CN215642634U - Charging mouse - Google Patents

Abstract

The utility model discloses a charging mouse, which comprises: the mouse body is used for carrying out input operation on the electronic equipment; the first wireless receiver comprises a first battery and a first communication unit, the first wireless receiver is plugged in the electronic equipment so that the first battery receives the charging of the electronic equipment, and meanwhile, the first communication unit wirelessly connects the electronic equipment with the mouse body; the second wireless receiver is installed in the shell of the mouse body and comprises a second battery and a second communication unit, the second battery is electrically connected with the mouse body to supply power to the mouse body, and the first wireless receiver and the second wireless receiver can be exchanged for use. The volume of the charging mouse cannot be greatly influenced by the volume of the battery, so that the charging mouse can be conveniently charged and cannot influence the use of a user.

Description

Charging mouse

Technical Field

The utility model relates to the field of hardware equipment, in particular to a charging mouse.

Background

Electronic devices such as computers can perform input operations using a mouse, and in many cases, users perform input operations using a wireless mouse. The wireless mouse is internally provided with a battery which supplies power to the wireless mouse so as to enable the wireless mouse to be in wireless communication with the electronic equipment. However, the battery used in the wireless mouse is large, so that the design of the wireless mouse also needs to give way to the large battery. In addition, after the electric quantity of the battery used by the wireless mouse is consumed, the battery needs to be replaced by a user; alternatively, if the battery is a rechargeable battery that can be charged for use, the battery needs to be taken out for charging operation, and the battery needs to be charged for use after charging (usually for a long time), which is clearly harmful to the use of the wireless mouse by the user.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide a charging mouse, the volume of which is not greatly influenced by the volume of a battery, the charging mouse can be conveniently charged, and the use of a user is not influenced.

In order to solve the technical problem, the embodiment of the application adopts the following technical scheme: a charging mouse, comprising:

the mouse body is used for carrying out input operation on the electronic equipment;

the first wireless receiver comprises a first battery and a first communication unit, the first wireless receiver is plugged in the electronic equipment so that the first battery receives the charging of the electronic equipment, and meanwhile, the first communication unit wirelessly connects the electronic equipment with the mouse body;

the second wireless receiver is installed in the shell of the mouse body and comprises a second battery and a second communication unit, the second battery is electrically connected with the mouse body to supply power to the mouse body, and the first wireless receiver and the second wireless receiver can be exchanged for use.

Optionally, a signal component is installed inside the housing of the mouse body, and the signal component is wirelessly connected with the first communication unit, so that the mouse body sends input data to the electronic device through the first communication unit.

Optionally, a power receiver is installed in the mouse sample body, and the power receiver is connected with the second battery to receive the input power of the second battery and supply power to the mouse body.

Optionally, the first wireless receiver has a plurality of pins, and when the first wireless receiver is plugged on the electronic device, a first part of the plurality of pins is electrically connected with the electronic device.

Optionally, the second wireless receiver has a plurality of pins, and when the second wireless receiver is installed in the housing of the mouse body, a second part of the plurality of pins is electrically connected to the mouse body, so that the second battery supplies power to the mouse body through the second part of the pins.

Optionally, the first wireless receiver has an interface of a first type, and the first wireless receiver is plugged into the electronic device through the interface of the first type;

the second wireless receiver is also provided with the interface of the first type, and the second wireless receiver is electrically connected with the mouse body through the interface of the first type, wherein the interface of the first type comprises a USB interface.

Optionally, a first identifier is disposed on a housing of the first wireless receiver, and a second identifier is disposed on a housing of the second wireless receiver.

Optionally, when the first wireless receiver is plugged into the electronic device, the first electric quantity information of the first battery is sent to the electronic device to display the first electric quantity information.

Optionally, when the second wireless receiver is wirelessly connected to the electronic device, the second power information of the second battery is sent to the electronic device to display the second power information.

Optionally, a housing of the mouse body is provided with a placement groove, the placement groove extends into the housing, and the placement groove is used for placing the first wireless receiver and/or the second wireless receiver.

The embodiment of the utility model has the beneficial effects that: the charging mouse can save limited internal space, and is convenient for a user to charge without influencing the use of the charging mouse by the user.

Drawings

Fig. 1 is a schematic diagram illustrating a connection relationship between a charging mouse and an electronic device according to an embodiment of the present invention;

fig. 2 is a block diagram of a first wireless receiver according to an embodiment of the utility model;

FIG. 3 is a block diagram of a second wireless receiver according to an embodiment of the utility model;

fig. 4 is a perspective view of a first wireless receiver according to an embodiment of the utility model;

fig. 5 is a schematic diagram of a second wireless receiver installed on a mouse body according to an embodiment of the utility model.

Description of the reference numerals

1-mouse body; 2-a first wireless receiver; 3-a second wireless receiver; 4-an electronic device; 5-a first battery; 6-a first communication unit; 7-a second battery; 8-a second communication unit; 9-USB interface.

Detailed Description

Various aspects and features of the present application are described herein with reference to the drawings.

It will be understood that various modifications may be made to the embodiments of the present application. Accordingly, the foregoing description should not be construed as limiting, but merely as exemplifications of embodiments. Those skilled in the art will envision other modifications within the scope and spirit of the application.

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and, together with a general description of the application given above and the detailed description of the embodiments given below, serve to explain the principles of the application.

These and other characteristics of the present application will become apparent from the following description of preferred forms of embodiment, given as non-limiting examples, with reference to the attached drawings.

It should also be understood that, although the present application has been described with reference to some specific examples, a person of skill in the art shall certainly be able to achieve many other equivalent forms of application, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present application will become more apparent in view of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present application are described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely exemplary of the application, which can be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the application of unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present application in virtually any appropriately detailed structure.

The specification may use the phrases "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the application.

Fig. 1 is a schematic diagram illustrating a connection relationship between a charging mouse and an electronic device 4 according to an embodiment of the present invention. A charging mouse according to an embodiment of the present invention is applied to an electronic device 4 such as a computer, and is used as an input device, as shown in fig. 1 to 5, the charging mouse includes:

the mouse body 1 is used for performing input operation on the electronic equipment 4.

The mouse body 1 is a main part of the whole charging mouse, can be wirelessly connected with the electronic device 4, senses an operation signal of a user, converts the operation signal into a corresponding input instruction, and sends the input instruction to the electronic device 4 so as to operate the electronic device 4. For example, the mouse body 1 has a left key and a right key, and a user can issue an input instruction to the electronic device 4 by using the left key and the right key, so as to control the electronic device 4.

The first wireless receiver 2 comprises a first battery 5 and a first communication unit 6, the first wireless receiver 2 is plugged in the electronic device 4, so that the first battery 5 receives charging of the electronic device 4, and meanwhile, the first communication unit 6 wirelessly connects the electronic device 4 with the mouse body 1.

Specifically, the first battery 5 and the first communication unit 6 are both provided inside the first wireless receiver 2. The first battery 5 in this embodiment is a rechargeable battery, and can be charged. The first wireless receiver 2 has the capability of receiving wireless signals, can be plugged into an interface of the electronic device 4, and wirelessly connects the electronic device 4 and the mouse body 1 through the first communication unit 6 of the first wireless receiver, for example, wirelessly connects through a bluetooth protocol, so as to perform interaction. This includes the first communication unit 6 receiving an input command wirelessly transmitted from the mouse body 1. When the first wireless receiver 2 is plugged into the electronic device 4, the electronic device 4 can charge the first battery 5 of the first wireless receiver 2 through the plugged interface, and fully charge the first battery 5 within a certain time.

When the user uses the charging mouse, the first wireless receiver 2 is inserted into the electronic device 4, meanwhile, the electronic device 4 can charge the first battery 5, and therefore the working mode can effectively save charging time and cannot influence the use of the charging mouse by the user.

The second wireless receiver 3 is installed in the shell of the mouse body 1, the second wireless receiver 3 comprises a second battery 7 and a second communication unit 8, the second battery 7 is electrically connected with the mouse body 1 to supply power to the mouse body 1, and the first wireless receiver 2 and the second wireless receiver 3 can be exchanged with each other for use.

Specifically, the second wireless receiver 3 is installed in the shell of the mouse body 1, and the second battery 7 is electrically connected with the mouse body 1, so that the second battery 7 can supply power to the charging mouse body 1, and the charging mouse can normally work. The second battery 7 may be a rechargeable battery. Since the volume of the second battery 7 can be previously configured according to the user's needs, the volume can be reduced as much as possible while the second wireless receiver 3 can be charged, so that a limited internal space can be saved for the charging mouse.

In addition, the first wireless receiver 2 and the second wireless receiver 3 can be used interchangeably. In the process of using the charging mouse, when the electric quantity of the second battery 7 is exhausted, the user can take the second wireless receiver 3 out of the mouse body 1 and plug the second wireless receiver in the electronic device 4, so that the electronic device 4 can charge the second battery 7, and meanwhile, the second communication unit 8 can be wirelessly connected with the mouse body 1, so that the mouse body 1 and the electronic device 4 are wirelessly connected.

The first wireless receiver 2 originally plugged into the electronic device 4 can be reinstalled in the housing of the mouse body 1, and at this time, the first battery 5 is always in a charged state, so that the first battery 5 can supply power to the mouse body 1. Therefore, the user can always keep the power consumption requirement of the mouse body 1, and the situation that the user cannot use the mouse because the battery is exhausted and the battery needs to be taken out again for charging is avoided.

In addition, in one embodiment, the hardware and software settings of the first wireless receiver 2 and the second wireless receiver 3 may be the same or similar, so that the hardware and software mismatch does not occur when the two are exchanged for use, and the manufacturer can effectively improve the production efficiency and reduce the production cost when generating the charging mouse.

In an embodiment of the present application, a signal component is installed inside a housing of the mouse body 1, and the signal component is wirelessly connected to the first communication unit 6, so that the mouse body 1 sends input data to the electronic device 4 through the first communication unit 6.

The signal component is installed inside the housing of the mouse body 1 and can be wirelessly connected with the first communication unit 6 of the first wireless receiver 2, and the first wireless receiver 2 is plugged on the electronic device 4, so that the mouse body 1 can perform wireless signal interaction with the electronic device 4 through the first wireless receiver 2. For example, the mouse body 1 may wirelessly transmit an input instruction to the first communication unit 6 through the signal component, and the first communication unit 6 transmits the input instruction to the electronic device 4.

In another embodiment, the first communication unit 6 in the first wireless receiver 2 can establish wireless connection with the second communication unit 8 in the second wireless receiver 3 without providing a communication component in the mouse body 1. So that the interaction of the mouse body 1 and the electronic device 4 can be realized through the wireless communication of the first communication unit 6 in the first wireless receiver 2 and the second communication unit 8 in the second wireless receiver 3. Therefore, the inside of the mouse body 1 is not required to be provided with a signal component, so that the limited space can be further saved for the inside of the shell of the mouse body 1, the size of the mouse body 1 can be reduced, or other important components and the like can be additionally arranged in the shell.

In an embodiment of the present application, a power receiver is installed in the mouse body 1, and the power receiver is connected to the second battery 7 to receive the input power of the second battery 7 and supply power to the mouse body 1.

In particular, the power receiver may be adapted to the second battery 7, including to discharge parameters of the second battery 7, such as voltage, current of the discharge, etc. Of course, in the case that the first battery 5 is identical to the second battery 7, the power receiver may also be adapted to the discharge parameters of the first battery 5. Thus, the second battery 7 can smoothly supply power to the mouse body 1 through the power receiver.

In one embodiment of the present application, as shown in fig. 2 and 3, the first wireless receiver 2 has a plurality of pins, and when the first wireless receiver 2 is plugged on the electronic device 4, a first part of the plurality of pins is electrically connected to the electronic device 4.

Specifically, the plurality of pins on the first wireless receiver 2 have functions of signal transmission and power transmission, the first wireless receiver 2 is connected to the electronic device 4 and the mouse body 1, the use modes of the pins are different, and all the pins can work or part of the pins can work. When the first wireless receiver 2 is plugged on the electronic device 4, a first part of the plurality of pins of the first wireless receiver 2 is electrically connected with the electronic device 4. For example, the pin of the first wireless receiver 2 includes: VCC pin, D-pin, D + pin, GND pin. When the first wireless receiver 2 is plugged on the electronic device 4, the first part of pins comprises: VCC pin, D-pin, D + pin and GND pin. Wherein the VCC pin and the GND pin are pins for charging, i.e. the electronic device 4 may charge the first battery 5 in the first wireless receiver 2 via the D-pin and the D + pin. The D-pin and the D + pin are pins for wireless connection with the mouse body 1.

In an embodiment of the present application, as shown in fig. 2 and 3, the second wireless receiver 3 has a plurality of pins, and when the second wireless receiver 3 is installed in the housing of the mouse body 1, a second part of the plurality of pins is electrically connected to the mouse body 1, so that the second battery 7 supplies power to the mouse body 1 through the second part of the pins.

Specifically, similar to the first wireless receiver 2, the plurality of pins on the second wireless receiver 3 have functions of signal transmission and power transmission, and when the second wireless receiver 3 is installed in the housing of the mouse body 1, a second part of the plurality of pins is electrically connected to the mouse body 1, that is, the second part of the pins can be used. The above embodiments are described in detail. For example, the pins of the second wireless receiver 3 include: VCC pin, D-pin, D + pin, GND pin. When the second wireless receiver 3 is mounted in the housing of the mouse body 1, the second part pins include: a VCC pin and a GND pin. The VCC pin and the GND pin are used to supply the mouse body 1 with power from the second battery 7. The D-pin and the D + pin are not electrically connected with the mouse body 1 and can be in an idle state. Of course, if the second wireless receiver 3 is exchanged with the first wireless receiver 2, the usage manner of the respective pins of the two will be changed accordingly, so as to be suitable for the current usage scenario.

In one embodiment of the present application, as shown in fig. 4, the first wireless receiver 2 has a first type of interface thereon, and the first wireless receiver 2 is plugged into the electronic device 4 through the first type of interface;

the second wireless receiver 3 is also provided with the first type of interface, and the second wireless receiver 3 is electrically connected with the mouse body 1 through the first type of interface, wherein the first type of interface comprises a USB interface 9.

Specifically, the first type of interface is adapted to the electronic device 4, for example, the first type of interface is a USB interface 9, and the electronic device 4 has a corresponding USB socket, and the USB interface 9 can be plugged into the USB socket, so that the first wireless receiver 2 can be electrically connected to the electronic device 4. Furthermore, the pin of the first wireless receiver 2 may be a pin on the USB interface 9. The second wireless receiver 3 may also be electrically connected to the mouse body 1 through a first type of interface, such as being plugged into the mouse body 1 through the USB interface 9, and the pin of the second wireless receiver 3 may be a pin on the USB interface 9, so as to expand the application range.

In one embodiment of the present application, a first identifier is disposed on the housing of the first wireless receiver 2, and a second identifier is disposed on the housing of the second wireless receiver 3.

The first identifier may be an identifier in various forms such as a letter, a character, a picture, etc. and is disposed on the first wireless receiver 2, so that the user can easily know the identity of the first wireless receiver 2 to distinguish from the second wireless receiver 3. Similarly, the second identifier on the housing of the second wireless receiver 3 may make it easy for the user to know the identity of the second wireless receiver 3 and thus distinguish it from the first wireless receiver 2. It is also convenient for the user to perform operations, such as a swapping operation, on the first wireless receiver 2 and the second wireless receiver 3. Of course, the first identifier is different from the second identifier so as to show a difference, and as shown in fig. 1 and 5, the first identifier may be a caption "a" printed on the housing of the first wireless receiver 2, and the second identifier may be a caption "B" printed on the housing of the second wireless receiver 3, which is convenient for the user to recognize.

In an embodiment of the present application, when the first wireless receiver 2 is plugged into the electronic device 4, the first battery 5 sends the first power information to the electronic device 4 to display the first power information.

The first power information may represent the current power and/or the historical power information of the first battery 5, and when the first wireless receiver 2 is plugged into the electronic device 4, the first wireless receiver 2 may send the first power information of the first battery 5 to the electronic device 4, so that the electronic device 4 displays the first power information on a display screen thereof, thereby giving a prompt to a user. The user can decide whether to exchange the first wireless receiver 2 and the second wireless receiver 3 after seeing the first power information. For example, the electric quantity of the first battery 5 is originally low, after the electronic device 4 is charged, the first electric quantity information indicates that the current electric quantity of the first battery 5 meets the power consumption requirement of the mouse body 1, and then the user can exchange the first wireless receiver 2 and the second wireless receiver 3, so that the power consumption requirement of the mouse body 1 can be met and the second battery 7 can be charged.

In one embodiment of the present application, when the second wireless receiver 3 is wirelessly connected to the electronic device 4, the second power information of the second battery 7 is transmitted to the electronic device 4 to display the second power information.

The second electric quantity information may represent the current electric quantity and/or the historical electric consumption information of the second battery 7, the mouse body 1 or the second wireless receiver 3 may transmit the second electric quantity information to the electronic device 4, and the specific transmission manner may be that the second electric quantity information is forwarded to the electronic device 4 through the first communication unit 6 inserted in the first wireless receiver 2 of the electronic device 4, so that the electronic device 4 displays the second electric quantity information on a display screen thereof, and a user may view the second electric quantity information, thereby facilitating the user to adjust a use manner of a subsequent charging mouse.

In an embodiment of the present application, a housing of the mouse body 1 is provided with a placement groove, the placement groove extends into the housing, and the placement groove is used for placing the first wireless receiver 2 and/or the second wireless receiver 3.

The notch of the specific placing groove can be arranged on the bottom surface of the mouse body 1, the groove body of the placing groove extends into the shell of the mouse body 1, and the appearance of the placing groove is matched with the first wireless receiver 2 and/or the second wireless receiver 3. On one hand, the placement groove is a single groove, and only the first wireless receiver 2 or the second wireless receiver 3 is accommodated, and when the first wireless receiver 2 or the second wireless receiver 3 is placed in the placement groove, the first wireless receiver 2 or the second wireless receiver 3 can be connected with the mouse body 1. On the other hand, the placement groove includes a first groove and a second groove, the first groove and the second groove have the same shape, but the first groove has a connection member that can be electrically connected to the mouse body 1 when the first wireless receiver 2 or the second wireless receiver 3 is placed in the first groove. And the second slot may not be provided with a connecting part and is only used for installing the first wireless receiver 2 or the second wireless receiver 3, thereby facilitating the user to carry the charging mouse. If the first wireless receiver 2 is installed in the second slot, the second wireless receiver 3 is installed in the first slot and connected with the mouse body 1. The user can conveniently carry the whole charging mouse, and the first wireless receiver 2 and/or the second wireless receiver 3 are not easy to lose.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.

Claims (10)

1. A charging mouse, comprising:

the mouse body is used for carrying out input operation on the electronic equipment;

the first wireless receiver comprises a first battery and a first communication unit, the first wireless receiver is plugged in the electronic equipment so that the first battery receives the charging of the electronic equipment, and meanwhile, the first communication unit wirelessly connects the electronic equipment with the mouse body;

the second wireless receiver is installed in the shell of the mouse body and comprises a second battery and a second communication unit, the second battery is electrically connected with the mouse body to supply power to the mouse body, and the first wireless receiver and the second wireless receiver can be exchanged for use.

2. The charging mouse of claim 1, wherein a signal component is installed inside the housing of the mouse body, and the signal component is wirelessly connected to the first communication unit, so that the mouse body transmits input data to the electronic device through the first communication unit.

3. The charging mouse of claim 1, wherein a power receiver is installed in the mouse body, and the power receiver is connected to the second battery to receive the input power of the second battery and supply power to the mouse body.

4. The charging mouse of claim 1, wherein the first wireless receiver has a plurality of pins, and a first portion of the plurality of pins are electrically connected to the electronic device when the first wireless receiver is plugged into the electronic device.

5. The charging mouse of claim 1, wherein the second wireless receiver has a plurality of pins, and when the second wireless receiver is installed in the housing of the mouse body, a second portion of the plurality of pins is electrically connected to the mouse body, such that the second battery supplies power to the mouse body through the second portion of the pins.

6. The charging mouse of claim 1, wherein the first wireless receiver has a first type of interface thereon, and the first wireless receiver is plugged into the electronic device through the first type of interface;

the second wireless receiver is also provided with the interface of the first type, and the second wireless receiver is electrically connected with the mouse body through the interface of the first type, wherein the interface of the first type comprises a USB interface.

7. The charging mouse of claim 1, wherein a first identifier is disposed on the housing of the first wireless receiver and a second identifier is disposed on the housing of the second wireless receiver.

8. The charging mouse of claim 1, wherein when the first wireless receiver is plugged into the electronic device, the first wireless receiver sends first power information of the first battery to the electronic device to display the first power information.

9. The charging mouse of claim 1, wherein when the second wireless receiver is wirelessly connected to the electronic device, second power information of the second battery is transmitted to the electronic device to display the second power information.

10. The charging mouse of claim 1, wherein a housing of the mouse body is provided with a placement groove, the placement groove extends into the housing, and the placement groove is used for placing the first wireless receiver and/or the second wireless receiver.

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