KR101393398B1 - Portable charger using flexible solar cell - Google Patents

Abstract

The present invention relates to a flexible solar cell for producing electricity from sunlight; Wherein the flexible solar cell includes a first housing which is inserted through a slit and is fixed to a roller which is rotatably mounted on the inner side of the flexible solar cell, and the flexible solar cell is rolled and stored by rotation of the roller; The other end of the flexible solar cell is fixed so that the flexible solar cell is unfolded by being separated from the first housing and is detachably coupled to the first housing so that the state in which the flexible solar cell is housed can be maintained A second housing; A rechargeable battery provided in any one of the first and second housings to charge electricity generated from the flexible solar cell; And a connector provided in any one of the first and second housings to output electricity charged in the rechargeable battery to an external electronic device to be charged.
According to the present invention, it is possible to charge the electricity produced by the flexible solar cell so as to be conveniently used as an auxiliary power source for the electronic device to be charged, to minimize the limitation of the charging place due to the self generating capability, It is possible to stably maintain the developed state of the flexible solar cell and to easily increase the capacity of the electricity supply by securing a space in which the components such as the rechargeable battery are disposed.

Description

[0001] The present invention relates to a portable charger using a flexible solar cell,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable charger using a flexible solar cell, and more particularly, to a portable charger using a flexible solar cell, which is a type of thin film solar cell, To a portable charger using a flexible solar cell that can be conveniently used as an auxiliary power source for electronic devices and minimizes the limitation of a charging place due to self-power generation capability to improve portability and mobility.

In general, the portable charger makes it possible to carry out the charging, and provides power to the electronic device to be charged, thereby enabling operation and charging of the electronic device to be charged.

In recent years, portable electronic devices such as smart phones, tablet PCs, notebooks, power tools and the like have been increasing in power consumption due to the implementation of high specifications and multi functions. However, And the market size and penetration rate of the portable charger is remarkably increasing due to such necessity.

Most conventional portable chargers are those that pre-charge an AC power source and provide a charged power source when necessary in order to make up for the insufficient battery capacity of existing smart devices. Accordingly, the portable charger can be used in a limited place where external power can be supplied, which is inconvenient to use. In order to overcome such inconvenience, the portable charger eliminates the limitation of the place, There is growing interest in portable chargers that can use solar light.

However, the portable charger using the conventional solar light has a problem that portability and merchantability are lowered as the size and weight of the product increase as the power generation amount increases.

In order to solve such a problem, Japanese Patent Application Laid-Open No. 2010-259301 (published on November 11, 2010) discloses a "flexible solar battery charger" disclosed in Japanese Patent Office, A flexible solar cell in which a rotating shaft is arranged along a long axial direction of the case body, a sheet-like flexible solar cell which is wound on a winding body and is drawn out from the case body during charging so that the light receiving surface can be exposed to the outside, And a built-in battery, connector for storing electric energy generated from the flexible solar cell.

However, the portable charger using such a conventional solar cell has improved portability, while maintaining a stable state of the flexible solar cell due to a single body and a limited configuration when the flexible solar battery is developed for charging. And it is difficult to increase the capacity of the electricity supply due to the limitation of the arrangement space of the battery and the like.

In order to solve the above-described problems, the present invention provides a method of manufacturing a flexible solar cell, which is a kind of thin film solar cell, It is possible to use the auxiliary solar battery conveniently as an auxiliary power source, to minimize the restriction of the charging place due to the self generating capability, to improve portability and mobility, to stably maintain the developed state of the flexible solar battery for electric production, And the like, thereby facilitating the capacity of the electricity supply. Further, it is an object of the present invention to make it easy to accommodate and draw out the flexible solar cell.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, there is provided a portable charger comprising: a flexible solar cell for generating electricity from sunlight; Wherein the flexible solar cell includes a first housing which is inserted through a slit and is fixed to a roller which is rotatably mounted on the inner side of the flexible solar cell, and the flexible solar cell is rolled and stored by rotation of the roller; The other end of the flexible solar cell is fixed so that the flexible solar cell is unfolded by being separated from the first housing and is detachably coupled to the first housing so that the state in which the flexible solar cell is housed can be maintained A second housing; A rechargeable battery provided in any one of the first and second housings to charge electricity generated from the flexible solar cell; And a connector provided in any one of the first and second housings to output electricity charged in the rechargeable battery to an external electronic device to be charged.

And a transformer provided in any one of the first and second housings provided with the rechargeable battery to convert the electricity generated from the flexible solar cell into a voltage necessary for charging the rechargeable battery.

The connector and the rechargeable battery may be provided in the second housing to avoid interference when the flexible solar cell is received.

The first and second housings may have coupling grooves and coupling protrusions for detachably coupling to the side contacting each other, and each one or all of the first and second housings may be made of a material having elasticity.

Wherein the first housing has a fixed portion formed inside and a both end fixed to the take-up reel and providing elastic force to the reel for winding the flexible solar cell by the reel; A sawtooth provided on the drum and having a plurality of unidirectional teeth for catching in a direction in which the spring is loosened; A latch which is installed to detachably engage the unidirectional teeth to block the unwinding of the spring; A button portion provided on the latch and configured to allow the flexible solar cell to be wound on the take-up reel when the latch is released from the unidirectional teeth by being exposed or protruded outwardly to release the spring; And a spring installed to provide an elastic force for catching the unidirectional teeth of the latch.

According to the portable charger using the flexible solar cell according to the present invention, the electricity produced by the flexible solar cell, which is a type of thin film solar cell, is charged to assist the chargeable electronic device such as a mobile phone, a tablet PC, a notebook, It is possible to use it conveniently as a power source, to minimize the limitation of the charging place due to its self generation capability, to improve the portability and mobility, to stably maintain the developed state of the flexible solar battery for electric production, The capacity of the electricity supply can be easily increased due to the securing of the space in which the component parts of the flexible solar cell are disposed. Further, the flexible solar cell can be easily accommodated and drawn out.

1 is a perspective view illustrating a portable charger using a flexible solar cell according to an embodiment of the present invention,
2 is a perspective view of a portable charger using a flexible solar cell according to an embodiment of the present invention,
3 is a cross-sectional view of a first housing of a portable charger using a flexible solar cell according to an embodiment of the present invention,
4 is a cross-sectional view of another portion of a first housing of a portable charger using a flexible solar cell according to an embodiment of the present invention,
5 is a configuration diagram illustrating a second housing of a portable charger using a flexible solar cell according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

FIG. 1 is a perspective view illustrating a portable charger using a flexible solar cell according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating a portable charger using a flexible solar cell according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, a portable charger 100 using a flexible solar cell according to an embodiment of the present invention includes a flexible solar cell 110, first and second housings 120 and 130, A rechargeable battery 140 (shown in Fig. 5), and a connector 150. [

The flexible solar cell 110 has, for example, a PN junction structure. When sunlight enters the PN junction structure, holes and electrons are generated in the semiconductor due to the energy of incident sunlight At this time, holes (+) move toward the P-type semiconductor due to the electric field generated in the PN junction structure, and electrons (-) move toward the N-type semiconductor to generate electric potential, Unlike a substrate type solar cell using a semiconductor material itself such as silicon as a substrate, a light scattering layer, a front electrode layer, a semiconductor layer, a transparent conductive layer, and a rear electrode layer are formed on a flexible substrate capable of bending will be. Here, the flexible substrate may be transparent polyethylene terephthalate (PET), polyimide (PI), polyamide (PA), or the like.

3 and 4, the first housing 120 is fixed to a drum 122 having one end of the flexible solar cell 110 inserted through the slit 121 and rotatably installed inside, and the drum 122 The flexible solar cell 110 is rolled into a roll shape and housed inside. Here, the underside 122 may be guided to be rotatable by being coupled to unillustrated protrusions or grooves provided on both sides of the first housing 120 at both ends thereof.

The first housing 120 includes a spring 125, a toothed wheel 126, a latch 127, a button portion 128, and a spring 129 so as to automatically perform winding of the flexible solar battery 110 .

The spring 125 is fixed at both ends to the fixing part 124 and the take-up part 122 which are formed inside the first housing 120 and the take-up part 122 winds the flexible solar cell 110 around the take- To provide an elastic force. That is, when the flexible solar cell 110 is pulled out from the first housing 120 by pulling the second housing 130, the spring 125 is wound to store the elastic energy, and on the contrary, When the drawing-out force is released, the spring 125 is released so that the flexible solar cell 110 is wound on the take-up spool 122.

The toothed wheel 126 is provided on the take-up reel 122 and a plurality of unidirectional teeth 126a for catching in the unwinding direction of the spring 125 are formed along the edge. The toothed wheel 126 may be integrally formed at one end of the take-up reel 122 or may be formed independently of the take-up reel 122 and fixed to one end of the take-

The latch 127 is installed on the inner side of the first housing 120 so as to block the release of the spring 125 by releasably engaging the unidirectional teeth 126a. Can be combined.

The button portion 128 is provided at the end of the latch 127 and is exposed or protruded outward through a dog formed in the first housing 120 so that the latch 127 is pushed by the unidirectional tooth 126a, So that the flexible solar cell 110 is wound on the take-up reed 122 by winding the spring 105 off.

The spring 129 is mounted between the latch 127 and the support piece 129a within the first housing 120 so that the latch 127 provides an elastic force to engage the unidirectional teeth 126a. Accordingly, the spring 129 is urged to restrain the restricting force so that the latch 127 separated from the unidirectional tooth 126a by the pushing of the button portion 128 catches the unidirectional tooth 126a when the pressing force against the button portion 128 is released to provide.

5, the second housing 130 is fixed to the other end of the flexible solar cell 110 so that the flexible solar cell 110 is unfolded as shown in FIG. 2 by being separated from the first housing 120 And the flexible solar cell 110 is held in the first housing 120 by being detachably coupled to the first housing 120 so as to enable electricity production using solar light. In addition, the fixing unit 131 may be provided in the second housing 130 so that the other end of the flexible solar cell 110 inserted into one side is fixed by a method such as volume increase by folding, adhesion, fixing unit, or the like.

The first and second housings 120 and 130 may be provided with a cover (not shown) which can be opened and closed at one side so as to open the inside of the first and second housings 120 and 130. As shown in FIGS. 1 and 2, And the surface or entire surface of each of the surfaces may be made of a material having elasticity, such as rubber or silicone. Thus, The flexible solar cell 110 can be easily maintained in its deployed state by its own weight. Unlike the present embodiment, the coupling grooves 123 and the coupling protrusions 132 may be formed at different positions of the first and second housings 120 and 130. In order to prevent the first and second housings 120 and 130 from being easily separated from each other, The projections and the latching jaws may be respectively formed so as to be coupled by the fitting method, or as another example, the hooking or the like.

The rechargeable battery 140 may be provided in any one of the first and second housings 120 and 130 so as to charge the electricity generated from the flexible solar battery 110.

The first and second housings 120 and 130 provided with the rechargeable battery 140 to convert the electricity generated from the flexible solar battery 110 into a voltage necessary for charging the rechargeable battery 140, The transformer 160 may be provided.

The connector 150 is configured to supply electric power charged in the rechargeable battery 140 to be used as an auxiliary power source to various electronic apparatuses including an external electronic device to be charged, such as a mobile phone, a tablet PC, a notebook computer, 2 housings 120 and 130 and may have a structure and a shape for connection to the power cable socket of the electronic device to be charged.

The rechargeable battery 140 and the connector 150 are provided in the second housing 130 instead of the first housing 120 in which the flexible solar battery 110 is accommodated to avoid interference when the flexible solar battery 110 is received. Thereby facilitating the securing of the installation space and facilitating selection of the rechargeable battery 140 with a large capacity.

According to the portable charger using the flexible solar cell according to the present invention, the electric power produced by the flexible solar cell, which is a type of the thin film solar cell, is charged and used for charging electronic devices such as a mobile phone, a tablet PC, a notebook, And it is possible to minimize the restriction of the charging place due to the self generation capability, thereby improving the portability and mobility.

Further, the portable charger using the flexible solar cell according to the present invention can stably maintain the developed state of the flexible solar battery for the purpose of electricity production, and it is possible to maintain the space in which the components, such as the rechargeable battery, The capacity can be easily increased, and further, the flexible solar cell can be easily accommodated and drawn out.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

110: Flexible solar cell 120: First housing
121: slit 122:
123: coupling groove 124:
125: Hand winding 126: Gear wheel
126a: One-way tooth 127: Clasp
128: button portion 129: spring
129a: Support piece 130: Second housing
131: fixing portion 132: engaging projection
140: Rechargeable battery 150: Connector
160: Transformer

Claims (5)

In a portable charger,
A flexible solar cell for producing electricity from sunlight;
Wherein the flexible solar cell includes a first housing which is inserted through a slit and is fixed to a roller which is rotatably mounted on the inner side of the flexible solar cell, and the flexible solar cell is rolled and stored by rotation of the roller;
The other end of the flexible solar cell is fixed so that the flexible solar cell is unfolded by being separated from the first housing and is detachably coupled to the first housing so that the state in which the flexible solar cell is housed can be maintained A second housing;
A rechargeable battery provided in any one of the first and second housings to charge electricity generated from the flexible solar cell; And
And a connector provided to any one of the first and second housings to output electricity charged in the rechargeable battery to an external electronic device to be charged,
The connector and the rechargeable battery may include:
The second housing being provided so as to avoid interference during reception of the flexible solar cell,
Wherein the first and second housings comprise:
And an engaging groove and an engaging projection for detachably engaging with each other on the side in contact with each other, and each one or all of the engaging groove and the engaging projection are made of a material having elasticity,
The first housing includes:
A spring secured to both the fixed portion formed on the inner side and both ends fixed to the take-up reel and providing elastic force to the reel so that the reel winds the flexible solar cell;
A sawtooth provided on the drum and having a plurality of unidirectional teeth for catching in a direction in which the spring is loosened;
A latch which is installed to detachably engage the unidirectional teeth to block the unwinding of the spring;
A button portion provided on the latch and configured to allow the flexible solar cell to be wound on the take-up reel when the latch is released from the unidirectional teeth by being exposed or protruded outwardly to release the spring; And
Further comprising a spring installed to provide a resilient force for the latch to catch on the unidirectional tooth,
And a transforming unit provided in the second housing provided with the rechargeable battery so as to convert electricity generated from the flexible solar cell into a voltage necessary for charging the rechargeable battery. delete delete delete delete

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