KR101470438B1 - Wireless charging battery case of multiple function - Google Patents

Abstract

A multipurpose wireless rechargeable battery case according to the present invention comprises a housing member constituting an outer shape of the case, a wireless charging coil antenna unit formed in the housing member, and an antenna unit for transmitting power from the wireless charging coil antenna unit to the battery cell A wireless charging circuit unit, and a connection terminal unit for connecting the wireless charging coil antenna unit to the battery pack.
According to the present invention, it is possible to wirelessly charge the battery pack, and when necessary, the battery pack can be connected to an external device to serve as an auxiliary power source.

Description

{WIRELESS CHARGING BATTERY CASE OF MULTIPLE FUNCTION}

The present invention relates to a battery case, and more particularly, to a multipurpose wireless rechargeable battery case configured to be capable of being charged wirelessly and capable of functioning as an emergency power source when necessary.

In general, an inner battery pack used as a power source of a portable communication terminal has a structure in which a PCB and a PCB including a battery cell and a protection circuit module (PCM) are coupled.

Here, the battery cell has a structure in which an electrode stack unit including a positive electrode sheet and a negative electrode sheet is housed in a metal casing, and a positive electrode terminal and a negative electrode terminal are provided on an outer surface of the casing.

In addition, the protection circuit module is mounted on the outside of the battery cell to prevent explosion and overcharge of the battery.

That is, the battery pack has a structure in which the PCB and the PCB including the battery cell and the protection circuit module are coupled to each other and packaged in a unit form. Such a battery pack has recently been miniaturized and lightweight, , Thinning, and weight reduction are required.

Meanwhile, recent developments in information communication technology have led to an increase in the use of portable terminals capable of not only voice calls but also internet, video calls, and various document operations. Various portable terminals with new performance have been developed and developed according to the development of technology.

Generally, the charging method of the portable terminal is most commonly used by charging the charger by placing the portable terminal in contact with the terminal, or charging the connector of the charger by directly connecting the connector of the portable terminal.

Recently, a wireless charging method has been developed in which charging is performed by placing a portable terminal on a charger or placing the portable terminal near a charger without directly connecting the connector of the charger and the connector of the portable terminal.

The wireless charging method is largely a magnetic resonance method and an electromagnetic induction method. The magnetic resonance method is a method of transmitting power through a frequency between transmitting and receiving ends of power for wireless charging.

On the other hand, in the electromagnetic induction method, induction current is generated between two coils disposed adjacent to each other and charged, and the principle of induction current is generated according to the number of windings of the two coils and the distance between the coils.
As a prior art related to such wireless charging, there is a registered patent No. 10-0603986 (entitled " wireless rechargeable battery pack ", registered on July 14, 2006).
The present invention relates to a battery pack for wireless charging, in which the induced electromotive force transmitted from a solid state charger through a charging receiver module provided in a battery pack case is converted into a direct current, And the charge and discharge protection circuit module is controlled by a radio signal transmitted and received through the RF ID tag, wherein the charge and discharge protection circuit module is configured to be charged by the protection circuit module, And a shielding member is interposed between the battery and the battery.
In the prior art, it is proposed that frequency interference is eliminated in a magnetic field to prevent power reduction phenomenon, and that the temperature rise of the battery due to the induction heating phenomenon can be minimized, so that the battery can be safely used.

An object of the present invention is to provide a multipurpose wireless rechargeable battery case capable of wireless charging for a battery pack.

It is still another object of the present invention to provide a versatile wireless rechargeable battery case which is connected to an external device, if necessary, so as to serve as an auxiliary power source.

According to another aspect of the present invention, there is provided a multi-function wireless rechargeable battery case, comprising: a housing member forming an outer shape of the case; a wireless charging coil antenna unit formed on the housing member; A wireless charging circuit unit for transmitting the wireless charging coil antenna unit to the battery cell, and a connection terminal unit for connecting the wireless charging coil antenna unit to the battery pack.

Advantageously, said case further comprises an OTG circuitry.

Here, the wireless charging coil antenna unit may be formed on the inner bottom of the housing member.

In addition, a shielding member may be provided on the wireless charging coil antenna unit.

Preferably, the wireless charging coil antenna portion is installed in a concentric rectangular shape on the inner bottom portion of the housing member.

In addition, an opening and closing member for opening and closing the housing member may be additionally included.

Preferably, the housing member is provided with an external device connection portion for connection with an external device.

According to the present invention, it is possible to wirelessly charge the battery pack, and when necessary, the battery pack can be connected to an external device to serve as an auxiliary power source.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
1 is a front view of a multi-function wireless rechargeable battery case according to the present invention,
2 is a structural block diagram of the battery case.

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

Prior to this, the terms used in the specification and claims should not be construed in a dictionary sense, and the inventor may, on the principle that the concept of a term can be properly defined in order to explain its invention in the best way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Therefore, the embodiments shown in the present specification and the drawings are only exemplary embodiments of the present invention, and not all of the technical ideas of the present invention are presented. Therefore, various equivalents It should be understood that water and variations may exist.

FIG. 1 is a front view of a multi-function wireless rechargeable battery case according to the present invention, and FIG. 2 is a structural block diagram of the battery case.

The multi-function wireless rechargeable battery case according to the present invention includes a housing member 10 constituting an outer shape of the case, a wireless charging coil antenna unit 20 formed on the housing member 10, 20 includes a wireless charging circuit portion 30 for transmitting electric power from the battery pack 50 to the battery pack 50 and a connection terminal portion 40 for connecting the wireless charging coil antenna portion 20 to the battery pack 50 .

The battery pack 50 includes a battery cell portion accommodated in a metal casing, an electrode stacking unit including a negative electrode sheet and a positive electrode sheet, a battery board portion coupled to the battery cell portion, and a cell connection terminal portion.

The battery pack 50 may be provided in various types, for example, a nickel-cadmium battery, a nickel-hydrogen battery, or a lithium ion battery.

The housing member 10 is an outer shape of the multi-function wireless rechargeable battery case according to the present invention, and an opening and closing member 12 for opening and closing the housing member 10 is installed on the front face.
The opening and closing member 12 is formed in a substantially rectangular shape to conform to the front surface shape of the housing member 10 and the one side of the opening and closing member 12 is fixed to the housing member 10, And is configured to be rotated around one side thereof to open or close the entire surface of the housing member 10. [
1 shows the state in which the opening and closing member 12 is raised with respect to the housing member 10. As shown in Fig.

A connection terminal portion 40 for electrically connecting the wireless charging coil antenna portion 20 to the battery pack 50 is installed at one side of the housing member 10.

The wireless charging coil antenna unit 20 is configured to wirelessly charge the battery pack 50, and receives electromagnetic force from a transmission unit of a wireless charger.

The wireless charging coil antenna unit 20 is formed in the form of wiring on the bottom surface of the housing member 10 where the battery pack is seated.

Here, the wiring may be a copper or copper alloy wire formed on the inner bottom surface of the housing member 10, so that the wiring may be formed on the bottom surface of the housing member 10 by etching or plating .

Here, the wirings are arranged in a plurality of layers in a concentric rectangular shape on the bottom surface of the housing member 10, and it is preferable that the wirings are formed in a plurality of layers toward the center of the bottom surface.

Thus, the wiring can be arranged in a space-efficient manner on the bottom face of the rectangular shape, and the current can be smoothly flowed.

Here, the rectangular shape does not mean a complete rectangular shape but includes a rough rectangular shape as shown in FIG. 1, and may be variously modified to be disposed on the bottom surface of the housing member 10 efficiently. Is possible.

On the other hand, a shielding member 25 such as a ferrite core for shielding electromagnetic waves is disposed on the RF coil antenna unit 20.

That is, the shielding member 25 is disposed on the inner bottom surface of the housing member 10 in a state where the wireless charging coil antenna unit 20 is formed. As a result, the wireless charging coil antenna unit 20 The shielding member (25) is disposed between the battery pack (50).

Therefore, when the battery pack 50 is influenced by the electromagnetic force of the wireless charging coil antenna unit 20 or the electromagnetic force is not affected by the battery pack 50, (20).

On the other hand, the electric power from the wireless charging coil antenna unit 20 received by the RF electric wave or the electromagnetic wave is configured to charge the battery pack 50 by the wireless charging circuit unit 30.

The wireless charging circuit unit 30 includes a rectifying unit 32, a controller 36 and a voltage regulating unit 37. The wireless charging circuit unit 30 also includes a matching circuit unit for matching a wireless charging power, Is disposed inside the bottom of the housing member (10).

The electromagnetic wave received and filtered by the matching circuit section is in an AC state and is converted into DC power through the rectifying section 32.

Then, the power converted into DC power is converted into a DC power of a predetermined voltage through the voltage regulator 37, and the battery pack 50 is charged through the charger 34.

Meanwhile, the wireless rechargeable battery case according to the present invention further includes an OTG circuit unit 38 so as to exert its role as an auxiliary power source for the external device 100 in an emergency.

The above-mentioned input / output circuit is an abbreviation of USB On-The-Go, and is a circuit that allows the USB peripheral devices to be connected to each other.

The battery pack 50 is configured to be able to serve as an auxiliary power source for the external device 100 in a state where the battery pack 50 is mounted on the battery case according to the present invention through the automatic circuit unit 38.

In order to connect the battery pack 50 to the external device 100 in a state where the battery pack 50 is mounted on the case according to the present invention, the housing member 10 is provided with an external device connecting portion 14 for connecting to an external device Respectively.

While the present invention has been described with reference to the exemplary embodiments and the drawings, it is to be understood that the technical scope of the present invention is not limited to these embodiments and that various changes and modifications will be apparent to those skilled in the art. Various modifications and variations may be made without departing from the scope of the appended claims.

10: housing member 20: wireless charging coil antenna part
30: wireless charging circuit section 40: connection terminal section
50: Battery pack 100: External device

Claims (7)

As a versatile wireless rechargeable battery case,
A housing member forming an outer shape of the case;
A wireless charging coil antenna unit formed on the housing member;
A wireless charging circuit unit for transmitting power from the wireless charging coil antenna unit to the battery pack;
A connection terminal portion for connecting the wireless charging coil antenna portion to the battery pack;
And an opening / closing member for opening / closing the housing member,
Wherein the wireless charging coil antenna portion is formed on an inner bottom portion of the housing member,
A shielding member is provided on the wireless charging coil antenna unit,
The wireless charging circuit portion includes an OTG circuit portion,
The battery pack is charged into the battery pack case through the wireless charging circuit unit. When the battery pack is mounted on the battery case, the battery pack is used as an auxiliary power source for the external device in an emergency through the automatic circuit unit Wherein the battery case is made of a metal. The method according to claim 1,
Wherein the wireless charging coil antenna unit is installed in an inner bottom portion of the housing member in a concentric rectangular shape. 3. The method of claim 2,
Wherein the housing member is provided with an external device connection portion for connection with an external device. delete delete delete delete

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