KR20200054669A - Wireless charging system - Google Patents

Abstract

The present invention relates to a wireless charging system for charging electronic devices such as a mouse, a keyboard and the like in a wireless method. Each of a reception unit provided on a subject to be charged such as the mouse, the keyboard and the like, and a transmission unit supplying power to the reception unit in a magnetic induction method are formed in a structure of a kind of double coil structure in which at least one coil is wound along a longitudinal direction of another coil. Magnetic field distribution is greatly increased in comparison with a single coil structure through the double coil structure to drastically increase a wireless charging distance corresponding to the magnetic field distribution.

Description

Wireless charging system

The present invention relates to a wireless charging system, and more particularly, to a wireless charging system for charging various electronic products in a wireless manner through a magnetic induction principle.

Wireless charging technology is a power transmission system that converts and transmits electric energy into electromagnetic waves capable of wireless transmission, and is a technology that can charge various electric and electronic devices equipped with batteries without connecting a power cable.

The wireless charging may be implemented through various principles such as an electromagnetic inductive coupling method, a electromagnetic radiation method, a Resonant Magnetic Coupling method, and an electromagnetic wave method.

As an example of such wireless charging, the preceding Korean Patent Registration No. 10-0539013 discloses a wireless mouse charged with an induction coil.

More specifically, the prior document is configured to bond the induction coil and the ferrite sheet to the mouse pad to generate an induced electromotive force, and to charge the secondary battery by installing the receiving induction coil and the ferrite sheet inside the mouse, without replacing the battery. It is characterized by providing a convenient and economical wireless mouse.

At this time, as shown in Figure 4, the induction coil disclosed in the prior document is formed of a single coil structure.

Such a single coil structure is a coil structure widely used in various wireless charging fields, and accordingly, a magnetic field distribution corresponding to an application object may be formed by adjusting the number of windings.

However, according to such a single coil structure, since the wireless power transmission distance is quite short, in fact, charging is performed only when the charging target and the wireless charger are in close contact, and thus there is a problem in that significant spatial limitation occurs.

Republic of Korea Registered Patent Publication No. 10-0539013

As part of solving the above-described problems, the present invention aims to provide a wireless charging system having a significantly increased magnetic field distribution compared to a single coil structure through improvement of the coil winding structure.

The wireless charging system according to the present invention is provided in at least one or more peripheral devices including at least one of a mouse member, a keyboard member, a smart device, and a headset member, and at least one of the peripheral devices. A receiving unit including a receiving coil, a second receiving coil wound along the length direction of the first receiving coil, a pad unit formed of a mouse pad structure, and

It is provided on the pad portion, and includes a first transmission coil, a second transmission coil wound along the longitudinal direction of the first transmission coil, and includes a transmission unit for transmitting power to the receiver through magnetic induction. Is done.

In addition, the pad unit is characterized in that the headset section is formed on one side so that the headset member can be mounted wirelessly.

In addition, the pad unit may include a smart device charging member provided on one side and formed in a structure to mount the smart device so that the smart device can be wirelessly charged.

In the wireless charging system according to the present invention, a receiving unit provided in a charging target such as a mouse, a keyboard, and a transmitting unit for supplying power to the receiving unit in a magnetic induction manner, each one or more coils are wound along the length of the other coil. It is characterized in that it is formed of a kind of double coil structure formed, and through this double coil structure, the magnetic field distribution is significantly improved compared to the single coil structure, and a wireless charging distance corresponding to the magnetic field distribution is significantly increased. .

1 is a conceptual diagram showing the principle of wireless charging.
2 is a perspective view showing a wireless charging system according to the present invention.
3 is a perspective view showing a receiver and a transmitter.
4 is a plan view showing a coil structure according to the prior art.
5 is a view showing the difference in the planar distribution of the electric field generated between the coil structure of the receiver and the transmitter and the coil structure according to the prior art.
6 is a view showing the difference in the vertical distribution of the electric field generated between the coil structure of the receiver and the transmitter and the coil structure according to the prior art.

Prior to the detailed description of the present invention, specific details for carrying out the present invention are included in the following examples and drawings, and the same reference numerals throughout the specification refer to the same components.

In addition, singular expressions in this specification will include plurals unless otherwise specified in the phrase.

Hereinafter, a wireless charging system according to the present invention will be described with reference to the drawings.

1 is a conceptual diagram showing the principle of wireless charging.

As illustrated in FIG. 1, wireless charging of a device to be charged, such as the smart device 1, may be performed in a magnetic induction manner through a receiver 100 and a transmitter 200, which are coil structures that cause mutual induction reactions. Can be.

More specifically, the transmitting unit 200 and the receiving unit 100 may be made of all well-known conventional materials, means, and the like for performing the structure and function of a coil.

Accordingly, a magnetic field is formed between the transmitter 200 and the receiver 100, each having a predetermined coil structure, and spaced apart from each other by a predetermined distance, and the receiver 100 receives an induced current from the magnetic field, and the smart device 1, etc. The same charging target device is charged.

That is, the wireless charging system 1000 according to the present invention charges various devices through a wireless charging method using the induced electromotive force generation principle, so that the electric wire for power transmission is excluded, thereby increasing the storage area corresponding to the electric wire area. It is intended to solve various inconveniences such as various interference phenomena that may occur due to the wires and twisting of the wires.

Figure 2 is a perspective view showing a wireless charging system according to the present invention, Figure 3 is a perspective view showing a receiving unit and a transmitting unit.

First, as illustrated in FIGS. 2 and 3, the wireless charging system 1000 according to the present invention includes a peripheral device unit 10, a receiving unit 100, a transmitting unit 200, and a pad unit 300.

The peripheral unit 10 includes a mouse member 11 that is a wireless mouse, a keyboard member 12 that is a wireless keyboard, and a headset member 13 that is a wireless headset. It may further include.

The pad unit 300 is formed of a mouse pad structure, and includes a mouse section 310, a keyboard section 320, and a headset section 330 in which respective components of the peripheral unit 10 can be provided.

In this case, the mouse section 310 and the keyboard section 320 may be divided into predetermined sections so that a mouse and a keyboard can be provided on the mouse pad structure, as shown in FIG. 2.

And, in the case of the headset section 330, as shown in FIG. 2, the speaker portion of the headset may be formed in a recessed structure to be inserted and mounted.

In addition, the pad unit 300 may further include a smart device charging member 340 to charge the smart device 1, and can be mounted by tilting the smart device 1 as shown in FIG. 2. It can be formed into a structure.

In addition, the receiving unit 100 performs the same function as the configuration described above with reference to FIG. 1, and includes a first receiving coil 110 and a second receiving coil 120 as shown in FIG. 3.

In this case, the receiving unit 100 may be provided in various ways, such as being built in or attached to at least one of each of the components of the smart device 1 and the peripheral device 10.

In addition, the transmitting unit 200 also performs the same function as the above-described configuration with reference to FIG. 1, and includes a first transmission coil 210 and a second transmission coil 220 as shown in FIG. It is provided in the pad portion 300.

More specifically, the transmitting unit 200 may be provided inside the pad unit 300, such as a built-in method, corresponding to the number of various sub-configurations of the peripheral unit 10 shown in FIG. It may be composed of multiple.

At this time, Figure 3 is shown that the receiving unit 100 and the transmitting unit 200 are formed in the same structure as each other.

In more detail, in the case of the receiving unit 100, the second receiving coil 120 is formed along the length direction of the first receiving coil 110 having a predetermined winding structure.

Likewise, the transmission unit 200 is also formed in a structure in which the second transmission coil 220 is wound along the longitudinal direction of the first transmission coil 210 having a predetermined winding structure.

That is, the receiving unit 100 and the transmitting unit 200 are formed of a kind of double coil structure in which one coil is wound around another coil.

On the other hand, in the case of the coil structure 3 according to the prior art shown in FIG. 4, unlike the receiver 100 and the transmitter 200, it is formed in a single coil structure.

That is, the receiving part 100 and the transmitting part 200 of the wireless charging system 1000 are the second receiving coil 120 and the second transmitting along the longitudinal direction to the coil structure 3 according to the prior art which is a single coil structure. The coil 220 is formed in a wound structure.

Through this difference in coil structure, the range of the magnetic field distribution region and the strength of the magnetic field that can be implemented by the receiving unit 100 and the transmitting unit 200 are significantly increased compared to the conventional single coil structure, as shown in Table 1 below. It will be described in detail with reference to 5 and 6 further.

5 is a view showing a difference in planar distribution of an electric field generated between a coil structure of a receiver and a transmitter and a coil structure according to the prior art.

6 is a view showing the difference in the vertical distribution of the electric field generated between the coil structure of the receiver and the transmitter and the coil structure according to the prior art.

First, referring to FIG. 5, it can be seen that the plane distribution of the electric field implemented by the receiving unit 100 and the transmitting unit 200 is significantly wider than that of the prior art.

In addition, referring to FIG. 6, it can be seen that the height distribution of the electric field implemented by the receiving unit 100 and the transmitting unit 200 is significantly wider than that of the prior art.

In addition, Table 1 below is a comparison table comparing inductance values indicated by the conventional single coil structure and inductance values indicated by the receiving unit 100 and the transmitting unit 200, which are the above-described double coil structures.

Number of turns 2 turns 5 turns 10 turns inductance
[nH]  Prior art 0.34 2.41 4.40  Receiver and transmitter 2.11 11.32 23.84

At this time, the diameter of each coil utilized to prepare Table 1 is 1 mm, the material is copper (Cu), and the applied frequency is 125 kHz.

As shown in Table 1, the inductance [L] value implemented by the receiving unit 100 and the transmitting unit 200 is significantly higher than that of the prior art, and accordingly, according to the present invention, the magnitude of the back EMF proportional to the power transmission amount per unit time It can be seen that is significantly increased compared to the prior art.

In addition, Table 1 shows the inductance value for each number of windings. Through this, the size of the inductance [L] implemented by the receiving unit 100 and the transmitting unit 200 only in a specific number of windings does not show a significant difference compared to the prior art. It can be seen that the above-described inductance [L] difference occurs regardless of the number of turns.

In addition, although the overall structure of the receiving unit 100 and the transmitting unit 200 is shown in FIG. 3 as a kind of circular structure, this is only an example for explanation.

That is, the shapes of the receiving unit 100 and the transmitting unit 200 may be formed in various structures such as a square shape in correspondence with the structures of the sub-configurations of the smart device 1 and the peripheral device unit 10 to be charged. will be.

As described above, the present invention is to provide a wireless charging system as the main technical idea, and the embodiment described above with reference to the drawings is only one embodiment, and the true scope of the present invention is based on the claims. However, it will be said that it extends to an equally applicable embodiment that can exist in various ways.

1000: wireless charging system according to the present invention
1: smart devices
3: Coil structure according to the prior art
10: peripheral unit
11: absence of mouse
12: no keyboard
13: no headset
100: receiver
110: first receiving coil
120: second receiving coil
200: transmitter
210: first transmission coil
220: second transmission coil
300: pad portion
310: mouse section
320: keyboard section
330: headset section
340: smart device charging member

Claims (3)

A peripheral unit including at least one of a mouse member, a keyboard member, a smart device, and a headset member;
A receiving unit provided on at least one of the peripheral devices, and including a first receiving coil and a second receiving coil wound along a length direction of the first receiving coil;
A pad portion formed of a mouse pad structure; And
A transmitting unit provided in the pad unit, including a first transmitting coil and a second transmitting coil wound along a length direction of the first transmitting coil, and transmitting power to the receiving unit through magnetic induction; Wireless charging system comprising a.
According to claim 1,
The pad portion,
A wireless charging system characterized in that a headset section is formed on one side so that the headset member can be wirelessly charged.
According to claim 1,
The pad portion,
A wireless charging system comprising a smart device charging member provided on one side and formed in a structure to mount the smart device so that the smart device can be wirelessly charged.

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