KR20220094794A - Wireless charging device - Google Patents

Abstract

A wireless charging device for charging a terminal including a charging receiving unit includes: a fixed case; a movement base going back or forth with respect to the charging receiving unit in the fixed case; a permanent magnet unit which is mounted to the movement base and which can move for forming induced electricity in the charging receiving unit; and an electromagnet driving unit moving the movement base with respect to the fixed case.

Description

Wireless charging device {WIRELESS CHARGING DEVICE}

The present invention relates to a wireless charging device, and more particularly, to a wireless charging device capable of adjusting a distance between a permanent magnet unit and a charging receiving unit according to a charging operation.

Wired charging and wireless charging are used to charge portable terminals such as mobile phones, tablets, laptops, and digital cameras. Wired charging requires a charging cable applicable to the terminal, but wireless charging does not require such a cable and there is no burden of connecting cables, so recently, terminals supporting wireless charging are becoming popular.

Korean Patent Application Laid-Open No. 10-2013-0075077 provides a wireless charging device. The wireless charging device may generate induced electricity by rotating a magnet having an N pole and an S pole alternately from below, and placing a single coil thereon. However, since the magnet rotates while being positioned at the bottom of the terminal, the metal play of the terminal generates eddy currents and can rotate together, so there is a problem in that it is difficult to fix the position.

In addition, a magnet that forms a strong magnetic field is used to increase charging efficiency. Even though this magnet can increase charging efficiency, it can make it difficult to attach and detach the terminal with a rather strong magnetic force in the process of disconnecting the terminal after charging. For example, it may be necessary to apply excessive force to detach it, and it may cause surprise to the user, damage to the body, shock of the equipment, etc.

In addition, when a magnetic object other than the charging terminal comes into contact with the wireless charger, unnecessary attachment or data damage due to a strong magnetic field may be caused.

The present invention relates to a wireless charging device capable of adjusting the distance between a permanent magnet unit and a charging terminal using a permanent magnet.

The present invention relates to a wireless charging device that approaches the permanent magnet unit to the charging terminal in response to the charging operation, and retracts the permanent magnet unit from the charging terminal when charging is stopped or the terminal is disconnected.

According to an exemplary embodiment of the present invention for achieving the above-described objects of the present invention, a wireless charging device for charging a terminal including a charge receiving unit approaches or retreats with respect to the charging receiving unit in the fixed case, the fixed case and a moving base, a permanent magnet mounted on the moving base and movable to form inductive electricity in the charge receiving unit, and an electromagnet driving unit for moving the moving base with respect to the fixed case.

The permanent magnet unit may include a permanent magnet for forming induction electricity in the charge receiving unit, and the permanent magnet may perform various motions that can form induction electricity such as rotation, vibration, and reciprocating motion, and the permanent magnet is also a unipolar magnet, It may be provided in various ways through a multipole magnet or a combination thereof.

The electromagnet driving unit is mounted on the moving base to provide a driving force for approaching or retracting the moving base to the charging receiving unit. can be moved far. By moving the permanent magnet part away from the charging receiver, it is possible to facilitate detachment of the terminal.

In some cases, by switching the polarity of the electromagnet driving unit, the attractive force between the permanent magnet unit and the terminal may be canceled or the terminal may be automatically separated. In addition, it is possible to maintain a stable coupling during charging using the electromagnet driving unit.

The permanent magnet unit may include a driving motor mounted on the moving base and a permanent magnet rotating by the driving motor, and the permanent magnet may rotate relative to the charging receiving unit to form induction electricity in the charging receiving unit.

The permanent magnet may be provided in the form of a disk, and N poles and S poles may be alternately arranged along the circumferential direction on the surface of the permanent magnet, and a plurality of coils of the charge receiving unit are also provided in the circumferential direction according to the trajectory of the permanent magnet. can be

The wireless charging device may further include an intermediate cover and an elastic damper. The intermediate cover may maintain a fixed position in the fixed case, and may be interposed between the disk-shaped permanent magnet and the driving motor. The middle cover may connect the driving motor or the moving base using an elastic damper, and may absorb or buffer vibrations caused by the driving motor during charging. According to an embodiment, a spring may be used as the elastic damper, and the spring may be provided in the form of a compression, tension spring, or a combination thereof.

The charging terminal may be provided with a fixing magnetic material around the charging receiving unit, and the electromagnet driving unit may use the fixing magnetic material to align the position where the terminal is fixed to the wireless charging device, determine the direction, and maintain stable coupling. . In addition to the function of stably fixing or aligning the terminal to the wireless charging device, the electromagnet driving unit reduces or removes the attractive force to the fixing magnetic body or forms a repulsive force before removing the terminal so that the terminal can be easily separated. .

According to an exemplary embodiment of the present invention for achieving the above-described objects of the present invention, a wireless charging device for charging a terminal including a fixing magnetic material provided around a charging receiving unit and a charging receiving unit is a fixed case, charging It includes a permanent magnet unit movable to form induced electricity in the receiving unit, and an electromagnet driving unit provided around the permanent magnet unit to correspond to the fixing magnet, and before disconnecting the terminal, the electromagnet driving unit is the attraction to the fixing magnetic body. It can reduce or eliminate or create a repulsive force.

It may further include a moving base that approaches or retreats with respect to the charging receiving unit in the fixed case, and the permanent magnet unit and the electromagnet driving unit are mounted on the moving base to move together.

It may further include an elastic damper for connecting the permanent magnet unit or the moving base with respect to the intermediate cover and the intermediate cover fixed to the fixed case.

The permanent magnet unit may include a driving motor and a permanent magnet rotated by the driving motor, and the permanent magnet may rotate with respect to the charging receiving unit to form induction electricity in the charging receiving unit.

The present invention relates to a wireless charging device capable of adjusting the distance between a permanent magnet unit and a charging terminal using a permanent magnet.

Therefore, a strong magnetic field is formed around the charging terminal during charging, but when it is desired to be separated, it is possible to relatively weaken the magnetic field or to facilitate the separation.

In addition, in the process of attaching and aligning the charging terminal to the wireless charging device, excessive and hasty adhesion is avoided, and stable fixing after attachment, position alignment for high-efficiency charging, etc. can be performed naturally.

In addition, when not charging or during rest periods, the magnet is moved away from the charging surface to prevent unnecessary attachment or damage to the storage device or card due to a strong magnetic field when other magnetic objects other than the terminal come into contact.

The present invention can implement convenient operations such as approaching the permanent magnet unit to the charging terminal in response to the charging operation, and retracting the permanent magnet unit from the charging terminal when charging is stopped or when the terminal is disconnected.

1 is a perspective view of a wireless charging device according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the wireless charging device of FIG. 1 .
FIG. 3 is a plan view for explaining the inside of the wireless charging device of FIG. 1 .
FIG. 4 is a cross-sectional view illustrating a cross-section CC of FIG. 3 .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, the same numbers in this description refer to substantially the same elements, and may be described by citing the contents described in other drawings under the above rules, and the contents determined to be obvious to those skilled in the art or repeated may be omitted.

1 is a perspective view of a wireless charging device according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the wireless charging device of FIG. 1, and FIG. 3 is a plan view for explaining the inside of the wireless charging device of FIG. 1, FIG. 4 is a cross-sectional view illustrating a cross-section C-C of FIG. 3 .

1 to 4 , the wireless charging device 100 is for charging a terminal (not shown) including the charging receiving unit 20 , and the terminal including the charging receiving unit 20 is the wireless charging device 100 . ), it can form induction electricity to perform wireless charging.

The wireless charging device 100 according to this embodiment has a fixed case 110 , a moving base 120 provided in the fixed case 110 , a permanent magnet unit 130 mounted on the moving base 120 , and an electromagnet driving unit ( 140) may be included.

The fixed case 110 may include a cover 112 , and may include a movable base 120 , a permanent magnet unit 130 and an electromagnet driving unit 140 inside the fixed case 110 under the cover 112 . can

The moving base 120 may approach or retreat with respect to the charging receiving unit 20 , that is, move up and down, and the permanent magnet unit 130 is mounted in the center of the moving base 120 , and the periphery of the permanent magnet unit 130 . As a result, four electromagnet driving units 140 may be provided.

The permanent magnet unit 130 may include a driving motor 132 mounted on the moving base 120 and a disk-shaped permanent magnet 134 rotating by the driving motor 132 . The permanent magnet 134 may rotate under the cover 112 , and may form induction electricity in the charge receiving unit 20 .

In this embodiment, the disk-shaped permanent magnet 134 for generating induction electricity in the charge receiving unit 20 is rotated. However, in addition to this, permanent magnets can generate induced electricity through movement such as vibration and reciprocation.

In addition, the permanent magnet 134 forms a magnet in a sectoral shape and is disposed in the circumferential direction, but in another embodiment, a multipole magnet may be used.

The electromagnet driving unit 140 may be mounted on the moving base 120 to provide a driving force for approaching or retreating the moving base 120 to the charging receiving unit 20 . Referring to FIG. 4 , the movable base 120 may be kept pressed downward by the intermediate cover 150 and the elastic damper 160 . The permanent magnet unit 130 and the electromagnet driving unit 140 together with the moving base 120 may also be located at the lower portion of the fixed case 110, and the permanent magnet 134 may be located below the charging position reference line (I). can (a).

When the charging receiving unit 20 approaches the wireless charging device, by the interaction between the fixed magnetic body 30 and the electromagnet driving unit 140 disposed around the coil 25 , the movable base 120 may rise. With the rise of the moving base 120 , the permanent magnet 134 of the permanent magnet unit 130 may move up to the charging position reference line I to maintain a state in close contact with the charging receiving unit 20 (b).

In the present embodiment, the elastic damper 160 is a kind of spring, and can buffer the vibration of the driving motor 132 while maintaining a pressurized state. Then, when charging is completed or the user wants to separate the terminal, the electromagnet driving unit 140 may weaken the attractive force with respect to the terminal or change the polarity to form a repulsive force with respect to the terminal. In addition to this, the elastic damper may be provided in various materials or structures such as a hydraulic cylinder and a rubber damper.

To this end, the fixing magnetic material 30 may also be provided as a magnet having a polarity, and through the polarity change of the electromagnet driving unit 140 , it is possible to offset, remove, or form a repulsive force between the terminal and the permanent magnet 134 .

The operation of the electromagnet driving unit 140 may be started while charging is started, and may be stopped or switched after charging is completed or through a user's manipulation.

In addition, when the magnetic core of the electromagnet driving unit 140 is used, the moving base 120 may rise in response to the magnetic force of the fixed magnetic body 30 , and the wireless charging device 100 may be displaced by the moving base 120 . By detecting , the operation of the electromagnet driving unit 140 or the operation of the permanent magnet unit 130 may be started.

As described above, although described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

100: wireless charging device 110: fixed case
120: moving base 130: permanent magnet part
132: drive motor 134: permanent magnet
140: electromagnet driving unit 150: middle cover
160: elastic damper

Claims (10)

A wireless charging device for charging a terminal including a charging receiver,
fixed case;
a moving base that approaches or retreats with respect to the charging receiver within the fixed case;
a permanent magnet part mounted on the movable base and movable to form induction electricity in the charge receiver; and
A wireless charging device comprising a; an electromagnet driving unit for moving the movable base with respect to the fixed case. According to claim 1,
The permanent magnet unit includes a driving motor mounted on the moving base, and a permanent magnet rotated by the driving motor, wherein the permanent magnet rotates with respect to the charging receiving unit to form induction electricity in the charging receiving unit wireless charging device. 3. The method of claim 2,
The permanent magnet is provided in the form of a disk, and an N pole and an S pole are alternately arranged along the circumferential direction on the surface of the permanent magnet. 4. The method of claim 3,
The wireless charging device further comprising an elastic damper fixed to the fixed case, the intermediate cover interposed between the permanent magnet and the driving motor, and an elastic damper connecting the driving motor or the moving base with respect to the intermediate cover. According to claim 1,
The electromagnet driving unit is provided in response to the magnetic body for fixing of the terminal provided around the charging receiving unit, and before separating the terminal, the electromagnet driving unit reduces or removes the attractive force to the fixing magnetic body or forms a repulsive force. Features a wireless charging device. A wireless charging device for charging a terminal including a charging receiving unit and a fixed magnetic material provided around the charging receiving unit,
fixed case;
a permanent magnet part movable to form inductive electricity in the charging receiver; and
Includes; an electromagnet driving unit provided around the permanent magnet in response to the fixing magnet;
Before separating the terminal, the electromagnet driving unit reduces or removes the attractive force to the magnetic body for fixing or to form a repulsive force. 7. The method of claim 6,
Further comprising a moving base that approaches or retreats with respect to the charging receiver in the fixed case,
The permanent magnet unit and the electromagnet driving unit is a wireless charging device, characterized in that it is mounted on the moving base to move together. 8. The method of claim 7,
Wireless charging device, characterized in that it further comprises an elastic damper for connecting the permanent magnet portion or the movable base with respect to the intermediate cover and the intermediate cover fixed to the fixed case. 7. The method of claim 6,
The permanent magnet unit includes a driving motor and a permanent magnet rotated by the driving motor, and the permanent magnet rotates with respect to the charging receiving unit to form induction electricity in the charging receiving unit. 10. The method of claim 9,
The permanent magnet is provided in the form of a disk, and an N pole and an S pole are alternately arranged along the circumferential direction on the surface of the permanent magnet.

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