CN211044228U

CN211044228U - Intelligent mouse keyboard equipment

Info

Publication number: CN211044228U
Application number: CN202020007735.8U
Authority: CN
Inventors: 不公告发明人
Original assignee: Xiamen New Colleague Technology Co ltd
Current assignee: Xiamen New Colleague Technology Co ltd
Priority date: 2020-01-02
Filing date: 2020-01-02
Publication date: 2020-07-17
Anticipated expiration: 2030-01-02

Abstract

The utility model discloses an intelligence mouse keyboard equipment, include: mouse, keyboard and mouse keyboard simulator, mouse keyboard simulator includes: casing, mouse keyboard drive module, control module, monitoring module, fingerprint identification module, fingerprint sampler, liquid crystal display module, button and movement track collection module, DC power supply module, liquid crystal display module and mode change over switch, USB interface, fingerprint sampler installing port, mode change over switch installing port, RJ45 interface, mouse interface and keyboard interface have been seted up to the casing, and fingerprint sampler installs in the fingerprint sampler installing port, and mode change over switch installs in the mode change over switch installing port, and liquid crystal display module installs in the liquid crystal display module installing port. The intelligent mouse keyboard device can switch the operation mode, can accept the click movement operation of an entity mouse and the key operation of an entity keyboard, and can realize the automatic operation of a simulation mouse keyboard under the control of a remote computer.

Description

Intelligent mouse keyboard equipment

Technical Field

The utility model relates to a computer peripheral hardware technical field especially relates to an intelligence mouse keyboard equipment.

Background

With the development of automation technology, more and more devices rely on software technology for control, so that human resources can be saved. The existing computer mouse and keyboard only have a single manual mechanical operation mode and cannot receive instructions generated by software programs, so that the task of operating computer software cannot be executed in an automatic system instead of manual work.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an intelligence mouse keyboard equipment to solve prior art's mouse keyboard device, can only accept artifical mechanical operation, be unfavorable for the technical problem of the application in automatic system.

The embodiment of the utility model provides an intelligence mouse keyboard equipment, include: mouse, keyboard and mouse keyboard simulator, mouse keyboard simulator includes: the mouse comprises a shell, a mouse and keyboard driving module, a control module, a monitoring module, a fingerprint identification module, a fingerprint collector, a key and motion trail collection module, a direct current power supply module, a liquid crystal display module and a mode switching switch, wherein the mouse and keyboard driving module, the control module, the monitoring module, the fingerprint identification module, the key and motion trail collection module and the direct current power supply module are positioned in the shell, the shell is provided with a USB interface, a fingerprint collector mounting port, a mode switching switch mounting port, a liquid crystal display module mounting port, an RJ45 interface, a mouse interface and a keyboard interface, the fingerprint collector is mounted in the fingerprint collector mounting port, the mode switching switch is mounted in the mode switching switch mounting port, the liquid crystal display module is mounted in the liquid crystal display module mounting port, and the mouse is electrically connected with the mouse and keyboard simulator through the mouse interface, the keyboard is electrically connected with the mouse keyboard simulator through the keyboard interface; mouse keyboard drive module respectively with control module monitor module with the USB interface electricity is connected, control module respectively with monitor module fingerprint identification module button and movement track collection module the liquid crystal display module mode change over switch with RJ45 interface electricity is connected, fingerprint identification module with the fingerprint collector electricity is connected, button and movement track collection module respectively with the mouse interface with the keyboard interface electricity is connected, DC power supply module respectively with mouse keyboard drive module control module the monitor module fingerprint identification module button and movement track collection module with the liquid crystal display module electricity is connected.

Further, the control module includes: the external instruction acquisition submodule is electrically connected with the RJ-45 interface and the instruction sequencing submodule respectively, the instruction sequencing submodule is electrically connected with the first COM port, and the first COM port is electrically connected with the mouse and keyboard driving module.

Further, the control module further comprises: and the second COM port is respectively and electrically connected with the instruction sequencing submodule and the key and motion track acquisition module.

Further, the control module further comprises: and the third COM port is electrically connected with the monitoring module and the external instruction acquisition submodule respectively.

Further, the intelligent mouse and keyboard device further comprises: and the static memory is electrically connected with the control module and the direct-current power supply module respectively.

Further, the intelligent mouse and keyboard device further comprises: the reset module is located in the shell, a reset switch mounting port is formed in the shell, the reset switch is mounted in the reset switch mounting port, and the reset module is respectively electrically connected with the reset switch, the control module and the direct-current power supply module.

To sum up, the utility model discloses intelligent mouse keyboard device, but the changeable operation mode, except that the click of the acceptable traditional entity mouse removes the operation and the keying operation of entity keyboard, can also realize the automatic operation of simulation mouse keyboard under the control of remote computer instruction, reach the result of use of real mouse keyboard to can realize remote operation under the scene of being used by stillness such as virtual desktop, remote desktop; the mouse and keyboard instructions can be monitored, and are transmitted back to the remote computer, so that whether the mouse and keyboard simulator sends correct instructions to the plugged computer or not can be mastered in time; switching of the operation mode can be permitted by fingerprint recognition, further improving security.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a block diagram of an intelligent mouse and keyboard device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model discloses intelligence mouse keyboard equipment. As shown in fig. 1, the intelligent mouse and keyboard device includes: a mouse 1, a keyboard 2 and a mouse-keyboard simulator 3. The mouse 1 and the keyboard 2 are both a mouse and a keyboard of the prior art. The mouse keyboard simulator 3 includes: the device comprises a shell, a mouse and keyboard driving module 301, a control module 302, a monitoring module 303, a fingerprint identification module 304, a fingerprint collector 305, a key and motion track collection module 306, a direct current power supply module 307, a liquid crystal display module 308 and a mode switching switch 309.

The mouse and keyboard driving module 301, the control module 302, the monitoring module 303, the fingerprint identification module 304, the key and motion track acquisition module 306 and the direct current power supply module 307 are positioned in the shell. The shell is provided with a USB interface 310, a fingerprint collector mounting port, a mode switch mounting port, a liquid crystal display module mounting port, an RJ45 interface 311, a mouse interface 312 and a keyboard interface 313. A fingerprint sampler 305 is mounted within the fingerprint sampler mounting opening. The mode changeover switch 309 is installed in the mode changeover switch installation opening. The liquid crystal display module 308 is mounted in the liquid crystal display module mounting opening. The mouse 1 is electrically connected to the mouse keyboard emulator 3 through the mouse interface 312. The keyboard 2 is electrically connected to the mouse keyboard emulator 3 through a keyboard interface 313.

The mouse and keyboard driving module 301 is electrically connected with the control module 302, the monitoring module 303 and the USB interface 310 respectively. The control module 302 is electrically connected to the monitoring module 303, the fingerprint recognition module 304, the key and motion trace collection module 306, the liquid crystal display module 308, the mode switch 309, and the RJ45 interface 311, respectively. The fingerprint identification module 304 is electrically connected to the fingerprint sampler 305. The button and motion trace collection module 306 is electrically connected to the mouse interface 312 and the keyboard interface 313, respectively. The dc power supply module 307 is electrically connected to the mouse and keyboard driving module 301, the control module 302, the monitoring module 303, the fingerprint identification module 304, the key and motion trace collection module 306, and the liquid crystal display module 308, respectively. It should be understood that the module according to the embodiments of the present invention generally includes at least one chip, auxiliary electrical components and corresponding circuit structures.

When in use, the mouse and keyboard simulator 3 is plugged into a computer through the USB interface 310. The mouse 1 is plugged into the mouse interface 312 so as to be electrically connected to the mouse keyboard emulator 3. The keyboard 2 is plugged into the keyboard interface 313 so as to be electrically connected to the mouse keyboard emulator 3. The computer supplies power to the dc power supply module 307 through the USB interface 310, so that the dc power supply module 307 can supply power to the connected modules, and the mouse 1 and the keyboard 2 through the button and motion trace collection module 306.

The fingerprint sampler 305 may be used to collect the operator's fingerprint and send the fingerprint to the fingerprint identification module 304. The fingerprint identification module 304 may be configured to identify fingerprint features and send the identified fingerprint features to the control module 302. The control module 302 is used for comparing whether the identified fingerprint is matched with a pre-stored standard fingerprint, if so, an operator presses the mode switching switch 309, and the control module 302 can sense the pressing operation, so that the operation mode can be switched; if not, the operator presses the mode switching switch 309, and the control module 302 cannot sense the pressing operation, and thus cannot switch the operation mode. The operation modes include: the remote computer comprises a remote computer operation mode, a physical mouse and keyboard operation mode and two operation modes of the remote computer, the physical mouse and the keyboard. When the fingerprints match, the mode can be switched once every time the mode switch 309 is pressed. Preferably, the currently corresponding mode can be displayed through the liquid crystal display module 308.

When in the remote computer operating mode, or both the remote computer and the physical mouse and keyboard operating modes, the mouse keyboard emulator 3 may establish a communication link with the remote computer through the RJ45 interface 311. The RJ45 interface 311 is used to receive external commands from a remote computer. The external command may be a command sent by the remote computer to simulate the action of the mouse and/or keyboard. The control module 302 is configured to receive an external instruction sent by the RJ45 interface 311, convert the external instruction into a first instruction code, and send the first instruction code to the mouse/keyboard driver module 301. The mouse and keyboard driving module 301 is configured to receive the first instruction code sent by the control module 302, convert the first instruction code into a mouse and keyboard signal that can be recognized by the computer, and send the mouse and keyboard signal to the computer plugged in the USB interface 310 through the USB interface 310. After receiving the mouse and keyboard signals, the computer inserted with the mouse and keyboard simulator 3 can perform corresponding mouse actions and/or keyboard actions. For example, the external command is a cursor moving to a folder and double-clicking open. Then the computer plugged with the mouse and keyboard simulator 3 will simulate the operation of the entity mouse after receiving the mouse and keyboard signal corresponding to the external instruction, and move the cursor to a folder and open by double click.

In addition, when the mouse is in an operation mode of a physical mouse and a keyboard, or in an operation mode of a remote computer and the physical mouse and the keyboard, an instruction signal generated by the physical operation of the operator on the mouse 1 and the keyboard 2 may be sent to the key and motion trace collecting module 306 through the mouse interface 312 and the keyboard interface 313, respectively. The button and motion trace acquisition module 306 converts the instruction signal into a second instruction code and sends the second instruction code to the control module 302. The control module 302 sends the second command code to the mouse/keyboard driver module 301. The mouse and keyboard driver module 301 is configured to receive the second command code sent by the control module 302, convert the second command code into a mouse signal and/or a keyboard signal that can be recognized by the computer, and send the mouse signal and/or the keyboard signal to the computer plugged in the USB interface 310 through the USB interface 310. After receiving the mouse signal and/or the keyboard signal, the computer inserted with the mouse keyboard simulator 3 can perform corresponding mouse action and/or keyboard action.

Therefore, the intelligent mouse keyboard device can not only carry out traditional operation through the entity mouse and the entity keyboard, but also realize the keyboard operation and the mouse operation of the computer which is plugged with the mouse keyboard simulator 3 through the instruction control of a remote computer under the condition that the entity mouse and the entity keyboard do not exist, and replace the manual operation of the entity mouse and the entity keyboard.

Preferably, the control module 302 includes: an external instruction acquisition submodule 3021, an instruction sequencing submodule 3022, and a first COM port 3023. The external instruction acquisition submodule 3021 is electrically connected to the RJ-45 interface 311 and the instruction sequencing submodule 3022, respectively. The instruction sequencing submodule 3022 is electrically connected to the first COM port 3023. The first COM port 3023 is electrically connected to the mouse and keyboard driver module 301.

The control module 302 further includes: a second COM port 3024. The second COM port 3024 is electrically connected to the instruction sequencing submodule 3022 and the key and motion trajectory acquisition module 306, respectively.

The RJ45 interface 311 sends the received external instruction to the external instruction collection submodule 3021, and the external instruction collection submodule 3021 converts the external instruction into a first instruction code and sends the first instruction code to the instruction sequencing submodule 3022. The button and motion trajectory acquisition module 306 converts the received instruction signal into a second instruction code, and then sends the second instruction code to the instruction sequencing submodule 3022 through the second COM port 3024. The instruction sequencing submodule 3022 is configured to sequence the received first instruction code and the second instruction code according to a received sequence, and sequentially send the first instruction code and the second instruction code to the mouse and keyboard driver module 301 through the first COM port 3023 according to the sequence, so that the mouse and keyboard driver module 301 may sequentially convert different instruction codes into corresponding signals and sequentially send the corresponding signals to the computer plugged in the USB interface 310, and the computer may perform corresponding operations according to the sequence of the signals, thereby avoiding confusion. For example, the mouse and keyboard simulator 3 receives an external command sent by the remote computer as the cursor moves to a folder, and then receives the physical operation of the mouse 1 by the user to double click the left button of the mouse. The computer, upon receiving the signal, will move the cursor to a folder in order and then double-click open the folder.

Preferably, the control module 302 further comprises: a third COM port 3025. The third COM port 3025 is electrically connected to the monitoring module 303 and the external instruction collection submodule 3021, respectively.

The monitoring module 303 is configured to obtain a first instruction code sent by the control module 302 to the mouse/keyboard driver module 301, and transmit the first instruction code back to the control module 302. Specifically, the monitoring module 303 may transmit the first instruction code back to the control module 302 through the third COM port 3025. The control module 302 is configured to send the first instruction code returned by the monitoring module 303 to the external instruction collecting sub-module 3021. The external instruction acquisition sub-module 3021 transmits the first instruction code to the remote computer through the RJ45 interface 311, and the remote computer analyzes the first instruction code and determines whether the first instruction code is consistent with the external instruction transmitted by the remote computer, so as to grasp in time whether the mouse/keyboard simulator 3 transmits a correct instruction to the plugged computer.

In addition, the control module 302 may send the first instruction code and/or the second instruction code to the LCD module 308. The lcd module 308 is configured to receive the first command code and/or the second command code, and display a mouse action and/or a keyboard action represented by the first command code and/or the second command code. For example, if the mouse and/or keyboard represented by the first command code is moved to a folder and opened by double-clicking, the lcd module 308 displays the text so that the operator can know the corresponding command and can determine whether the corresponding command is correct through the text.

Preferably, the mouse and keyboard simulator 3 further comprises: a static memory 314. The static memory 314 is electrically connected to the control module 302 and the dc power supply module 307, respectively. The static memory 314 is preferably a memory that is protected from power down. The static memory 314 is used to save the default IP address of the mouse keyboard emulator 3 for communication and send the default IP address to the control module 302 for the control module 302 to call.

Preferably, the mouse and keyboard simulator 3 further comprises: a reset module 315 and a reset switch 316. The reset module 315 is located within the housing. The shell is provided with a reset switch mounting port. The reset switch 316 is mounted within the reset switch mounting port. The reset module 315 is electrically connected to the reset switch 316, the control module 302, and the dc power module 307, respectively. The reset module 315 is used to implement a forced reset. Upon pressing the reset switch 316, the reset module 315 may restore the IP address to a default value and send the IP address to the control module 302 for control module invocation.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. An intelligent mouse keyboard device, comprising: mouse, keyboard and mouse keyboard simulator, mouse keyboard simulator includes: the mouse comprises a shell, a mouse and keyboard driving module, a control module, a monitoring module, a fingerprint identification module, a fingerprint collector, a key and motion trail collection module, a direct current power supply module, a liquid crystal display module and a mode switching switch, wherein the mouse and keyboard driving module, the control module, the monitoring module, the fingerprint identification module, the key and motion trail collection module and the direct current power supply module are positioned in the shell, the shell is provided with a USB interface, a fingerprint collector mounting port, a mode switching switch mounting port, a liquid crystal display module mounting port, an RJ45 interface, a mouse interface and a keyboard interface, the fingerprint collector is mounted in the fingerprint collector mounting port, the mode switching switch is mounted in the mode switching switch mounting port, the liquid crystal display module is mounted in the liquid crystal display module mounting port, and the mouse is electrically connected with the mouse and keyboard simulator through the mouse interface, the keyboard is electrically connected with the mouse keyboard simulator through the keyboard interface;

mouse keyboard drive module respectively with control module monitor module with the USB interface electricity is connected, control module respectively with monitor module fingerprint identification module button and movement track collection module the liquid crystal display module mode change over switch with RJ45 interface electricity is connected, fingerprint identification module with the fingerprint collector electricity is connected, button and movement track collection module respectively with the mouse interface with the keyboard interface electricity is connected, DC power supply module respectively with mouse keyboard drive module control module the monitor module fingerprint identification module button and movement track collection module with the liquid crystal display module electricity is connected.

2. The intelligent mouse keyboard device of claim 1, wherein: the control module includes: the external instruction acquisition submodule is electrically connected with the RJ-45 interface and the instruction sequencing submodule respectively, the instruction sequencing submodule is electrically connected with the first COM port, and the first COM port is electrically connected with the mouse and keyboard driving module.

3. The intelligent mouse keyboard device of claim 2, wherein the control module further comprises: and the second COM port is respectively and electrically connected with the instruction sequencing submodule and the key and motion track acquisition module.

4. The intelligent mouse keyboard device of claim 2, wherein the control module further comprises: and the third COM port is electrically connected with the monitoring module and the external instruction acquisition submodule respectively.

5. The intelligent mouse keyboard device according to claim 1, further comprising: and the static memory is electrically connected with the control module and the direct-current power supply module respectively.

6. The intelligent mouse keyboard device according to claim 1, further comprising: the reset module is located in the shell, a reset switch mounting port is formed in the shell, the reset switch is mounted in the reset switch mounting port, and the reset module is respectively electrically connected with the reset switch, the control module and the direct-current power supply module.