CN108536319B - Mouse - Google Patents

Abstract

The invention relates to a mouse which comprises a shell and a light sensing module, wherein the light sensing module is used for sensing the position movement of the mouse, and the mouse also comprises a timer, a controller and at least one controllable convex part, wherein the controllable convex part is arranged on the bottom surface of the shell and can extend out of the shell downwards along the bottom surface of the shell, so that a contact object between the bottom surface of the mouse and the bottom surface cannot be tightly attached to block a reflection path of the light sensing module; the timer is used for detecting the use time of the mouse, when the use time exceeds a time threshold value, a pulse wave is sent to the controller, and after the controller receives the pulse wave, the controllable convex part is controlled to extend out of the bottom surface. The mouse can monitor the control of the computer use time by monitoring the mouse use time control, and can effectively prevent children from using the computer too long.

Description

Mouse

Technical Field

The invention relates to the technical field of computer input equipment, in particular to a mouse.

Background

In the prior art, with the development of science and technology, mobile phones and PCs become indispensable electronic devices for human beings, however, when people use the electronic devices, the myopia is generally used for a long time, the eyesight of people at present is poorer and poorer, the proportion of the myopia is higher and worse, the myopia is more and more serious, the time for limiting people to use the electronic equipment at present is generally monitored by people, the effectiveness and the real-time performance are lacked, in the existing equipment, equipment with rest time prompting, such as a television, can prompt a user to rest for a period of time when the user is used for a long time, however, the operation time monitoring can be easily released through a remote controller, and no prompt for monitoring the operation time exists for the existing intelligent electronic equipment such as a computer, especially for monitoring the operation time of the computer and the like through external equipment such as a mouse, and equipment for monitoring and controlling the operation time of the electronic equipment such as the computer and the like through the external equipment such as the mouse is urgently needed. To protect the vision of people, especially children, to a certain extent.

Most of the existing mice use light sensation to contact with a contact object, and then the emitted light is reflected back through the contact object to determine the movement of the mouse, and the emitted light needs to be closely coupled with the contact object, once the reflected light is beyond a certain distance, the reflected light cannot be received, and then the mouse cannot be effectively controlled to operate a computer.

Disclosure of Invention

In order to solve the technical problems: the invention discloses a mouse which comprises a shell and a light sensing module, wherein the light sensing module is used for sensing the position movement of the mouse, and the mouse also comprises a timer, a controller and at least one controllable convex part, wherein the controllable convex part is arranged on the bottom surface of the shell and can extend out of the shell downwards along the bottom surface of the shell, so that a contact object between the bottom surface of the mouse and the bottom surface cannot be tightly attached to block a reflection path of the light sensing module; the timer is used for detecting the use time of the mouse, when the use time exceeds a time threshold value, a pulse wave is sent to the controller, and after the controller receives the pulse wave, the controllable convex part is controlled to extend out of the bottom surface.

The mouse also comprises a first communication module, wherein the first communication module is communicated with a computer connected with the mouse so as to receive the initial mouse use time fed back by the computer.

The mouse also comprises a mouse initial use determining module, wherein the mouse initial use determining module comprises a displacement sensor, a mouse click detector and a mouse roller detector; and after the controller monitors that at least one of the mouse click detector and the mouse roller detector has detection signal output, the controller sends a mouse initial use signal to the controller.

In the mouse, after receiving the initial use signal, the controller sends an initial use signal of the mouse to the computer through the first communication module, the computer sends a first confirmation signal to the timer, and the timer starts timing after receiving the first confirmation signal and compares the timing time with a time threshold in real time.

The mouse comprises a controllable convex component, a mouse body and a mouse body, wherein the controllable convex component comprises a rotating part, a micromotion motor and a driver, the rotating part comprises a two-part structure, the first part is a circular ring structure, the middle hollow ring part of the circular ring structure is fixed on an output shaft of the micromotion motor, the second part is a long strip-shaped structure, one end of the long strip-shaped structure is fixedly connected to the outer ring of the circular ring structure, and the other end of the long strip-shaped structure is provided with a high; the driver is connected with the controller, receives a control motor signal of the controller to drive the micromotion motor to rotate, drives the rotating part to rotate, so that the strip-shaped structure of the second part is rotated out of the shell from the inside of the shell, the high-resistance sawtooth-shaped structure is contacted with a contact object below the mouse, and the light sensing module of the mouse keeps a certain distance from the contact object.

The controllable protruding part of the mouse comprises a long-strip supporting piece with a side-edge gear and a micromotor, the micromotor drives the side-edge gear of the long-strip supporting piece through a gear on an output shaft, so that the long-strip supporting piece moves along the direction vertical to a contact object, and when a control signal is used for blocking the light sensing module, the long-strip supporting piece moves downwards vertically to increase the distance between the light sensing module and the contact object; when the control signal is non-blocking the light sensing module, the strip-shaped supporting piece vertically moves upwards to be retracted into the mouse shell, so that the light sensing module is tightly coupled with a contact object.

In the mouse, the time threshold includes a first time threshold and a second time threshold, and the first time threshold is smaller than the second time threshold.

When the time counted by the timer exceeds the first time threshold value, the mouse pops up a rest prompt; when the time counted by the timer exceeds the second time threshold, sending a first test signal to a computer through the first communication module to test whether a screen of the computer is in a lighting state, if so, sending a second confirmation signal to a controller of the mouse by the computer, and controlling the controllable convex part to move to increase the distance between the light sensing module and the contact after the controller receives the second confirmation signal.

The time threshold value also comprises a third time threshold value, the controller detects that the mouse is in the static time after the timer receives the first confirmation signal, if the static time exceeds the third time threshold value, a second test signal is sent to the computer to test whether a screen of the computer is in a lighting state, if so, the computer sends a third confirmation signal to the controller of the mouse, and the controller controls the controllable convex part to move after receiving the third confirmation signal so as to increase the distance between the light sensing module and the contact.

The mouse comprises a key and a time-limited unlocking module, wherein the time-limited unlocking module receives a correct password input by the key and relieves the limitation of the use time of the mouse.

The mouse can monitor the control of the computer use time by monitoring the mouse use time control, and can effectively prevent children from using the computer too long. Through the concrete structure of the light sense module of improving mouse, should not use the computer to play the live time of recreation crowd such as effective supervision children to can be through carrying out the supervision personnel unblock, need not supervision personnel and supervise constantly, just can control the operating duration of computer through mouse. The invention can monitor the use time of the computer through the use time of the mouse, and also can monitor the use time of the computer which does not move the mouse due to video playing but runs through the static time of the mouse. The service time of the computer can be effectively monitored through the two different service times. The mouse cannot be effectively controlled by increasing the light sensing reflection distance of the mouse, and the service time of the mouse can be controlled.

Drawings

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

FIG. 2 is a functional diagram of a mouse according to a second embodiment of the present invention.

FIG. 3 is a schematic view of the operation process of the mouse according to the present invention.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

The first embodiment is as follows:

as shown in fig. 1, a functional diagram of a mouse is provided, and the invention discloses a mouse, which includes a housing, a light sensing module, a timer, a controller, and at least one controllable protrusion, wherein the light sensing module is used for sensing the position movement of the mouse, the controllable protrusion is arranged on the bottom surface of the housing and can extend out of the housing along the bottom surface of the housing, so that a contact object between the bottom surface of the mouse and the bottom surface cannot be tightly attached to each other, and a reflection path of the light sensing module is blocked; the timer is used for detecting the use time of the mouse, when the use time exceeds a time threshold value, a pulse wave is sent to the controller, and after the controller receives the pulse wave, the controllable convex part is controlled to extend out of the bottom surface.

The mouse also comprises a first communication module, wherein the first communication module is communicated with a computer connected with the mouse so as to receive the initial mouse use time fed back by the computer.

The mouse also comprises a mouse initial use determining module, wherein the mouse initial use determining module comprises a displacement sensor, a mouse click detector and a mouse roller detector; and after the controller monitors that at least one of the mouse click detector and the mouse roller detector has detection signal output, the controller sends a mouse initial use signal to the controller.

In the mouse, after receiving the initial use signal, the controller sends an initial use signal of the mouse to the computer through the first communication module, the computer sends a first confirmation signal to the timer, and the timer starts timing after receiving the first confirmation signal and compares the timing time with a time threshold in real time.

The mouse comprises a controllable convex component, a mouse body and a mouse body, wherein the controllable convex component comprises a rotating part, a micromotion motor and a driver, the rotating part comprises a two-part structure, the first part is a circular ring structure, the middle hollow ring part of the circular ring structure is fixed on an output shaft of the micromotion motor, the second part is a long strip-shaped structure, one end of the long strip-shaped structure is fixedly connected to the outer ring of the circular ring structure, and the other end of the long strip-shaped structure is provided with a high; the driver is connected with the controller, receives a control motor signal of the controller to drive the micromotion motor to rotate, drives the rotating part to rotate, so that the strip-shaped structure of the second part is rotated out of the shell from the inside of the shell, the high-resistance sawtooth-shaped structure is contacted with a contact object below the mouse, and the light sensing module of the mouse keeps a certain distance from the contact object.

Through a controllable bellying, can't make light sense and contact and form positive close coupling through making mouse slope, block the reflection of light sense, perhaps through two controllable bellying, the rotatory angle of two controllable bellying is different, and the mouse is around or about the height dislocation.

The controllable distance and angle can also be controlled by three controllable convex parts. The rotation angle can be controlled at will, and in some embodiments, when a plurality of controllable protruding parts are provided, the controllable protruding parts can be controlled to rotate in sequence, and after the rotation angle of one protruding part is determined, the rotation angle of another controllable protruding part is rotated.

In the mouse, the time threshold includes a first time threshold and a second time threshold, and the first time threshold is smaller than the second time threshold.

When the time counted by the timer exceeds the first time threshold value, the mouse pops up a rest prompt; when the time counted by the timer exceeds the second time threshold, sending a first test signal to a computer through the first communication module to test whether a screen of the computer is in a lighting state, if so, sending a second confirmation signal to a controller of the mouse by the computer, and controlling the controllable convex part to move to increase the distance between the light sensing module and the contact after the controller receives the second confirmation signal.

The time threshold value also comprises a third time threshold value, the controller detects that the mouse is in the static time after the timer receives the first confirmation signal, if the static time exceeds the third time threshold value, a second test signal is sent to the computer to test whether a screen of the computer is in a lighting state, if so, the computer sends a third confirmation signal to the controller of the mouse, and the controller controls the controllable convex part to move after receiving the third confirmation signal so as to increase the distance between the light sensing module and the contact.

The mouse comprises a key and a time-limited unlocking module, wherein the time-limited unlocking module receives a correct password input by the key and relieves the limitation of the use time of the mouse.

Example two:

as shown in fig. 2, the present invention provides a functional diagram of a mouse according to another embodiment, and discloses a mouse, which includes a housing, a light sensing module, a timer, a controller, and at least one controllable protrusion, wherein the light sensing module is used for sensing the position movement of the mouse, the controllable protrusion is disposed on a bottom surface of the housing and can extend out of the housing along the bottom surface of the housing, so that a contact object of the bottom surface of the mouse and the bottom surface cannot be tightly attached to each other, and a reflection path of the light sensing module is blocked; the timer is used for detecting the use time of the mouse, when the use time exceeds a time threshold value, a pulse wave is sent to the controller, and after the controller receives the pulse wave, the controllable convex part is controlled to extend out of the bottom surface.

The mouse also comprises a first communication module, wherein the first communication module is communicated with a computer connected with the mouse so as to receive the initial mouse use time fed back by the computer.

The mouse also comprises a mouse initial use determining module, wherein the mouse initial use determining module comprises a displacement sensor, a mouse click detector and a mouse roller detector; and after the controller monitors that at least one of the mouse click detector and the mouse roller detector has detection signal output, the controller sends a mouse initial use signal to the controller.

In the mouse, after receiving the initial use signal, the controller sends an initial use signal of the mouse to the computer through the first communication module, the computer sends a first confirmation signal to the timer, and the timer starts timing after receiving the first confirmation signal and compares the timing time with a time threshold in real time.

The controllable protruding part of the mouse comprises a long-strip supporting piece with a side-edge gear and a micromotor, the micromotor drives the side-edge gear of the long-strip supporting piece through a gear on an output shaft, so that the long-strip supporting piece moves along the direction vertical to a contact object, and when a control signal is used for blocking the light sensing module, the long-strip supporting piece moves downwards vertically to increase the distance between the light sensing module and the contact object; when the control signal is non-blocking the light sensing module, the strip-shaped supporting piece vertically moves upwards to be retracted into the mouse shell, so that the light sensing module is tightly coupled with a contact object.

In the mouse, the time threshold includes a first time threshold and a second time threshold, and the first time threshold is smaller than the second time threshold.

When the time counted by the timer exceeds the first time threshold value, the mouse pops up a rest prompt; when the time counted by the timer exceeds the second time threshold, sending a first test signal to a computer through the first communication module to test whether a screen of the computer is in a lighting state, if so, sending a second confirmation signal to a controller of the mouse by the computer, and controlling the controllable convex part to move to increase the distance between the light sensing module and the contact after the controller receives the second confirmation signal.

The time threshold value also comprises a third time threshold value, the controller detects that the mouse is in the static time after the timer receives the first confirmation signal, if the static time exceeds the third time threshold value, a second test signal is sent to the computer to test whether a screen of the computer is in a lighting state, if so, the computer sends a third confirmation signal to the controller of the mouse, and the controller controls the controllable convex part to move after receiving the third confirmation signal so as to increase the distance between the light sensing module and the contact.

The mouse comprises a key and a time-limited unlocking module, wherein the time-limited unlocking module receives a correct password input by the key and relieves the limitation of the use time of the mouse.

FIG. 3 is a schematic view of the operation process of the mouse according to the present invention. By checking the initial use time, starting the mouse timing, distinguishing whether the mouse is dynamic or static, and controlling the corresponding operation of the mouse according to a feedback signal of a screen of a computer, such as closing the light sensing module and blocking the light sensing module and a contact object, thereby limiting the operation of the computer to control the time for using the computer.

The mouse can monitor the control of the computer use time by monitoring the mouse use time control, and can effectively prevent children from using the computer too long. Through the concrete structure of the light sense module of improving mouse, should not use the computer to play the live time of recreation crowd such as effective supervision children to can be through carrying out the supervision personnel unblock, need not supervision personnel and supervise constantly, just can control the operating duration of computer through mouse. The invention can monitor the use time of the computer through the use time of the mouse, and also can monitor the use time of the computer which does not move the mouse due to video playing but runs through the static time of the mouse. The service time of the computer can be effectively monitored through the two different service times. The mouse cannot be effectively controlled by increasing the light sensing reflection distance of the mouse, and the service time of the mouse can be controlled.

Claims (5)

1. A mouse comprises a shell and a light sensing module, wherein the light sensing module is used for sensing position movement of the mouse, and the mouse is characterized by further comprising a timer, a controller and at least one controllable convex part, wherein the controllable convex part is arranged on the bottom surface of the shell and can extend out of the shell downwards along the bottom surface of the shell, so that a contact object between the bottom surface of the mouse and the bottom surface cannot be tightly attached to block a reflection path of the light sensing module; the timer is used for detecting the use time of the mouse, when the use time exceeds a time threshold value, a pulse wave is sent to the controller, and the controller controls the controllable convex part to extend out of the bottom surface after receiving the pulse wave; the first communication module is communicated with a computer connected with the mouse to receive the initial mouse use time fed back by the computer; the mouse initial use determining module comprises a displacement sensor, a mouse click detector and a mouse wheel detector; the controller receives a mouse starting displacement signal sent by the displacement sensor, sends a starting detector signal to the mouse click detector and the mouse roller detector, monitors the states of the mouse click detector and the mouse roller detector in real time, sends a mouse initial use signal to the computer through the first communication module after monitoring that at least one of the mouse click detector and the mouse roller detector has detection signal output, the computer sends a first confirmation signal to the timer, the timer starts timing after receiving the first confirmation signal, and compares the timing time with a time threshold value in real time;

the controllable protruding part comprises a rotating part, a micromotion motor and a driver, the rotating part comprises a two-part structure, the first part is a circular ring structure, the middle hollow ring part of the circular ring structure is fixed on an output shaft of the micromotion motor, the second part is a long strip-shaped structure, one end of the long strip-shaped structure is fixedly connected to the outer ring of the circular ring structure, and the other end of the long strip-shaped structure is provided with a high-resistance sawtooth-shaped structure; the driver is connected with the controller, receives a control motor signal of the controller to drive the micromotion motor to rotate, drives the rotating part to rotate, so that the strip-shaped structure of the second part is rotated out of the shell from the inside of the shell, the high-resistance sawtooth-shaped structure is contacted with a contact object below the mouse, and the light sensing module of the mouse keeps a certain distance from the contact object.

2. The mouse of claim 1, wherein the controllable protrusion comprises an elongated support member with a side gear, and a micro motor, the micro motor drives the side gear of the elongated support member through a gear on an output shaft to displace the elongated support member in a direction perpendicular to the contact object, and when the control signal is to block the light sensing module, the elongated support member is displaced vertically downward to increase the distance between the light sensing module and the contact object; when the control signal is non-blocking the light sensing module, the strip-shaped supporting piece vertically moves upwards to be retracted into the mouse shell, so that the light sensing module is tightly coupled with a contact object.

3. The mouse of claim 2, wherein the time threshold comprises a first time threshold, a second time threshold, the first time threshold being less than the second time threshold; when the time counted by the timer exceeds the first time threshold, popping up a rest prompt; when the time counted by the timer exceeds the second time threshold, sending a first test signal to a computer through the first communication module to test whether a screen of the computer is in a lighting state, if so, sending a second confirmation signal to a controller of the mouse by the computer, and controlling the controllable convex part to move after receiving the second confirmation signal by the controller to increase the distance between the light sensing module and the contact object.

4. The mouse of claim 3, wherein the time thresholds further include a third time threshold, the controller detects that the mouse is in a stationary time after the timer receives the first confirmation signal, if the stationary time exceeds the third time threshold, the controller sends a second test signal to the computer to test whether a screen of the computer is in a lighting state, if so, the computer sends a third confirmation signal to the controller of the mouse, and the controller controls the controllable protrusion to move to increase the distance between the light sensing module and the contact object after receiving the third confirmation signal.

5. The mouse of claim 4, wherein the mouse comprises a button and a time-limited unlocking module, and the time-limited unlocking module receives a correct password input by the button and removes the limitation of the mouse use time.

Images