KR20110040621A - Portable charging device - Google Patents

Abstract

PURPOSE: A portable charging device is provided to quickly and conveniently charge a portable terminal without respect to time and a space. CONSTITUTION: A portable charging device comprises a charging module(200). The charging module charges a portable terminal by a non contact wireless method. The charging module is placed on the outside of a portable terminal. A power receiving unit is installed in the portable terminal. The power receiving unit receives a magnetic field from the charging module. A power receiving coil is embedded in a charging battery and receives a current from the charging module by electromagnetic induction.

Description

Portable Charging Device {PORTABLE CHARGING DEVICE}

One embodiment of the present invention relates to a portable charging device, and more particularly, in accordance with the configuration of a charging module for charging by transferring current to the portable terminal in a non-contact wireless manner by electromagnetic induction when approaching the portable terminal. The present invention relates to a portable charging device that is simple and enables charging quickly and efficiently without being constrained by time and space.

In recent years, portable terminals are small, thin, light, and have a good grip, and have a large number of stylish designs for encouraging small intestine needs, and are becoming multimedia for more various tasks.

Therefore, the above-mentioned portable terminal should be adopted a large-capacity battery to adapt to such a multimedia environment, and the power consumption also increases proportionately, so it must be frequently charged.

However, the above-described portable terminal is manufactured in various types of different sizes and shapes for each manufacturer, and a charger for charging is also manufactured in various types of chargers.

Since the above-described charger must be supplied from an outlet connected to a power line or through a connection cable separately provided from a cigar jack of a vehicle, the charger may be limited in time and space due to charging.

One embodiment of the present invention relates to a portable charging device capable of quickly and efficiently charging a portable terminal without limitation of time and space.

In addition, an embodiment of the present invention relates to a portable charging device that is easy to carry and move.

In addition, an embodiment of the present invention relates to a portable charging device that inspires the small intestine desires of the user and allows for continuous interest in use.

The portable charging device according to an embodiment of the present invention is applied to a portable terminal provided for communication. When the portable charging device is approached to the portable terminal, the magnetic field generated from the power supplied from the outside is transferred to the portable terminal by electromagnetic induction. It includes a charging module that is provided separately on the outside of the above-described portable terminal to perform wireless charging.

According to a preferred embodiment, the above-described charging module is built in the case close to or spaced apart from the portable terminal, the battery for storing the power supplied to the built-in case and supplied from the outside, and the battery for the storage And a transmission mechanism for transmitting the above-mentioned magnetic field to the above-described portable terminal side can be adopted.

The above-described portable terminal includes a charging battery detachably coupled to the portable terminal to receive a magnetic field from the charging module in the form of a current and charge with the driving power of the portable terminal, and the charging module built in the aforementioned rechargeable battery. It is possible to adopt a configuration including a power receiving coil which receives a magnetic field from the current.

The outer surface of the case receives light energy from an external power source and is equipped with a light collecting unit connected to the charging module, and the light collecting unit starts operation when the case is close to the portable terminal.

As described above, the portable charging device according to an embodiment of the present invention has the following advantages.

When the portable terminal is in close proximity, the current is transferred to the portable terminal by electromagnetic induction, and according to the configuration of the charging module which is charged in a non-contact wireless manner, charging of the portable terminal can be performed quickly and easily regardless of time and space.

Here, the limitation of time and space may be avoided according to a configuration in which the power supply of the charging module is made by light energy supplied from the sun and ambient lighting.

In addition, the charging module may be separately provided on the outside of the portable terminal, and may be convenient to carry and move according to a method of connecting the same by a connection strap.

In addition, if the case constituting the charging module is made small and light, and produced in a variety of characters and specific shapes, it can inspire the user's small intestine needs and cause continuous interest in use.

1 is a perspective view showing the overall configuration of a portable charging device according to an embodiment of the present invention
2 is a cross-sectional conceptual view showing a charging state of a charging module and a portable terminal which are main parts of the present invention;

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

This is for the purpose of describing the present invention in detail so that those skilled in the art can easily practice the present invention, and thus, the technical spirit and scope of the present invention are not limited thereto.

In addition, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description, terms specifically defined in consideration of the configuration and operation of the present invention will vary depending on the intention or custom of the user or operator The definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view showing the overall configuration of a portable charging device according to an embodiment of the present invention.

The portable charging device according to an embodiment of the present invention includes a charging module 200 to be charged in a non-contact wireless manner in proximity to the portable terminal 100.

When the charging module 200 is close to the portable terminal 100, the magnetic field generated from the power supplied from the outside is transferred to the portable terminal 100 by electromagnetic induction so that the wireless charging is performed separately from the outside of the portable terminal 100. It is a structure provided.

Therefore, the user charges the portable terminal 100, but instead of the conventional method of allowing the contacts to contact each other and energize and charge the portable terminal 100 to the charging module 200, or the portable charging module 200 Charging can also be performed by the operation performed on the terminal 100.

The present invention is applicable by the embodiment as described above, will be described in more detail for the main part of the present invention for a more detailed description.

2 is a cross-sectional conceptual view illustrating a charging state of a charging module and a portable terminal, which are main parts of the present invention.

The portable terminal 100 is provided with a power receiving unit 110 for receiving a magnetic field generated from the charging module 200 to be described later, the power receiving unit 110 includes a rechargeable battery 112 and the power receiving coil 114. .

Here, the circuit 101 is built in the portable terminal 100, and the circuit 101 is formed by the integration of various components for controlling the portable terminal 100 to be driven by the power supplied from the power receiver 110.

The rechargeable battery 112 is detachably coupled to the portable terminal 100 to charge the current supplied from the charging module 200 with the driving power of the portable terminal 100.

The faucet coil 114 is built in the rechargeable battery 112 to receive a magnetic field from the charging module 200 in the form of a current, and the faucet coil 114 is close to the charging module 200 to be described later. Charging is performed by transferring the current received by the electromagnetic induction to the rechargeable battery 112.

As described above, the charging module 200 provides driving power of the portable terminal 100 and includes a case 210, a storage battery 220, and a power transmission device 230.

The case 210 is provided separately from the portable terminal 100 so as to be close to or spaced apart from the portable terminal 100, and is connected to the strap 300 as shown in order to prevent loss and convenience of carrying and charging. It is preferred to be interconnected.

Here, the case 210 is shown in the shape of a rectangular cylinder in the drawings, but is not limited to this, the user can be produced in a variety of shapes to create a character or unusual molding beauty to be utilized as an accessory for the portable terminal 100 Could be supplied to

Storage battery 220 is to store the power supplied from the outside is built in the case 210, the power transmission mechanism 230 is built in the battery for storage 220 is a portable terminal (100) The first encoder 232 and the power transmission coil 234 are transmitted to the side).

Here, the storage battery 220 and the power transmission mechanism 230 is electrically connected to the circuit 201 embedded in the case 210, the circuit 201 is a power source supplied from the outside to the storage battery 220 It is stored in the form of electrical energy and serves as a medium for processing the operation signal of the power transmission mechanism 230.

The first encoder 232 is connected to the storage battery 220 through the circuit 201 to convert the magnetic field into a current.

The power transmission coil 234 is connected to the first encoder 232 to transfer the current generated by the power supplied from the outside to the portable terminal 100 side.

Therefore, when the portable terminal 100 approaches the power transmission mechanism 230, when the power transmission coil 234 and the power receiving coil 114 of the portable terminal 100 to be described later interact with each other, the charging is started while electromagnetic induction occurs.

On the other hand, the present invention can be applied to an embodiment in which the power source is supplied from the sun and the surrounding lighting as an infinite energy source in addition to the above-described embodiment.

That is, a structure for receiving light energy as an external power source and mounting the light collecting part 240 connected to the charging module 200 may be applied to the outer surface of the case 210.

Here, the light energy may be a broad category including energy radiated from indoor and outdoor lighting together with energy received from sunlight, and the light concentrator 240 may be anytime and anywhere regardless of time and space. Where light is present, allow light energy to be received.

At this time, the light collecting unit 240 may adopt a mechanism for starting the operation when the charging module 200 is close to the portable terminal 100, the light collecting unit 240 when the power supply of the storage battery 220 is insufficient. A mechanism may also be employed to initiate operation and includes a light collecting panel 242 and a second encoder 244.

The light collecting panel 242 is provided on the outer surface of the case 210 to form an area for receiving light energy, and supplies power to the storage battery 220 side through a circuit 201 embedded in the case 210.

The second encoder 244 is connected to the light collecting panel 242 and controlled through the circuit 201 and converts the light energy into electrical energy.

Here, the light collecting panel 242 may be disposed on the entire portion of the outer surface of the case 210 or the portion of the outer surface of the case 210 except for the area on which the portable terminal 100 is seated so as to accommodate a larger amount of light energy in a short time. To be mounted.

As described above, the present invention can quickly and efficiently charge the portable terminal without limitation of time and space, and is easy to carry and move, inspires the user's small intestine needs and enables continuous interest in use. It can be seen that providing a device is a basic technical idea.

Although embodiments according to the present invention have been described above, this is merely exemplary, and a person skilled in the art may supply power to the charging module 200 according to an embodiment of the present invention as well as light energy. The power supply is connected to the case 210 of the charging module 200 by a connection cable separately provided through a connector connected to the circuit 201 and the storage battery 220 so as to be received from the existing power line or the driving power of the vehicle. It is understood that various modifications and equivalent ranges of embodiments are possible, such as making the case 210 made of a transparent or translucent material and mounting an LED lamp having a color change therein so as to grasp the state of charge. will be.

Therefore, the true technical protection scope of the present invention will be defined by the following claims.

100 ... handheld terminal 101 ... circuit
110 ... power receiver 112 ... rechargeable battery
114 ... Foil coil 200 ... Charge module
201 circuit 210 case
220 ... storage battery 230 ...
232 ... 1st encoder 234 ... Transmission coil
240 Condenser 242 Condensing panel
244 ... 2nd encoder 300 ... connection strap

Claims (6)

Applied to a portable terminal prepared for communication,
And a charging module provided separately to the outside of the portable terminal so that the magnetic field generated from the power supplied from the outside is approached to the portable terminal by electromagnetic induction when the portable terminal is close to the portable terminal.
The method of claim 1,
The charging module,
A case proximate or spaced apart from the portable terminal;
A battery for storing the power stored in the case and supplied from the outside;
And a power transmission mechanism built in the storage battery and transmitting the magnetic field to the portable terminal.
The method of claim 1,
The portable terminal
A charging battery which receives a magnetic field from the charging module and charges with the driving power of the portable terminal, and is detachably coupled to the portable terminal;
And a faucet coil embedded in the rechargeable battery and receiving a magnetic field from the charging module in the form of a current.
The method of claim 2,
The power transmission mechanism,
A first encoder for converting the magnetic field into a current;
And a power transmission coil connected to the first encoder to transfer the current to the portable terminal.
The method of claim 2,
The outer surface of the case receives light energy from an external power source, and is equipped with a light collecting unit connected to the charging module,
And the light collecting unit starts operation when the case is close to the portable terminal.
The method of claim 5, wherein
The condenser is,
A light collecting panel provided on an outer surface of the case to receive light energy;
A second encoder connected to the light collecting panel to convert the light energy into electrical energy;
The light collecting panel is a portable charging device that is mounted on the entire surface of the case or the portion except for the area in which the portable terminal contacts on the outer surface of the case.

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