an automated process.

In particular, in the case of small solar cells, such a large-scale manufacturing process was not possible in the past, but the PCB substrate according to the present invention can be applied to small solar cells, thereby achieving the effect of shortening the manufacturing time and remarkably reducing the defective rate.

In addition, in one embodiment of the solar cell substrate of the present invention described above, (-) and (+) terminals are formed in a zigzag form on one side of the front surface of the solar cell substrate. Zigzag type means that the (-) terminal and the (+) terminal are sequentially formed at regular intervals.

On the back surface of the solar cell substrate, the negative terminal and the positive terminal are connected in series. (-) Terminal is connected to (+) terminal and (+) terminal is connected to (-) terminal, but (-) terminal and (+) terminal, which are the first and last terminals, are not connected It means that it is formed in a good position to output power.

In addition, unit cells are arranged side by side on the (-) and (+) terminals which are formed in a zigzag pattern with a predetermined pattern on the front surface of the electrode substrate. In this case, the unit cell is characterized in that the negative bus bar and the positive bus bar are formed on one side. The negative bus bar and the positive bus bar of the unit cell can be formed on one side because the half cutting scribing / breaking process is used as described above.

Therefore, a conventional unit solar cell has a negative bus bar and a positive bus bar formed at the center of the unit solar cell, and there is a remarkable difference from connecting the ribbon to the ribbon.

The substrate 20 of the present invention is preferably made of a polymer material.

In particular, the above-mentioned substrate should be durable so that it is suitable for use with the solar cell module and the beacon function device of the present invention used in various environments.

Therefore, the substrate 20 of the present invention is polyethylene (PE), polyethylene terephthalate (PET, polyethylene terephthalate), polypropylene (PP), sulfonated polystyrene (SPS, sulfonated polystyrene), OPP, Oriented Poly Propylene (OPP) It characterized by consisting of a group of polymer resins consisting of a single or a mixture of two or more.

More preferably, 100 parts by weight of polyethylene (PE), polyethylene polyethylene terephthalate (PET) 40-100 parts by weight, polypropylene (PP) 40-100 parts by weight, sulfonated polystyrene (SPS) 10- 50 parts by weight, 10 to 50 parts by weight of OPP (Oriented Poly Propylene) is preferably mixed with a polymer resin.

The technical feature of the present invention is to manufacture the substrate 20 using a polymer resin in which additives are mixed with the above polymer resin.

The additive of the present invention means that the filler is composed of a stabilizer, a lubricant, an impact modifier, a cellulose fiber, diethylene glycol, and a coupling agent.

The mixing amount of the additives is 1 to 3 parts by weight, based on 100 parts by weight of polyethylene, 4 to 6 parts by weight of stabilizer, 1 to 2 parts by weight of lubricant, 1 to 2 parts by weight of impact modifier, and 3 to 3 parts of cellulose fiber. 6 parts by weight, 1 to 2 parts by weight of diethylene glycol, and 1 to 5 parts by weight of the coupling agent are further mixed.

The reason for the addition of such fillers, stabilizers, lubricants, impact modifiers, cellulose fibers, diethylene glycol, coupling agents, and the like is the reason for providing more stable and proper elasticity and viscosity than the process of extruded substrate composition. Because it keeps

Secondly, it is because it maintains the physical and chemical properties such as good strength, flexible extrusion, and proper viscosity when molding the structure of the substrate.

Said filler means the substance added for the purpose of anti-aging, reinforcement, and increase in the practical use of a high molecular material. Therefore, it means a conventional filler used in accordance with the properties of the polymer material of the present invention. Typically, talc, calcium carbonate or wollastonite, or a combination of these with synthetic fibers (eg glass or carbon fibers).

Stabilizers are chemicals added to prevent or inhibit deterioration of polymerized materials (plastics) and the like. Plastics are deteriorated under the influence of heat, light, and oxygen, and must be prevented. Typical examples include heat stabilizers, antioxidants, and light stabilizers. Thus, stabilizer means a conventional stabilizer used for the polymer material of the present invention. For example, organic acid metals, such as a UV stabilizer, a thermal stabilizer, an epoxy compound, zinc stearate, a calcium stearate, etc. are mentioned.

Lubricant means a conventional lubricant used in accordance with the polymer material of the present invention, and is commonly used in polyethylene or polypropylene-based, fatty acids such as stearic acid; Fatty acid amides such as stearic acid amide and oleic acid amide; Waxes, such as a paraffin wax and polyethylene wax, etc. are mentioned, These are used individually or in mixture by appropriate ratio.

In particular, as the content of the cellulose fiber increases, the cellulose fiber tends to burn due to the adhesion of the extruder wall, so the selection and addition amount of the lubricant is very important.

Impact modifiers are fibrous insoluble materials that are added to plastics to increase fracture, tensile, compression, warpage, and impact strength. The impact modifiers used in the present invention include acrylic, CPE (Chlorinated Polyethylene), EVA (Ethylene Vinyl Acetate), methyl methacrylate-butadiene-styrene (MBS) resin, acrylonitrile-butadiene-styrene (ABS) resin, and the like. Can be.

Examples of the cellulose fiber used in the present invention include chaff powder, pulp powder, rice straw powder, and the like, and the powder form has an average particle diameter of 20 to 500 μm, but when the particle size is large, the appearance of the molded product tends to be deteriorated. The smaller the particle size, the better the appearance, but it is difficult to disperse and made into fine powder. In addition, the moisture of the cellulose fiber is preferably 10% or less and 5% or less in consideration of physical properties and productivity, although some residual water is vented and removed during the extrusion process.

As the coupling agent, it is preferable to use a silane-based or maleic hydride, tetrahydric phthalic hydride or the like as a crosslinking agent. For example, the silane system includes vinyl silane, aminoethyl silane, and the like.

Diethylene glycol is able to exhibit enhanced strength in the composition of the substrate has the effect of improving the reliability of the product.

The present invention has a technical feature in that the flame-retardant additive is added to the above-described polymer resin, and the flame retardancy of the substrate is remarkably enhanced, so that heat resistance and durability are remarkably enhanced even when exposed to a natural environment.

The above flame retardant additives have technical features in that the composition is a mixture of aluminum hydroxide, phosphoric acid, acetic acid, graphite.

The flame retardant additive is very effective to mix 5 to 10 parts by weight of phosphoric acid, 5 to 10 parts by weight of acetic acid, and 2 to 5 parts by weight of graphite to 100 parts by weight of aluminum hydroxide.

The present invention can be used by mixing 0.1 to 5 parts by weight of the flame retardant additive based on 100 parts by weight of the rubber resin.

The aluminum hydroxide has a feature of releasing crystal water when heated with a flame or the like, thereby improving flame retardancy.

Aluminum hydroxide has the chemical formula Al (OH) 3, specific gravity of about 2.423 and is an amphoteric hydroxide.

The present invention mixes and adds the polymer bonding composition to the above-described polymer resin to prevent cracking, twisting, and splitting when shrinkage occurs in the cooling process after being molded in the process of forming the substrate 20. .

The present invention is preferably mixed with 1 to 5 parts by weight of the polymer bonding composition based on 100 parts by weight of the polyethylene resin.

The polymer bonding composition refers to a composition produced by mixing and heating MMA (methylmethacrylate), BAM (Buthylacrylmonomer), AN (Acrylonitrile), MAA (Methylacrylicacid), an emulsifier, water, and a catalyst.

This composition is mixed with 100 parts by weight of methylmethacrylate (MMA), 100-150 parts by weight of BAM (Buthylacrylmonomer), 5-10 parts by weight of AN (Acrylonitrile), 4-7 parts by weight of methylacrylicacid (MAA), and 150 parts by weight and an emulsifier are mixed in an extremely small amount of 5-8 parts by weight.

Preferably, 100 parts by weight of methylmethacrylate (MMA), 140 parts by weight of Buthylacrylmonomer (BAM), 10 parts by weight of acrylonitrile (AN), 6 parts by weight of methylacrylicacid (MAA), 140 parts by weight of water, and 7 parts by weight of an emulsifier are mixed.

Emulsifiers generally mean surfactants and use an anionic sulfonate species, preferably alkylsulfonates. Alkyl sulfonates are added in very small amounts and act as emulsifiers to facilitate the mixing of MMA (methylmethacrylate), BAM (Buthylacrylmonomer), AN (Acrylonitrile), MAA (Methylacrylicacid) and water and do not participate in the reaction.

Powdered ammonium persulfate ((NH ₄ ) ₂ S ₂ O ₈ ) and sodium bisulfite (NaHSO ₃ ) act as a catalyst to 0.5-3 parts by weight with respect to 100 parts by weight of MMA, preferably 1 weight Wealth is suitable. The ratio of ammonium persulfate ((NH ₄ ) ₂ S ₂ O ₈ ) and sodium bisulfite (NaHSO ₃ ) is mixed at a ratio of 1: 0.3 to 0.6, preferably 1: 0.5. These catalysts are dissolved in the monomolecular mixture to act as catalysts. In particular, the main catalytic action is ammonium persulfate ((NH ₄ ) ₂ S ₂ O ₈ ), and sodium bisulfite (NaHSO ₃ ) is a secondary catalyst.

Then, the reaction proceeds with stirring while heating for about 5-7 hours at about 60-70 degrees Celsius. Preferably, the reaction is carried out by heating and stirring at about 65 degrees Celsius.

Through the above process, the initiation reaction of MMA (methylmethacrylate) and BAM (Buthylacrylmonomer) are performed by catalysts, and then a growth reaction and a termination reaction occur. The composition is produced.

The present invention has a technical feature in that the substrate is prepared using a polymer resin that has significantly enhanced strength and durability by mixing a natural reinforcing composition with the polymer resin.

When the above-mentioned natural reinforcing composition is mixed, the strength of the substrate is increased as well as a function of significantly improving the rotational efficiency of the substrate by minimizing the electrostatic action acting on the substrate.

In the present invention, it is preferable to mix 0.5 to 1.5 parts by weight of the natural reinforcing composition based on 100 parts by weight of the rubber resin.

The natural reinforcing composition of the present invention refers to a composition extracted by mixing the three vinegar, yellow white, Echo vinegar, gold and silver, white paper, red ginseng, gyojang, ringworm skin, sage, four ginseng.

The natural reinforcing composition is 80 to 120 parts by weight of yellow white 80 to 120 parts by weight, 80 to 120 parts by weight, gold and silver coins 80 to 120 parts by weight, white paper 80 to 120 parts by weight, red ginseng 80 to 120 parts by weight, rhythm 80 to 120 It is preferable to extract the raw material which mixed 80 weight part of 100 weight part, ringworm skin, 80-120 weight part, and 80-120 weight part of four ginseng extracts.

As a method of extracting the natural reinforcing composition, 100 to 5,000 parts by weight of water may be mixed and extracted by heating to 100 parts by weight of the raw materials mixed according to the above-mentioned parts by weight.

When the mixture is extracted by mixing 1000 parts by weight of water to 100 parts by weight of the raw material, an extract of about 800 to 1000 parts by weight is obtained.

The extract may be evaporated to evaporate water to obtain an extract of about 80 to 150 parts by weight.

In addition, a method for extracting the above-mentioned natural reinforcing composition is added to 800 to 1000 parts by weight of 70-85% [mass%] ethanol in 100 parts by weight of the mixed raw materials, and reflux extraction for 2 to 4 hours, and the filtrate is subjected to a rotary evaporator. By using a reduced pressure, the method can be extracted by concentrating and extracting about 80 ~ 150 parts by weight can be obtained.

The present invention is characterized in that it can perform the function of improving the frictional force of the surface of the substrate by adding a natural coating additive to the above-mentioned polymer resin.

The above-mentioned natural coating additives are 80 to 120 parts by weight, 100 to 80 parts by weight, 50 to 80 parts by weight, 30 to 55 parts by weight, 30 to 55 parts by weight, 50 to 80 parts by weight, 50 to 80 parts by weight By weight, 80 to 120 parts by weight, 80 to 120 parts by weight, 80 to 120 parts by weight of green tea, 80 to 120 parts by weight of licorice means a composition extracted by mixing.

When the natural coating additives described above are mixed, particularly when the substrate is grounded, the frictional force is significantly enhanced.

As a method of extracting the natural coating additives, 100 to 5,000 parts by weight of water may be mixed with 100 parts by weight of the raw materials mixed according to the above weight parts, and extracted by heating.

When the mixture is extracted by mixing 1000 parts by weight of water to 100 parts by weight of the raw material, an extract of about 800 to 1000 parts by weight is obtained.

The extract may be evaporated to evaporate water to obtain an extract of about 80 to 150 parts by weight.

In addition, as a method of extracting the above-mentioned natural coating additives, 70-85% [mass%] ethanol 800-1000 parts by weight is added to 100 parts by weight of the mixed raw materials, reflux extraction for 2-4 hours, and the filtrate is subjected to a rotary evaporator. By using a reduced pressure, the method can be extracted by concentrating and extracting about 80 ~ 150 parts by weight can be obtained.

As shown in FIG. 1B, in the conventional solar cell substrate 20, only the negative terminal and the positive terminal are formed on the rear surface, and only the power supplying power generated from the solar cell is used.

The solar cell module shown in FIG. 1B is a small solar module having an output of 1.5 to 3 V and has a small size of about 30 to 70 mm in length and 30 to 70 mm in volume.

By the way, the problem that the rear surface of the substrate 20 of the small-sized solar cell module is simply used as a contact terminal and a problem is eliminated without the need for space, the present invention is a Bluetooth circuit, a battery charge and discharge circuit, a sensor or And / or battery contact terminals in addition to the wasted space to solve the problem of space efficiency.

In addition, when adding a Bluetooth circuit, a battery charge / discharge circuit, a sensor, and / or a battery contact terminal to a conventional communication device, there is a problem that requires a lot of space. The present invention utilizes the problem of space required through the solar cell module. This problem is solved.

The short-range communication module 30 of the present invention refers to an apparatus or means for transmitting information or data to a communication device or the like or wirelessly receiving information or data from such a device.

The short range communication module 30 may use a wireless communication device such as Bluetooth, Zigbee, RF4CE Zigbee, 6LOWPAN, Wifi.

The short-range communication module 30 of the present invention is disposed on the back of the substrate to perform a function of providing or receiving information to a communication device terminal, such as a smart phone, PDP, computer.

The short-range communication module 30 operates by using the power generated by the solar cell 10, and transmits a variety of information acquired by the apparatus 100 of the present invention to the terminal. Will be performed.

The short-range communication module 30 of the present invention can use a conventional short-range communication module, it is possible to secure the information transmission distance of 5cm ~ 50m.

As the short-range communication module is added to the solar cell module (a combination of the solar cell and the substrate) of the present invention, power required for Bluetooth can be provided without limitation from the solar cell module.

Therefore, the device according to the present invention has the advantage of being charged in the vicinity of the light emitter, such as near the fluorescent lamp, electric light, there is an advantage that can be used as indoor advertising beacons can use the light emitter in the building.

In addition, the device according to the invention has the advantage that can be used as a control module for home network IOT in the house.

In addition, the device according to the present invention has the advantage that can be used in mountain rescue and forest monitoring system.

In addition, the device according to the present invention has the advantage that can be applied to outdoor applications such as ships and vehicles.

In addition, the apparatus according to the present invention has an advantage that can be applied to provide stadium information and convenience services, such as baseball field and sports stadium.

In addition, the device according to the present invention has an advantage that can be applied to provide a notification service that can be notified when arriving at a specific place.

In addition, the apparatus according to the present invention has an advantage that can be applied to provide tourist attractions linked products and tourist attractions game services.

In addition, the device according to the present invention has an advantage that can be applied to provide a PET loss management service of free communication costs.

In particular, when the demand for low-power IOT modules in recent years increases, the device according to the present invention will be a device that performs a breakthrough beacon function, much more eco-friendly than the wireless charging method and simple manufacturing method is a technology that significantly increased the economics.

Figure 4 shows the data on the results of the power consumption test for the solar cell module and the beacon equipped with the solar cell module and the short-range communication module according to the present invention.

 In the above experiments, CC264 is a device according to the present invention, and the rest is related to Bluetooth using a power source of a conventional battery, a battery, a battery, and the like.

As a result of experimenting with the power consumption of the solar cell module and the beacon function device equipped with the solar cell module and the short-range communication module according to the present invention, there is a problem that the conventional battery, battery, battery, etc., are inferior to Bluetooth using a power source. This is not at all and rather effective at running low power.

The battery charge / discharge module 40 of the present invention refers to an apparatus or means used to charge other electrical appliances or electronic products by using electricity generated from a solar cell and / or used as an auxiliary power source according to power failure of the main power supply. do.

Therefore, the battery charge and discharge module 40 of the present invention may use a conventional battery charge and discharge device.

A typical battery charge / discharge device is a device used as an auxiliary power source according to the disconnection of the main power source. In other words, it is charged by the main power and then supplies power to the load when necessary (eg, when an auxiliary power supply is required). Such a battery charge and discharge device is widely used as a power source such as a security device.

According to the present invention, when power cannot be supplied from the main power generated in the solar cell to the short-range communication module or the like, the power is supplied from the battery charge / discharge module 40 so that the power is not generated in the solar cell. According to the present invention, an effect of smoothly operating the device is created.

Therefore, the battery charging / discharging module 40 of the present invention may have a charging unit 41 capable of storing electricity, thereby performing a function of storing electricity generated from the solar cell, and may be used as an additional power source later. have.

In addition, the battery charge / discharge module 40 may be configured in a structure in which a battery cell, such as a small rechargeable lithium polymer or lithium ion, is mounted.

The battery contact terminal module 50 of the present invention means a device or means for contacting a conventional battery, a battery such as nickel or nickel-cadmium, to provide power to the configuration of the device of the present invention.

As shown in FIG. 2, the battery contact terminal module 50 constitutes a (−) terminal and a (+) terminal, and the battery is grounded to supply power to the short range communication module and the UV sensor module 70 to be described below. Perform the function.

The present invention may include a control module 60 in the above configuration.

The control module 60 of the present invention performs the function of controlling the amount and flow of the voltage and current of the power provided by the solar cell module 10, the solar cell module of the substrate 20, the short-range communication module ( 30) to control the function and to control the voltage and current provided to the module, and to control the function of the battery charge and discharge module 40 and to control the voltage and current provided to the module And control the function of the battery contact terminal module 50 and control the voltage and current provided to the module, and also control the function of the UV sensor module 70 and the voltage provided to the module. It is to control the current.

The control module may include hardware such as an information processing device such as an MCU and a CPU, a memory, data input / output means, etc., and may be loaded with an application program related to control or / or operation of each module.

According to the present invention, the UV sensor module 70 may be mounted to acquire ultraviolet light measurement information and transmit the UV measurement information to a terminal through a short range communication module.

The UV sensor module 70 of the present invention means a device or means for measuring the amount of ultraviolet light indoors or outdoors.

Accordingly, the UV measurement information measured by the UV sensor module 70 is transmitted to the short range communication module, and the short range communication module transmits such UV measurement information to the terminal according to the control of the control module. It lets you know how much ultraviolet light you have based on your current location.

The present invention provides a chip antenna, a biosignal sensor, a temperature sensor, a humidity sensor, a buzzer, an LED, an electromagnet sensor, a pressure sensor, a microphone output sensor, an illuminance sensor, an acceleration sensor, a gyro sensor, a 9-axis sensor of a magneto, etc. It is characterized in that various sensors 80 can be selectively mounted.

Various sensors such as the chip antenna, the biosignal sensor, the temperature sensor, the humidity sensor, the buzzer, the LED, the electromagnet sensor, the pressure sensor, the microphone output sensor, the illuminance sensor, the acceleration sensor, the gyro sensor, and the magneto 9-axis sensor are typically used. You can use your sensor.

As shown in FIG. 2D, the present invention allows the various sensors 80 described above to be selectively added.

The device according to the present invention can be used in conjunction with a terminal such as a smartphone, PDP, computer, and the like.

The device of the present invention can perform a location-based service (LBS), and as described above, performs a function of directly transmitting the information acquired by the device of the present invention to a terminal of people using the terminal, etc., to the user's terminal. do.

The present invention is characterized by providing a solar cell module and a device having a beacon function having such a function.

The present invention is very useful in the industry of producing, manufacturing, selling, distributing, and researching a device related to a technology for producing electricity by using sunlight.

In particular, the present invention is very useful in the industry of producing, manufacturing, selling, distributing, and researching a device performing a beacon function.

Cell (10),
Substrate 20,
Near field communication module (30),
Battery charge and discharge module 40, the charging unit 41,
Battery contact terminal module 50,
Control module 60,
UV sensor module 70,
Device with Cell Module and Beacon (100)

Claims (3)

Including a solar cell 10, a substrate 20, a short-range communication module 30, a battery charge and discharge module 40, a battery contact terminal module 50,
Further comprises a UV sensor module 70,
The UV sensor module 70 transmits the UV measurement information measuring the amount of ultraviolet light indoor or outdoor to the short-range communication module 30 and the short-range communication module transmits the received UV measurement information to the user's terminal. It performs a beacon function that allows you to know how much ultraviolet light is based on your current location,
The substrate 20 is a solar cell electrode substrate is mounted on the cell 10 performs a function to generate power,
The substrate 20 has (-) and (+) terminals formed in a zigzag form on one side of the front surface of the substrate,
(-) And (+) terminals are connected in series so that the back side of the substrate performs a function of easily mounting the solar cell 10 on the substrate,
The short-range communication module 30, the battery charge / discharge module 40, the battery contact terminal module 50, the control module 60, and the UV sensor module 70 are mounted on the back surface of the substrate 20. There is function of space utilization of),
The battery charging and discharging module 40 has a charging unit 41 that is capable of storing electricity is added to perform the function of storing electricity generated from the solar cell,
The solar cell 10 mounted on the substrate is a solar cell manufactured through a process of half cutting a mother solar cell by laser scribing and then completely cutting it with a breaking process.
Laser half cutting of the solar cell means cutting 45 to 60% of the cell cutting cross section with a laser,
The substrate 10 is a mixture of polyethylene (PE), polyethylene terephthalate (PET), polypropylene (PP), sulfonated polystyrene (SPS) and Oriented Poly Propylene (OPP) Made of one polymer resin,
To add the flame retardant additives to the polymer resin,
The flame retardant additives are a mixture of aluminum hydroxide, phosphoric acid, acetic acid and graphite to improve heat resistance and durability,
To the polymer resin is added a natural coating additive,
The above-mentioned natural coating additives are 80 to 120 parts by weight, 100 to 80 parts by weight, 50 to 80 parts by weight, 30 to 55 parts by weight, 30 to 55 parts by weight, 50 to 80 parts by weight, 50 to 80 parts by weight Device with a solar module and beacon function, characterized in that the composition by extracting the mixture by weight, 80-120 parts by weight, 80-120 parts by weight of gold, 80-120 parts by weight of green tea, 80-120 parts by weight licorice (100 ).
The method of claim 1,
Cell module and the device 100 having a beacon function, characterized in that it further comprises a control module 60,
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