KR102053340B1 - Wireless Charging Apparatus - Google Patents

Abstract

The present invention can increase the wireless charging efficiency by moving the position of the wireless charging coil during wireless charging, and provides a wireless charging device that can reduce the cost by reducing the number of charging coils in the wireless charging device to one.
Wireless charging apparatus according to an embodiment of the present invention is a coil capable of wireless charging, the coil moving unit to move the coil, the magnetic force generating unit for moving the coil due to the magnetic force generated by the coil and the coil is It includes a support for supporting to move only in the coil moving portion.

Description

Wireless Charging Apparatus {Wireless Charging Apparatus}

The present invention relates to a wireless charging device, and more particularly, to a position moving structure technology of a coil for wireless charging.

Today's telecommunications sector is developing at a very rapid pace. Various technologies combining electric, electronic, communication, and semiconductors are continuously being developed, and as the trend of electronic devices is becoming more mobile, researches on wireless communication and wireless power transmission technology are actively conducted in the communication field. There is a trend. In particular, research on a method of wirelessly supplying power to electronic devices has been actively conducted.

Such wireless power transmission utilizes electromagnetic resonance structures such as inductive coupling, capacitive coupling, or antennas without physical contact between the power transmitting end and the powered electronics (receiving end). To wirelessly supply (transmit) power through space.

On the other hand, in powering portable devices in a vehicle such as a mobile phone or a headset, power is supplied to portable devices in a vehicle by plugging a cigar jack with a wire into a 12V DC output port and connecting a cable of the cigar jack to a receiver. It was.

In this case, it is troublesome to connect the connecting jack to the receiver by hand, and there is also a safety problem when such a connecting operation is performed while driving. In addition, since the connection jack and the receiving device are connected by a line, there is a problem that the line processing problem in the vehicle is not easy and if the line is not properly arranged, it may not look good.

Proposed to improve the problems caused by the use of wired is a wireless power transmission technology as known.

However, in order to apply the wireless power transfer technology to the wireless charging device, the wireless charging performance should be improved, and the necessity of cost reduction of the wireless charging device is emerging.

The present invention can increase the wireless charging efficiency by moving the position of the wireless charging coil during wireless charging, and provides a wireless charging device that can reduce the cost by reducing the number of charging coils in the wireless charging device to one.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. It will be readily appreciated that the objects and advantages of the invention may be realized by the means and combinations thereof indicated in the claims.

Wireless charging device according to an embodiment of the present invention is a coil capable of wireless charging, the coil moving unit to move the coil, the magnetic force generating unit for moving the coil due to the magnetic force generated by the coil and the coil is It includes a support for supporting to move only in the coil moving portion.

The apparatus may further include a first power supply unit supplying power to the coil.

The apparatus may further include a second power supply unit supplying power to the magnetic force generation unit so that magnetic force may be generated in the coil.

In addition, one coil may be provided in the coil moving part.

In addition, a coil moving wheel may be further provided in the coil moving part.

The apparatus may further include a panel unit provided below the coil moving unit.

In addition, the coil moving unit may be provided in the upper and lower portions of the coil in duplicate.

In addition, the magnetic force generating unit is connected to the coil, and includes a positive (+) position moving magnetic force generating unit and a negative (-) position moving magnetic force generating unit, when the power is supplied to the coil in the coil moving unit left and right directions Magnetic force can be generated to move to.

In addition, the support may be provided with the iron or magnet.

In addition, the support part may be provided in plural numbers at predetermined intervals on the left and right sides of the coil, and may be provided on the panel part.

The present technology can increase the wireless charging efficiency by moving the position of the coil for wireless charging during wireless charging.

In addition, the present technology can reduce the production cost of the wireless charging coil by reducing the number of coils for wireless charging to one.

1 is a view schematically illustrating a method of operating a coil in a wireless charging device according to an embodiment of the present invention.
2 is a block diagram illustrating in detail a wireless charging apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating a method of operating a wireless charging apparatus according to an embodiment of the present invention.

The above objects, features, and advantages will become more apparent from the detailed description given hereinafter with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains may share the technical idea of the present invention. It will be easy to implement. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically illustrating a method of operating a coil in a wireless charging device according to an embodiment of the present invention.

Referring to (i), (ii) and (iii) of Figure 1, the wireless charging device 100 may be composed of a coil 110 and a coil moving unit 120. In particular, the vehicle wireless charging apparatus 100 may be provided at the center console of the vehicle or may be provided at various locations so that a driver or a passenger can easily charge the mobile device, and the panel unit supporting the coil moving unit 120. 130 may be further included.

One coil 110 may be provided in the coil moving part 120 of the upper part of the panel part 130, and the coil 110 moves left and right in the coil moving part 120 to optimally charge the mobile device. can do. The coil 110 may be referred to as a charging coil.

When the coil 110 approaches or comes into contact with a charging coil of a wirelessly-capable device such as a mobile device, the coil 110 is supplied with a weak power enough to generate a magnetic force. Although not shown in Figure 1, the coil 110 is connected to a magnetic force generating unit for generating a magnetic force when the power is supplied. A detailed description of the magnetic force generating unit is shown in FIG. 2.

When the power is supplied, the magnetic force A is generated in the coil 110, and the coil 110 by the magnetic force A may move in the coil moving part 120. Coil 110 is moved by the magnetic force (A), the current in the coil 110 is the strongest or the mobile device and the most suitable for the charge to select a place to stop the movement. Specifically, FIG. 1 (i) illustrates a case in which the coil 110 is located at the center of the coil moving part 120 by magnetic force, and FIG. 1 (ii) shows that the coil 110 is coiled by magnetic force. The case in which the left side or the X axis of the moving part 120 is located in the negative (-) direction is described. In FIG. 1 (iii), the coil 110 is moved to the right side or the X axis of the coil moving part 120 by a magnetic force. It will be described a case where it is located in the positive (+) direction.

Then, power is supplied to the coil 110 to start wireless charging.

The coil moving part 120 is a coil moving area in which the coil 110 can move, and is provided in plurality in the upper and lower portions of the coil 110. In the coil moving part 120, a coil moving wheel to which the coil 110 can move freely is provided in the coil moving part 120. Detailed description of the coil movement wheels refer to FIG. 2.

The panel unit 130 is a component for supporting the coil moving unit 120 and may support the coil moving unit 120 having a plurality of upper and lower portions.

2 is a block diagram illustrating in detail a wireless charging apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the wireless charging device includes a coil 200, a coil moving unit 210, a magnetic force generating unit 220 and 230, and a support unit 240 and 250. The wireless charging device may include a first power supply unit 260 for supplying power to the coil 200 and a second power supply unit 270 for supplying power to the magnetic force generators 220 and 230.

The coil 200 may be provided as one in the coil moving part 210 of the upper part of the panel, and the coil 200 may move left and right in the coil moving part 210 to provide optimal charging with the mobile device. . The coil 200 may be referred to as a charging coil.

When the coil 200 approaches or comes into contact with the charging coil of a wirelessly-capable device such as a portable device, the coil 200 is supplied with a weak power enough to generate a magnetic force. When such power is supplied, a magnetic force is generated in the coil 200, and the coil 200 by the magnetic force may move in the coil moving unit 210. Coil 200 is moved by magnetic force, and the current of the coil 200 is the strongest or the mobile device and the most suitable place to select a charge stops the movement.

The coil moving part 210 is a coil moving area in which the coil 200 may move, and is provided in plurality in upper and lower portions of the coil 200. In the coil moving part 210, a coil moving wheel 280 to which the coil 200 can move freely is provided in the coil moving part 210.

The magnetic force generators 220 and 230 are connected to the coil 200, and a small amount of power is supplied to the coil 200 so that a magnetic force can be generated. The magnetic force generators 220 and 230 may be connected to the left and right sides of the coil 200 to be alternately supplied with power. The magnetic force generating units 220 and 230 may be provided in a circular shape or a ring shape, and may be fixed to the coil 200.

The coil 200 may continuously move in the left and right directions in the coil moving unit 210 by the magnetic force generated whenever power is supplied. The magnetic force generators 220 and 230 include a positive (+) position moving magnetic force generator 220 and a negative (-) position moving magnetic force generator 230.

Specifically, when power is supplied to the magnetic force generating units 220 and 230, the coil 200 may move in the negative (−) direction to the left or the X axis of the coil moving unit 210, and the coil 110 may be coiled. The moving part 120 may move in the positive direction on the right side or the X axis.

The support parts 240 and 250 may be provided on the panel part 290 by maintaining a predetermined gap on the left and right sides of the coil 200 so that the coil 200 may move only in the coil moving part 210. The support parts 240 and 250 may be provided with iron or a magnet to support the coil 200 not to move to the outside by the magnetic force generated in the coil 200. That is, when the support parts 240 and 250 are provided as magnets, the magnetic forces of the support parts 240 and 250 and the coil may be designed to have a pushing force.

The first power supply unit 260 supplies power to the coil 200 to enable wireless charging.

The second power supply unit 270 supplies power to the magnetic force generating units 220 and 230 to supply the magnetic force to the coil 200.

3 is a flowchart illustrating a method of operating a wireless charging apparatus according to an embodiment of the present invention.

3, the wireless charging power is supplied to the coil of the wireless charging device (S300).

Next, it is checked whether the mobile device is placed in the wireless charging device (S310).

Next, when it is confirmed that the mobile device is mounted on the wireless charging device, power is supplied to the magnetic force generation unit connected to the coil of the wireless charging device to generate a magnetic field (magnetic force) in the coil (S320 and S330).

Next, the coil moves by the generated magnetic field (magnetic force) (S340).

The coil stops moving when the coil is moved and the current is strongest, or when the portable device and charging are found.

Next, when the coil stops moving, the power supply to the magnetic force generating unit is cut off and power is supplied to the coil (S350).

Next, when power is supplied to the coil, it is determined whether or not the charging of the portable device is completed (S360).

Next, if the charging is not completed by determining whether the portable device is completed, the power is supplied again to the magnetic force generating unit to readjust the position of the coil (S370).

For example, in the method of re-powering the magnetic force generating unit, after the power supply to the magnetic force generating unit is cut off, the power may be supplied to the magnetic force generating unit after 60 seconds have elapsed.

However, it is determined whether the charging of the mobile device is completed, and when the charging is confirmed, the charging ends (S380).

As described above, the present technology can increase the wireless charging efficiency by moving the position of the coil for wireless charging during wireless charging.

In addition, the present technology can reduce the production cost of the wireless charging coil by reducing the number of coils for wireless charging to one.

As mentioned above, although the present invention has been described by means of a limited configuration and drawings, the technical idea of the present invention is not limited thereto, and it should be understood by those skilled in the art to which the present invention pertains. Various modifications and variations may be made without departing from the scope of the appended claims.

Claims (10)

A coil capable of wireless charging;
A coil moving unit to move the coil;
A magnetic force generator for moving the coil due to a magnetic force generated by being connected to the coil; And
It includes a support for supporting the coil to move only in the coil moving unit,
The magnetic force generating part is connected to the coil, and includes a positive (+) position moving magnetic force generating part and a negative (-) position moving magnetic force generating part, and when the power is supplied, the coil moves in the left and right directions in the coil moving part. And generating a magnetic force so that the coil stops movement at a point at which the current of the coil is maximized by the magnetic force or at a point at which the coil can be charged with the portable device. The method according to claim 1,
Wireless charging apparatus further comprises a first power supply for supplying power to the coil. The method according to claim 1,
And a second power supply unit supplying power to the magnetic force generating unit so that magnetic force can be generated in the coil. The method according to claim 1,
Wireless coil device, characterized in that provided in the coil moving unit one. The method according to claim 1,
Wireless charging apparatus characterized in that the coil moving wheel is further provided in the coil moving unit. The method according to claim 1,
Wireless charging device further comprises a panel portion provided in the lower portion of the coil moving unit. The method according to claim 1,
The coil moving unit is a wireless charging device, characterized in that provided in the upper and lower double coil delete The method according to claim 1,
The support unit is a wireless charging device, characterized in that provided with iron or magnet. The method according to claim 1,
The support unit is provided with a plurality of the left and right of the coil to maintain a predetermined interval, the wireless charging device, characterized in that provided on the panel portion.

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