KR20120124339A - Non-contact charging system and method - Google Patents

Abstract

PURPOSE: A contactless power charging apparatus and method thereof are provided to reduce the burden of wrist and shoulder by connecting an electronic apparatus to the supporting unit of a transmission module. CONSTITUTION: A transmission module is composed of a fastening unit(301), a supporting unit(302), a control unit(303), and a display unit(304). The fastening unit is composed of a first coil unit. A pair of projection units(305) combines with a pair of reception modules through a fastening groove. The pair of the projection units is installed within the fastening unit. The pair of the projection units is composed of a USB(Universal Serial Bus) transmission line. A USB port is composed of four electronic signal lines. A first signal line is connected to a power supply unit. A second signal line is connected to a ground power unit. A third and a fourth signal line individually transmit each data.

Description

Solid state power charging device and its method {NON-CONTACT CHARGING SYSTEM AND METHOD}

The present invention relates to a non-contact power charging device that can play an electronic device at the same time charging with an electronic device, such as a mobile phone, MP3, digital camera without a separate contact. More specifically, the induced electromotive force is formed in the secondary coil of the receiving module through the magnetic force generated in the primary coil of the transmitting module to charge the electronic device connected to the receiving module without a separate contact, and at the same time The present invention relates to a solid state power charging device capable of playing electronic devices.

In general, electronic devices such as mobile phones, MP3s, and digital cameras are portable electronic devices that need to be charged to replenish their power when all batteries are discharged. However, in order to charge such electronic products, a separate charging jack is generally formed and connected to a jack connector formed on one side of the electronic device. In other words, the commercial current is transferred to the battery through the charging jack and the jack connector, and the current is charged. In order to use this method, a contact for grounding the charging jack and the jack connector must be formed at all times. This contact is likely to cause crushing through incorrect insertion, and there is a high possibility of damaging the contact due to clothing. There is a problem.

In addition, when charging an electronic device such as a mobile phone or a digital camera, because the electronic device can not be played, you have to wait until the end of the charge has a problem that the time efficiency decreases a lot.

On the other hand, conventional methods of transferring information or data stored in a mobile phone or a digital camera to a personal computer (PC), or storing data in the PC to an MP3, a mobile phone, and a digital camera include separate signal transmission lines for a PC and an electronic device. It is achieved through the media program installed on the PC. In other words, the inconvenience of having to transmit and edit data through the line formed by forming a line connected to the PC via a USB and an electronic device connected to a separate connector.

In addition, when playing a smartphone, such as a variety of applications are stored in the user's hands can not only run and run, such as causing a problem in the health such as giving wrists and shoulders.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, a non-contact point that can play the electronic devices at the same time charging the electronic devices, such as mobile phones, MP3, digital cameras without a separate contact It is an object to provide a power charging device. In more detail, the induced electromotive force is formed in the secondary coil of the receiving module through the magnetic force generated in the primary coil of the transmitting module to charge the electronic device connected to the receiving module without a separate contact point. It is an object of the present invention to provide a contactless power charging device capable of playing an electronic device being charged at the same time.

A contactless power charging device according to a feature of the present invention for achieving the above object,

A contactless power supply device that supplies power by using induced electromotive force between a primary coil part embedded in a transmission module and a secondary coil part built in a receiving module.

The receiving module is a USB interface module, the front portion is provided with a contact surface in contact with the electronic device, the rear portion is provided with a pair of fastening grooves coupled to the transmission module,

The transmission module is provided with a fastening portion consisting of a primary coil portion,

Inside the fastening part is provided with a pair of protrusions coupled to the pair of fastening grooves of the receiving module,

Both sides of the upper end of the transmission module is characterized in that the support is provided for fixing the electronic device.

Preferably,

The fastening part may form an inclination angle within 90 degrees from the vertical axis of the transmission module and the ground.

Preferably,

The pair of protrusions may be lines for transmitting serial data D + and inverted serial data D−.

Preferably,

The pair of fastening grooves may be coupled to the pair of protrusions to receive serial data and inverted serial data from the transmitting module to the receiving module.

Through the pair of protrusions coupled with the pair of fastening grooves, serial data and serial data inverted from the receiving module may be transmitted from the receiving module to the transmitting module.

Preferably,

The transmission module may further include a control unit and a display unit at the bottom of the module.

Preferably,

The pair of fastening grooves are coupled to the pair of protrusions, and the electronic device is connected to the front of the receiving module and fastened to the support of the transmitting module, thereby charging and playing the electronic device.

The contactless power charging method according to another feature of the present invention for achieving the above object,

A contactless power supply method for supplying power by using induced electromotive force between a primary coil part embedded in a transmission module and a secondary coil part built in a receiving module.

Coupling the transmitting module and the receiving module;

Contacting the receiving module with an electronic device;

Fastening the electronic device to support portions provided at both sides of the transmission module;

Supplying electric power to the electronic device by using induced electromotive force between the primary and secondary coil parts built in the transmitting module and the receiving module, respectively; And

And charging and playing the electronic device by the supplied electric power.

Preferably,

The coupling of the transmission module and the reception module may be performed by coupling a pair of fastening grooves provided on the rear part of the reception module to a pair of protrusions provided in the transmission module.

Preferably,

The contacting of the receiving module and the electronic device may be performed by contacting the front part of the receiving module and the electronic device.

Preferably,

In the playing of the electronic device, the electronic device may be played by adjusting a control unit provided at the lower end of the transmission module.

According to the contactless power charging device of the present invention, there is no need to provide a separate charging jack can be charged with an electronic device, such as a mobile phone, MP3, digital cameras without a separate contact. In addition, the inventors of the present invention, the non-contact power charging device can transfer the information or data stored in the mobile phone or digital camera to the PC, or transmit the data in the PC without connecting a separate signal transmission line to the MP3, mobile phone and digital camera There is. In addition, the electronic device can be played simultaneously with charging, eliminating the inconvenience of having to spend extra time until the electronic device is charged. Furthermore, the user does not have to play the electronic device by hand, and by connecting to the support of the transmission module to play the user's wrists and shoulders to solve the health problems.

1 is a view showing a coupling relationship between a transmission module, a reception module (USB interface module) and an electronic device in a contactless power charging device according to an embodiment of the present invention.
2 is a view showing the configuration of a receiving module of a contactless power charging device according to an embodiment of the present invention, Figure 2 (a) and (b) is a view showing the front and rear parts of the receiving module, respectively .
Figure 3 is a view showing a front view of the transmission module of the contactless power charging device according to an embodiment of the present invention.
Figure 4 is an enlarged view of the fastening portion of the contactless power charging device according to an embodiment of the present invention.
5 is a view showing a side view of the transmission module of a contactless power charging device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

1 is a view showing a coupling relationship between a transmitting module 101, a receiving module (USB interface module 102) and an electronic device 103 in a contactless power charging device according to an embodiment of the present invention. As shown in FIG. 1, a contactless power charging device according to an embodiment of the present invention includes a transmitting module 101 and a receiving module 102 to which a power supply unit 104 is connected, and to a receiving module 102. The electronic device 103 can be used by being coupled. First, when the power supply unit 104 is connected to the transmission module 101 and power is applied to the transmission module 101, an AC current flows through the primary coil unit 105 built in the transmission module 101, and the receiving module ( Induced electromotive force is generated in the secondary coil part 106 embedded in the 102. Specifically, a magnetic flux core made of a pryite material that focuses a magnetic field between the primary and secondary coil parts 105 and 106 is physically separated so that there is no contact between the transmitting module 101 and the receiving module 102. Power is supplied from the transmitting module 101 to the receiving module 102.

When power is supplied from the transmitting module 101 to the receiving module 102 as described above, the electronic device 103 may be contacted with the receiving module 102 to charge the electronic device 103 without a separate contact. .

The advantage of contactless charging technology is that contactless charging with induced electromotive force removes the charging terminals from external exposure to moisture and dust. That is, when contacted with an external environment, such as a user's clothing, there is an advantage that can block the possibility that static electricity is induced into the circuit to cause a malfunction of the electronic device 103. In addition, it is possible to improve the convenience of the user to the structure that is charged only by placing on the front portion of the receiving module (102). In addition, the disappearance of the contact terminal on the exterior can also improve the design of the electronic device 103, there is an advantage that can greatly contribute to quality improvement, such as the possibility for the waterproof function of the product.

In another embodiment, a PC may be connected between the power supply unit 104 and the transmission module 101 to transmit the data of the electronic device 103 to the PC, and conversely, data stored in the PC may be transmitted to the electronic device, thereby separately. Bi-directional transfer is possible without USB (Universal Serial Bus) cable.

2 is a view showing the configuration of a receiving module of a contactless power charging device according to an embodiment of the present invention, Figure 2 (a) and (b) is a view showing the front and rear parts of the receiving module, respectively to be. In addition, Figure 3 is a view showing a front view of the transmission module of a contactless power charging device according to an embodiment of the present invention.

The transmission module 101 may include a fastening part 301, a support part 302, a control part 303, and a display part 304. The fastening part 301 is composed of a primary coil part 105, and a pair of protrusions 305 coupled to the pair of fastening grooves 201 of the receiving module 102 are located inside the fastening part 301. It may be provided. Here, the pair of protrusions 305 may be USB (D +, D-) transmission lines. The USB port consists of four electrical signal lines: the first line is the signal line to the supply power supply, and the second line is the signal line to the ground power supply. In addition, the third and fourth signal lines are lines for transmitting data, respectively, and serial data (D +) is transmitted through the third line, and the fourth line is inverted serial data (the inverted serial data ( D-) is sent. By transmitting the serial data (D +) and the inverted serial data (D-) together as described above, noise can be minimized during data transmission. As described above, in the present invention, the data of the transmission module 101 can be transmitted to the electronic device 103 through the combination of the pair of protrusions 305 and the pair of fastening grooves, and the data of the electronic device 103 can be transferred. The transmission module 101 can transmit.

As shown in FIGS. 2 and 3, first, a pair of fastening grooves 201 provided at a rear portion of the receiving module 102 are coupled to a pair of protrusions 305 provided inside the fastening portion 301. Let's do it. Thereafter, in order to charge the electronic device 103 in a contactless manner, the electronic device 103 is connected to the front part of the receiving module 102 and fixed to the support parts 302 provided at both ends of the transmitting module 102. In this case, an AC current flows through the primary coil unit 105 embedded in the transmission module 101, and as a result, induced electromotive force is generated in the secondary coil unit 106 embedded in the reception module 102. Power is generated by the induced electromotive force generated by the secondary coil unit 106, and the power is charged to the electronic device 103 without a separate contact point.

4 is an enlarged view of a fastening part of a contactless power charging device according to an embodiment of the present invention. As shown in FIG. 4, the fastening part 301 of the contactless power charging device according to the exemplary embodiment of the present invention includes a primary coil part 105, and a pair of fastening parts 301 is formed inside the fastening part 301. A protrusion 305 is provided. The pair of protrusions 305 are coupled to a pair of fastening grooves 201 provided at the rear portion of the receiving module 102. Fastening unit 301 is preferably made of a vertical axis of the transmission module 101 and the angle within 90 degrees from the ground so that the user can easily see the display unit of the electronic device (103). More preferably, it is possible to maximize the user's convenience by making an angle of about 45 degrees from the ground.

5 is a view showing a side view of the transmission module of a contactless power charging device according to an embodiment of the present invention. As shown in FIG. 5, both sides of the upper end of the transmission module 102 of the contactless power charging device according to the embodiment of the present invention may be provided with support parts 302 for fixing electronic devices. In addition, the transmission module 102 may be provided with a separate control unit 303 and the display unit 304. The transmission module 101 is a device generally called a “cradle”. The cradle has an electrical contact point with the mounted mobile device and a direct connection means with a PC, and serves to realize data exchange between the two devices. By placing the cradle near the PC, the affinity between the mobile device and the PC increases, and the cradle's presence improves the usability of the mobile device. In particular, the transmission module of the contactless power charging device according to an embodiment of the present invention can recharge and play the electronic device at the same time, to solve the inconvenience that the user must spend time until the charge is completed.

As mentioned above, the transmission module 101 may include a separate control unit 303 and a display unit 304. The control unit 303 allows the user to adjust the electronic device 103 directly. In detail, the electronic device 103 may be various types, but a detailed description will be given using a portable terminal as an example. While charging the portable terminal, the user does not need to directly contact the terminal, and attempts to make a call by pressing the call key displayed on the control unit 303 of the transmission module 101 or adjusts the volume key for convenience of use. On the other hand, the display 304 displays the current time or the degree of charge of the electronic device so that the user can easily perceive.

As described above, the contactless power supply charging device proposed in the present invention can charge and play the electronic device 103 in a contactless manner. More specifically, since the fastening part 301 of the transmission module 101 is inclined about 45 degrees from the ground, the user can easily see the display of the electronic device. In addition, the control unit 303 provided in the transmission module can be directly adjusted by the user, eliminating the inconvenience of having to connect the electronic device separately to adjust the channel or volume of the electronic device.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

101: transmitting module 102: receiving module
103: electronic device 104: power supply
105: primary coil section 106: secondary coil section
201: fastening groove 301: fastening portion
302: support portion 303: control portion
304: display unit 305: protrusion

Claims (10)

In the contactless power supply for supplying power by using the induced electromotive force between the primary coil unit embedded in the transmission module and the secondary coil unit built in the receiving module,
The receiving module is a USB interface module, the front portion is provided with a contact surface in contact with the electronic device, the rear portion is provided with a pair of fastening grooves coupled to the transmission module,
The transmission module is provided with a fastening portion composed of a primary coil portion,
Inside the fastening part is provided with a pair of protrusions coupled to the pair of fastening grooves of the receiving module,
Solid-state power charging device, characterized in that the support module for fixing the electronic device is provided on both sides of the upper transmission module.
The method of claim 1,
The fastening part is a contactless power charging device characterized in that the inclination angle of less than 90 degrees from the ground and the vertical axis of the transmission module.
The method of claim 1,
And the pair of protrusions is a line through which serial data (D +) and inverted serial data (D−) are transmitted.
The method of claim 1,
The pair of fastening grooves may be coupled to the pair of protrusions to receive serial data and inverted serial data from the transmitting module to the receiving module.
And a series of data inverted in series with data in series from the receiving module to the transmitting module through the pair of protrusions coupled with the pair of fastening grooves.
The method of claim 1,
The transmitting module, the contactless power charging device further comprises a control unit and a display unit at the bottom of the module.
The method of claim 1,
The pair of fastening grooves are coupled to the pair of protrusions, and the electronic device is connected to the front of the receiving module and fastened to the support of the transmitting module, thereby charging and playing the electronic device. Solid state power charger.
In the contactless power supply method for supplying power by using the induced electromotive force between the primary coil unit built into the transmission module and the secondary coil unit built into the receiving module,
Coupling the transmitting module and the receiving module;
Contacting the receiving module with an electronic device;
Fastening the electronic device to support portions provided at both sides of the transmission module;
Supplying electric power to the electronic device by using induced electromotive force between the primary and secondary coil parts built in the transmitting module and the receiving module, respectively; And
And charging and playing the electronic device at the same time by the supplied electric power.
The method of claim 7, wherein
The step of coupling the transmitting module and the receiving module, the contactless power supply charging method, characterized in that by coupling a pair of fastening grooves provided in the rear portion of the receiving module to a pair of protrusions provided in the transmitting module. .
The method of claim 7, wherein
Contacting the receiving module and the electronic device, the contactless power charging method, characterized in that made by contacting the front portion of the receiving module and the electronic device.
The method of claim 7, wherein
In the step of playing the electronic device, the contactless power charging method, characterized in that for playing the electronic device by adjusting the control unit provided in the lower end of the transmission module.

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