KR101254952B1 - Portable charger of folder type by solar cell - Google Patents

Abstract

PURPOSE: A folder type portable charger using a solar cell is provided to facilitate separation and assembly by forming a second piece, equipped with a solar cell inside, with a rotatable structure. CONSTITUTION: A case(110) includes a first hinge(113) and second hinges(114,114'). The first and second hinges are prepared at a first and a second piece(111,112) respectively. A solar cell is installed at the second piece. A battery is mounted on the first piece. A charging module is mounted on the case. [Reference numerals] (AA) Wire;

Description

Portable charger of folder type using solar cell {Portable charger of folder type by solar cell}

The present invention relates to a portable charger, and more particularly, charging for a portable device by solar power generation, and is made of a folder type of the folder type using a solar cell manufactured to be easy to protect and carry solar cells Relates to a portable charger.

Increasing leisure time and the emphasis on personal activities have increased the consumption of personal items, and the development of electric and electronic technologies has promoted the development of various portable devices for the personal activities. As a result, many people who enjoy personal activities have enjoyed the use of mobile devices such as mobile phones, MP3 players, laptops, game consoles and cameras.

However, since most of the portable devices are electric devices, electricity supply is required for their operation. Therefore, the portable device is equipped with a battery for supplying electricity. Of course, the battery may be discharged with the use of the portable device, in which case it may be replaced with a new battery or recharged.

In the meantime, the portable device may be discharged in a state where there is no battery to be replaced while being used outdoors. In this case, the battery mounted on the mobile device should be able to be used by charging the battery immediately. For this purpose, a charging device (registration utility model publication No. 20-0428262) that can charge the discharged battery in the field has been proposed. .

The conventional charging device includes a rechargeable battery and a solar cell that charges the rechargeable battery while generating power using solar light, so that the electricity charged in the rechargeable battery can charge the battery of the portable communication terminal.

However, as shown in the related art, the area of the solar cell is inevitably narrow due to structural limitations, and as a result, the amount of solar power generation is insufficient to charge the portable device. In addition, since the solar cell is stored in an exposed state to the outside, there is a disadvantage that it is likely to be damaged or damaged by an external impact. In addition, since the solar cell is integrally fixed to the charging device, it is not easy to separate the solar cell, which can be frequently repaired and managed, and thus, the disadvantage of having to discard the entire charging device when a problem occurs in the solar cell. Therefore, the conventional charging device has been an inefficient technology with a lot of improvements.

Accordingly, the present invention has been invented to solve the above problems, the solar cell is to be made to efficiently carry out the solar power generation for charging the portable device, and to be portable to minimize the damage and damage of the solar cell The technical problem to provide a portable charger of the folder type using.

In addition, another technical problem is to provide a folder-type portable charger using a solar cell that is easily removable to facilitate maintenance and management of the solar cell.

According to an aspect of the present invention,

A case comprising a first piece, a second piece, and first and second hinges provided on the first and second pieces and hinged to be foldable so that the first and second pieces are folded together;

A solar cell installed in the second piece;

A battery built in the first piece;

A charging module configured to store electricity generated by the solar cell in the battery, charge the portable device with electricity of the battery through a socket formed in the case, and be embedded in the case; And

A controller that controls charging and storage of the charging module and is built in the case;

Folder type portable charger using a solar cell including a.

In the present invention, since the first and second pieces are connected in a folder type, they can be manufactured in a slim form and are portable, and the second piece having a solar cell forms a rotatable structure regardless of the position of the first piece. While there is a convenience to smoothly adjust the light receiving direction of the battery, the separation and assembly of the second piece is easy, there is an effect that the management and maintenance of the solar cell is easy.

1 is an exploded perspective view showing a state of a portable charger according to the present invention,
2 is a block diagram showing a configuration of a portable charger according to the present invention,
3 is an exploded perspective view illustrating a solar cell in a portable charger according to the present invention;
4 is a side view showing the operation of the portable charger according to the present invention,
5 is a side view showing another operation of the portable charger according to the present invention;
6 is an exploded perspective view illustrating another embodiment in which a solar cell is built in a portable charger according to the present invention;
Figure 7 is an exploded perspective view showing another state in which the solar cell of the portable charger according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It will be possible. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating an exploded view of a portable charger according to the present invention, and FIG. 2 is a block diagram illustrating a configuration of a portable charger according to the present invention.

The portable charger 100 according to the present invention includes a case 110 and a second piece in which the first and second pieces 111 and 112 are rotatably fixed via the 1.2 hinges 113, 114 and 114 ′. The solar cell 120 installed in the solar cell 120 and the output state of the operation of the charger 100 to the user and the user input and output means 130 is manipulated by the user, and induced by the solar cell 120 A charging module 150 configured to charge the battery 140, which is charged with electricity, the electricity induced by the solar cell 120 to the battery 140, and to charge the portable device 10 connected to the charger 100; It includes a controller 160 for controlling the operation of the input and output means 130 and the charging module 150. Here, the lamp 133 may be applied to the output means of the input / output means 130, and the lamp 133 may be applied to the LED.

The case 110 may include a first piece 111 having at least one selected from the input / output means 130, the battery 150, the charger 150, and the controller 160, and a second solar cell 120 installed therein. Piece 112) and first and second hinges 113, 114 and 114 'rotatably connecting the first and second pieces 111 and 112 to each other.

In the embodiment according to the present invention, the first piece 111 and the second piece 112 form a flat plate shape, and one end of the first piece 111 and the second piece 113, 114, 114 'are connected to each other so as to be rotatable with each other. The first and second pieces 111 and 112 are connected to each other by a folder type that folds into each other. Here, since the first and second pieces 111 and 112 may be manufactured in a thin flat plate shape as described above, when the first and second pieces 111 and 112 contact each other, the overall shape of the first and second pieces 111 and 112 may be slim. Can be easily carried. However, the shape of the first and second pieces 111 and 112 according to the present invention is such that the first and second pieces 111 and 112 can be rotated through the first and second hinges 113, 114 and 114 '. If the connected folder type is achieved, various modifications can be made without departing from the scope of the following claims.

The first and second hinges 113, 114, and 114 'are connected to the first and second pieces 111 and 112, respectively, to mediate the first and second pieces 111 and 112 to be rotatably connected to each other. The first and second hinges 113, 114, and 114 'are rotated about a central axis shared with each other.

In the embodiment according to the present invention, one first hinge 113 is disposed at the center of one end of the first piece 111, and a pair of second hinges 114 are provided at both ends of the one end of the second piece 112. , 114 'are disposed so that the second hinges 114, 114' are rotatably engaged with both ends of the first hinge 113. As shown in FIG. A more detailed structure thereof will be described with reference to FIG. 3.

The solar cell 120 is embedded in the second piece 112. The solar cell 120 is a known and common substrate for generating electricity by receiving solar light, and includes a crystalline solar cell, a thin film solar cell, a copper-indium-gallium-selenide (CIGS), a dye-sensitized solar cell, and a seed material. Various types such as Dye Sensitized Solar Cell may be applied, but it is desirable to apply CIGS which is excellent in light absorption rate and marketability of materials, and is stable in operation and portable. However, the type of substrate applied to the solar cell 120 according to the present invention is not limited to CIGS, and of course, various modifications can be made without departing from the scope of the following claims.

Input and output means 130 is an input means 131 and the output means 132 to allow a user using the charger 100 to operate the charger 100, and to determine whether the charger 100 is in operation It is composed.

The input means 131 is operated so that the user can control the functions included in the charger 100, such as the ON / OFF of the charger 100 and the mode change, and the user operates the input means 131 when the user operates the input means 131. At the same time an electrical signal is generated, and the generated electrical signal is transmitted to the controller 160 to generate a corresponding control signal. The input means 131 is a lever method for generating a corresponding electric signal by operating the protruding lever in front, rear, left and right, a button method for generating a corresponding electric signal by the user, and a dial method for rotating the user to generate the corresponding electric signal. And the like may be applied.

For reference, the ON / OFF of the charger 100 may be changed as well as the mode may be changed by the operation of the input unit 131. Here, the 'mode' may include a power generation mode for generating power by receiving sunlight. , Such as a charging mode for charging the portable device 10 connected to the charger 100, refers to a state in which the charger 100 may perform a specific function.

The output means 132 is for guiding the user to recognize the current state of the charger 100, a lamp or a display for visually guiding the user may be applied, or a speaker for guiding the sound may be applied. There will be.

The output means 132 may display the amount of power storage of the battery 140 mounted in the charger 100, display the charging time of the portable device 10, and the like, and may display various contents.

The charger 100 according to the present invention may not include a separate input / output means 130. That is, even if the user does not need to separately configure the input means 131 or the output means 132 for checking the state of the charger 100, when the solar electricity 120 generates power by light receiving The module 150 automatically stores the generated electricity in the battery 140, and when the cable of the portable device 10 is connected to the socket 151, the charging module 150 automatically starts charging.

The battery 140 is that the electricity generated by the solar cell 120 is charged by the charging module 150, a conventional rechargeable battery may be applied. For reference, since the charger 100 according to the present invention forms a slim folder type as shown, it is preferable that the battery 140 also forms a slim panel shape that can be embedded in the first piece 111. .

The charging module 150 receives the electricity generated by the solar cell 120 to charge the battery 140, and is charged by the controller 160 to charge the portable device 10. Here, the charging module 150 may charge the portable device 10 with electricity stored in the battery 40, or may charge the portable device 10 with electricity generated from the solar cell 120.

Meanwhile, a socket 151 connected to the charging module 150 is formed on one surface of the case 110.

The socket 151 is a place where the terminal of the dedicated cable (not shown) is detachably connected and the electrical connection is made with the portable device 10. The type of the socket 151 is for connection with various portable devices 10. It would be desirable for USB to be applied. As a result, if the portable device 10 is connected to the USB cable so that the power supply and charging can be made, it is possible to charge through the charger 10 according to the present invention. However, the socket 151 is not limited to the standardized USB type, and various types of sockets that are not standardized may be applied.

The controller 160 receives the electric signal from the input means 131 and generates a corresponding control signal to control the operation of the charging module 150 and the output means 132, and checks and stores the amount of storage of the battery 40. The power storage amount may be displayed through the means 132. Controller 160 may be constructed of conventional PCB-based circuits.

Meanwhile, electricity for the operation of the input / output means 130 and the controller 160 may be supplied from the battery 140 or may be provided with a separate power source from the battery 140. That is, when the battery 140 is completely discharged due to long periods of non-use of the charger 100, a power source for starting the input / output unit 130 and the controller 160 may be required, and a separate power source may be configured for this purpose. will be. The power source may be a conventional battery.

3 is an exploded perspective view showing a solar cell in a portable charger according to the present invention, Figure 4 is a side view showing the operation of the portable charger according to the present invention, Figure 5 is a portable charger according to the present invention This is a side view showing another operation of the bar, which will be described with reference.

The second piece 112 according to the present invention is a second hinge 114 rotatably connected to the first hinge 113 connected to the first piece 111 for a rotatable connection with the first piece 111. , 114 '). One of the second hinges 114 and 114 'may be configured, but in this embodiment, a pair of two hinges fixed to both ends of the first hinge 113 is rotatably provided so that one end of the second piece 112 is provided. It is disposed at both ends of.

The first and second pieces 111 and 112 may be folded in a folder type through the first and second hinges 113, 114 and 114 'configured as described above, and as a result, as shown in FIG. The first and second pieces 111 and 112 may be stored in a stacked state to protect the solar cell 120.

On the other hand, when it is necessary to generate power using the solar cell 120, as shown in FIG. 4 (b), the second piece 112 is formed around the first and second hinges 113, 114, and 114 '. Open from one piece 111 to allow the solar cell 120 to receive sunlight, and furthermore, the angle between the first piece 111 and the second piece 112 in consideration of the altitude and light irradiation direction of the sun. You can also make adjustments.

The second piece 112 includes a seating table 112a for receiving and fixing the solar cell 120 and a cover 112b for covering the seating table 112a. The seating plate 112a forms a groove for accommodating the plate-shaped solar cell 120 and one end of the seating plate 112a is opened so that the solar cell 120 can be slid into the groove. Subsequently, the cover 112b closes one end of the opened seating plate 112a, and the cover 112b is seated on the seating board 112a so that the solar cell 120 can be stably mounted without shaking. The solar cell 120 is pressed closely. Meanwhile, the cover 112b is electrically connected to the solar cell 120 so that electricity generated by the solar cell 120 can be transmitted to the battery 140 located in the first piece 111.

The second hinges 114 and 114 'are integrally connected to the tip of the second piece 112 composed of the seating table 112a and the cover 112b. In this case, the second hinges 114 and 114 'and the second piece 112 may be fixed so as not to move with each other, but in the embodiment according to the present invention, the second piece 112 is the second hinges 114 and 114'. While being rotatably fixed to), as shown in FIG. 5, when the first and second pieces 111 and 112 are spaced apart from each other, the second piece 112 can freely rotate. To this end, in the present embodiment, the fitting protrusion 112c is formed in the cover 112b, and correspondingly, the fitting groove 114d in which the fitting protrusion 112c is rotatably inserted into the second hinges 114 and 114 'is correspondingly formed. Form each.

The fitting grooves 114d are formed on one surface of the second hinges 114 and 114 'facing each other, so that the fitting protrusions 112c are fixed when the second hinges 114 and 114' are fixed to the second piece 112. Will be wrapped. On the other hand, the end of the fitting protrusion 112c is expanded and formed in the present embodiment so that the fitting protrusion 112c inserted into the fitting groove 114d is not detached from the fitting groove 114d. a) is formed. Eventually, the extended end of the fitting protrusion 112c is caught by the catching groove a of the fitting groove 114d and cannot be separated again, and the second piece 112 is rotatably coupled to the second hinges 114 and 114 '. do.

Subsequently, the second hinges 114, 114 ′ further include a pulley 114b. In the embodiment according to the present invention, the insertion protrusion 114c rotatably inserted into the inlet groove 113a of the first hinge 113 is formed in the pulley 114b, so that the first and second hinges 113, 113, 114, 114 'are rotatably coupled to each other. In the embodiment according to the present invention, the insertion protrusion 114c protruding from the pulley 114b of the second hinges 114 and 114 'is rotatably inserted into the inlet groove 113a of the first hinge 113. The second hinges 113, 114, and 114 'are described as being coupled to each other, but the present invention is not limited thereto, and the first and second hinges may be coupled to each other via a separate rotation shaft to rotate each other.

On the other hand, electricity generated in the solar cell 120 is transmitted to the fitting protrusion 112c through the extension of the cover 112b, the wires of the cover 112b drawn out to the fitting protrusion 112c, and fitting grooves 114d and 114d. The cover 112b and the second hinges 114 and 114 'are electrically connected to each other through the wires of the second hinges 114 and 114' wired to '). Subsequently, the first and second hinges 113, 114, and 114 ′ are electrically connected to each other through a connection between the wire drawn out to the insertion protrusion 114c and the wire drawn out to the first hinge 113. The electricity is transmitted to the charging module 150 through the extension between the hinge 113 and the first piece 111 is stored in the battery 140. As a result, the electricity generated from the solar cell 120 of the second piece 112 may be smoothly transferred to and stored in the battery 140 of the first piece 111.

In the embodiment according to the present invention, the second hinges 114 and 114 'form a structure in which a pair is coupled to each other. Therefore, the second hinges 114 and 114 'may be fastened to each other detachably through a separate fastening means. Here, the fastening means may be applied to a chemical method such as an adhesive as well as a mechanical method.

6 is an exploded perspective view illustrating another embodiment in which a solar cell is built in the portable charger according to the present invention, which will be described with reference to this.

Electrical and mechanical connections between the second piece 112 and the second hinges 114, 114 ′ can be made in a variety of ways. In this embodiment, the second piece 112 is connected to the second hinges 114, 114 ′. Desorption is to achieve a smooth structure. To this end, the fitting grooves 114d 'formed in the second hinges 114 and 114' have a structure in which the fitting protrusion 112c 'can be inserted at any time without a separate locking groove or irregularities. In addition, the first electrode body b is disposed at the center of the circle and the second electrode body c is spaced apart from each other in the fitting groove 114d ′ for electrical connection. Of course, the first and second electrode bodies b and c may be connected to each other by wires and are finally connected to the wires of the first hinge 113.

Meanwhile, the fitting protrusion 112c has a third electrode body b 'having a groove into which the first electrode body b is inserted and engaged corresponding to the fitting grooves 114d' of the second hinges 114 and 114 '. And a fourth electrode body c 'disposed in contact with the second electrode body c while being spaced apart along the circumference of the third electrode body b'. Of course, the third and fourth electrode bodies b 'and c' are connected to the solar cells 120 by wires connected to the corresponding wires.

As a result, the second piece 112 in which the solar cell 120 is installed is capable of smoothly rotating with the second hinges 114 and 114 ', but the electrical connection is made stably. There is an effect that the separation of 112) becomes possible.

For reference, in the present exemplary embodiment, the first and second electrode bodies b and c are illustrated as being separated from the pair of second hinges 114 and 114 ', respectively. ) May form a completely circular or cylindrical shape and may be configured independent of the first and second hinges 114 and 114 '.

Figure 7 is an exploded perspective view showing another state in which the solar cell of the portable charger according to the present invention.

The charger 100 according to the present invention includes the first and second electrode bodies d and e provided in the fitting grooves 114d ″, and the third and fourth electrode bodies d 'and e provided in the fitting protrusions 112c. ') The mutual contact between the two by the magnetic force, so that the electrical connection between the electrode body (d, e, d', e ') can be maintained stably, of course, the second piece 112 and the second The physical connection between the hinges 114 and 114 'also maintains stability.At least one of the first and second electrode bodies d and e or the third and fourth electrode bodies d' and e ' It is made of magnetic material and is made of insulating material f between the first electrode body d, the second electrode body e, the third electrode body d ', and the fourth electrode body e' for insulation. , f ') is disposed.

For reference, since the second piece 112 according to the present invention should be rotatably fixed based on the second hinges 114 and 114 ', the energized state may be maintained regardless of the rotational position of the second piece 112. In order to maintain it at all times, it is preferable that the first and second electrode bodies d and e and the third and fourth electrode bodies d 'and e' respectively form concentric circles.

Meanwhile, in the present embodiment, although the first and second electrode bodies d and e are separately formed in the pair of second hinges 114 and 114 ', the first and second electrode bodies d and e are illustrated. Of course, may form a complete circular or cylindrical configuration independent of the first and second hinges (114, 114 ').

In the above-described embodiment, fitting protrusions 112c, 112c ', and 112c "are formed in the second piece 112, and fitting grooves 114d, 114d', and 114d" are formed in the second hinges 114 and 114 '. As described above, the second piece 112 and the second hinges 114 and 114 'are rotatably connected to each other, but the' fitting groove 'described above is formed on the second piece 112. Of course, the above-mentioned 'snapping protrusions' may be formed in the second hinges 114 and 114'.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100; Charger 110; A case 111; Part One
112; Part 2 113; First hinge 114, 114 '; The second hinge
120; Solar cell 130; Input / output means 140; battery
150; Charging module 160; controller

Claims (3)

A case comprising a first piece, a second piece, and first and second hinges provided on the first and second pieces and hinged to be foldable so that the first and second pieces are folded together; A solar cell installed in the second piece; A battery built in the first piece; A charging module configured to store electricity generated by the solar cell in the battery, charge the portable device with electricity of the battery through a socket formed in the case, and be embedded in the case; In the folder-type portable charger using a solar cell comprising; and a controller for controlling the charging and storage of the charging module, the controller embedded in the case,
The fitting protrusion is formed at one of the second piece or the second hinge, and the fitting groove into which the fitting protrusion is rotatably inserted is formed at another position, so that the second piece and the second hinge are rotatably connected to each other. Portable charger of folder type using solar cell characterized by the above. delete The method of claim 1,
The fitting protrusion protrudes from the second piece, and the fitting groove is formed in the second hinge such that the fitting protrusion is detachable from the fitting groove;
In the fitting groove, the first electrode body and the second electrode body are insulated from each other through an insulator and arranged in a concentric shape, and the third and fourth electrode bodies in contact with and energizing the first and second electrode bodies are respectively insulated from the fitting protrusion. The first and second electrode bodies and the third and fourth electrode bodies are insulated from each other by being insulated from each other, and the first and second electrode bodies are made of magnetic material such that at least one of the first and fourth electrode bodies is in contact with each other by magnetic force. Folder type portable charger using solar cells.

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