TWI550991B - Wireless charging input device and wireless chargeable mouse thereof - Google Patents

Description

Wireless charging input device and wireless charging mouse device capable of charging on the move

The present invention relates to a wireless charging input device, and more particularly to a wireless charging input device for charging a wireless charging mouse and a wireless charging keyboard by means of magnetic resonance.

The general mouse is connected to the computer through wires for data and power transmission. The common wireless charging mouse is to set up the battery inside the mouse itself and transmit the data through wireless communication. Achieve wireless operation. However, this type of design is provided by the inside of the mouse itself to provide the power of the mouse, which brings a lot of inconvenience to the user. The biggest problem is that the wireless charging mouse itself does not have the function of power display, so the user has no way of knowing the power state of the mouse, and often the battery is out of power, and the mouse cannot be operated. Moreover, even wireless The charging mouse can display its own battery power through a computer and other related devices, but the user must still observe the battery power at any time, and always have another spare battery ready, otherwise the mouse will not be used. As mentioned above, similar problems also occur on wireless keyboards. Accordingly, the inventors have diligently studied and cooperated with the application of the theory, and proposed a present invention which is rational in design and effective in improving the above problems.

The main purpose of the present invention is to provide a wireless charging input device for solving the problem that a user is prone to generate power during the process of using a wireless mouse or a wireless keyboard. Insufficient, unusable problem.

In order to achieve the above object, the present invention provides a wireless charging mouse device that can be charged in a mobile, comprising: a charging stand, a mouse pad and a wireless charging mouse. The charging base comprises a power supply module, a first transmitting resonant module and a first transmitting resonant coil, the power supply module is used for connecting an external power source, and the power supply module is electrically connected to the first transmitting resonant module, the first transmitting resonant mode The group is electrically connected to the first transmitting resonant coil. The mouse pad includes a first receiving resonant coil, a first receiving resonant module and a plurality of second transmitting resonant coils, wherein the first receiving resonant coil and the second transmitting resonant coil are electrically connected to the first receiving resonant module, respectively A receiving resonant coil can be electromagnetically coupled to the first transmitting resonant coil. The wireless charging mouse includes a second receiving resonant module, a second receiving resonant coil, a charging module and a battery module, the second receiving resonant coil is electrically connected to the second receiving resonant module, and the second receiving resonant coil The second receiving resonant module is electrically coupled to the second transmitting resonant coil, and the second receiving resonant module is electrically connected to the charging module, and the charging module is electrically connected to the battery module. Wherein, the first transmitting resonant module, the first receiving resonant module and the second receiving resonant module resonate at a similar frequency oscillation, and the first transmitting resonant coil is electromagnetically coupled with the first receiving resonant coil, and the second transmitting resonant When the coil is electromagnetically coupled with one of the second receiving resonant coils, the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant coil, and transmits electromagnetic energy to the second through the second transmitting resonant coil electromagnetically coupled to the second receiving resonant coil Receiving the resonant coil, the charging module can convert the electromagnetic energy received by the second receiving resonant coil into electrical energy to charge the battery module.

In order to achieve the above object, the present invention provides a wireless charging input device, a charging base including a power supply module, a first transmitting resonant module and a first transmitting resonant coil, and the power supply module is used for connecting an external power supply. The module is electrically connected to the first transmitting resonant module, and the first transmitting resonant module is electrically connected to the first transmitting resonant coil.

a mouse pad, comprising a first receiving resonant coil, a first receiving resonant module and a plurality of second transmitting resonant coils, wherein the first receiving resonant coil and each of the second transmitting resonant coils are electrically connected to the first receiving resonance Module, first receiving resonant coil can Electromagnetic coupling with the first transmit resonant coil. A wireless charging mouse includes a second receiving resonant module, a second receiving resonant coil, a charging module and a battery module, and the second receiving resonant module is electrically connected to the second receiving resonant coil and the charging module The second receiving resonant coil can be electromagnetically coupled to each of the second transmitting resonant coils, and the charging module is electrically connected to the battery module. A wireless charging keyboard includes a third receiving resonant module, a third receiving resonant coil, a keyboard charging module and a keyboard battery module, and the third receiving resonant module is electrically connected to the third receiving resonant coil and the keyboard The charging module, the third receiving resonant coil can be electromagnetically coupled with each of the second transmitting resonant coils, and the keyboard charging module is electrically connected to the keyboard battery module. Wherein, the first transmitting resonant module, the first receiving resonant module and the second receiving resonant module respectively oscillate and resonate, and the first transmitting resonant coil is electromagnetically coupled with the first receiving resonant coil, and the second receiving resonant coil is coupled thereto When a second transmitting resonant coil is electromagnetically coupled, the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant coil, and the first receiving resonant coil transmits electromagnetic energy to the second transmitting resonant coils, and transmits through the second receiving The second transmitting resonant coil electromagnetically coupled by the resonant coil transmits electromagnetic energy to the second receiving resonant coil, and the charging module can convert the electromagnetic energy received by the second receiving resonant coil into electrical energy to charge the battery module. Wherein, the first transmitting resonant module, the first receiving resonant module and the second receiving resonant module respectively oscillate and resonate, and the first transmitting resonant coil is electromagnetically coupled with the first receiving resonant coil, and the third receiving resonant coil is coupled thereto When a second transmitting resonant coil is electromagnetically coupled, the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant coil, and the first receiving resonant coil transmits electromagnetic energy to the second transmitting resonant coils, and transmits through the third receiving The second transmitting resonant coil electromagnetically coupled by the resonant coil transmits electromagnetic energy to the third receiving resonant coil, and the keyboard charging module can convert the electromagnetic energy received by the third receiving resonant coil into electrical energy, and charge the keyboard battery module .

The beneficial effects of the present invention may be that the wireless charging mouse can be achieved through the configuration of the first transmitting resonant coil, the first receiving resonant coil, the second transmitting resonant coil, and the second receiving resonant coil and the configuration of the associated resonant module. Being operated inside the mouse pad During the use process, the mouse pad is simultaneously charged for wireless charging, and the user does not need to replace the battery of the wireless charging mouse or charge the wireless charging mouse. In addition, through the arrangement of the first transmitting resonant coil, the first receiving resonant coil, the second transmitting resonant coil, the second receiving resonant coil, and the third receiving resonant coil, and the configuration of the related resonant module, the wireless charging keyboard and the wireless charging keyboard can be realized. The wireless charging mouse is wirelessly charged by the mouse pad while it is being used.

For a better understanding of the features and technical aspects of the present invention, reference should be made to the accompanying drawings.

1‧‧‧Wireless charging mouse device that can be charged on the move

2‧‧‧Wireless charging input device

10‧‧‧ charging stand

101‧‧‧Limited Department

11‧‧‧Power supply module

12‧‧‧First Launch Resonance Module

13‧‧‧First launch resonant coil

14‧‧‧First Processing Module

15‧‧‧First communication module

20‧‧‧ Mouse pad

21‧‧‧First receiving resonant coil

22‧‧‧First Receive Resonance Module

23‧‧‧Second launch resonant coil

30‧‧‧Wireless charging mouse

31‧‧‧Second receiving resonance module

32‧‧‧Second receiving resonant coil

33‧‧‧Charging module

34‧‧‧Battery module

35‧‧‧Second processing module

36‧‧‧Second communication module

37‧‧‧ Position sensing module

40‧‧‧Wireless charging keyboard

41‧‧‧ Third receiving resonance module

42‧‧‧ Third receiving resonant coil

43‧‧‧Keyboard charging module

44‧‧‧Keyboard battery module

A1‧‧‧First charging area

A2‧‧‧Second charging area

S1‧‧‧Charging signal

S2‧‧‧ stop signal

1 is a schematic diagram of a wireless charging mouse device that can be charged in motion according to the present invention.

2 is a schematic diagram of charging of a wireless charging mouse device capable of charging in motion according to the present invention.

3 is another schematic diagram of charging of a wireless charging mouse device that can be charged in motion according to the present invention.

4 is a block diagram showing a first embodiment of a wireless charging mouse device that can be charged in motion according to the present invention.

5 is a block diagram showing a second embodiment of a wireless charging mouse device that can be charged in motion according to the present invention.

6 is another block diagram of a second embodiment of a wireless charging mouse device that can be charged in motion according to the present invention.

Figure 7 is a block diagram showing a third embodiment of the wireless charging input device of the present invention.

Figure 8 is a schematic illustration of a third embodiment of a wireless charging input device of the present invention.

The following describes an embodiment of the wireless charging input device of the present invention and a wireless charging mouse device that can be charged while moving by a specific specific example, and those skilled in the art can easily understand the present invention by the contents disclosed in the present specification. Other advantages and effects. The invention may also be implemented or carried out by other different specific examples. The details of the present invention can be variously modified and changed without departing from the spirit and scope of the invention. Further, the drawings of the present invention are merely illustrative, and are not depicted in actual dimensions, that is, the actual dimensions of the related structures are not reflected, which will be described first. The following embodiments are intended to describe the present invention in further detail, but are not intended to limit the scope of the invention.

[First Embodiment]

Please refer to FIG. 1 to FIG. 4 together, which are schematic diagrams of a first embodiment of a wireless charging mouse device that can be charged in motion. As shown, the wireless charging mouse device 1 that can be charged in motion includes a charging stand 10, a mouse pad 20 and a wireless charging mouse 30. The charging base 10 includes a power supply module 11 , a first transmitting resonant module 12 and a first transmitting resonant coil 13 . The power supply module 11 is configured to connect an external power source and convert the voltage and current required for each component of the charging base 10; in practical applications, the power supply module 11 can have variable voltage, rectification, filtering, etc. according to actual needs. Related circuits and components. The first radiating resonance module 12 is electrically connected to the power supply module 11 and the first transmitting resonant coil 13 . Specifically, the first transmitting resonant module 12 can include an oscillating circuit and a driving circuit. The first transmitting resonant coil 13 can include a coil body and a capacitor.

The mouse pad 20 includes a first receiving resonant coil 21, a first receiving resonant module 22, and a plurality of second transmitting resonant coils 23. The first receiving resonant coil 21 can be electromagnetically coupled to the first transmitting resonant coil 13 , and the first receiving resonant coil 21 is electrically connected to the first receiving resonant module 22 . The plurality of second transmitting resonant coils 23 are electrically connected to the first receiving resonant module 22, respectively. The surface of the mouse pad 20 defines a first charging area A1 and a second charging area A2. The first receiving resonant coil 21 is disposed in the first charging area A1, and the second transmitting resonant coils 23 are disposed in the second. In the charging area A2. The range of the first charging area A1 and the second charging area A2, and the number of the second transmitting resonant coils 23 and the arrangement thereof can be designed according to actual needs, and are not limited to the figures.

It is worth mentioning that the first charging area A1 of the mouse pad 20 may have one a positioning structure (not shown) for fixing the charging stand 10 disposed in the first charging area A1; for example, the positioning structure can protrude from the structure of the mouse pad 20, and can limit the charging stand 10 to the first charging The range of motion of the area A1, or the positioning structure, may be a magnetic body disposed on the surface or inside of the mouse pad 20 to adsorb the magnetic body corresponding to the charging stand 10.

The wireless charging mouse 30 includes a second receiving resonant module 31, a second receiving resonant coil 32, a charging module 33, and a battery module 34. The second receiving resonance module 31 is electrically connected to the second receiving resonant coil 32 and the charging module 33. The second receiving resonant coil 32 can be electromagnetically coupled to any of the second transmitting resonant coils 23. The charging module 33 is electrically connected to the battery module 34. The charging module 33 may include circuits and components such as voltage transformation, rectification, filtering, etc., thereby converting current or voltage into a form usable by the battery module 34. Preferably, the wireless charging mouse 30 can include a power display unit (not shown) for displaying the power of the battery module 34 for viewing by the user. Specifically, the first radiating resonance module 12, the first receiving resonant module 22, and the second receiving resonant module 31 may respectively include an LC oscillating circuit, an oscillating capacitor, an inductor, and the like.

Please refer to FIG. 2 together (the sizes of the first transmitting resonant coil 13 and the first receiving resonant coil 21, the second transmitting resonant coil 23, and the second receiving resonant coil 32 are merely illustrative, and are not limited thereto) and 4. When the first transmitting resonant module 12, the first receiving resonant module 22, and the second receiving resonant module 31 oscillate at a similar frequency (for example, 6.78 MHz) to resonate, and the first transmitting resonant coil 13 and the first receiving When the resonant coil 21 is electromagnetically coupled, and the second transmitting resonant coil 23 is electromagnetically coupled to one of the second receiving resonant coils 32, the first transmitting resonant coil 13 will transmit electromagnetic energy to the first receiving resonant coil 21; the first receiving resonant coil 21 receives After the electromagnetic energy transmitted by the first transmitting resonant coil 13, the electromagnetic energy can be transmitted to the second receiving resonant coil 32 through the second transmitting resonant coil 23 electromagnetically coupled to the second receiving resonant coil 32; and the second receiving resonance After receiving the electromagnetic energy, the coil 32 converts the electrical energy into the battery module 34 according to the stored form of the battery module 34 through the charging module 33.

In other words, when the user sets the charging stand 10 to the first charge of the mouse pad 20 In the area A1, when the user uses the wireless charging mouse 30 in the second charging area A2 of the mouse pad 20, the charging stand 10 charges the battery module 34 of the wireless charging mouse 30 through the mouse pad 20. Therefore, the wireless charging mouse 30 can be moved on the mouse pad 20, and when the power of the battery module 34 is consumed, the mouse pad 20 simultaneously charges the battery module 34 of the wireless charging mouse 30; As long as the charging stand 10 is placed in the first charging area A1 of the mouse pad 20, and the wireless charging mouse 30 is used in the second charging area A2 of the mouse pad 20, the wireless charging mouse 30 will be maintained at any time. In a sufficient state, there is no problem that the wireless charging mouse has no internal battery and the mouse cannot be used, as in the conventional technology.

In particular, in a preferred embodiment, the first transmit resonant coil 13 of the charging stand 10 can be electromagnetically coupled to the second receive resonant coil 32 of the wireless charging mouse 30. Accordingly, when the wireless charging mouse 30 is disposed on the charging stand 10 (as shown in FIG. 3), and the first transmitting resonant coil 13 is electromagnetically coupled with the second receiving resonant coil 32, the first transmitting resonant coil 13 can transmit electromagnetic energy. The second receiving resonant coil 32 is connected to the charging module 33, and the charging module 33 can charge the battery module 34 according to the converted electromagnetic energy. In other words, the user can choose to charge the wireless charging mouse 30 by using the charging stand 10 or charge the wireless charging mouse 30 through the mouse pad 20 according to actual needs.

In a better implementation, the charging stand 10 can be provided with a limiting portion 101 for limiting the position of the wireless charging mouse 30 on the charging stand 10, and wireless charging provided on the charging stand 10. The second receiving resonance coil 32 of the mouse 30 can be aligned more accurately with the first transmitting resonant coil 13, thereby making the electromagnetic energy transmission efficiency of the first transmitting resonant coil 13 and the second receiving resonant coil 32 better.

In addition, it is worth mentioning that since the wireless charging mouse 30 has the battery module 34, in practical applications, the wireless charging mouse 30 is not necessarily provided on the mouse pad 20 to be used. That is, in practical applications, even if the user forgets to carry the charging stand 10 and the mouse pad 20 to go out, the wireless charging mouse 30 can still use its own battery module 34 to supply power to the internal components, and the user can still use the battery. The wireless charging Mouse 30.

[Second embodiment]

Please refer to FIG. 5, which is a block diagram of a second embodiment of a wireless charging mouse device that can be charged in motion. As shown, the wireless charging mouse device 1 that can be charged in motion includes a charging stand 10, a mouse pad 20 and a wireless charging mouse 30. The charging base 10 includes a power supply module 11, a first transmitting resonant module 12, a first transmitting resonant coil 13, a first processing module 14, and a first communication module 15. The mouse pad 20 includes a first receiving resonant coil 21, a first receiving resonant module 22, and a plurality of second transmitting resonant coils 23. The wireless charging mouse 30 includes a second receiving resonant module 31, a second receiving resonant coil 32, a charging module 33, a battery module 34, a second processing module 35, and a second communication module 36. . The components of the charging stand 10, the mouse pad 20, and the wireless charging mouse 30 have been described in detail in the foregoing embodiments, and are not described below. The first embodiment of the present invention mainly illustrates the first processing module 14 of the charging stand 10. And an actuation relationship between the first communication module 15 and the second processing module 35 and the second communication module 36 of the wireless charging mouse 30.

The first processing module 14 of the charging stand 10 is electrically connected to the power supply module 11 , the first transmitting resonant module 12 and the first communication module 15 . The first processing module 14 can control the operation of the power supply module 11 , the first transmitting resonant module 12 and the first communication module 15 , and the first processing module 14 can receive a charging signal according to the first communication module 15 . S1, and the corresponding control power supply module 11 and the first transmitting resonance module 12 are switched between a normal power supply mode and a power saving mode.

The second processing module 35 of the wireless charging mouse 30 is electrically connected to the second receiving resonant module 31, the charging module 33, the battery module 34 and the second communication module 36, and the second processing module 35 can be charged according to the charging. The module 33 receives the electromagnetic energy converted by the second receiving resonant coil 32 or the state of charge of the battery module 34, and controls the second communication module 36 to send the charging signal S1 to the first communication module 15. Specifically, the charging module 33 can include a filter rectifier circuit and a step-down IC; the battery module 34 can include a charging IC.

Specifically, when the charging stand 10 is disposed in the first charging area A1 of the mouse pad 20, the first transmitting resonant module 12 and the power supply module 11 of the charging stand 10 may be in a power saving mode, and the first transmitting resonance The coil 13 intermittently transmits electromagnetic energy to the first receiving resonance coil 21 of the mouse pad 20. At this time, if the wireless charging mouse 30 is disposed in the second charging area A2 of the mouse pad 20, the second emission resonance of one of the mouse pads 20 and the second receiving resonance coil 32 of the wireless charging mouse 30 is electromagnetically coupled. The coil 23 will intermittently transmit electromagnetic energy to the second receiving resonant coil 32 of the wireless charging mouse 30, and after the second receiving resonant coil 32 intermittently receives electromagnetic energy, the second processing module 35 will control the second communication mode. The group 36 transmits the charging signal S1 to the first communication module 15. After the first communication module 15 of the charging stand 10 receives the charging signal S1, the first processing module 14 controls the first transmitting resonant module 12 and the power supply module 11 to switch from the power saving mode to the normal power supply mode, so that the first The transmitting resonant coil 13 is indirectly converted to continuously transmit electromagnetic energy to the first receiving resonant coil 21 of the mouse pad 20, whereby the battery module 34 of the wireless charging mouse 30 located in the second charging area A2 can be continuously Charging. The second communication module 36 of the wireless charging mouse 30 may be a communication module for transmitting the wireless charging mouse 30 position information to the computer at the same time.

As described above, in brief, when the charging stand 10 is disposed on the mouse pad 20, the first transmitting resonant module 12 and the power supply module 11 may be in a power saving mode, and the first transmitting resonant coil 13 intermittently transmits electromagnetic The first receiving resonant coil 21 can be connected to the mouse pad 20; and when the first communication module 15 receives the charging signal S1 transmitted by the second communication module 36 of the wireless charging mouse 30, the first processing module 14 Correspondingly, the first transmitting resonant module 12 and the power supply module 11 are switched from the power saving mode to the normal power supply mode.

It is to be noted that, in other implementations, the power-saving mode of the first transmitting resonant module 12 and the power supply module 11 of the charging stand 10 is intermittently transmitted through the first transmitting resonant coil 13 Electromagnetic energy to the first receiving resonance coil 21 of the mouse pad 20, the power saving mode may also be that the first transmitting resonant coil 13 continuously transmits low-power electromagnetic energy to the first receiving resonant coil 21; and when the first communication mold After the group 15 receives the charging signal S1, the first processing module 14 controls the first transmitting resonant module 12 and the power supply module 11 to switch from the power saving mode to the normal power supply mode (ie, the first transmitting resonant coil 13 transmits high power electromagnetic It is possible to reach the first receiving resonance coil 21).

In another embodiment, when the charging stand 10 is disposed in the first charging area A1 of the mouse pad 20, the first transmitting resonant module 12 and the power supply module 11 may be in a normal power supply mode, and the charging stand 10 Electromagnetic energy will be continuously transmitted through the first transmitting resonant coil 13 to the first receiving resonant coil 21 of the mouse pad 20. When the first communication module 15 of the charging stand 10 does not receive the charging signal S1 transmitted by the wireless charging mouse 30 within a predetermined time, the first processing module 14 of the charging stand 10 will control the first The transmitting resonance module 12 and the power supply module 11 are switched from the normal power supply mode to the power saving mode.

In a better implementation, the wireless charging mouse 30 can further include a position sensing module 37 electrically connected to the second processing module 35 and the second communication module 36. The position sensing module 37 is used. To sense the amount of movement of the wireless charging mouse 30, a position signal is generated. After receiving the position signal, the second processing module 35 transmits the position signal to the computer device through the second communication module 36. When the second processing module 35 detects the position sensing module 37 for a predetermined time (for example, 5 to 10 minutes), the position signal is not generated, and the second processing module 35 is based on whether the battery module 34 is fully charged. Controlling the second communication module 36 to transmit a stop signal S2 to the charging stand 10; and when the first communication module 15 receives the stop signal S2, the first processing module 14 controls the first transmitting resonant module 12 and the power supply mode Group 11 switches from the normal power mode to the power save mode. Specifically, if the user does not use the wireless charging mouse 30 disposed in the second charging area A2 for a period of time, the second processing module 35 determines that the battery module 34 has sufficient power, and then the second processing module 35 The second communication module 36 will be controlled to transmit the stop signal S2 to the charging stand 10 to switch the charging stand 10 from the normal power supply mode to the power saving mode.

In addition, in other applications, the charging signal is transmitted between the first processing module 14 and the first communication module 15 of the charging stand 10 and the second processing module 35 and the second communication module 36 of the wireless charging mouse 30. S1 transmission and identification, can achieve the charge The seat 10 recognizes the efficacy of the wireless charging mouse 30, and causes the mouse pad 20 to charge only a particular wireless charging mouse 30. That is, even if the other wireless charging mouse can receive the electromagnetic energy transmitted by the mouse pad 20, the wireless charging mouse must also transmit the charging signal S1 to the first communication module 15 of the charging stand 10, otherwise the charging stand 10 Electromagnetic energy will be intermittently transmitted or low-power electromagnetic energy can be delivered to the mouse pad 20, so that the wireless charging mouse cannot be effectively charged.

Specifically, please refer to FIG. 3 and FIG. 6. As shown in the foregoing embodiment, the first transmitting resonant coil 13 of the charging stand 10 can be electromagnetically coupled with the second receiving resonant coil 32 of the wireless charging mouse 30. The wireless charging mouse 30 is disposed on the charging stand 10 and can be charged by the charging stand 10. Preferably, when the wireless charging mouse 30 is not disposed on the charging base 10, the first transmitting resonant module 12 and the power supply module 11 of the charging stand 10 may be in a power saving mode (for example, the first transmitting resonant coil 13 is intermittent). Electromagnetic energy is transmitted to the second receiving resonant coil 32 of the wireless charging mouse 30, or the first transmitting resonant coil 13 transmits low-power electromagnetic energy to the second receiving resonant coil 32); and, when the wireless charging mouse 30 is set After the second receiving resonant coil 32 receives the electromagnetic energy transmitted by the first transmitting resonant coil 13, if the battery module 34 is insufficient in power, the second processing module 35 controls the second communication module. The first processing module 14 controls the first transmitting resonant module 12 and the power supply module 11 to be switched from the power saving mode to the normal power supply mode by transmitting the charging signal S1 to the first communication module 15 of the charging base 10. In contrast, if the battery module 34 has sufficient power, the second processing module 35 does not control the second communication module 36 to transmit the charging signal S1, and the first transmitting resonant module 12 and the power supply module 11 of the charging stand 10 are Maintain power saving mode. Moreover, when the second processing module 35 detects that the battery module 34 is fully charged during the charging process of the wireless charging mouse 30, the second processing module 35 controls the second communication module 36 to transmit the stop signal S2 to the first A communication module 15 is configured to cause the first processing module 14 of the charging stand 10 to control the first transmitting resonant module 12 and the power supply module 11 to switch from the normal power supply mode to the power saving mode.

In another embodiment, the wireless charging mouse 30 is not disposed in the charging stand 10 In the upper case, the first transmitting resonant module 12 and the power supply module 11 of the charging stand 10 may be in a normal power supply mode, and when the wireless charging mouse 30 is disposed on the charging stand 10, and the second receiving resonant coil 32 is received by After the first transmitting resonant coil 13 transmits the electromagnetic energy, the second processing module 35 controls the second communication module 36 to transmit the stop signal S2 to the first communication module 15 according to the power of the battery module 34. For example, when the second processing module 35 determines that the battery module 34 has sufficient power, the second processing module 35 controls the second communication module 36 to transmit the stop signal S2 to the first communication module 15, and the first processing module The group 14 will control the first transmitting resonance module 12 and the power supply module 11 to switch from the normal power supply mode to the power saving mode.

Preferably, the charging stand 10 can have a mode display unit (not shown) for displaying the mode in which the first transmitting resonant module 12 and the power supply module 11 of the charging stand 10 are currently located; for example, a mode display unit It may be a warning light. When the first transmitting resonant module 12 and the power supply module 11 are in the power saving mode (the first transmitting resonant coil 13 intermittently transmits electromagnetic energy or transmits low-power electromagnetic energy to the first receiving resonant coil 21) When the first communication module 15 receives the charging signal S1, the first transmitting resonant module 12 and the power supply module 11 are in the normal power supply mode, the warning light may be a flashing green light. When the first communication module 15 receives the stop signal S2, the warning light may be in a red light state. Of course, the mode display unit may be changed according to requirements, and is not limited to the form of a warning light, for example, may also be in the form of a display screen.

[Third embodiment]

Please refer to FIG. 7 and FIG. 8 together, which are schematic diagrams of the wireless charging input device of the present invention. As shown in FIG. 7, the wireless charging input device 2 includes a charging stand 10, a mouse pad 20, a wireless charging mouse 30, and a wireless charging keyboard 40. The charging base 10 includes a power supply module 11, a first transmitting resonant module 12 and a first transmitting resonant coil 13; the mouse pad 20 includes a first receiving resonant coil 21, a first receiving resonant module 22 and a number a second transmitting resonant coil 23; the wireless charging mouse 30 includes a second receiving resonant module 31, a second receiving resonant coil 32, and a charging module 33 and a battery module 34. The related components of the charging stand 10, the mouse pad 20, and the wireless charging mouse 30 and their mutual interlocking relationship are the same as those of the foregoing embodiment, and details are not described herein again. The wireless charging keyboard 40 includes a third receiving resonant module 41, a third receiving resonant coil 42, a keyboard charging module 43, and a keyboard battery module 44. The third receiving resonant module 41 is electrically connected to the third receiving resonance. The coil 42 and the keyboard charging module 43 , the third receiving resonant coil 42 can be electromagnetically coupled to each of the second transmitting resonant coils 23 , and the keyboard charging module is electrically connected to the keyboard battery module 44 .

When the first transmitting resonant module 12, the first receiving resonant module 22, and the second receiving resonant module 31 respectively oscillate and resonate, and the first transmitting resonant coil 13 is electromagnetically coupled with the first receiving resonant coil 21, the third receiving resonance When the coil 42 is electromagnetically coupled with one of the second transmitting resonant coils 23, the first transmitting resonant coil 13 transmits electromagnetic energy to the first receiving resonant coil 21, and the first receiving resonant coil 21 transmits electromagnetic energy to the second transmitting resonant elements. The coil 23 transmits electromagnetic energy to the third receiving resonant coil 42 through the second transmitting resonant coil 23 electromagnetically coupled to the third receiving resonant coil 42. The keyboard charging module 43 can convert the third receiving resonant coil 42 to receive The electromagnetic energy is electrical energy, and the keyboard battery module 44 is charged.

Specifically, please refer to FIG. 1 and FIG. 8 . The surface of the mouse pad 20 defines a first charging area A1 and a second charging area A2. The first receiving resonant coil 21 is disposed in the first charging area A1. The second transmitting resonant coils 23 are disposed in the second charging area A2. When the charging stand 10 is disposed on the first charging area A1 of the mouse pad 20, and the wireless charging keyboard 40 is disposed on the second charging area A2 of the mouse pad 20, the charging stand 10 can pass the mouse pad 20 to the keyboard. The battery module 44 is wirelessly charged. Of course, in practical applications, the size of the mouse pad 20 and its appearance may be designed according to requirements, and are not limited to those shown in the figures of the embodiment.

In a practical application, the wireless charging keyboard 40 can further include a keyboard control unit (not shown) and at least one warning unit (not shown); the keyboard control unit can be used to detect the power of the keyboard battery module 44, and according to When the power of the keyboard battery module 44 is lower than a predetermined value, the control alert unit sends a relevant warning signal; specifically, the warning The unit may be a warning light disposed on the wireless charging keyboard 40 or a buzzer disposed in the wireless charging keyboard 40, so that when the keyboard control unit determines that the battery capacity of the keyboard battery module 44 is lower than the predetermined value, it will be controlled. The warning light flashes or illuminates and the buzzer sounds to alert the user that the wireless charging keyboard 40 needs to be charged. Of course, in a better implementation, the wireless charging keyboard 40 may be provided with a power display unit for displaying the power of the keyboard battery module 44.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, equivalent technical changes made by using the present specification and the contents of the drawings are included in the protection scope of the present invention. .

1‧‧‧Wireless charging mouse device that can be charged on the move

10‧‧‧ charging stand

101‧‧‧Limited Department

13‧‧‧First launch resonant coil

20‧‧‧ Mouse pad

21‧‧‧First receiving resonant coil

23‧‧‧Second launch resonant coil

30‧‧‧Wireless charging mouse

32‧‧‧Second receiving resonant coil

A1‧‧‧First charging area

A2‧‧‧Second charging area

Claims (14)

A wireless charging mouse device capable of charging on the mobile, comprising: a charging base, comprising a power supply module, a first transmitting resonant module and a first transmitting resonant coil, wherein the power supply module is used for connecting the external a power supply module, the power supply module is electrically connected to the first emission resonance module, the first emission resonance module is electrically connected to the first emission resonance coil; a mouse pad includes a first receiving resonance coil, and a first a receiving resonant module and a plurality of second transmitting resonant coils, wherein the first receiving resonant coil and each of the second transmitting resonant coils are electrically connected to the first receiving resonant module, respectively, the first receiving resonant coil capable of a transmitting resonant coil is electromagnetically coupled; a wireless charging mouse comprising a second receiving resonant module, a second receiving resonant coil, a charging module and a battery module, wherein the second receiving resonant module is electrically connected The second receiving resonant coil and the charging module, the second receiving resonant coil can be electromagnetically coupled to any of the second transmitting resonant coils, and the charging module is electrically connected to the battery module; The first receiving resonant module, the first receiving resonant module and the second receiving resonant module respectively oscillate and resonate, and the first transmitting resonant coil is electromagnetically coupled with the first receiving resonant coil, and the second receiving resonant When the coil is electromagnetically coupled to one of the second transmitting resonant coils, the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant coil, and the first receiving resonant coil transmits electromagnetic energy to the second transmitting resonant coils Transmitting electromagnetic energy to the second receiving resonant coil through the second transmitting resonant coil electromagnetically coupled to the second receiving resonant coil, wherein the charging module can convert the electromagnetic energy received by the second receiving resonant coil to Charging the battery module; wherein the surface of the mouse pad defines a first charging area and a second charging a first receiving resonant coil is disposed in the first charging area, and the second transmitting resonant coil is disposed in the second charging area; when the charging stand is disposed in the first charging area, and the wireless charging When the mouse is in the second charging area, the charging stand can charge the battery module of the wireless charging mouse through the mouse pad. The wireless charging mouse device capable of charging in a mobile phone according to claim 1, wherein the mouse pad has a positioning structure for fixing the charging stand disposed in the first charging area. The wireless charging mouse device capable of charging in a mobile phone according to claim 1, wherein the first transmitting resonant coil is electromagnetically coupled to the second receiving resonant coil; when the wireless charging mouse is disposed on the charging stand, The first transmitting resonant module and the second receiving resonant module respectively oscillate and resonate, and when the first transmitting resonant coil is electromagnetically coupled with the second receiving resonant coil, the first transmitting resonant coil transmits electromagnetic energy to the first The receiving coil is received by the charging module, and the charging module converts the electromagnetic energy into electrical energy to charge the battery module. The wireless charging mouse device capable of charging in a mobile phone according to claim 1, wherein the charging stand has a limiting portion for fixing the wireless charging mouse disposed on the charging stand. A wireless charging mouse device capable of charging on the mobile, comprising: a charging base, comprising a power supply module, a first transmitting resonant module and a first transmitting resonant coil, wherein the power supply module is used for connecting the external a power supply module, the power supply module is electrically connected to the first emission resonance module, the first emission resonance module is electrically connected to the first emission resonance coil; a mouse pad includes a first receiving resonance coil, and a first a receiving resonant module and a plurality of second transmitting resonant coils, wherein the first receiving resonant coil and each of the second transmitting resonant coils are electrically connected to the first receiving resonant module, respectively, the first receiving resonant coil capable of a transmitting resonant coil is electromagnetically coupled; a wireless charging mouse, comprising a second receiving resonant module, a second receiving resonant coil, a charging module and a battery module, wherein the second receiving resonant module is electrically connected to the second receiving resonant coil and The charging module can be electromagnetically coupled to any of the second transmitting resonant coils, and the charging module is electrically connected to the battery module; wherein, when the charging stand receives the wireless mouse When the charging signal is received, the first transmitting resonant module, the first receiving resonant module, and the second receiving resonant module respectively oscillate and resonate, and the first transmitting resonant coil is electromagnetically coupled to the first receiving resonant coil. The second receiving resonant coil is electromagnetically coupled to one of the second transmitting resonant coils, and the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant coil, and the first receiving resonant coil transmits electromagnetic energy to the first receiving resonant coil Transmitting a resonant coil, and transmitting electromagnetic energy to the second receiving resonant coil through the second transmitting resonant coil electromagnetically coupled to the second receiving resonant coil, according to the charging The group can convert the electromagnetic energy received by the second receiving resonant coil into electrical energy to charge the battery module; wherein the surface of the mouse pad defines a first charging area and a second charging area, the first The first receiving resonant coil is disposed in the charging area, and the second charging resonant coil is disposed in the second charging area; when the charging seat is disposed in the first charging area, and the wireless charging mouse is in the first When the charging area is in the charging area, the charging stand can charge the battery module of the wireless charging mouse through the mouse pad. The wireless charging mouse device capable of charging in a mobile phone according to claim 5, wherein the charging stand further includes a first communication module and a first processing module, and the wireless charging mouse further includes a second processing The first processing module is electrically connected to the first transmitting resonant module, the power supply module and the first communication module, and the second processing module is electrically connected to the first a receiving resonance module, the charging module, the battery module and the second communication module; When the first communication module receives the charging signal transmitted by the second communication module, the first processing module controls the first transmitting resonant module and the power supply module to switch from a power saving mode to a normal power supply. mode. The wireless charging mouse device capable of charging in a mobile phone according to claim 6, wherein the first transmitting resonant module and the power supply module are in the power saving mode, the first transmitting resonant coil intermittently transmits electromagnetic energy Up to the first receiving resonant coil; when the second receiving resonant coil receives electromagnetic energy intermittently transmitted by the second transmitting resonant coil, the second processing module controls the second communication module to transmit the charging signal to the a first communication module, wherein the first processing module switches the first transmitting resonant module and the power supply module to the normal power supply mode, and the charging base continuously maintains the battery mode of the wireless charging mouse The group is charged. The wireless charging mouse device capable of charging in a mobile phone according to claim 7, wherein when the second receiving resonance coil receives electromagnetic energy intermittently transmitted by the second transmitting resonant coil, and the battery module has insufficient power The second processing module controls the second communication module to transmit the charging signal to the first communication module. The wireless charging mouse device capable of charging in a mobile phone according to claim 6, wherein the first transmitting resonant module and the power supply module are in the power saving mode, the first transmitting resonant coil transmits low-power electromagnetic energy Up to the first receiving resonant coil; when the second receiving resonant coil receives the low-power electromagnetic energy transmitted by the second transmitting resonant coil, the second processing module controls the second communication module to transmit the charging signal to the first a communication module, wherein the first processing module switches the first transmitting resonant module and the power supply module to the normal power supply mode, and the first transmitting resonant coil transmits high-power electromagnetic energy to the first receiving Resonance coil. The wireless charging mouse device capable of charging in a mobile phone according to claim 9, wherein when the second receiving resonance coil receives the low-power electromagnetic energy transmitted by the second transmitting resonant coil, and the battery module has insufficient power The second processing module controls the second communication module to transmit the charging signal to the first communication module. The wireless charging mouse device capable of charging in a mobile phone according to claim 6, wherein the wireless charging mouse further comprises a position sensing module electrically connected to the second processing module and the second communication module The position sensing module can generate a position signal according to the movement amount of the wireless charging mouse, and the second processing module can receive the position signal and transmit the position signal through the second communication module. When the second processing module does not receive the location signal for a predetermined period of time and the battery module is fully charged, the second processing module controls the second communication module to transmit a stop signal to The first communication module is configured to cause the first processing module to switch the first transmitting resonant module and the power supply module to the power saving mode. The wireless charging mouse device capable of charging in a mobile phone according to claim 6, wherein the first transmitting resonant module and the power supply module are in the normal power supply mode, and the processing module is not in a predetermined time. When the first communication module receives the charging signal, the first processing module controls the first transmitting resonant module and the power supply module to switch from the normal power supply mode to the power saving mode. A wireless charging input device includes: a charging base including a power supply module, a first transmitting resonant module and a first transmitting resonant coil, wherein the power supply module is configured to connect an external power source, and the power supply module is electrically The first transmitting resonant module is electrically connected to the first transmitting resonant coil; the mouse pad includes a first receiving resonant coil, a first receiving resonant module and a number a second transmitting resonant coil, the first receiving resonant coil and each of the second transmitting resonant coils are electrically connected to the first receiving resonant module, and the first receiving resonant coil is electromagnetically coupled to the first transmitting resonant coil; a wireless charging mouse, comprising a second receiving resonant module, a second receiving resonant coil, a charging module and a battery module, wherein the second receiving resonant module is electrically connected to the second receiving resonant coil and The charging module, the second The receiving resonant coil can be electromagnetically coupled to any of the second transmitting resonant coils. The charging module is electrically connected to the battery module. The wireless charging keyboard includes a third receiving resonant module and a third receiving resonant coil. a keyboard charging module and a keyboard battery module, the third receiving resonant module is electrically connected to the third receiving resonant coil and the keyboard charging module, and the third receiving resonant coil can resonate with any of the second transmitting An electromagnetic coupling of the coil, the keyboard charging module is electrically connected to the keyboard battery module; wherein, the first transmitting resonant module, the first receiving resonant module and the second receiving resonant module respectively oscillate and resonate, and The first transmitting resonant coil is electromagnetically coupled to the first receiving resonant coil. When the second receiving resonant coil is electromagnetically coupled to one of the second transmitting resonant coils, the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant a coil, the first receiving resonant coil transmits electromagnetic energy to the second transmitting resonant coils, and transmits the second electromagnetically coupled to the second receiving resonant coil The resonant coil transmits electromagnetic energy to the second receiving resonant coil, and the charging module can convert the electromagnetic energy received by the second receiving resonant coil into electrical energy to charge the battery module; wherein, when the first a transmitting resonant module, the first receiving resonant module and the second receiving resonant module respectively oscillate and resonate, and the first transmitting resonant coil is electromagnetically coupled with the first receiving resonant coil, the third receiving resonant coil and When the second transmitting resonant coil is electromagnetically coupled, the first transmitting resonant coil transmits electromagnetic energy to the first receiving resonant coil, and the first receiving resonant coil transmits electromagnetic energy to the second transmitting resonant coils, and Transmitting electromagnetic energy to the third receiving resonant coil through the second transmitting resonant coil electromagnetically coupled to the third receiving resonant coil, wherein the keyboard charging module can convert the electromagnetic energy received by the third receiving resonant coil to Power, and the keyboard battery module is charged. The wireless charging input device of claim 13, wherein the table of the mouse pad The surface defines a first charging area and a second charging area. The first charging area is provided with the first receiving resonant coil, and the second charging area is provided with the second transmitting resonant coils; when the charging stand is set In the first charging area, and the wireless charging mouse and the wireless charging keyboard are in the second charging area, the charging stand can pass the mouse pad to the battery module of the wireless charging mouse and the The keyboard battery module of the wireless charging keyboard is charged.