KR200494367Y1 - Solar charging device - Google Patents

Abstract

The present invention relates to a solar charging device that collects sunlight using items commonly present in the vicinity to charge peripheral devices, and includes a stick and a detachable body, wherein the stick emits sunlight It is connected to a plurality of photovoltaic panels for condensing and producing electric energy, and having an output unit for outputting electric energy produced by the plurality of photovoltaic panels, and the main body has a form in which the upper surface is open and the side and lower surfaces are closed. , A solar charging device is provided that includes an input unit connected to the output unit and receiving the output electrical energy.

Description

Solar charging device

The present invention relates to a solar charging device, and more particularly, to a solar charging device capable of charging peripheral devices by collecting sunlight using items commonly present in the vicinity.

Recently, an increasing number of households are installing solar panels in their homes as one of the ways to lower their electricity bills. The Seoul Metropolitan Government is supporting the mini solar power plant project, and it is a system that installs solar panels on a porch or roof and connects them to an outlet to generate electricity in real time and use it at home. When installed in a sunny location, electricity is automatically produced on a sunny day, and the electricity produced in this way is consumed first.

Solar panels used at home are fixed to a structure that is installed on a veranda or roof, and have no mobility because they can collect sunlight. However, in recent years, there is a trend in demand for a solar charging device to be applied to small home appliances used in real life using a small solar panel.

Conventionally, Korean Utility Model Publication No. 20-2018-0002540 "Solar Energy Charger" provides a technology that enables portable solar energy to be condensed. there is a trend

In view of this trend, in the future, a technology for a practical product capable of condensing sunlight while bonding to objects used in real life using such a small or portable solar concentrator is required.

Korean Public Utility Model No. 20-2018-0002540

The present invention provides a photovoltaic panel on a stick connected to a pen or pencil, and inserts the stick into a pencil holder to obtain solar energy as electrical energy. It is intended to be recharged.

In addition, an object of the present invention is to allow the solar panel to focus more sunlight by adjusting the angle of the solar panel in the direction in which the sunlight shines.

In addition, an object of the present invention is to provide a photovoltaic panel in a small device to increase portability so that the light can be collected while moving.

In addition, the present invention aims to make it possible to charge sunlight more conveniently by allowing a stick to which a solar panel is connected to be inserted anywhere inside the pencil holder to transmit power.

In addition, an object of the present invention is to configure a stick connected to a solar panel in the form of a flexible material or tongs so that it can be inserted into a writing instrument so that sunlight can be collected while using a conventional pen or pencil.

In addition, an object of the present invention is to check how much sunlight has been condensed for a certain period by measuring the accumulated amount of condensed sunlight.

In addition, the present invention aims to enable a relative evaluation of the amount of energy condensed by calculating the ranking of the solar charging devices in the server, receiving the rankings from the solar charging devices again and displaying them.

In order to achieve this object, a solar charging device according to an embodiment of the present invention includes a stick and a body to which the stick is detachable, and the stick collects sunlight to produce electrical energy. It is connected to a panel and has an output unit for outputting electrical energy produced by the plurality of photovoltaic panels, and the main body has a form in which an upper surface is opened and a side surface and a lower surface are closed, and is connected to the output unit to output the output It includes an input unit for receiving an input of electric energy, a main body battery for storing the input electric energy, a USB terminal for outputting electric energy stored in the main body battery, and a display unit for displaying the remaining amount of electric energy stored in the main body battery.

In addition, each of the stick and the plurality of solar panels is characterized in that it is connected by a joint member capable of rotation and angle adjustment.

In addition, the stick includes a stick battery for storing electrical energy produced by the solar panel.

In addition, the input unit and the output unit is characterized in that the terminal capable of wireless power transmission.

In addition, the output part includes an output coil positioned on the side of the stick and generating a magnetic field, and the input part includes an input coil positioned on the side of the main body and inducing electricity by a magnetic field generated from the output coil. do it with

In addition, the terminal of one pole of the output unit is located at the opposite end of the portion to which the plurality of solar panels are connected of the stick, and the terminal of the opposite pole of the output unit is located in the middle of the stick, and one of the input units The terminal of the pole is located on the lower surface of the main body, and the terminal of the opposite pole of the input unit is located on the upper side of the side of the main body.

In addition, the stick is characterized in that it includes a writing instrument fixing part in the form of a flexible material or tongs capable of fixing the writing instrument.

In addition, a low-power wireless communication module that transmits information about the accumulated amount of input energy accumulated within a predetermined period to the server with reference to a measuring unit that measures the accumulated amount of energy received in the input unit, and the accumulated amount of energy measured by the measuring unit. characterized by including.

In addition, the server collects input energy accumulation information accumulated within a predetermined period received from a plurality of solar charging devices, calculates ranking information for each of the plurality of solar charging devices and transmits them to the plurality of solar charging devices characterized in that

In addition, the display unit is characterized in that it outputs the ranking information received from the server.

The present invention provides a photovoltaic panel on a stick connected to a pen or pencil, and inserts the stick into a pencil holder to obtain solar energy as electrical energy. to be able to recharge.

In addition, the present invention allows the solar panel to focus more sunlight by adjusting the angle in the direction in which the sunlight shines.

In addition, the present invention is equipped with a solar panel in a small device to increase portability so that the solar charge can be collected while moving.

In addition, the present invention allows the solar panel to be charged more conveniently by allowing power to be transmitted even when a stick connected to a solar panel is inserted anywhere inside the pencil holder.

In addition, the present invention configures a stick to which a solar panel is connected in the form of a flexible material or tongs so that it can be inserted into a writing instrument, thereby concentrating sunlight while using a conventional pen or pencil.

In addition, the present invention allows to check how much sunlight has been condensed for a certain period by measuring the accumulated amount of condensed sunlight.

In addition, the present invention calculates the ranks of the solar charging devices in the server, receives the ranks again from the solar charging devices and displays them, so that a relative evaluation of the amount of energy condensed can be performed.

1 is a view showing the appearance of a solar charging device according to an embodiment of the present invention.
2 is a diagram illustrating an internal configuration of a solar charging device according to an embodiment of the present invention.
3 is a diagram illustrating an example of wireless power transmission by an input coil and an output coil in a solar charging device according to an embodiment of the present invention.
4 is a diagram illustrating an example in which power can be transmitted without fixing a stick in the solar charging device according to an embodiment of the present invention.
5 is a diagram illustrating an example of transmitting information on the accumulated input energy accumulated in the solar charging device according to an embodiment of the present invention to a server.
6 is a diagram illustrating an example of outputting ranking information received from a server on a display unit of a solar charging device according to an embodiment of the present invention.

1 is a view showing the appearance of a solar charging device according to an embodiment of the present invention.

The solar charging device of the present invention is to charge the sunlight to a pencil holder used in real life to charge small home appliances such as mobile phones or portable fans. One side of the stick can be connected to a writing instrument such as a pencil or pen that we use, and a solar panel that can collect sunlight can be connected to the other side of the stick. The solar panel connected to the stick receives sunlight to store electric energy in a battery built in the stick or the main body battery 221 built in the body into which the pencil is inserted.

It is open on the upper surface of the main body and closed on the sides and bottom, and is shaped like a column that can hold something. The body may be in the shape of a cylinder, a square pillar, a pentagonal pillar, or the like. A tube 110 into which the stick 210 can be inserted may be provided inside the body 220, and the tube may be provided with a configuration for receiving electrical energy output from the stick. In addition, the part other than the tube 110 into which the stick is inserted is a form in which other writing instruments that do not include the solar panel 230 can be inserted. may be in the form

When sunlight is collected from the stick 210 to receive electrical energy, it can be stored in the main body battery 221 inside the main body, and is charged by plugging the USB cable into the USB terminal 270 connected to the main body battery 221 . You can charge any small home appliance you want.

2 is a diagram illustrating an internal configuration of a solar charging device according to an embodiment of the present invention.

It includes a stick 210 and a body 220 to which the stick is detachable.

The solar charging device 200 condenses sunlight to produce electric energy, stores and uses the produced electric energy, and the part that collects sunlight and produces electric energy is a stick, and stores electric energy. The possible part may be the body. The stick is easy to move and can be carried, and it may be configured to collect sunlight by moving or to be used by inserting it into a writing instrument.

The plurality of photovoltaic panels 230 may be connected to the stick, and may generate electric energy by condensing sunlight.

The solar panel may be a device capable of converting sunlight into electrical energy by collecting sunlight using a plastic or transparent glass plate. In the present invention, a plurality of photovoltaic panels 230 may be provided at one end of the stick to collect sunlight. One end of the stick may be configured as a wide portion, and a plurality of solar panels 230 may be widely disposed at one end of the stick to receive sunlight well.

The joint member 211 connects the stick and the plurality of solar panels 230 , and each of the stick and the plurality of solar panels can be rotated and angled.

In order to collect sunlight, it may be important to aim the plurality of photovoltaic panels 230 at a portion where sunlight shines. The joint member 211 is adjustable in angle so that the plurality of solar panels 230 can be aimed to receive sunlight well. It may be configured such that only the plurality of solar panels 230 can move around the stick. The joint member 211 can adjust the rotation and angle by moving along the folds in the form of a bellows, and the joint member 211 has a sphere or ball shape and a shape surrounding the sphere or ball, so that the sphere or ball can be freely moved to rotate and The angle may be adjustable.

The stick battery 212 may store electrical energy generated by the solar panel.

The stick battery 212 is connected to the output unit 240 and may store electrical energy generated by the solar panel. Electrical energy stored in the stick battery 212 may be stored in the main body battery 221 through the output unit 240 . Even if the stick is not inserted into the body, if the stick is condensed with sunlight, the produced electrical energy can be stored in the stick battery 212 inside the stick, so that the stick itself can be moved or carried while condensing sunlight. After the electric energy is produced by carrying the stick, the produced electric energy can be output to the main body.

The output unit 240 outputs electrical energy generated by the plurality of solar panels 230 .

The output unit 240 is included in the stick. It is directly connected to the solar panel to output the electrical energy produced by the solar panel, and the output unit 240 is connected to the stick battery 212 to output the electrical energy stored in the stick battery 212 . . Depending on the configuration, the stick may or may not have the stick battery 212 , and depending on the configuration, the output unit 240 may be connected to the stick battery 212 or the solar panel to output electrical energy.

The body has a shape in which the upper surface is open and the side and lower surfaces are closed.

The main body may be in the form of an interior dug out of a column, and may have a shape that can contain something because the top is open and the sides and the bottom are closed.

The input unit 250 is connected to the output unit 240 to receive the output electrical energy.

The input unit 250 is included in the body. The input unit 250 may be in contact with the output unit 240 to be connected. In a state where the input unit 250 and the output unit 240 are in contact with each other, the output unit 240 may transmit electrical energy to the input unit 250 . The input unit 250 may receive the electrical energy transmitted from the output unit 240 .

The input unit 250 and the output unit 240 may be terminals capable of wireless power transmission.

The input unit 250 and the output unit 240 may transmit electrical energy without any coupling or contact of lines or terminals, so that power transmission may be possible in a non-contact manner.

The output unit 240 is located on the side of the stick and includes an output coil 241 that generates a magnetic field, and the input unit 250 is located on the side of the body and is an input in which electricity is induced by a magnetic field generated from the output coil 241 . A coil 251 may be included.

Power transmission in a non-contact manner or wireless power transmission method may be an electromagnetic induction method, using the electromagnetic induction principle in which electricity is induced in the input coil 251 under the influence of the magnetic field by generating a magnetic field in the output coil 241 . power can be transmitted.

The output unit 240 is located inside the side of the stick, and the input unit 250 is located on the side of the body. . When the stick is inserted into the main body and the input unit 250 and the output unit 240 are adjacent to each other, when AC power is applied to the output coil 241 , a magnetic field is generated, and the generated magnetic field can pass through the input coil 251 . At this time, an electromotive force is generated in the input coil 251 in a direction that prevents the change of the magnetic field, and the electromotive force also appears in the form of alternating current, which is converted into a direct current voltage to transmit power in a non-contact manner.

The terminal of one pole of the output unit 240 is located at the opposite end of the part to which the plurality of solar panels 230 of the stick are connected, and the terminal of the opposite pole of the output unit 240 is located in the middle of the stick, and the input unit A terminal of one pole of 250 may be located on a lower surface of the body, and a terminal of an opposite pole of the input unit 250 may be located on an upper side of the body.

A plurality of solar panels 230 may be connected to one end of the stick, and a writing instrument fixing unit 213 capable of attaching or detaching a writing instrument may be connected to the other end thereof. A terminal of one pole of the output unit 240 is located on the other side 420 to which the plurality of solar panels 230 are not connected, and the terminal of the opposite pole of the output unit 240 is the middle part 410 of the stick. can be located in For example, the output unit 240 is required to have a + pole and a - pole in order to output electrical energy to the input unit 250 . Each can be placed separately. If the + pole is located at one end 420 of the stick, the - pole is located in the middle part 410 of the stick, and if the - pole is located at one end of the stick, the + pole may be located in the middle part of the stick.

The main body has an upper surface and a lower surface, and the input unit 250 is located in the main body, and opposite poles may be located in portions located at each end of the input unit 250 . For example, the input unit 250 requires a + pole and a - pole to receive electrical energy from the output unit 240 , and different poles may be disposed on the upper part 430 and the bottom part 440 of the body. . If the + pole is located on the upper part 430 of the main body, the - pole is located on the bottom part 440 of the main body, and if the - pole is located on the upper part 430 of the main body, the + pole is located on the bottom part 440 of the main body. can do.

In addition, one end of the stick and the bottom part of the body are positioned 460 in the abutting part, and the middle part of the main body and the upper part of the body are positioned 450 in the abutting part to transmit electrical energy. That is, the two parts 410 and 420 through which the electrodes of the stick pass and the two parts 430 and 440 through which the electrodes of the body pass are brought into contact to transmit electrical energy.

The main body battery 221 stores the input electrical energy.

The main body battery 221 may be included in the main body. The main body battery 221 may be connected to the input unit 250 to receive electric energy output from the output unit 240 to the input unit 250 , and store the electric energy inputted from the input unit 250 in the main body battery 221 . have.

The USB terminals 270 and 270 output electrical energy stored in the main battery 221 .

The USB terminals 270 and 270 may be included in the main body. The USB terminals 270 and 270 may be terminals capable of outputting electricity even if they are not Universal Serial Buses. When electric energy is needed or when a small home appliance is to be charged, the electric energy stored in the main battery 221 may be output through the USB terminals 270 and 270 . For example, when a mobile phone is to be charged, a cable compatible with the mobile phone may be plugged into the USB terminal 270 to output electrical energy stored in the main body battery 221 to charge the mobile phone.

The display unit 280 displays the remaining amount of electrical energy stored in the main battery 221 .

The display unit 280 may be included in the main body, and may display the remaining energy with e-ink. If it is assumed that the capacity that can be charged in the main battery 221 is 100% and the main battery 221 is charged with 50% electric energy, the display unit 280 displays "50%" to display the remaining amount of electric energy. can

The measuring unit may measure the accumulated amount of energy received by the input unit 250 .

The measuring unit may receive the amount of energy input to the input unit 250 and measure it. The energy input to the measurement unit may be electrical energy. The measuring unit may measure the accumulated amount of energy for a predetermined period, and the predetermined period may be adjusted. It is possible to know how much solar energy has been collected by the energy accumulation amount measured by the measurement unit, and this can be used as educational material. For example, the accumulated amount of electrical energy may be measured and displayed so that children can know how much electrical energy they have collected through the solar charging device.

The low-power wireless communication module 290 may transmit information about the accumulated amount of input energy accumulated within a predetermined period to the server 510 with reference to the accumulated amount of energy measured by the measurement unit.

The measuring unit may transmit the measured energy accumulation amount to the wireless communication module 290 , and the wireless communication module may record when the received energy accumulation amount is transmitted. The wireless communication module used here may use a low-power wireless communication module in order to minimize power. The low-power wireless communication module may transmit the energy accumulation amount to the server 510 , and may match the transmitted energy accumulation amount for each time period and transmit it to the server 510 . For example, if the energy accumulation amount is recorded or set for each hour, the accumulated energy amount from 1 pm to 2 pm and the accumulated energy amount from 2 pm to 3 pm can be separately stored and transmitted so that it can be recorded. have. In addition, the energy accumulation amount may be transmitted to the server 510 by setting the transmission period in units of one day or one week.

The server 510 collects input energy accumulation information accumulated within a predetermined period received from a plurality of solar charging devices, calculates ranking information for each of the plurality of solar charging devices, and provides the information to the plurality of solar charging devices 200 . can be transmitted

The server 510 may receive input energy accumulation amount information accumulated within a predetermined period from the low-power wireless communication module 290 of the plurality of solar charging devices, and may calculate a rank of the plurality of energy accumulation amount information. The calculated rank may be transmitted back to the solar charging devices 200 . That is, a plurality of solar charging devices 200 collect sunlight and transmit the amount of electrical energy for the collected sunlight to the server through the input unit 250, the measurement unit, and the low-power wireless communication module 290, The server may rank each of the solar charging devices 200 by collecting energy amount information of several solar charging devices 200 . After that, each of the solar charging devices 200 may check the rank of their device among several devices.

The display unit 280 may output ranking information received from the server.

The display unit 280 may be a display device that outputs numbers or letters, such as LED, LCD, or electronic ink (e-ink) that consumes less power. The display unit 280 may receive the ranking information from the server and output it in numbers or letters. You can check the rank of the receiving solar charging device. This can be a means to compete with different devices for how much sunlight they collect. For example, if a plurality of users who own a solar charging device compete for how much solar power they have collected within a certain period of time, the solar charging device collects the solar power and transmits the information to the server. can rank and transmit among competing solar charging devices. After that, if you check your rank with solar charging devices, you can compete more fairly and accurately.

The writing instrument fixing unit 213 is included in the stick and may be in the form of a flexible material or tongs capable of fixing the writing instrument.

The other end of the stick may hold a writing instrument such as a pencil or pen. The writing instrument fixing part 213 may be made of a flexible material such as silicone or rubber, and may be attached to the end of the writing instrument by forming a tube into which the writing instrument can be inserted. In addition, the writing instrument fixing unit 213 can hold and fix the writing instrument with the tongs in the form of tongs that can pass through the writing instrument.

3 is a diagram illustrating an example of wireless power transmission by the input coil 251 and the output coil 241 in the solar charging device according to an embodiment of the present invention.

The output unit 240 is located on the side of the stick and includes an output coil 241 that generates a magnetic field, and the input unit 250 is located on the side of the body and is an input in which electricity is induced by a magnetic field generated from the output coil 241 . A coil 251 may be included.

Power transmission in a non-contact manner or wireless power transmission method may be an electromagnetic induction method, using the electromagnetic induction principle in which electricity is induced in the input coil 251 under the influence of the magnetic field by generating a magnetic field in the output coil 241 . power can be transmitted.

The output unit 240 including the output coil 241 is located inside the side of the stick, and the input unit 250 including the input coil 251 is located at the side of the body, and when the stick is inserted into the body, the output unit 240 and The input unit 250 may be adjacent to each other to enable wireless power transmission. When a stick is inserted into the main body and the input unit 250 and the output unit 240 are adjacent to each other, when AC power is applied to the output coil 241 , a magnetic field is generated, and the generated magnetic field can pass through the input coil 251 . At this time, an electromotive force is generated in the input coil 251 in a direction that prevents the change of the magnetic field, and the electromotive force also appears in the form of alternating current, which is converted into a direct current voltage to transmit power in a non-contact manner.

4 is a diagram illustrating an example in which power can be transmitted without fixing a stick in the solar charging device according to an embodiment of the present invention.

The terminal of one pole of the output unit 240 is located at the opposite end of the part to which the plurality of solar panels 230 of the stick are connected, and the terminal of the opposite pole of the output unit 240 is located in the middle of the stick, and the input unit A terminal of one pole of 250 may be located on a lower surface of the body, and a terminal of an opposite pole of the input unit 250 may be located on an upper side of the body.

A plurality of solar panels 230 may be connected to one end of the stick, and a writing instrument fixing unit 213 capable of attaching or detaching a writing instrument may be connected to the other end thereof. A terminal of one pole of the output unit 240 is located on the other side 420 to which the plurality of solar panels 230 are not connected, and the terminal of the opposite pole of the output unit 240 is the middle part 410 of the stick. can be located in For example, the output unit 240 is required to have a + pole and a - pole in order to output electrical energy to the input unit 250 . Each can be placed separately. If the + pole is located at one end 420 of the stick, the - pole is located in the middle part 410 of the stick, and if the - pole is located at one end of the stick, the + pole may be located in the middle part of the stick.

The main body has an upper surface and a lower surface, and the input unit 250 is located in the main body, and opposite poles may be located in portions located at each end of the input unit 250 . For example, the input unit 250 requires a + pole and a - pole to receive electrical energy from the output unit 240 , and different poles may be disposed on the upper part 430 and the bottom part 440 of the body. . If the + pole is located on the upper part 430 of the main body, the - pole is located on the bottom part 440 of the main body, and if the - pole is located on the upper part 430 of the main body, the + pole is located on the bottom part 440 of the main body. can do.

In addition, one end of the stick and the bottom part of the body are positioned 460 in the abutting part, and the middle part of the main body and the upper part of the body are positioned 450 in the abutting part to transmit electrical energy. That is, the two parts 410 and 420 through which the electrodes of the stick pass and the two parts 430 and 440 through which the electrodes of the body pass are brought into contact to transmit electrical energy.

5 is a diagram illustrating an example of transmitting information on an accumulated input energy accumulated in a solar charging device according to an embodiment of the present invention to a server.

The server 510 collects input energy accumulation information accumulated within a predetermined period received from a plurality of solar charging devices, calculates ranking information for each of the plurality of solar charging devices, and provides the information to the plurality of solar charging devices 200 . can be transmitted

The server 510 may receive input energy accumulation amount information accumulated within a predetermined period from the low-power wireless communication module 290 of the plurality of solar charging devices, and may calculate a rank of the plurality of energy accumulation amount information. The calculated rank may be transmitted back to the solar charging devices 200 . That is, a plurality of solar charging devices 200 collect sunlight and transmit the amount of electrical energy for the collected sunlight to the server through the input unit 250, the measurement unit, and the low-power wireless communication module 290, The server may rank each of the solar charging devices 200 by collecting energy amount information of several solar charging devices 200 . After that, each of the solar charging devices 200 may check the rank of their device among several devices.

6 is a diagram illustrating an example of outputting the ranking information received from the server on the display unit 280 of the solar charging device according to an embodiment of the present invention.

The display unit 280 may output ranking information received from the server 510 .

The display unit 280 may be a display device that outputs numbers or letters, such as LED, LCD, or electronic ink (e-ink) that consumes less power. The display unit 280 may receive the ranking information from the server 510 and output it in numbers or letters. It is possible to check the rank of the received solar charging device 200 . This can be a means to compete with different devices for how much sunlight they collect. For example, if there are 20 users who own a solar charging device, and 20 people have a competition on how much solar light has been collected within a certain period of time, how many times among 20 people do I use electric energy for a certain period of time? You can see that a lot has been produced. If it is the first place among 20 people, the display unit 280 may display 'first place among 20 people' or '1/20'. This has the advantage of being able to more fairly and accurately determine who did the most of the solar concentrating, so it can be used as an educational tool when educating about solar concentrating or electric energy.

Stick: 210 Body: 220
Solar panel: 230 Output: 240
Input: 250 Measuring: 260
USB terminal: 270 Display: 280
Wireless communication module: 290

Claims (10)

It includes a stick and a body to which the stick is detachable,
The stick is connected to a plurality of photovoltaic panels for generating electric energy by condensing sunlight, and has an output unit for outputting electric energy produced by the plurality of photovoltaic panels,
the body is
It has a shape in which the upper surface is open and the side and lower surfaces are closed,
an input unit connected to the output unit to receive the output electrical energy;
a main body battery for storing the input electrical energy;
USB terminal for outputting electrical energy stored in the main body battery
A display unit for displaying the remaining amount of electrical energy stored in the main battery; A measuring unit for measuring the accumulated amount of energy received in the input unit;
A low-power wireless communication module that transmits information on the accumulated amount of input energy accumulated within a predetermined period to the server with reference to the accumulated amount of energy measured by the measuring unit
including,
the server
Collecting input energy accumulation information accumulated within a predetermined period received from a plurality of solar charging devices,
Calculates ranking information for each of a plurality of solar charging devices and transmits them to the plurality of solar charging devices,
the display unit
Outputs the ranking information received from the server,
The terminal of one pole of the output unit is located at the opposite end of the part to which the plurality of solar panels of the stick are connected,
The terminal of the opposite pole of the output unit is located in the middle part of the stick,
The terminal of one pole of the input unit is located on the lower surface of the main body,
The terminal of the opposite pole of the input unit is located on the upper side of the main body
solar charging device. According to claim 1,
Each of the stick and the plurality of solar panels is connected to a joint member capable of rotation and angle adjustment
Solar charging device, characterized in that. According to claim 1,
the stick is
a stick battery for storing electrical energy produced by the solar panel;
A solar charging device comprising a. According to claim 1,
The input unit and the output unit are terminals capable of wireless power transmission
Solar charging device, characterized in that. 5. The method of claim 4,
The output unit includes an output coil positioned on the side of the stick and generating a magnetic field,
The input unit is located on the side of the main body and includes an input coil in which electricity is induced by a magnetic field generated from the output coil.
Solar charging device, characterized in that. delete The method of claim 1
the stick is
A flexible material capable of fixing a writing instrument or containing a writing instrument holder in the form of tongs
Solar charging device, characterized in that. delete delete delete

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