CN113131630B - Charging plate with adjustable charging position and charging control method thereof - Google Patents

Abstract

The invention provides a charging plate with an adjustable charging position and a charging method thereof. The charging panel comprises a control circuit, an indicating circuit and a panel body. The plate body is provided with a coil accommodating part, and the coil accommodating part is provided with a transmitting coil with an adjustable accommodating position. The control circuit detects the accommodating position of the transmitting coil and controls the indicating circuit to output a corresponding indicating signal according to the detection result. Therefore, the charging plate can be used for a person to adjust the charging position.

Description

Charging plate with adjustable charging position and charging control method thereof

Technical Field

The present invention relates to a charging pad, and more particularly, to a charging pad capable of being wirelessly charged and a charging control method thereof.

Background

The existing charging panel for the wireless charging mouse is mainly used for embedding the transmitting coil inside, so that when the wireless charging mouse is placed on the charging panel and positioned above the transmitting coil, the charging panel can perform wireless charging operation on the wireless charging mouse. However, the charging positions provided by the charging plate are fixed, and the wireless charging mouse needs to be placed at the position on the charging plate where the wireless charging mouse can be charged if the wireless charging mouse is to be charged smoothly.

Disclosure of Invention

The embodiment of the invention provides a charging panel with an adjustable charging position and a charging control method thereof.

The embodiment of the invention provides a charging plate with an adjustable charging position. The plate body is provided with a coil accommodating part and a transmitting coil, and the position of the transmitting coil arranged in the coil accommodating part can be manually adjusted. The control circuit is electrically connected with the transmitting coil and the indicating circuit. The control circuit controls the indicating circuit to output corresponding indicating signals according to the position of the coil accommodating part where the transmitting coil is arranged.

The embodiment of the invention provides a monitoring method of a charging panel with an adjustable charging position. The charging control method includes the following steps. The detection transmitting coil is arranged at the position of the coil accommodating part. An indication signal is generated according to the detection result; the indication signal indicates the position of the coil accommodating portion where the transmitting coil is disposed, and the indication signal may be one or a combination of an optical signal and an audio signal.

In summary, according to the charging panel with the adjustable charging position and the charging control method thereof provided by the embodiments of the present invention, a user can determine the position of the transmitting coil on the charging panel by himself, so that the use habits of different people can be satisfied. The charging panel can also prompt personnel through outputting an indicating signal, so that the personnel can conveniently and quickly know the chargeable position of the charging panel.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

Fig. 1 is a schematic diagram of a charging plate for providing a slidable transmitting coil according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a charging plate providing a rotatable transmitting coil according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a charging plate providing a detachable transmitting coil according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a charging plate with a reversible transmit coil according to an embodiment of the invention.

Fig. 5 is a functional block diagram of a charging pad according to an embodiment of the present invention.

Fig. 6 is a flowchart illustrating a control of charging the charging pad according to an embodiment of the present invention.

Detailed Description

The following is a description of embodiments of the present invention with reference to specific embodiments, and those skilled in the art will understand the advantages and effects of the present invention from the contents provided in the present specification. The invention is capable of other and different embodiments and its several details are capable of modifications and various changes in detail without departing from the spirit and scope of the present invention. The drawings of the present invention are for illustrative purposes only and are not intended to be drawn to scale. The following embodiments will further explain the related art of the present invention in detail, but the contents are not provided to limit the scope of the present invention.

It will be understood that, although the terms "first," "second," "third," etc. may be used herein to describe various components or signals, these components or signals should not be limited by these terms. These terms are used primarily to distinguish one element from another element or from one signal to another signal. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.

The embodiment of the invention provides a charging panel with an adjustable charging position and a charging control method thereof, wherein the charging panel is a wireless charging mouse panel for a computer peripheral device for illustration. Furthermore, the charging panel can provide a wireless charging function for the wireless charging mouse, and the coil in the charging panel can be manually adjusted by a user according to personal preference. That is, when the user prefers to operate the wireless charging mouse on the right side of the charging pad, the coil in the charging pad may be manually adjusted to be located at the right position of the charging pad, so that the wireless charging may be performed when the wireless charging mouse is placed at the right chargeable position of the charging pad. Furthermore, in order to enable the user to easily know the position of the coil in the charging panel, the charging panel can also actively output an indication signal to prompt the user. Therefore, the charging panel with the adjustable charging position can not only improve the operation convenience of users, but also meet the habitual operation positions of different users on the charging panel without simultaneously arranging a plurality of coils in the charging panel to respectively provide a wireless charging function, so that the charging panel can meet the requirements of energy conservation and can effectively provide wireless charging.

Charging plate embodiment of slidable transmitting coil

Referring to fig. 1, fig. 1 is a schematic diagram of a charging plate of a slidable transmitting coil according to an embodiment of the present invention. The charging board 1 with adjustable charging position according to the present embodiment includes, but is not limited to, a board body 10, a control circuit 14, and an indication circuit 16. The control circuit 14 and the indication circuit 16 are disposed on one side of the board 10, for example. One surface of the board body 10 is used for operating the wireless charging mouse 5. And a coil receiving portion 101 may be further provided under the surface of the plate body 10. The coil housing 101 is provided with two housing positions, such as a first housing position 1011 and a second housing position 1012, for example. The first receiving position 1011 and the second receiving position 1012 are disposed adjacent to each other and can communicate with each other through the track 103. The transmitter coil 12 may be disposed at the first receiving position 1011 or the second receiving position 1012.

Further, when the transmitting coil 12 is disposed at the first storage position 1011, the transmitting coil 12 can be moved by the person to be disposed at the second storage position 1012 through the rail 103. Alternatively, when the transmitter coil 12 is disposed at the second storage position 1012, the transmitter coil 12 may be moved to the first storage position 1011 by the person via the rail 103. On the other hand, the actual moving manner of the transmitting coil 12 is, for example, that a person moves the transmitting coil 12 on the rail 103 by manual control on the back surface of the plate body 10, so that the transmitting coil 12 can be moved between the first storage position 1011 and the second storage position 1012. In one embodiment, the transmitting coil 12 may also be provided with a slide button 121 to facilitate a person controlling the movement of the transmitting coil 12 on the track 103.

It should be noted that the control circuit 14 can detect the current storage position of the transmitting coil 12, and control the indicating circuit 16 to output an indicating signal according to the detection result. In addition, the control circuit 14 can further control the transmitting coil 12 to transmit electromagnetic energy to the outside, so as to wirelessly charge a wireless charging mouse 5. The indication circuit 16 may be any combination of a light indication circuit capable of outputting a light indication signal or a sound indication circuit capable of outputting a sound indication signal. The light-emitting indicating circuit can display the light-emitting indicating signal by the illumination of a light-emitting component, such as a light-emitting diode. The sound indicating circuit can represent the sound indicating signal through the volume output of a speaker component, such as a horn or a buzzer.

As shown in fig. 1, the indication circuit 16 includes, for example, a first light emitting circuit 161 and a second light emitting circuit 162. The arrangement direction of the first light-emitting circuit 161 and the second light-emitting circuit 162 is the same as the arrangement direction of the first receiving position 1011 and the second receiving position 1012, so that a person can intuitively see the current position of the transmitting coil 12. For example, when the transmission coil 12 is at the first housing position 1011, the control circuit 14 controls the first light emitting circuit 161 in the indication circuit 16 to output the first indication signal. When the transmitting coil 12 is at the second housing position 1012, the control circuit 14 controls the second light emitting circuit 162 in the indicating circuit 16 to output the second indicating signal. The first indication signal or the second indication signal can be any lighting variation of the light signal, such as various combinations of variations of color, brightness or flashing of the light.

In an embodiment, the indication circuit 16 may be a single light emitting circuit, and may respectively represent different receiving positions of the transmitting coil 12 in the coil receiving portion 101 by emitting light signals with different colors or different flashing rates.

In addition, when the charging panel 1 shown in fig. 1 is actually used, the transmitting coil 12 is disposed at the first storage position 1011. At this time, the first light-emitting circuit 161 in the indicating circuit 16 outputs the first indicating signal, and the user can easily know that the transmitting coil 12 is currently located at the first receiving position 1011 through the light indicating signal displayed by the first light-emitting circuit 161. Therefore, the user can place the wireless charging mouse 5 to be operated and used at a surface position of the board body 10 corresponding to the upper part of the first storage position 1011. At this time, in addition to the wireless charging mouse 5 being able to operate the cursor to move at the position on the board body 10 above the corresponding transmitting coil 12, the receiving coil 51 of the wireless charging mouse 5 can also receive the electromagnetic energy of the transmitting coil 12 below the surface of the board body 10 to perform the wireless charging operation.

In addition, the number of the positions for accommodating the transmitting coils 12 shown in fig. 1 may be plural, but not limited to 2, and any combination of patterns, lines or characters may be further disposed on the surface of the plate body 10 relative to the accommodating positions to prompt the user of the arrangement position of the transmitting coils 12.

Charging plate embodiment of rotatable transmitting coil

Referring to fig. 2, fig. 2 is a schematic diagram of a charging plate for providing a rotatable transmitting coil according to an embodiment of the present invention. In the embodiment shown in fig. 2, the charging plate 1a is provided with 2 charging positions for the transmitting coil, and the transmitting coil 12 moves in a different manner than the charging plate 1 shown in fig. 1. Only the differences are described, and the components with the same reference signs have the same functions and are not described in detail.

As shown in fig. 2, the coil housing 101a of the plate body 10a includes a first housing position 1011, a second housing position 1012, a third housing position 1013, and a fourth housing position 1014. The indication circuit 16 includes a first light emitting circuit 161, a second light emitting circuit 162, a third light emitting circuit 163 and a fourth light emitting circuit 164. The coil housing 101a has a center point 1017, and the first housing position 1011, the second housing position 1012, the third housing position 1013, and the fourth housing position 1014 are disposed around the center point 1017. The transmitting coil 12a has an extending arm 122, and one end of the extending arm 122 is pivoted to the center point 1017. Whereby the transmitting coil 120a can be rotated clockwise or counterclockwise about the center point 1017 by the extending arm 122.

The transmitter coil 12a is shown in fig. 2 as being disposed in the first receiving position 1011, wherein the transmitter coil 12a can be rotated clockwise to the second receiving position 1012 or counterclockwise to the fourth receiving position 1014. When the transmitting coil 12a is moved to the second housing position 1012, the transmitting coil 12a can be moved to the third housing position 1013 by rotating clockwise. When the transmitting coil 12a is moved to the fourth storage position 1014, the transmitting coil 12a may be moved to the third storage position 1013 by counterclockwise rotation. In short, by controlling the rotation direction of the transmitting coil 12a, the transmitting coil 12a can be moved to any one of the first housing position 1011, the second housing position 1012, the third housing position 1013, and the fourth housing position 1014.

The arrangement direction of the first light emitting circuit 161, the second light emitting circuit 162, the third light emitting circuit 163, and the fourth light emitting circuit 164 in the indicating circuit 16a is the same as the arrangement direction of the first storage position 1011, the second storage position 1012, the third storage position 1013, and the fourth storage position 1014. When the transmitter coil 12a is disposed at the first housing position 1011, the first light-emitting circuit 161 relatively outputs the first instruction signal. When the transmitter coil 12a is disposed at the second receiving position 1012, the second light emitting circuit 162 relatively outputs the second indication signal. When the transmitting coil 12a is disposed at the third housing position 1013, the third light-emitting circuit 163 relatively outputs the third instruction signal. When the transmitting coil 12a is disposed at the fourth housing position 1014, the fourth light-emitting circuit 164 relatively outputs a fourth instruction signal. The first indication signal, the second indication signal, the third indication signal and the fourth indication signal are arbitrary changes of optical signals.

Accordingly, a person can know the position of the transmitting coil 12a on the charging plate 1a by the light emitting states of the first light emitting circuit 161, the second light emitting circuit 162, the third light emitting circuit 163 and the fourth light emitting circuit 164. As shown in fig. 2, the wireless charging mouse 5 can be placed on the surface of the board body 10a above the first storage position 1011 by the person through the illumination of the first light-emitting circuit 161, so that the wireless charging mouse 5 can be wirelessly charged by the charging board 1a when the wireless charging mouse 5 is operated and used at this position.

Charging plate embodiment with separable transmitter coil

Referring to fig. 3, fig. 3 is a schematic diagram of a charging plate for providing a detachable transmitting coil according to an embodiment of the present invention. The charging pad 1b of the embodiment shown in fig. 3 is different with respect to the charging pad 1 shown in fig. 1 in the way the transmitting coil 12b is moved. Only the differences are described, and the components with the same reference signs have the same functions and are not described in detail. Specifically, the transmitting coil in fig. 1 and 2 moves inside the coil housing part without being separated from the charging plate, but the charging plate 1b shown in fig. 3 is such that the transmitting coil 12b can be taken out of the plate body 10b when moved.

For example, the coil housing 101b shown in fig. 3 includes a first housing position 1011 and a second housing position 1012 that are independent from each other, and the first housing position 1011 and the second housing position 1012 are different positions in the coil housing 101b and are respectively configured for the transmitting coil 12b to be disposed therein. Further, when the transmitting coil 12b is disposed at the first receiving position 1011, the transmitting coil 12b can be further fixed at the first receiving position 1011 by a snap-fit manner, so as to prevent the transmitting coil 12b from falling out of the board body 10 b. When the transmitting coil 12b is disposed at the second receiving position 1012, the transmitting coil 12b may be further fixed at the second receiving position 1012 by a snap-fit manner, so as to prevent the transmitting coil 12b from falling out of the board body 10 b.

Therefore, in the charging pad 1b shown in fig. 3, when the transmitting coil 12b is to be moved during actual use, a person may manually remove the transmitting coil 12b from the first storage position 1011 to separate the transmitting coil from the plate body 10b directly on the back surface of the plate body 10b, and place the removed transmitting coil 12b at the second storage position 1012 on the back surface of the plate body 10 b.

Charging plate embodiment with reversible transmitter coil

Referring to fig. 4, fig. 4 is a schematic diagram of a charging board capable of turning over a transmitting coil according to an embodiment of the present invention. The charging pad 1c of the embodiment shown in fig. 4 is different with respect to the charging pad 1 shown in fig. 1 in the way the transmitting coil 12c is moved. Only the differences are described, and the components with the same reference signs have the same functions and are not described in detail. Specifically, the transmitting coil 12c in fig. 4 is placed in a different accommodating position by being turned over. The transmitting coil 12c of the charging board 1c shown in fig. 4 is provided with a rotating shaft 123 at one side, and the transmitting coil 12c is pivotally connected to the coil receiving portion 101c through the rotating shaft 123, so that the transmitting coil 12c can be turned over between a first receiving position 1011 and a second receiving position 1012 of the coil receiving portion 101c based on the rotating shaft 123.

Therefore, in the charging pad 1c shown in fig. 4, when the transmitting coil 12c is to be moved in actual use, a person can directly turn the transmitting coil 12c in the first storage position over the back surface of the plate body 10c by hand, and the transmitting coil 12c can be turned over to the second storage position 1012. In an embodiment, a locking portion may be further disposed on one side of the first receiving position 1011 and the second receiving position 1012 in fig. 4 to fix the transmitting coil 12c, so as to prevent the transmitting coil 12c from shaking at the coil receiving portion 101 c.

[ functional Block embodiment of charging Panel ]

Referring to fig. 5, fig. 5 is a schematic diagram illustrating a functional manner of a charging plate according to an embodiment of the present invention. The charging pad 1 of the embodiment shown in fig. 5 includes, for example but not limited to, a control circuit 14, an indication circuit 16, and a transmitting coil 12. The control circuit 14 further includes a controller 141, a detector 143, a wireless charging control circuit 145 and a wireless receiver 147. The controller 141 is electrically connected to the detector 143, the wireless charging control circuit 145 and the wireless receiver 147. The indication circuit 16 includes, for example, a light-emitting indication circuit 160 and a sound indication circuit 165.

The detector 143 is used for detecting the position of the transmitting coil 12 and outputting a position signal to the controller 141. Therefore, the controller 141 can correspondingly control the indication circuit 16 to output a corresponding indication signal according to the position signal. In one embodiment, the detector 143 is, for example, a touch switch that can be disposed at each of the storage positions. For example, the charging panel 1 shown in fig. 1 includes a first touch switch element and a second touch switch element as the detector 143. The first touch switch assembly is disposed at one side of the first receiving position 1011 and can touch the first touch switch when the transmitting coil 12 is disposed at the first receiving position 1011. The second touch switch element is disposed at one side of the second receiving position 1012 and can touch the second touch switch when the transmitting coil 12 is placed at the second receiving position.

Therefore, when the controller 141 receives the first position signal outputted by the first touch switch, it can be known that the transmitting coil 12 is currently disposed at the first receiving position 1011, and then the controller 141 controls the indicating circuit 16 to output the first indicating signal. In addition, when the controller 141 receives the second position signal outputted from the second touch switch, it can be known that the transmitting coil 12 is currently disposed at the second receiving position 1012, and then the controller 141 controls the indicating circuit 16 to output the second indicating signal.

Upon receiving the first indication signal, the indication circuit 16 may output a corresponding light signal through the light indication circuit 160 and a corresponding sound signal through the sound indication circuit 165, respectively. In one embodiment, the light emitting indication circuit 160 may be correspondingly provided with a corresponding number of light emitting circuits according to the number of the receiving positions.

In addition, the wireless charging control circuit 145 is electrically connected to the transmitting coil 12. In one embodiment, the controller 141 controls the wireless charging control circuit 145 to electromagnetically inductively charge the wireless charging device mouse 5 on the charging pad 1 through the transmitting coil 12. In addition, the Wireless charging technology provided by the Wireless charging control circuit 145 and the transmitting coil 12 is compatible with the Qi standard of Wireless Power Consortium (WPC) or the PMA standard of Power Alliance (PMA), and the invention is not limited thereto.

The wireless receiver 147 is used to wirelessly link with the wireless charging mouse 5 on the charging pad 1 to transmit data. In one embodiment, when the wireless charging mouse 5 is placed on the charging pad 1 and receives the electromagnetic induction energy of the transmitting coil 12, the wireless charging mouse 5 can output a charging signal to the wireless receiver 147. The controller 141 determines whether the charging signal is received through the wireless receiver 147 to determine whether the wireless charging mouse 5 is placed on the charging pad 1 at a chargeable position for wireless charging.

For example, when the controller 141 knows that the wireless receiver 147 receives the charging signal, it indicates that the wireless charging mouse 5 is placed on the charging pad 1 at a chargeable position corresponding to the transmitting coil 12. However, when the controller 141 knows that the wireless receiver 147 does not receive the charging line signal, it indicates that the wireless charging mouse 5 is not placed on the charging pad 1 at the chargeable position corresponding to the transmitting coil 12. Therefore, the controller 141 further controls the indication circuit 16 to output an uncharged indication signal. The uncharged indication signal can be a light signal outputted by the light-emitting indication circuit 160 or a sound signal outputted by the sound indication circuit 165.

Besides, the wireless receiver 147 can receive the charging signal output by the wireless charging mouse 5, and can also receive wireless input signals, such as a mouse button signal and a cursor control signal, output by the wireless charging mouse 5 to the host computer. Therefore, the charging panel 1 can be further connected with the computer host through a transmission line, and the wireless input signal can be further input to the computer host. In addition, the power required for the operation of the charging plate 1 according to the present disclosure may be provided by the transmission line connected to the computer, or the charging plate 1 may be connected to the power converter through the transmission line to obtain the external power input for use.

Furthermore, in an embodiment, the control circuit 14 shown in fig. 5 may not include the wireless receiver 147. The controller 141 can detect the position of the transmitting coil 12 on the charging plate 1 by the detector 143, and output an indication signal by the indicating circuit 16 to inform a person of the position of the transmitting coil 12.

Charging control method embodiment of charging Panel

Referring to fig. 6, fig. 6 is a flowchart illustrating a charging control of the charging plate according to the embodiment of the present invention. The flowchart shown in fig. 6 will be described below with reference to the related embodiments.

In step S601, the coil position is detected. The charging plate can be provided with a detector at each accommodating position, so that the accommodating position to which the transmitting coil is moved can be known according to the detection result of the detector.

In step S603, an indication signal is output. After step S601 is executed, the charging board can know the accommodating position of the transmitting coil, so that the indicating circuit can be further controlled to output the indicating signal. The indication signal is outputted by, for example, an optical signal or an audio signal, so as to remind the people of paying attention.

In step S605, it is determined whether the wireless charging mouse is charged. In this step, the charging panel determines whether a charging signal output by the wireless charging mouse is wirelessly received, and if so, the wireless charging mouse is determined to be placed at a chargeable position on the charging panel for wireless charging. Otherwise, if the wireless charging mouse is not judged to be placed at the chargeable position on the charging plate, the wireless charging mouse is determined not to be placed at the chargeable position on the charging plate for wireless charging.

In step S607, an uncharged indication signal is outputted. When the determination in step S605 is no, the charging board may output an indication signal indicating no charging, so as to prompt the person to place the wireless charging mode at a position where the charging board can be correctly charged, for example, at this time, the person may further view the light indication signal output by the light-emitting indication circuit to know the position of the current transmitting coil. The uncharged indication signal may output any combination of optical or acoustic signals, for example, through an indication circuit. And when the step S605 determines yes, the process returns to the step S601.

[ advantageous effects of the embodiments ]

The charging panel with the adjustable charging position and the charging control method thereof mainly enable the position of the transmitting coil in the charging panel to be automatically and manually adjusted according to personal operation habit preferences, and can output an indicating signal through the indicating panel to remind people of the correct charging position of the transmitting coil on the charging panel at present. Therefore, the wireless charging mouse can be wirelessly charged together with the wireless charging mouse subsequently operated on the charging plate by personnel, and the stable power supply of the wireless charging mouse can be ensured.

The above-mentioned contents are only the preferred and feasible embodiments of the present invention, and are not limited to the claims of the present invention, so that all the technical changes which are made by using the contents of the description of the present invention and the drawings are included in the claims of the present invention.

Claims (13)

1. A charging pad with adjustable charging position, comprising:

a plate body having a coil receiving portion and a transmitting coil, the transmitting coil being disposed in the coil receiving portion in such a position as to be manually adjustable;

a control circuit electrically connected to the transmitting coil; and

an indicating circuit electrically connected to the control circuit;

the control circuit controls the indicating circuit to output a corresponding indicating signal according to the position of the coil accommodating part where the transmitting coil is arranged;

wherein the coil accommodating part has a first accommodating position and a second accommodating position;

a first touch switch assembly is arranged at the first accommodating position, and a second touch switch assembly is arranged at the second accommodating position;

when the transmitting coil is arranged at the first accommodating position, the first touch switch component touches the transmitting coil to output a first position signal to the control circuit, and the control circuit controls the indicating circuit to output a first indicating signal;

when the transmitting coil is arranged at the second accommodating position, the second touch switch component touches the transmitting coil to output a second position signal to the control circuit, and the control circuit controls the indicating circuit to output a second indicating signal.

2. A charging pad having an adjustable charging position as defined in claim 1, wherein the control circuit comprises:

a controller;

the wireless charging control circuit is controlled by the controller and charges a wireless charging mouse in an electromagnetic induction mode through the transmitting coil; and

the detection circuit is electrically connected with the controller, detects the position of the transmitting coil arranged in the coil accommodating part and correspondingly outputs the first position signal or the second position signal to the controller so that the controller can control the indicating circuit to output the first indicating signal or the second indicating signal which is opposite to the indicating circuit according to the position signal, and the detection circuit comprises the first touch switch component and the second touch switch component.

3. The charging pad of claim 2, wherein the indicating circuit comprises a first light emitting circuit and a second light emitting circuit, the first indicating signal outputted by the first light emitting circuit is an optical signal when the transmitting coil is disposed at the first receiving position, and the second indicating signal outputted by the second light emitting circuit is an optical signal when the transmitting coil is disposed at the second receiving position.

4. The charging pad with adjustable charging position according to claim 3, wherein the indication circuit further comprises an audio indication circuit, and the indication signal output by a speaker component in the audio indication circuit is an audio signal.

5. The charging pad with adjustable charging position according to claim 2, wherein the first touch switch assembly touches the transmitting coil to output the first position signal to the controller when the transmitting coil is disposed at the first receiving position, and the second touch switch assembly touches the transmitting coil to output the second position signal to the controller when the transmitting coil is disposed at the second receiving position.

6. A charging pad having an adjustable charging position as claimed in claim 2, further comprising:

the wireless receiver is electrically connected with the controller and wirelessly receives a charging signal output by the wireless charging mouse;

when the wireless charging mouse is placed on the plate body and receives electromagnetic induction energy output by the transmitting coil, the wireless charging mouse wirelessly outputs the charging signal;

when the wireless receiver does not receive the charging signal, the controller controls the indicating circuit to output an uncharged indicating signal to indicate that the wireless charging mouse is placed on the plate body and does not receive electromagnetic induction energy.

7. A charging pad as claimed in claim 1, wherein the plate has a track which communicates between the first and second stowed positions and through which the transmitting coil is moved between the first and second stowed positions.

8. The charging pad as claimed in claim 1, wherein the plate body has a center point, the transmitting coil is provided with an extension arm pivoted to the center point, and the transmitting coil is moved to the first receiving position or the second receiving position by rotating the extension arm around the center point.

9. A charging pad as claimed in claim 1, wherein the coil receiving portion has a first receiving position and a second receiving position independent of each other, and the transmitting coil is removable from the first receiving position or the second receiving position to be separated from the plate.

10. The charging pad with adjustable charging position according to claim 1, wherein a rotating shaft is disposed at one side of the transmitting coil, and the transmitting coil is pivotally connected to the coil receiving portion through the rotating shaft, so that the transmitting coil can be turned to the second receiving position along the rotating shaft when disposed at the first receiving position, or the transmitting coil can be turned to the first receiving position along the rotating shaft when disposed at the second receiving position.

11. A charging control method of a charging panel, wherein the charging panel has a coil receiving portion for manually adjusting a transmitting coil to be disposed at different positions, comprising:

detecting the position of the transmitting coil arranged in the coil accommodating part; and

an indication signal is generated according to the detection result;

the indicating signal is used for indicating the position of the transmitting coil arranged in the coil accommodating part, and is one or combination of an optical signal and a sound signal;

the coil containing part is provided with a first containing position and a second containing position, the first containing position is provided with a first touch switch component, and the second containing position is provided with a second touch switch component;

when the transmitting coil is arranged at the first accommodating position, the first touch switch component touches the transmitting coil, and the charging panel control indicating circuit outputs a first indicating signal;

when the transmitting coil is arranged at the second accommodating position, the second touch switch component touches the transmitting coil, and the charging panel controls the indicating circuit to output a second indicating signal.

12. The charging control method of a charging pad according to claim 11, further comprising: judging whether a wireless charging mouse carries out wireless charging on the charging plate; and

when the wireless charging mouse does not perform wireless charging on the charging plate, an uncharged indication signal is output, and the uncharged indication signal is one or combination of an optical signal and a sound signal.

13. The method of claim 12, wherein the charging pad determines that the wireless charging mouse is not wirelessly charged on the charging pad when the charging pad does not wirelessly receive a charging signal output by the wireless charging mouse, wherein the charging signal is output when the wireless charging mouse is placed on the charging pad and receives electromagnetic induction energy output by the transmitting coil.

Images