KR20150142216A - Auxiliary battery having solar collector with transmitter-receiver wireless charge - Google Patents

Abstract

The present invention relates to an auxiliary battery and, more specifically, to an auxiliary battery, capable of wirelessly supplying power to an electronic device and charging an auxiliary battery by including a wireless charging transmitter and a wireless charging receiver in the auxiliary battery; and charging the battery with solar power by including a solar collection panel. The present invention relates to the auxiliary battery which includes a battery cell (220) supporting power for the electronic device (100) including a battery (110), a wireless charging receiver (120), and a wire charging receiver (130). The auxiliary battery comprises: a wireless charging transmitter (210) supplying power to the wireless charging receiver (120); a wireless charging receiver (230) charging the battery cell (220) with wireless power by receiving the power from a wireless charger (300); a sunlight receiving part (250) receiving sunlight; a photoelectric conversion part (240) performing the photoelectric conversion of the sunlight, received from the sunlight receiving part (250), to charge the battery cell (220); and a wire charging receiver (270) converting AC power into DC power to charge the battery cell (220).

Description

[0001] The present invention relates to an auxiliary battery having a wireless charging transceiver and a solar receiver,

The present invention relates to a secondary battery, and more particularly, to a secondary battery having a wireless charging transmitter and a wireless charging receiver in a secondary battery, charging the secondary battery and supplying electric power to the electronic device wirelessly, To a secondary battery having a wireless charging transceiver and a solar receiver capable of charging by light.

A wireless charging system using a magnetic induction phenomenon is being used as a wireless power transmission technology for transferring energy wirelessly.

For example, an electric toothbrush or a wireless shaver is charged with the principle of electromagnetic induction, and recently, wireless charging products capable of charging a portable device such as a mobile phone, a PDA, an MP3 player, and a notebook computer by using electromagnetic induction have been introduced .

With the development of the IT (Information Technology) industry, electronic devices such as mobile communication telephones, portable computers, PMPs, and digital cameras are increasingly used and becoming smaller.

Electronic devices such as mobile communication telephones, portable computers, PMPs, and digital cameras must be light in weight and small in size to improve portability. For this purpose, the size of the built-in battery mounted in the electronic device becomes small, and there is a limit to increase the battery capacity.

Therefore, in the case of a conventional portable electronic device, users have developed and used an auxiliary battery to solve the problem of having to carry the auxiliary battery.

Hereinafter, a secondary battery according to the related art will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram for explaining an auxiliary battery according to an example of the prior art.

The auxiliary battery 20 according to an example of the prior art is for supplying auxiliary power to the electronic apparatus 10. The auxiliary battery 20 includes a wired charge transmitter 21, a battery cell 22, and a wired charge receiver 23).

The electronic device 10 includes a battery 11 and a connector 12. The wire charging transmission unit 21 of the auxiliary battery 20 is connected to the connector 11 of the electronic apparatus 10 and the wired cable 41, And supplies the auxiliary power of the battery cell 22 of the auxiliary battery 20 to the electronic device 10 or the battery 11 of the electronic device 10. [ The wired charge receiving unit 23 of the auxiliary battery 20 is connected to the AC power source 30 through a wired cable 42 to convert AC power to DC and then charges the battery cell 22. [

2 is a block diagram for explaining an auxiliary battery according to another example of the prior art.

The auxiliary battery 20 according to another example of the related art supplies auxiliary power to the electronic apparatus 10 and includes a wireless charging transmitter 21, a battery cell 22, and a wired charging receiver 23 ).

The auxiliary battery 20 according to another example of this prior art is suitable for the case where the electronic device 10 is composed of the battery 11 and the wireless charge receiving unit 13. As the electronic device 10 develops, (10) having the electronic device (13).

The auxiliary power source of the battery cell 22 of the auxiliary battery 20 is wirelessly connected between the wireless charging transmission unit 21 of the auxiliary battery 20 and the wireless charging reception unit 13 of the electronic device 10 according to another example of this prior art. To the battery 11 of the electronic device 10 or the electronic device 10. [ On the other hand, the wired charge receiving unit 23 of the auxiliary battery 20 is connected to the AC power source 30 through a wired cable 42 to convert the AC power to DC, and then charges the battery cell 22.

Such an auxiliary battery 20 has a large demand for a portable auxiliary battery in a region where a traveling distance of a traveler is long and power supply in a public place and a transportation means is not smooth. The capacity of a main auxiliary battery varies from 5.000 to 10,000 mA This is a level that can buffer about two generic smartphones.

Such a conventional auxiliary battery is supplied with electric power through a wired line, charges the battery cell, and again operates in a manner of supplying electric power to other devices by wires or transmits electric power to other devices wirelessly.

However, since the conventional auxiliary battery has to be connected to the wired cable when charging the battery cell of the auxiliary battery, there is the following problem because there is a wired cable for charging.

First, since it is necessary to carry a wire cable, it may cause considerable inconvenience when moving.

Secondly, there is a problem that if the cable is lost, charging is impossible.

Third, since it is charged by cable cable, it can be felt psychological discomfort along with various other cable cables.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a wireless charging transmitter and a wireless charging receiver in a secondary battery, And an auxiliary battery including a solar cell receiver and a wireless charging transceiver that is provided with an optical collecting plate and is also capable of charging by solar light.

According to an aspect of the present invention, there is provided an auxiliary battery including a wireless charging transceiver and a solar light receiver. The auxiliary battery includes a battery, a wireless charging and receiving unit, and an auxiliary battery The auxiliary battery includes a wireless charging transmitter for supplying power to the wireless charging receiver; A wireless charging receiver for receiving wireless power from a wireless charger and charging the battery cell with power; A solar light receiver for receiving solar light; A photoelectric conversion unit for photoelectrically converting the solar light received by the solar light receiving unit to charge the battery cell; And a wired charge receiving unit for converting the AC power into DC to charge the battery cell.

Here, it is preferable that the wireless charge receiving unit uses one of a magnetic induction method and a resonance method.

It is preferable that the solar light receiving unit is formed of a solar light collecting plate.

In addition, the auxiliary battery including the wireless charging transceiver and the solar receiver allows the wireless power transmission to be automatically performed when the electronic device 100 is detected, and automatically receives the power when the wireless power signal is sensed and stores it in the battery cell And a control circuit for controlling the power supply voltage.

According to another aspect of the present invention, there is provided an auxiliary battery including a wireless charging transceiver and a solar receiver. The auxiliary battery includes a battery, a wireless charging receiver, and a wired charging receiver. Wherein the auxiliary battery includes: a transmitting coil configured to transmit a power of the battery cell to a wireless charging receiver; and a peripheral circuit area to control the auxiliary battery; A battery cell portion constituting a battery cell; And a receiving unit including a receiving coil for wirelessly charging the battery cell and a solar collecting plate for charging sunlight to the battery cell.

Here, the solar collector plate is preferably configured to be exposed to the outer surface of the auxiliary battery.

Preferably, the peripheral circuit region includes a control circuit for automatically performing wireless power transmission when an electronic device is sensed, and performing power reception when the wireless power signal is sensed and storing the wireless power signal in a battery cell.

When an electronic device capable of wired / wireless charging is detected, it is preferable to set the wireless charging transmission (Tx) and wired charging transmission order, and then allocate the power to the battery cell.

The present invention has the following effects.

First, since wireless charging can be performed, it is not necessary to have a wired cable, so it is easy to carry the auxiliary battery.

Second, it can be charged at any time in a wireless charging space without worrying about losing the cable.

Third, since it is wireless charging, it can reduce the consumption of wired cable.

Fourth, when the wired / wireless charging is difficult due to the provision of the solar light receiver, it can be charged through the sunlight.

FIG. 1 is a block diagram for explaining an auxiliary battery according to an example of the prior art.
2 is a block diagram for explaining an auxiliary battery according to another example of the prior art.
3 is a block diagram for explaining an auxiliary battery having a wireless charging transceiver and a solar receiver according to the present invention.
FIG. 4 is a plan view illustrating a supplementary battery having a wireless charging transceiver and a solar cell receiver shown in FIG. 3. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. Further, in describing the embodiments, descriptions of technical contents which are well known in the technical field to which the present invention belongs and which are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

FIG. 3 is a block diagram illustrating a supplementary battery with a wireless charging transceiver and a solar receiver according to the present invention, FIG. 4 illustrates a supplementary battery with a wireless charging transceiver and a solar tube receiver shown in FIG. 3 Fig.

3 and 4, the auxiliary battery 200 having the wireless charging transceiver and the solar light collecting plate according to the present invention includes a wireless charging transmitter 210, a battery cell 220, a wireless charging receiver 230, A photoelectric conversion unit 240, a solar light reception unit 250, a wired charge transmission unit 260, and a wired charge reception unit 270.

The wireless charging transmitter 210 supplies the power of the battery cell 220 to the wireless charging receiver 120 of the electronic device 100 having the battery 110 and the wireless charging receiver 120.

The battery cell 220 receives power from the wireless charge receiving unit 230, the photoelectric conversion unit 240, and the wired charge transmission unit 260 to charge the battery cell 220.

At this time, the wireless charge receiving unit 230 receives wireless power from the wireless charger 300 and charges the battery cell 220 with power. The wireless charging receiver 230 may use one of a magnetic induction type and a resonance type, and is not particularly limited as long as it can receive wireless charging. Especially, if a wireless power transmission environment is established in a public place, it can be usefully used.

The photoelectric conversion unit 240 photoelectrically converts sunlight from the solar light receiving unit 250 to charge the battery cell 220 with power.

The wired charge transmission unit 260 supplies the power of the battery cell 220 to the wired charge reception unit 130 of the electronic device 100 through the wired cable 410.

The wired charge receiving unit 270 receives the AC (alternating current) power source 500 from the wired cable 420 and converts it into a DC (direct current) power source to charge the battery cell 220.

4, the transmission unit 201, the battery cell unit 202, and the reception unit 203 can be divided into a transmitter 200, a receiver 200, The battery cell unit 202 includes a battery cell 220 and the receiving unit 203 includes a wireless charging and receiving unit 230. [ The transmitting unit 201 and the peripheral circuit area 205 are formed in the transmitting unit 201. The receiving unit 203 is formed with the receiving coil 206. The solar collecting plate 207 is connected to the auxiliary battery 200 And is formed to be exposed to the outer surface.

Here, the peripheral circuit region 205 may include a control circuit for controlling the auxiliary battery. This control circuit automatically causes the wireless power transmission to proceed when the wireless charging transmission unit 210 detects the wireless charging enabled electronic device 100. When the wireless power signal is detected by the wireless charge receiving unit 230 of the auxiliary battery 200, the wireless power signal is received and stored in the battery cell 220. Meanwhile, when the electronic device 100 capable of wired / wireless charging is detected, the wired / wireless power supply can be arranged in the order of the wireless charging transmission Tx and the wired charging transmission, and then the power can be distributed to the battery cell 220.

Also, if the wired / wireless charging is difficult, solar battery 210 can be charged by photoelectrically converting sunlight through solar collecting plate 207 exposed on the outer surface of auxiliary battery 200 if there is sunlight.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications will be apparent to those skilled in the art. Obviously, the invention is not limited to the embodiments described above. Accordingly, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas which fall within the scope of equivalence by alteration, substitution, substitution, Range. In addition, it should be clarified that some configurations of the drawings are intended to explain the configuration more clearly and are provided in an exaggerated or reduced size than the actual configuration.

100: Electronic device 110: Battery
120: wired charge reception unit 130: wireless charge reception unit
200: auxiliary battery 201: transmitter
202: battery cell unit 203:
204: transmission coil 205: peripheral circuit part
206: Receiving coil 207: Solar collecting plate
210: Wireless charging transmitter
220: Battery cell 230: Wireless charging receiver
240: Photoelectric conversion unit 250: Solar light receiver
260: wired charge transmission unit 270: wired charge reception unit
300: wireless charger 410, 420: wired cable
500: AC power source

Claims (8)

An auxiliary battery having a battery cell (220) for assisting power supply to an electronic device (100) having a battery (110), a wireless charge receiving unit (120) and a wired charge receiving unit (130)
The auxiliary battery 200 includes a wireless charging transmitter 210 for supplying power to the wireless charging receiver 120;
A wireless charge receiving unit 230 receiving wireless power from the wireless charger 300 and charging the battery cell 220 with power;
A solar light receiver (250) for receiving solar light;
A photoelectric conversion unit 240 for photoelectrically converting the solar light received by the solar light receiving unit 250 to charge the battery cell 220;
And a wired charge receiving unit (270) for converting AC power to DC to charge the battery cell (220).
The method according to claim 1,
The wireless charging and receiving unit 230 uses one of a magnetic induction type and a resonance type. The auxiliary battery includes a wireless charging transceiver and a solar receiver.
The method according to claim 1,
Wherein the solar light receiver (250) comprises a solar light collecting plate, and a secondary battery having a solar light receiver and a wireless charging transceiver.
The method according to claim 1,
The auxiliary battery including the wireless charging transceiver and the solar receiver automatically performs wireless power transmission when the electronic device 100 is sensed and automatically receives power when a wireless power signal is sensed, 220). The auxiliary battery includes a wireless charging transceiver and a solar receiver.
In an auxiliary battery 200 having a battery cell 220 for assisting power supply to an electronic device 100 having a battery 110, a wireless charge receiving unit 120 and a wire charge receiving unit 130,
The auxiliary battery 200 includes a transmission coil 204 for transmitting power of the battery cell 220 to the wireless charging receiver 120 and a peripheral circuit area 205 for controlling the auxiliary battery 200 (201);
A battery cell part 202 constituting the battery cell 220; And
And a receiving unit 203 composed of a receiving coil 206 for wirelessly charging the battery cell 220 and a solar collecting plate 207 for charging sunlight to the battery cell 220. A secondary battery having a wireless charging transceiver and a solar receiver.
6. The method of claim 5,
Wherein the solar collecting plate (207) is exposed on an outer surface of the auxiliary battery (200).
6. The method of claim 5,
The peripheral circuit area 205 is a control circuit for automatically conducting wireless power transmission when the electronic device 100 is sensed and for storing power in the battery cell 220 by performing power reception when a wireless power signal is sensed And a secondary battery having a wireless charging transceiver and a solar receiver. 6. The method of claim 5,
Wherein the wireless charging transceiver is configured to perform wireless charging transmission (Tx) and wired charging transmission in the order of the electronic device (100) capable of wired / wireless charging and then allocate power to the battery cell (220) A secondary battery with a solar receiver.

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