CN112051931A - Mouse - Google Patents

Abstract

The invention discloses a mouse, which comprises a shell, a three-dimensional detection piece, a touch panel, at least one control switch and a signal processor, wherein the three-dimensional detection piece is arranged in the shell and used for detecting the space position of the shell in three dimensions; when the cursor moves to the target position, the user triggers the touch panel or the control switch, the signal processor controls the display terminal to realize corresponding functions according to the trigger signal fed back by the touch panel or the control switch, such as opening or closing a window, amplifying or reducing the window and the like, a left key, a right key and a roller wheel of the existing table mouse are replaced, the operation convenience is improved, and the user experience feeling is natural and good.

Description

Mouse

Technical Field

The invention relates to the technical field of office appliances, in particular to a mouse.

Background

The mouse is connected with a computer host, generally comprises a shell, a left key, a right key, a roller and a laser, when the mouse is used, a user controls the computer host to realize corresponding functions such as opening a document, opening a window and the like by triggering the left key, the right key or the roller through a movable finger or by moving the mouse, and the mouse is widely applied to the office field.

However, the existing mouse is limited by the use condition, and the user must manipulate the mouse on a plane, which makes the mouse affect the experience of the user in some application occasions. For example, when a computer host is used to control a projector or a display screen to display multimedia, the mouse is far away from the multimedia, and the mouse is difficult to escape from the dependence on a desktop, so that the user cannot operate the mouse far away from the host, and the experience is relatively poor. For another example, when a computer works for a long time, because the mouse needs to be matched with a mouse pad, the body movement range of the user is greatly limited, the body posture is fixed for a long time, so that the shoulders, the arms and the wrists cannot move freely, and the body of the user is easy to fatigue or ache due to the long-term use of the mouse, so that the experience feeling is influenced.

Therefore, how to optimize the structure of the mouse to improve the user experience of the mouse is a technical problem to be solved by those skilled in the art.

Disclosure of Invention

In view of the above, the present invention provides a mouse, in which a signal processor controls a cursor on a display terminal to move to a target position according to a spatial position signal fed back by a three-dimensional detection element and/or a touch trajectory signal fed back by a touch panel, so that the mouse is free from being dependent on a desktop; the signal processor controls the display terminal to realize corresponding functions at the target position according to the trigger signal fed back by the touch panel or the control switch, and the operation is convenient, so that the user experience is good.

The specific scheme is as follows:

the mouse provided by the invention comprises:

a housing;

the three-dimensional detection piece is arranged in the shell and used for detecting the space position of the shell in three dimensions;

a touch panel provided in the housing for a finger to touch;

at least one control switch provided in the housing to be controlled by a finger;

and the signal processor is connected with the three-dimensional detection piece, the touch panel and all the control switches respectively, and is used for being connected with the display terminal so as to control the cursor to move to a target position according to a space position signal fed back by the three-dimensional detection piece and/or a touch track signal fed back by the touch panel and control the display terminal to realize corresponding functions at the target position according to a trigger signal fed back by the touch panel or the control switches.

Preferably, the control switch includes a switch touch mode switch respectively connected to the touch panel and the signal processor, and the signal processor is configured to control the touch panel to switch between the mouse control mode and the page scrolling mode according to a signal fed back by the switch touch mode switch.

Preferably, the laser device further comprises a laser device arranged at the front end of the shell and connected with the signal processor, the control switch further comprises a laser control switch connected with the signal processor, and the signal processor is used for correspondingly controlling the laser device to be turned on or turned off according to a trigger signal fed back by the laser control switch.

Preferably, the portable electronic device further comprises a highlighting lamp arranged on the shell and connected with the signal processor, the control switch further comprises a highlighting control switch connected with the signal processor, and the signal processor is used for correspondingly controlling the highlighting lamp to be turned on or turned off according to a trigger signal fed back by the highlighting control switch.

Preferably, the control switch further comprises a display scale switch connected to the signal processor, and the signal processor is configured to correspondingly control the display terminal to zoom in or zoom out the current screen according to a trigger signal fed back by the display scale switch.

Preferably, the control switch further comprises a screen brightness switch connected to the signal processor, and the signal processor is configured to adjust the display brightness of the display terminal according to a trigger signal fed back by the screen brightness switch.

Preferably, the control switch further comprises a screen sleep switch connected to the signal processor, and the signal processor is configured to correspondingly control sleep or screen lighting of the display terminal according to a trigger signal fed back by the screen sleep switch.

Preferably, the method further comprises the following steps:

a rechargeable battery;

an electric quantity detecting member for detecting an electric quantity of the rechargeable battery;

an electric quantity indicator light;

the electric quantity detection piece and the electric quantity indicator lamp are all connected with the signal processor, the signal processor is used for controlling the electric quantity indicator lamp to emit white light when the electric quantity of the rechargeable battery reaches the highest preset electric quantity according to the signal fed back by the electric quantity detection piece, and is also used for controlling the electric quantity indicator lamp to emit red light and flicker when the electric quantity of the rechargeable battery reaches the lowest preset electric quantity according to the signal fed back by the electric quantity detection piece.

Preferably, the display terminal further comprises at least one group of wireless receiver and wireless transmitter which are arranged between the signal processor and the display terminal to enable the signal processor and the display terminal to communicate.

Preferably, the wireless communication device further comprises a built-in memory which is arranged between the signal processor and the wireless transmitter and is used for realizing data storage.

Preferably, the housing is further provided with an integrated interface for selecting an external power supply or an external memory.

Preferably, the vibration module is connected with the signal processor, and the signal processor is used for controlling the vibration module to realize vibration feedback according to a vibration instruction fed back by the display terminal.

Compared with the background technology, the mouse provided by the invention comprises a shell, a three-dimensional detection piece, a touch panel, a control switch and a signal processor, wherein the three-dimensional detection piece is arranged in the shell and is used for detecting the three-dimensional space position of the shell, and the signal processor controls a cursor on a display terminal to move to a target position according to a space position signal fed back by the three-dimensional detection piece and/or a touch track signal fed back by the touch panel, so that the mouse gets rid of dependence on a desktop, conditions are provided for a user to control the mouse in a handheld mode in the three-dimensional space, the control mode is flexible, and the user experience is good; when the cursor moves to the target position, the user triggers the touch panel or the control switch, the signal processor controls the display terminal to realize corresponding functions according to the trigger signal fed back by the touch panel or the control switch, such as opening or closing a window, amplifying or reducing the window and the like, a left key, a right key and a roller wheel of the existing table mouse are replaced, the operation convenience is improved, and the user experience feeling is natural and good. Therefore, the mouse provided by the invention has better user experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a block diagram of a mouse according to an embodiment of the present invention;

FIG. 2 is another view of FIG. 1;

FIG. 3 is a front view of FIG. 1;

FIG. 4 is a top view of FIG. 1;

FIG. 5 is a side view of FIG. 1;

fig. 6 is a bottom view of fig. 1.

The reference numbers are as follows:

the display device comprises a shell 1, a touch panel 2, a switch touch mode switch 31, a laser control switch 32, a highlight control switch 33, a display proportion switch 34, a screen brightness switch 35, a screen sleep switch 36, a laser 4, an electric quantity indicator lamp 5 and an integrated interface 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the accompanying drawings and specific examples.

Referring to fig. 1 to 6, fig. 1 is a structural diagram of a mouse according to an embodiment of the present invention; FIG. 2 is another view of FIG. 1; FIG. 3 is a front view of FIG. 1; FIG. 4 is a top view of FIG. 1; FIG. 5 is a side view of FIG. 1; fig. 6 is a bottom view of fig. 1.

The embodiment of the invention discloses a mouse, which has the key improvement point that the structure of the mouse is optimized, so that the mouse is free from dependence on a desktop, flexible handheld is realized, and the user experience is effectively improved.

The mouse provided by the invention comprises a shell 1, a three-dimensional detection piece, a touch panel 2, a control switch and a signal processor, wherein the shell 1 plays a role of protecting other parts, the shell 1 can be of a split structure and comprises an upper shell and a lower shell, and the upper shell and the lower shell are detachably connected through a buckle and a clamping groove. From the human-machine engineering perspective, the periphery of casing 1 can add the slot identical with finger or palm, keeps casing 1 and user's hand fully to laminate, is favorable to promoting travelling comfort and aesthetic property.

The three-dimensional detection piece is arranged in the shell 1, the spatial position of the shell 1 in three dimensions is obtained through the motion track of the shell 1, and the three-dimensional detection piece can specifically detect the shaft acceleration parameter, the shaft rotation parameter and the position parameter of the shell 1. The three-dimensional detection piece can be specifically a nine-axis gyroscope, and the nine-axis gyroscope comprises a three-dimensional axis acceleration sensor, a three-dimensional axis rotation sensor and a three-dimensional geomagnetic sensor. Of course, the three-dimensional detecting member may also be a six-axis gyroscope, and the specific type of the three-dimensional detecting member is not particularly limited herein.

The touch panel 2 is provided in the housing 1 and can be touched by a finger. The touch panel 2 is a rectangular touch panel integrally arranged on the upper shell, and the user can trigger the touch panel 2 by clicking, double clicking or sliding.

The control switch comprises at least one, and all the control switches are controlled by fingers to realize different control functions. In this embodiment, the present invention specifically has six control switches, and three control switches are symmetrically disposed on two opposite sides of the touch panel 2. The control switch may be a push switch or a roller switch. In order to prevent misoperation, the six control switches are respectively provided with the left side and the right side of the upper shell for being pressed by a thumb and a ring finger respectively, and the touch panel 2 is provided with the top side of the upper shell for being pressed by a forefinger and a middle finger respectively. Of course, the number and distribution of the finger control switches are not limited to this.

The signal processor is respectively connected with the three-dimensional detection piece, the touch panel 2 and all the control switches, and comprises a circuit board and a signal processing chip. The signal processor is connected with a display terminal, and the display terminal can be a computer, a mobile phone, a projector or a liquid crystal television.

When the signal processor receives a space position signal fed back by the three-dimensional detection piece and/or a touch track signal fed back by the touch panel 2, the signal processor controls a cursor on the display terminal to move to a target position, so that the mouse gets rid of dependence on a desktop, conditions are provided for a user to control the mouse in a handheld mode in the three-dimensional space, the control mode is flexible, and the user experience is good. The target position may specifically be a position where a window closing button is located or a position where a document image is located.

When the cursor moves to the target position, the user triggers the touch panel 2 or the control switch, the signal processor controls the display terminal to realize corresponding functions according to the trigger signal fed back by the touch panel 2 or the control switch, for example, the touch panel 2 is clicked to open or close a window or the control switch is toggled to enlarge or reduce the window, so that a left key, a right key and a roller of the existing table mouse are replaced, the operation convenience is improved, and the user experience is natural and good.

Specifically, when the slide is played, the user triggers the touch panel 2 or the control switch, so that the signal processor controls the slide to realize page turning, cursor movement, indication laser beam emission, and the like according to the trigger signal fed back by the touch panel 2 or the control switch.

In conclusion, the mouse provided by the invention has better user experience.

The control switch comprises a switch touch mode switch 31, the switch touch mode switch 31 is respectively connected with the touch panel 2 and the signal processor, and the signal processor controls the touch panel 2 to switch between a mouse control mode and a page scrolling mode according to a signal fed back by the switch touch mode switch 31.

Specifically, in the mouse control mode, the finger of the user moves along the touch panel 2, and the cursor of the display terminal moves to the target position; the user's finger taps the touch panel 2 to enable the display terminal to close the document, etc.; the user's finger double-clicks the touch panel 2 to cause the display terminal to realize opening of a document and the like. That is, in the mouse mode, the touch panel 2 implements a normal function of the mouse.

In the page scrolling mode, a finger of a user swiftly and lightly scans the touch panel 2, a slide of the display terminal realizes page turning, video playing to realize fast forward or fast backward, browsing a web page to realize forward or backward, pictures to realize page turning, music playing to realize song switching, or other functions.

The invention also comprises a laser 4 arranged at the front end of the shell 1, wherein the laser 4 is connected with the signal processor, so that a user can conveniently mark the important position of the display terminal to audiences by means of laser. The laser 4 may be a physical laser or a digital laser. Correspondingly, the control switch further comprises a laser control switch 32 connected to the signal processor, and the laser control switch 32 may be a press type switch. When a finger presses the laser control switch 32, the laser control switch 32 feeds back a trigger signal to the signal processor, and the signal processor controls the laser 4 to be started; when the finger releases the laser control switch 32, the laser control switch 32 feeds back a trigger signal to the signal processor, and the signal processor controls the laser 4 to be switched off.

The invention also comprises a highlighting lamp arranged on the shell 1, the highlighting lamp is connected with the signal processor, and the highlighting lamp illuminates the local position of the display terminal so as to highlight key information for audiences. The highlighting lamp may specifically be a projection lamp or a spotlight, etc. Correspondingly, the control switch further comprises a highlight control switch 33 connected to the signal processor, and the highlight control switch 33 may be a push switch. When the highlight control switch 33 is pressed by a finger, the highlight control switch 33 feeds back a trigger signal to the signal processor, and the signal processor controls the highlight lamp to be turned on; when the finger releases the highlight control switch 33, the highlight control switch 33 feeds back a trigger signal to the signal processor, and the signal processor controls the highlight lamp to be turned off.

The control switch further comprises a display scale switch 34 connected with the signal processor, and the display scale switch 34 is used for adjusting the display scale of the display terminal, and may be a roller switch. When the display proportional switch 34 is toggled in the forward direction, the display proportional switch 34 feeds back a trigger signal to the signal processor, and the signal processor controls the display terminal to amplify the screen; when the display proportional switch 34 is toggled reversely, the display proportional switch 34 feeds back a trigger signal to the signal processor, and the signal processor controls the display terminal to zoom out.

The control switch further comprises a screen brightness switch 35 connected to the signal processor, and the screen brightness switch 35 is used for adjusting the screen brightness of the display terminal, and may be a roller switch. When the screen brightness switch 35 is shifted forward, the screen brightness switch 35 feeds back a trigger signal to the signal processor, and the signal processor controls the display terminal to enhance the screen brightness; when the screen brightness switch 35 is toggled reversely, the screen brightness switch 35 feeds back a trigger signal to the signal processor, and the signal processor controls the display terminal to weaken the screen brightness.

The control switch further includes a screen sleep switch 36 connected to the signal processor, and the screen sleep switch 36 may be a push switch. When the finger presses the screen dormancy switch 36, the screen dormancy switch 36 feeds back a trigger signal to the signal processor, and the signal processor controls the display terminal to be dormant; when the finger double-clicks the screen sleep switch 36, the screen sleep switch 36 feeds back a trigger signal to the signal processor, and the signal processor controls the display terminal to turn from sleep to bright screen.

The invention also comprises a rechargeable battery, an electric quantity detection piece and an electric quantity indicator lamp 5, wherein the rechargeable battery can be a lithium battery and supplies power for electrical elements such as a signal processor and the like. The electric quantity detection piece is used for detecting the electric quantity of the rechargeable battery, and the type and the working principle of the electric quantity detection piece can refer to the prior art. The electric quantity indicating lamp 5 is specifically an LED lamp, and a plurality of LED lamps can be arranged. The electric quantity detection piece and the electric quantity indicating lamp 5 are both connected with the signal processor.

When the electric quantity of the rechargeable battery reaches the highest preset electric quantity, the electric quantity detection piece sends a signal to the signal processor, and the signal processor controls the electric quantity indicator lamp 5 to emit white light. The maximum preset electric quantity in the text specifically means that the electric quantity of the rechargeable battery reaches 100%. When the electric quantity of detecting the rechargeable battery reaches the minimum preset electric quantity, the electric quantity detecting piece sends a signal to the signal processor, and the signal processor controls the electric quantity indicating lamp 5 to emit red light and flicker. The minimum preset electric quantity is specifically the electric quantity of the rechargeable battery reaching 10%. Therefore, the electric quantity of the rechargeable battery can be automatically monitored, a user can know the electric quantity of the mouse in real time conveniently, the mouse can be charged in time, and the user experience can be effectively improved.

In order to facilitate the realization of remote communication between the mouse and the display terminal, the invention also comprises at least one group of wireless receiver and wireless transmitter which are arranged between the signal processor and the display terminal, so that the signal processor and the display terminal realize communication. The wireless receiver and the wireless transmitter may be, in particular, a bluetooth communication module, but are not limited thereto. The positions of the wireless receiver and the wireless transmitter may be specifically interchanged, and are not specifically limited herein.

The invention also includes a built-in memory disposed between the signal processor and the wireless transmitter, the built-in memory storing associated data storage. The built-in memory can store the three-dimensional space movement track fed back by the three-dimensional detection piece, the touch track fed back by the touch panel 2 or the trigger data fed back by the control switch. The built-in memory can carry out wired connection with external memory, makes the two directly realize data transmission and storage user data, and the convenience reads when needing, and user operation is more convenient, is favorable to promoting user experience and feels.

In order to make the structure more compact, the shell 1 is further provided with an integrated interface 6, the integrated interface 6 can be externally connected with a power supply and an external memory, but only one external power supply or external memory can be selected, the external memory can be a memory of a U disk, a computer, a projector, a mobile phone and the like, key data of the mouse can be conveniently led out and stored, and a guarantee is provided for further optimizing the structure of the mouse. The integrated interface 6 may be, in particular, but not exclusively, a Type-C interface, such as a ladder interface.

Certainly, still can add the dump memory who links to each other with signal processor and integrated interface 6 respectively, the dump memory is used for the key data information of record and storage mouse and supplies the user to read data, makes the data in the user accessible bluetooth connection or the wired connection who links to each other with integrated interface 6 read the built-in memory, promotes mouse functional practicability, and convenience of customers carries and shared data, and it is more convenient to use.

The invention also comprises a vibration component connected with the signal processor, and the signal processor controls the vibration component to realize vibration feedback according to the vibration instruction fed back by the display terminal. Specifically, when the finger taps the touch panel 2, the display terminal closes the document, and simultaneously the display terminal feeds back a vibration instruction to the signal processor, and the signal processor controls the vibration assembly to apply feedback to the finger of the user to remind the user that the document is closed. Of course, the vibration feedback is not limited to the document closing feedback, but also is used for the camera start feedback, and the like, and is not particularly limited herein. The structure and the working principle of the vibration component can be referred to the prior art.

It should be noted that the signal processor includes a signal receiving unit, a signal determining unit, and a signal transmitting unit, the signal receiving unit is configured to receive the trigger signal fed back by each switch, the signal determining unit is electrically connected to the receiving unit, so that the signal determining unit is configured to determine whether the signal received by the receiving unit is the trigger signal, and the signal transmitting unit is electrically connected to the signal determining unit, so that the signal transmitting unit transmits the determination signal generated by the signal determining unit to the display terminal. The specific arrangement mode of the signal receiving part, the signal judging part and the signal sending part can refer to the prior art; in the invention, the application scenes of the three are only changed, and the three are not substantially improved. The signal processor with the structure can be an MCU, a DSP or a singlechip and the like. The key point of the present invention is that the signal processor combines the switches and the display terminal.

The mouse provided by the invention is described in detail above, a specific example is applied in the text to explain the principle and the implementation mode of the invention, and the description of the above embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (12)

1. A mouse, comprising:

a housing (1);

the three-dimensional detection piece is arranged in the shell (1) and is used for detecting the space position of the shell (1) in three dimensions;

a touch panel (2) provided in the housing (1) for a finger to touch;

at least one control switch provided in the housing (1) to be controlled by a finger;

and the signal processor is connected with the three-dimensional detection piece, the touch panel (2) and all the control switches respectively, and is used for being connected with a display terminal so as to control a cursor to move to a target position according to a space position signal fed back by the three-dimensional detection piece and/or a touch track signal fed back by the touch panel (2) and control the display terminal to realize corresponding functions at the target position according to a trigger signal fed back by the touch panel (2) or the control switches.

2. The mouse of claim 1, wherein the control switch comprises a switch touch mode switch (31) connected to the touch panel (2) and the signal processor, respectively, and the signal processor is configured to control the touch panel (2) to switch between a mouse control mode and a page scrolling mode according to a signal fed back by the switch touch mode switch (31).

3. The mouse of claim 1, further comprising a laser (4) disposed at the front end of the housing (1) and connected to the signal processor, wherein the control switch further comprises a laser control switch (32) connected to the signal processor, and the signal processor is configured to correspondingly control the laser (4) to be turned on or off according to a trigger signal fed back by the laser control switch (32).

4. The mouse of claim 1, further comprising a highlighting lamp disposed in the housing (1) and connected to the signal processor, wherein the control switch further comprises a highlighting control switch (33) connected to the signal processor, and the signal processor is configured to control the highlighting lamp to be turned on or off correspondingly according to a trigger signal fed back by the highlighting control switch (33).

5. The mouse of claim 1, wherein the control switch further comprises a display scale switch (34) connected to the signal processor, and the signal processor is configured to control the display terminal to zoom in or zoom out the current screen correspondingly according to a trigger signal fed back by the display scale switch (34).

6. The mouse of claim 1, wherein the control switch further comprises a screen brightness switch (35) connected to the signal processor, and the signal processor is configured to adjust the display brightness of the display terminal according to a trigger signal fed back by the screen brightness switch (35).

7. The mouse of claim 1, wherein the control switch further comprises a screen sleep switch (36) connected to the signal processor, and the signal processor is configured to control sleep or screen-on of the display terminal correspondingly according to a trigger signal fed back by the screen sleep switch (36).

8. The mouse according to any one of claims 1 to 7, further comprising:

a rechargeable battery;

an electric quantity detecting member for detecting an electric quantity of the rechargeable battery;

an electric quantity indicator lamp (5);

the electric quantity detection piece with electric quantity indicator lamp (5) all with signal processor links to each other, signal processor is used for according to the signal that electric quantity detection piece feedback is in when rechargeable battery's electric quantity reaches the highest electric quantity of predetermineeing electric quantity control electric quantity indicator lamp (5) send white light, still be used for according to the signal that electric quantity detection piece feedback is in when rechargeable battery's electric quantity reaches the lowest electric quantity of predetermineeing electric quantity control electric quantity indicator lamp (5) send ruddiness and scintillation.

9. The mouse according to any one of claims 1 to 7, further comprising at least one set of a wireless receiver and a wireless transmitter for communication between the signal processor and the display terminal.

10. The mouse of claim 9, further comprising a built-in memory disposed between the signal processor and the wireless transmitter for enabling data storage.

11. The mouse according to any one of claims 1 to 7, wherein the housing (1) is further provided with an integrated interface (6) for an external power supply or an external memory.

12. The mouse according to any one of claims 1 to 7, further comprising a vibration component connected to the signal processor, wherein the signal processor is configured to control the vibration component to implement vibration feedback according to a vibration instruction fed back by the display terminal.

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