KR20160145963A - Wireless charging holder to be moved a coil attachment portion to upward or downward direction - Google Patents

Abstract

According to the present invention, a wireless charging holder with a vertically moving coil attaching unit has an effect to increase the wireless charging efficiency, and to reduce the wireless charging time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wireless charging holder,

The present invention relates to a wireless charging station in which a coil mounting unit is moved up and down. In particular, when a mobile communication terminal having a wireless charging unit is installed in a wireless charging station equipped with a wireless charging unit, The induction electromotive force of the wireless charging section is opposite to the coil of the receiving section of the wireless charging station, and the induction electromotive force of the charging body is opposed to the coil of the transmission section, so that the center of the coil attachment portion of the wireless charging station is optimally wirelessly charged The present invention relates to a wireless charging cradle capable of vertically moving a vertically movable member (a handle) and having an application (App) in which an instant wireless charging amount and a charging state are displayed on a mobile communication terminal.

In recent years, smart phones have been equipped with various types of terminal models with built-in NFC (Near Field Communication) and wireless power charging functions, and devices equipped with app functions are being released. If the battery of the smartphone needs to be charged and the battery needs to be charged, the battery of the smartphone is charged by connecting the USB connector to the wired charging adapter or the computer, but the wired charging adapter must be provided to charge the battery.

Therefore, a busy worker is required to charge the wireless power of the smartphone which does not need to use the wired charging adapter separately since the business call is heavy and the smartphone battery is consumed quickly.

In order to solve this inconvenience, research and development of a smart phone equipped with a wireless charger, which does not require the use of a separate wired charging adapter for charging a smart phone, has been researched and developed.

In the conventional wireless charger (patent application No. 10-2010-0067598), if a mobile communication terminal (smart phone) having a built-in wireless charging unit (Gender) connected with a battery of the rear case and a connector is placed on the wireless charger main body, An induction electromotive force of an electromagnetic field formed by a coil of the induction electromotive force receiving portion of the wireless charger of the mobile communication terminal is generated from the coil of the induction electromotive force transmitting portion of the pad of the body, A minute electric potential difference is sensed and the battery is charged from the standby current state to the energy emission state by the wireless charging circuit through the connector.

The wireless charger generates the induced electromotive force through the magnetic field formed by the secondary coil of the inductive electromotive force receiving unit of the wireless charger of the mobile communication terminal from the primary coil of the inductive electromotive force transmitting unit to provide the charging current, If the efficiency of receiving the induced electromotive force is low, the charging efficiency of the battery of the electroluminescence unit of the mobile communication terminal is lowered.

However, since the size of the mobile communication terminal having the wireless charging unit and the installation position of the coil of the induction electromotive force receiving unit are different according to the model of the terminal to be released, the coil of the wireless charging unit of the mobile communication terminal is connected to the charging body of the wireless charging cradle If the coils are not opposed to each other and are staggered, the induced electromotive force generated from the coils of the wireless charger main body is not properly transmitted to the coil of the wireless charger of the mobile communication terminal, which lowers the wireless charging efficiency and requires a long charging time.

Patent Application No. 10-2010-0067598

In order to solve the above-described problems, it is an object of the present invention to provide a mobile communication terminal equipped with a wireless charging unit, The center of the coil attaching portion of the wireless charging cradle is moved up and down so as to be opposed to the coil of the charging body of the wireless charging cradle so as to be opposed to each other without being staggered with the coil of the transmission unit of the charging cradle, And an application (App) in which the instantaneous wireless charging amount and the charging state are displayed on the mobile communication terminal, wherein the coil mounting portion is moved up and down.

In order to accomplish the object of the present invention, the wireless charging stand, in which the coil attaching portion is moved up and down, includes a wireless charging unit main circuit 202 and a wireless charging unit main unit 202 An electromotive force transmitting unit 203 including a coil and an electromotive force receiving unit 204 of the mobile communication terminal 100 provided in the coil attaching unit 204 and having up and down moving up and down moving members 206 and 207 and a wireless charging unit, The upper and lower movable members 206 and 207 connected to the coil attaching portion 204 of the wireless charging stand are moved up and down to face the coils of the wireless charging station with the wireless charger main body installed therein, 204 is moved up and down to adjust the opposing position of the coil so that the coil attaching portion for charging the induced electromotive force is moved up and down. It is.

The up-and-down moving member 206 provided on both sides of the coil attaching portion includes a coil-attaching portion having an engaging groove 208 that is held by a plurality of engaging protrusions 209 in the wireless charging stand, A cradle is provided.

The upper and lower movable members 207 provided on the upper portion of the coil attaching portion 204 include a coil attaching portion having a plurality of engaging grooves 208 which are held by the engaging protrusions 209 in the wireless charging stand, A portable wireless charging stand is provided.

Also, a wireless charging cradle is provided in which a coil attaching portion having a stopper 201 for supporting the mobile communication terminal 100 with the wireless charging unit built therein is supported at the lower end of the wireless charging cradle 200 .

The inside of the wireless charging cradle 200 is provided with a guide portion 210 for housing a space for vertically moving the coil attaching portion 204 by the up-and-down moving members 206 and 207, A portable wireless charging stand is provided.

In addition, the mobile communication terminal 100 having the wireless charging unit is provided with a wireless charging cradle in which an application unit for measuring a wireless charging amount and displaying it on a screen is moved up and down.

The wireless charging stand includes a base 211 fixed to the bottom surface thereof, a support base holder 212 supporting and holding the base base 211 in the Y axis direction, and a mobile communication terminal 100 having a wireless charging unit. There is provided a wireless charging cradle in which a coil attachment portion having left and right holders 213 for holding left and right is moved up and down.

In addition, the base part 211 of the cordless charging cradle 200 is provided with a wireless charging cradle in which the coil mounting part for moving the double-sided tape is moved up and down.

The wireless charging cradle includes an induction electromotive force transmission unit 203 having a coil and a ferrite, a wireless charger main body circuit (FPCB) 202 for receiving an AC power source connected to the induction electromotive force transmission unit 203, And a power supply unit for receiving AC power and connecting an external plug to the wireless charger main circuit 202 to supply AC power.

In addition, the wireless charger of the mobile communication terminal 100 receives the induction electromotive force from the ferrite and the coil of the induction electromotive force transmission unit 203 of the wireless charger main body of the wireless charging cradle, A wireless charging circuit portion 102 having a rectifying circuit, a smoothing circuit, and a constant voltage circuit; and an overcharge prevention circuit portion. The overcharge prevention circuit portion is connected to the battery through a connector, And the coil attaching portion is moved up and down.

The wireless charging cradle for vertically moving the coil attaching unit according to the present invention may be configured such that when a mobile communication terminal with a wireless charging unit is mounted on a wireless charging cradle with a wireless charger main body installed therein to wirelessly charge the wireless charging cradle, The central center of the coil mounting portion of the wireless charging holder is positioned so as to be opposed to the coil of the induction electromotive force receiving portion so as to be opposed to each other without being staggered with the coil of the induction electromotive force transmitting portion of the charging body of the wireless charging holder, The user can move the up-and-down moving member of the coil attaching portion up and down to move the upper and lower movable members (the handle) up and down, and the mobile communication terminal has the application (App) So that the wireless charging efficiency can be improved. It has the effect of reducing the charging time.

1 is a perspective view of a wireless charging cradle in which a vertically movable member and a coil attachment unit are moved up and down according to the present invention.
Fig. 2 is an internal configuration diagram of a wireless charging cradle for vertically moving the up-and-down moving member and the coil mounting unit in the guide portion inside the wireless charging cradle.
3 is a side view of a wireless charging cradle in which a coil attaching portion connected to a vertical moving member is moved up and down so as to face a coil of a wireless charging portion of a mobile communication terminal according to the present invention.
4 is a diagram showing the generation of induced electromotive force in the magnetic field formed by the coil of the wireless charging unit of the mobile communication terminal from the body coil of the wireless charging stand.
5 is a perspective view of a wireless charging cradle in which the up-and-down moving member and the coil mounting unit are moved up and down in another embodiment of the present invention.
Fig. 6 is an internal configuration diagram of a wireless charging cradle for vertically moving the up-and-down moving member and the coil mounting unit in the guide portion inside the wireless charging cradle of another embodiment.
FIG. 7 is a side view of a wireless charging cradle in which a coil attaching portion connected to the up-down moving member is moved up and down so as to face a coil of a wireless charging portion of a mobile communication terminal according to another embodiment of the present invention.
8 is a diagram showing the generation of induced electromotive force in the magnetic field formed by the coil of the wireless charging section of the mobile communication terminal from the body coil of another embodiment of the wireless charging stand.

The objects, features, and advantages of the present invention will become more apparent from the detailed description and the preferred embodiments with reference to the accompanying drawings. In adding reference numerals to the constituent elements of each of the drawings in this specification, the same constituent elements are given the same numerals even if they are shown in different drawings. In addition, the present invention is not limited to the embodiments and can be variously applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a wireless charging cradle in which a vertically movable member and a coil mounting portion of the present invention are moved up and down. FIG.

The wireless charging cradle for moving the up and down moving member and the coil mounting unit up and down to adjust the opposite side of the coil when wirelessly charging, includes a cradle base 211 to be used by attaching to a dashboard of a floor, a desk or an automobile. A supporting member holder 212 and a wireless communication unit 200 including a wireless communication unit 100 having a wireless charging unit and a vertical movement member 206 supported by the lower stopper 201 and fixed by the left and right holders 213, And a charging cradle 200.

Fig. 2 is an internal configuration diagram of a wireless charging cradle for vertically moving the up-and-down moving member and the coil mounting unit in the guide portion inside the wireless charging cradle.

In the wireless charging cradle 200, the locking grooves 208 are engaged with the plurality of locking protrusions 209 when the upper and lower movable members 206 are provided on both sides of the coil attachment portion 204, And a guide part 210 for housing a space for vertically moving the coil attaching part 204 by the up-and-down moving member 206.

3 is a side view of a wireless charging cradle in which a coil attaching portion connected to a vertical moving member is moved up and down so as to face a coil of a wireless charging portion of a mobile communication terminal according to the present invention.

The mobile communication terminal 100 having a wireless charging unit when wirelessly charging includes a wireless charging cradle 200 having a wireless charger main circuit 202 and having a vertical movement member (grip) And wireless charging is performed.

The wireless charging unit of the mobile communication terminal 100 includes an induction electromotive force receiving unit 200 including a coil of a wireless charging unit and a ferrite of a wireless charging unit receiving the induced electromotive force from the ferrite and the coil of the induction electromotive force transmitting unit of the wireless charging cradle 200, A wireless charging unit circuit 102 having a rectifying circuit, a smoothing circuit, and a constant voltage circuit, and an overcharge prevention circuit unit, and is connected to the battery through a connector, and charges the battery voltage on the rear surface of the mobile communication terminal.

The wireless charging cradle 200 with the wireless charger main body having the up-and-down moving member therein includes a power supply unit, a wireless charging unit main circuit (FPCB) 202, and an induced electromotive force transmission unit (coil and ferrite) The electromotive force transmitting portion (coil and ferrite) 203 is connected to the coil attaching portion 204 and includes a vertically movable member (grip) 206 formed on both sides of the coil attaching portion 204.

An induction electromotive force transmission section 203 including a coil connected to a wireless charging section main body circuit 202 of a wireless charging station with a wireless charger main body is attached to a coil attachment section 204, 204 are provided with vertically moving members 206 which move up and down on both sides,

The coil of the induction electromotive force receiving unit 101 of the mobile communication terminal 100 having the wireless charger unit is connected to both sides of the coil attaching unit 204 of the wireless charger cradle so as to be opposed to the coil of the wireless charger cradle The vertical moving member 206 is moved up and down to move the center of the coil attachment portion 204 up and down to adjust the opposing position of the coil to charge the induced electromotive force.

The up-and-down moving member 206 formed on both sides of the coil attaching portion 204 has an engaging groove 208 which is held by a plurality of engaging shoulders 209 in the wireless charging stand.

When the coil attachment portion 204 connected to the up-and-down moving member 206 is moved in the vertical direction, the latching groove 208 is caught by the plurality of latching jaws 209 and is moved in the vertical direction in a stepwise manner.

And a stopper 201 for supporting and supporting the mobile communication terminal 100 having the wireless charging unit at the lower end thereof at the lower end of the wireless charging cradle 200.

The wireless charging cradle includes a cradle base 211 fixed to a bottom surface thereof, a support holder 212 supporting and holding the cradle base 211 in the Y axis direction, and a mobile communication terminal 100 having a wireless charger, And a left and right holder 213.

The mounting base 211 of the wireless charging station 200 is used with a double-sided tape attached thereto. For example, a double-sided tape may be attached to a dash board on the front of the driver's seat of the automobile.

The mobile communication terminal 100 having the wireless charging unit can use a smart phone with a built-in wireless charging unit, and an app for measuring a wireless charging amount and displaying the wireless charging amount on a screen is installed. The application of the mobile communication terminal displays the instantaneous charge amount and the charge state.

4 is a diagram showing the generation of induced electromotive force in the magnetic field formed by the coil of the wireless charging unit of the mobile communication terminal from the body coil of the wireless charging stand.

The wireless charging stand 200 includes an induction electromotive force transmission unit 203 having a coil and a ferrite, a wireless charger main body circuit (FPCB, Flexible PCB) 202 connected to the induction electromotive force transmission unit 203 to supply an induction electromotive force, And a power supply for supplying power to a plug connected to the wireless charger main circuit for supplying power to a plug connected to the wireless charger main circuit for supplying power to the wireless charger main circuit 202. [

When the mobile communication terminal 100 having the wireless charging unit is placed on the coil of the wireless charging unit main body Pad 202 of the wireless charging charging base 200, the wireless charging unit main body (Pad) 202 senses a minute potential difference Switches from the current mode to the energy oscillation mode,

The electromotive force of the wireless charger of the mobile communication terminal 100 through the induction electromotive force transmission unit 203 including the coil and the ferrite connected to the pad by applying the electromagnetic field principle by the electromotive force control circuit, The electromotive force is generated by oscillating at a natural frequency of a band (230 to 350 KHz) having a magnetic flux permeability (μ) of the induction magnetic field by the coil and ferrite of the receiver.

The wireless charger of the mobile communication terminal 100 receives the induction electromotive force from the ferrite and the coil of the induction electromotive force transmitter 203 of the wireless charger main body Pad of the wireless charging cradle 200. The electromotive charger coil and ferrite A wireless charging circuit unit 102 including a rectifying circuit, a smoothing circuit, and a constant voltage circuit using the induction current and voltage generated from the induction electromotive force receiving unit, and an overcharge prevention circuit unit, And charges the battery voltage on the rear surface of the mobile communication terminal.

A rectifier circuit converts an alternating current generated by an induced electromotive force into a direct current, and uses a full-wave rectifying circuit or a bridge rectifying circuit.

The smoothing circuit smoothes the pulsation generated in the direct current output from the rectifying circuit by the capacitor to provide a smoothed direct current.

The constant voltage circuit receives a smoothed quiescent current, provides a stable constant voltage, and uses a constant voltage regulator as a constant voltage IC device.

The size of the magnetic field of the induction magnetic field formed by the coil and ferrite of the electromotive force receiving unit of the wireless charging station 200 and the induction electromotive force receiving unit of the wireless charging unit on the rear surface of the mobile communication terminal 100, And is inversely proportional to the distance from the straight line.

이다. 여기서, B는 단위 면적을 통과하는 자속수이고 , 자속(Φ)은 Φ=BㆍS(B는 자속밀도, S는 면적)로 표현된다. 면적 S[m²]의 자속밀도가 B[wb/m²] 일 때, 이 면적을 지나는 자속(magnetic flux, Φ)은 Φ=

와 같이 표시된다. If the magnetic flux passing vertically through the minute area (? S) is? PHI, the magnetic flux density B at that point is

to be. Here, B is the number of magnetic fluxes passing through the unit area, and the magnetic flux (PHI) is expressed by PHI = B · S (where B is the magnetic flux density and S is the area). When the magnetic flux density of the area S [m ² ] is B [wb / m ² ], the magnetic flux passing through this area is Φ =

As shown in FIG.

Where, B = μH, μ = μ 0 μ s, B is the magnetic flux density (wb / m ^2), H is the intensity of the magnetic field, μ ₀ is the magnetic permeability (permeability of vacuum), μ _s of air relative permeability of the magnetic material ( relative permeability).

로 표현된다.(단, N:감은 코일수, △Φ:자속, △t:시간, (-) 자속의 변화를 방해하는 방향의 의미이다)When the induction current flows through the coil wound with ferrite by the Faraday electromagnetic induction law and the magnetic flux Φ inside the coil changes, the induced voltage intensity is proportional to the number of coils wound and induced in the direction that interferes with the change in magnetic flux per unit time A voltage is generated. The magnitude of the induced voltage is

(Where N is the number of turns of the coil,?? Is the magnetic flux,? T is the time, and? Is the direction of hindering the change of the magnetic flux)

이 된다.N is the number of coil turns (winding ratio), B is the magnetic flux density B generated by the strength of the magnetic field, and S is the cross-sectional area S [m ² ] within the time dt [s], the induced electromotive force generated in the coil of the ferrite magnet

.

Measurement of the intensity of the induced current flowing in the coil of the induction electromotive force receiving unit and the intensity of the induced voltage can be measured by a galvanometer, and the direction of the induced current can be determined by the Fleming's left-hand rule.

The mobile communication terminal 100 having the wireless charging unit can use a smart phone with a built-in wireless charging unit, and an app for measuring a wireless charging amount and displaying the wireless charging amount on a screen is installed. The application of the mobile communication terminal displays the instantaneous charge amount and the charge state.

The coil 203 of the induction electromotive force transmission unit is attached to the coil attachment portion 204 of the mobile communication terminal 100 in which the wireless charging unit is built,

The upper and lower movable members 206 connected to both sides of the coil attaching portion 204 are mounted on a wireless charging cradle 200 capable of moving up and down and the coil 101 of the induction electromotive force receiving portion of the wireless charger of the mobile communication terminal 100, The center of the coil attachment portion 204 of the wireless charging cradle 200 is positioned so as to be opposed to the coil 203 of the induction electromotive force transmitting portion of the wireless charging cradle so as to be optimally wirelessly charged through the induction electromotive force, The movable member 206 is moved up and down so that the latching groove 209 is engaged with the stepped groove 208,

The user is allowed to receive the induced electromotive force from the coil of the inductive electromotive force receiving unit by making the maximum number of magnetic flux lines per cross section S [m ² ] within dt [s] while checking the instantaneous charged amount of the application of the mobile communication terminal, 207 to the mobile communication terminal while adjusting the wireless charging position to the position where the instantaneous charging amount is the largest.

5 is a perspective view of a wireless charging cradle in which the up-and-down moving member and the coil mounting unit are moved up and down in another embodiment of the present invention.

The wireless charging cradle for moving the up and down moving member and the coil mounting unit up and down to adjust the opposite side of the coil when wirelessly charging, includes a cradle base 211 to be used by attaching to a dashboard of a floor, a desk or an automobile. The mobile communication terminal 100 having the wireless charging unit is supported by the stopper 201 at the lower end and is supported by the left and right holders 213 and has the up and down moving member 207 protruded to the upper side. And a charging cradle 200.

Fig. 6 is an internal configuration diagram of a wireless charging cradle for vertically moving the up-and-down moving member and the coil mounting unit in the guide portion inside the wireless charging cradle of another embodiment.

A plurality of engaging grooves 208 are caught by the engaging jaws 209 when the up-and-down moving member 207 provided on the upper portion of the coil attaching portion 204 moves up and down in the wireless charging and cradling unit 200, And a guide part 210 for housing a space for vertically moving the coil attaching part 204 by the up-and-down moving member 207.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the present invention. The present invention can be variously modified or modified.

100: a mobile communication terminal equipped with a wireless charging unit
101: Induced electromotive force receiving unit (coil of the electroluminescence unit)
102: Wireless charging unit circuit (FPCB)
200: a wireless charging cradle having a vertically movable member
201: stopper 202: wireless main body circuit (FPCB)
203: Inductive electromotive force transmitting part (coil) 204: Coil attaching part
206: Up and down moving member 207: Up and down moving member
208: engaging groove 209: engaging jaw
210: guide portion 211: mount base
212: Support holder 213: Left and right holders

Claims (10)

A wireless charger main body circuit 202 provided in a wireless charging cradle with a wireless charger main body;
An induction electromotive force transmitting unit 203 connected to the wireless charger main body circuit 202 and including a coil;
A vertically moving member 207 provided on the coil attachment portion 204 and moving up and down;
(110) connected to the coil attaching portion (204) of the wireless charging cradle so as to face the coil of the wireless charging cradle with the wireless charger main body built in the coil of the induction electromotive force receiving portion (101) of the mobile communication terminal Wherein the coil attaching portion is moved up and down by vertically moving the vertically movable members (206, 207) to move the center of the coil attaching portion (204) up and down to adjust the opposing positions of the coils.
The method according to claim 1,
And a hooking member for stopping the up-and-down moving member (206) provided on both sides of the coil attaching portion (204) is provided inside the wireless charging cradle, and the coil attaching portion is moved up and down.
The method according to claim 1,
Wherein a hooking member for stopping the up-and-down moving member (207) provided at an upper portion of the coil attaching portion (204) is provided inside the wireless charging cradle and the coil attaching portion is moved up and down.
The method according to claim 1,
And a stopper (201) for supporting the mobile communication terminal (100) with the wireless charging unit mounted thereon at a lower end thereof at a lower end of the wireless charging cradle (200).
4. The method according to any one of claims 2 to 3,
The inside of the wireless charging station 200 is provided with a guide portion 210 for housing a space for vertically moving the coil attachment portion 204 by the up-and-down moving member 207, Wireless charging cradle.
The method according to claim 1,
The mobile communication terminal 100 with the wireless charging unit incorporated therein is equipped with an app for measuring a wireless charging amount and displaying it on a screen.
The method according to claim 1,
The wireless charging cradle includes a cradle base 211 fixed to a bottom surface thereof, a support holder 212 holding the cradle base 211, left and right holders 213 holding the mobile communication terminal 100 having a wireless charging unit, Wherein the coil mounting portion is vertically moved.
The method according to claim 1,
Wherein the coil attaching portion for attaching the double-sided tape is moved up and down in the cradle base (211) of the wireless charging cradle (200).
The method according to claim 1,
The wireless charging cradle
An induction electromotive force transmission unit 203 having a coil and a ferrite;
A wireless charger main circuit (FPCB) 202 for receiving an AC power from the induction electromotive force transmitting unit 203 to supply an induction electromotive force; And
A power supply unit which receives AC power and connects an external plug to the wireless charger main circuit 202 to supply AC power; Wherein the coil attaching portion is moved up and down.
The method according to claim 1,
The wireless charging unit of the mobile communication terminal 100 includes a ferrite and a ferrite of the electromotive charging unit that receives the induced electromotive force from the coil of the electromotive force transmitting unit 203 of the wireless charger main body Pad of the wireless charging cradle, An induced electromotive force receiving unit 101; A wireless charging circuit unit (102) having a rectifying circuit, a smoothing circuit, and a constant voltage circuit; And an overcharge prevention circuit unit connected to the battery by the connector, wherein the coil attachment unit for moving the mobile phone to charge the battery voltage is moved up and down.

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