KR101408149B1 - Exterior case of mobile phone for wireless charging using electromagnetic coupled resonance method - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile phone case having a wireless charging function of a mobile phone battery using electromagnetic resonance resonance. A wireless charging cellular phone case includes a case body provided on a back surface of a cellular phone, a power supply coil disposed inside the case and receiving power, the power supply coil being disposed in a flat spiral structure to resonate high frequency power supplied from the outside; And an RF rectifier for rectifying the received power to supply power to the battery. This makes it possible to charge the battery while using the mobile phone while the mobile phone is separated from the power transmission device by several meters.

Description

TECHNICAL FIELD [0001] The present invention relates to a cellular phone case for wireless recharging using electromagnetic resonance resonance,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile phone case having a wireless charging function of a mobile phone battery using electromagnetic resonance resonance.

The conventional charging method of the mobile phone battery can be roughly classified into a wired charging method which is connected to a power source by wire, and a wireless charging method which is performed by using electromagnetic induction without being directly connected to a power source.

In the case of the wired charging system, a charging adapter was connected to a charging terminal formed on one side or lower side of a mobile phone, and a cord of the adapter was connected to a power outlet.

In the case of the wireless charging system, an electromagnetic induction coil is provided on the back of the mobile phone as shown in the left side of FIG. 1, and a charging pad provided with a transmission coil for applying a magnetic field to the electromagnetic induction coil of the mobile phone case .

As shown in Fig. 2, the mobile phone starts charging from the moment it is placed on the charging pad. Such a wireless system is widely used in electric toothbrushes as well as mobile phones.

Korean Patent No. 10-1055280 (entitled " Wireless charging system using short range wireless communication and wireless charging case) " has been disclosed as an example of a mobile phone charging apparatus employing such a technique. This technology is composed of a base station (corresponding to the above-described charging pad) for transmitting a signal by using a near field communication system and a cellular phone case for converting and outputting the signal into a charging power source.

The wireless charging method using the electromagnetic induction as described above is more convenient than the wire method in that it is not necessary to connect the charging adapter to the mobile phone and the power source. However, since the electromagnetic induction coil and the transmission coil must be separated within a few centimeters, I followed.

Specifically, the user has to place his or her cell phone on the charging pad in order to charge the mobile phone, which makes it difficult to use the cell phone during charging. Also, since the charging operation is stopped as soon as the mobile phone is separated from the charging pad for use of the mobile phone, the time required for the charging has increased.

Particularly, when a device for simultaneously charging a plurality of mobile phones is required, such as a rest area or a convenience store, the area of the charging pad must be increased in proportion to the number of mobile phones to be mounted at the same time.

Published Patent Publication No. 10-2010-0125894 (Dec. 1, 2010)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the background art described above, and it is an object of the present invention to provide a cellular phone case for wireless charging which can be charged even when the cellular phone is not carried on a charging pad.

According to an aspect of the present invention, there is provided a mobile phone case for wireless charging of a mobile phone battery, the mobile phone case comprising: a case body provided on a back surface of the mobile phone; A reception-specific resonance coil disposed in the case body in a flat spiral structure to resonate high-frequency power supplied from the outside; A feed coil disposed in the water-receiving resonance coil and receiving power from the water-supplied resonance coil; And an RF rectifier for rectifying power received by the power supply coil and supplying power to the battery; .

Preferably, the case body constitutes the back surface of the cellular phone. A connector having one end connected to the RF rectifier and the other end electrically connected to a connection terminal of the battery when the case body is coupled to the back of the cellular phone and supplying power rectified by the RF rectifier to the battery; .

Or the case body is detachably attached so as to surround the back cover of the cellular phone. A connector having one end connected to the RF rectifier by a cable and the other end inserted into a charging terminal formed on an outer surface of the mobile phone to supply power rectified by the RF rectifier to the battery; .

According to the mobile phone case for wireless charging according to the present invention, the mobile phone battery can be charged even at a distance of several meters from the power transmission device by adopting the electromagnetic sensitive resonance method, so that the user can charge the mobile phone while using the mobile phone. Accordingly, even if the number of mobile phones to be charged increases, it is not necessary to expand the area of the power transmission device, thereby making it possible to miniaturize the power transmission device.

According to the present invention, the cellular phone case for wireless charging is configured as a back cover of a cellular phone, so that it is used as a default function of a cellular phone.

According to the present invention, there is an advantage that the volume of the existing case can be maintained by attaching the water-receiving resonance coil to the inner surface of the cellular phone case or by embedding it in the case.

1 is a photograph showing a cell phone case for wireless charging according to a conventional electromagnetic induction method;
2 is a photograph showing a charging pad and a mobile phone being charged by a conventional electromagnetic induction method.
FIG. 3 is a view showing a connection state between a mobile phone case for wireless charging and a mobile phone body according to the first embodiment of the present invention; FIG.
4 is a view showing a connection state between a mobile phone case for wireless charging and a mobile phone body according to a second embodiment of the present invention;
FIG. 5 is a configuration diagram illustrating a mobile phone and a power transmission device equipped with a charging mobile phone case according to the present invention. FIG.

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

The embodiment of the present invention can be divided into a first embodiment in which the cellular phone charging case body directly configures the back surface of the cellular phone and a second embodiment in which the cellular phone is detachably attached to surround the back cover of the cellular phone. The case body of the second embodiment corresponds to a secondary case sold as an accessory product for protecting the cellular phone from impact or scratches.

3, the case for charging mobile phones according to the first embodiment includes a case body 10, a water-receiving resonance coil 11, a power supply coil 12, an RF rectifier 13, and a connector 14, .

The case body 10 is essentially provided for protecting electronic devices such as a battery, a camera, an expansion memory, a USIM chip, and the like exposed from the back of the cellular phone 1 from the outside in the same manner as a general cellular phone case.

The water-receiving resonance coil 11 is arranged on the case body 10 in a flat spiral structure to resonate the high frequency power supplied from the external power transmission device 30 as shown in Fig.

The power supply coil 12 is disposed inside the water-only resonance coil 11, and is drawn to one side thereof to receive power from the water-only resonance coil 11. [

At least one of the water-receiving resonance coil 11 and the power supply coil 12 may be attached to the inner surface of the case body 10 or may be formed by forming a pattern. Or be embedded in the case body 10 so as not to be seen from the outside, thereby preventing disconnection of coils and minimizing interference with electronic devices in the mobile phone. As a result, the space in which the water-receiving resonance coil 11 and the power-supply coil 12 are installed is negligible.

The RF rectifier 13 rectifies the power received by the power supply coil 12 to provide the set DC power.

The connector 14 electrically connects the RF rectifier 13 and the connection terminal 3 of the battery 1 of the cellular phone 1. The connector 14 electrically connects the case main body 10 to the back surface of the cellular phone 1, Respectively. The structure of the connector 14 and the connection terminal 3 is not shown in the drawing, but electrical connection by contact or insertion is possible.

An example of the power transmitting device 30 for transmitting electric power to the mobile phone charging case according to the above-described first embodiment is as shown in Fig.

The power transmitter 30 generates high frequency power from the RF oscillator 32 connected to the power supply 31 and the generated high frequency power is amplified by the RF amplifier 33 and supplied to the power supply coil 34. A spiral-form transmission-specific resonance coil 35 is provided around the power-supply coil 34 to transmit the power of the resonance frequency to the power-supply-specific resonance coil 11 described above.

At this time, the distance d between the power transmitter 30 and the mobile phone 1 equipped with the mobile phone charging case becomes several meters. That is, the mobile phone battery 2 is automatically charged when the user carrying the mobile phone 1 equipped with the mobile phone charging case of the present invention is within a range of a few meters from the power transmission device 30. Therefore, the user can freely use the mobile phone while charging the battery 2. [ Further, unlike the conventional charging pad for placing a mobile phone, there is no restriction on the cell phone to be charged, so that it is not necessary to increase the size of the power transmission device 30 even if the number of mobile phones to be charged increases, Is possible.

4, the case for charging the mobile telephone according to the second embodiment includes a case body 20, a water-supplied resonance coil 21, a power supply coil 22, an RF rectifier 23, and a connector 24, . The water-standing resonance coil 21, the power supply coil 22, and the RF rectifier 23 are the same as those in the first embodiment, and thus the description thereof is omitted. Only differences from the first embodiment will be described below.

The case body 20 is detachably attached to cover the back cover of the ordinary cell phone 1 and is a case for protecting the cell phone from impact or scratching. That is, the case body 20 of the second embodiment has an advantage that it can be applied to all mobile phones currently sold on the market, unlike the first embodiment.

The connector 24 is connected by cable to the RF rectifier 23 so that the connector 24 can be coupled to the charging terminal 4 formed at the lower end of the cellular phone 1.

5, in a state where the connector 24 is inserted into the charging terminal 4 of the cellular phone 1 while the case body 20 is coupled to the back surface of the cellular phone 1, ) To a few meters.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

1: Mobile phone 2: Battery
3: Connection terminal 4: Charging terminal
10, 20: case 11, 21: water-only resonance coil
12, 22: power feeding coils 13, 23: RF rectifier
14, 24: connector 30: power transmission device
31: power supply 32: RF oscillator
33: RF amplifier 34: power supply coil
35: transmission-only resonance coil

Claims (5)

A mobile phone case for wireless charging for wireless charging of a mobile phone battery,
A case body provided on a back surface of the mobile phone;
A reception-specific resonance coil disposed in the case body in a flat spiral structure to resonate high-frequency power supplied from the outside;
A feed coil disposed in the water-receiving resonance coil and receiving power from the water-supplied resonance coil; And
An RF rectifier for rectifying the power received by the power feed coil to supply power to the battery;
/ RTI >
Wherein at least one of the water-receiving resonance coil and the power supply coil is embedded in the case body. The method according to claim 1,
And the case main body constitutes a back surface of the mobile phone. 3. The method of claim 2,
A connector having one end connected to the RF rectifier and the other end electrically connected to a connection terminal of the battery when the case body is coupled to the back of the mobile phone and supplying the power rectified by the RF rectifier to the battery; Wherein the mobile phone case further comprises: The method according to claim 1,
Wherein the case body is detachably attached to cover the back cover of the mobile phone. 5. The method of claim 4,
A connector having one end connected to the RF rectifier by a cable and the other end inserted into a charging terminal formed on an outer surface of the mobile phone to thereby supply power rectified by the RF rectifier to the battery; Wherein the mobile phone case further comprises:

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