CN107015672B - Flying shuttle mouse and input method - Google Patents

Abstract

The invention provides a flying shuttle mouse and an input method. The flying shuttle mouse comprises: the device comprises a base, an upper cover, a photoelectric sensor, a key switch and a communication module, wherein the photoelectric sensor can detect a rotating action acted on the upper cover, corresponding rotating signals are generated according to position changes of the upper cover before and after rotation, a pressing action acted on the upper cover is detected through the key switch, corresponding first pressing signals or second pressing signals are generated according to different pressing durations, the communication module sends the rotating signals, the first pressing signals and the second pressing signals to a computer, the computer is controlled to call a preset control menu through the first pressing signals, the computer is controlled to switch among various operation options of the control menu through the rotating signals, the second pressing signals are used for selecting the operation options in the control menu, the design efficiency of computer aided design can be improved, and user experience is improved.

Description

Flying shuttle mouse and input method

Technical Field

The invention relates to the technical field of input equipment, in particular to a flying shuttle mouse and an input method.

Background

With the development of science and technology, the functions of computers are more and more perfect, and simultaneously, the functions of computers are more and more inseparable with our lives. The operation of the computer requires complicated instructions, which is very troublesome, so that the mouse can be used as a substitute for the complicated instructions, and the computer can be quickly and flexibly operated.

As an input device of a computer device commonly used in work and life, a common mouse mainly includes: the mouse comprises an arc-shaped shell, a left mouse button and a right mouse button which are arranged on the left side and the right side of the front portion of the arc-shaped shell, and a mouse roller wheel arranged between the left mouse button and the right mouse button, wherein the right mouse button is generally used for calling out a menu, the left mouse button is used for selecting operation options in the menu, the operation options in the menu are switched by sliding the mouse, the mouse roller wheel is generally used for rolling upper and lower pages of a page or zooming the page when the page is browsed, meanwhile, the roller wheel of the mouse is pressed, and the function of a third button can be further realized.

Computer Aided Design (CAD) technology refers to a technology that helps a designer Design a Design job using a Computer and its graphic device. When the design work such as industrial design or product design is carried out, a computer software and hardware device can be used for manufacturing and simulating a real object, and the appearance, the structure, the color and the like of the product are shown. By using CAD techniques, a large number of calculations, analyses and comparisons can be performed with computer equipment to ultimately decide the optimal solution. Various design information required and generated in the design work, no matter numbers, characters or figures, can be stored in a memory or an external memory of a computer and can be quickly searched, a designer usually starts the design by using a sketch, the heavy work of changing the sketch into a working drawing can be finished by the computer, and a final figure can be quickly obtained according to a design result automatically generated by the computer, so that the designer can timely judge and modify the design. At present, CAD technology has been widely used in various fields such as architectural design, mechanical design, clothing design, computer art, and the like.

In the process of designing by adopting the CAD technology, a user often needs to call a certain menu repeatedly for many times, for example, when drawing a color pattern by the CAD technology, the user often needs to call a palette for many times and select a corresponding color in the palette to fill the color in a corresponding area, at this time, the user often needs to find a palette call key of drawing software by a mouse, then call the palette, then find and select the corresponding color from the palette, and each call needs to go through a complicated operation process, so that the design efficiency is reduced, and the user experience is low.

Disclosure of Invention

The invention aims to provide a shuttle flying mouse which can quickly call and operate a common operation menu in a computer, improve the design efficiency of computer aided design and improve the user experience.

The invention also aims to provide an input method which can quickly call and operate a common operation menu in a computer, improve the design efficiency of computer aided design and improve the user experience.

In order to achieve the above object, the present invention provides a flying shuttle mouse, comprising: the device comprises a base, an upper cover, a photoelectric sensor, a key switch and a communication module;

the upper cover is arranged on the base and can rotate around an axis vertical to the base and press along the extending direction vertical to the axis of the base; the photoelectric sensor, the key switch and the communication module are all arranged in a cavity defined by the base and the upper cover, and the photoelectric sensor and the key switch are electrically connected with the communication module;

the photoelectric sensor is used for detecting the rotation action acted on the upper cover and generating a corresponding rotation signal according to the position change of the upper cover before and after rotation;

the key switch is used for detecting the pressing action acted on the upper cover and generating a corresponding first pressing signal or a second pressing signal according to different pressing time lengths;

the communication module is used for sending a rotation signal, a first pressing signal and a second pressing signal to a computer, the first pressing signal is used for controlling the computer to call a preset control menu, the control menu comprises a plurality of operation options, the rotation signal is used for controlling the computer to switch among the operation options of the control menu, and the second pressing signal is used for selecting the operation options in the control menu.

Further comprising: and the photoelectric sensor, the key switch and the communication module are all arranged on the printed circuit board.

Further comprising: a rotary drive mechanism, the rotary drive mechanism comprising: the printed circuit board comprises a fixed shaft, a bearing, a shaft sleeve and a pressing bolt, wherein the fixed shaft is perpendicular to the base and is fixedly connected with the printed circuit board, the bearing is sleeved on the fixed shaft, the shaft sleeve is fixedly connected with the bearing, the pressing bolt is positioned on the shaft sleeve and is fixedly connected with the fixed shaft, and the shaft sleeve is fixedly connected with the upper cover.

Further comprising: the code matching switch is arranged on the printed circuit board and electrically connected with the communication module;

code matching switch and communication module are all located printed circuit board is close to one side surface of base, photoelectric sensor and key switch are all located printed circuit board keeps away from one side surface of base.

The printed circuit board is far away from still install on the surface of one side of base with the key switch clamp plate of key switch contact, the key switch clamp plate with upper cover fixed connection, still be equipped with on the base pass the base with the sign indicating number switch button of sign indicating number switch contact.

Further comprising: and the light guide column is arranged in a cavity defined by the base and the upper cover and corresponds to the photoelectric sensor.

The base includes: the battery box comprises a middle cover, a battery box arranged in the surface of one side, far away from the printed circuit board, of the middle cover and a lower cover plate arranged corresponding to the battery box, wherein the battery box is electrically connected with the printed circuit board.

A plurality of convex ribs are formed on the outer side surface of the upper cover.

The invention also provides an input method, which comprises the following steps:

step S1, providing a shuttle mouse, comprising: the device comprises a base, an upper cover, a photoelectric sensor, a key switch and a communication module; the upper cover is arranged on the base and can rotate around an axis vertical to the base and press along the extending direction vertical to the axis of the base; the photoelectric sensor, the key switch and the communication module are all arranged in a cavity between the base and the upper cover, and the photoelectric sensor and the key switch are electrically connected with the communication module;

s2, providing a computer, and establishing communication connection between the shuttle flying mouse and the computer through the communication module;

s3, pressing the upper cover according to a preset first pressing duration, wherein the key switch detects the pressing action and the first pressing duration of the upper cover and provides a first pressing signal to the communication module according to the first pressing action and the first pressing duration, the communication module sends the first pressing signal to the computer, the computer calls a preset control menu according to the first pressing signal, and the control menu comprises a plurality of operation options;

s4, rotating the upper cover, wherein the photoelectric sensor detects the rotation action acting on the upper cover and the position change of the upper cover before and after rotation, and accordingly provides a corresponding rotation signal for the communication module, the communication module sends the rotation signal to a computer, and the computer switches among all operation options of the control menu according to the rotation signal;

and S5, pressing the upper cover according to a preset second pressing duration, detecting the pressing action of the upper cover and the second pressing duration by the key switch, and accordingly providing a second pressing signal to the communication module, sending the second pressing signal to the computer by the communication module, selecting the currently switched operation option by the computer according to the second pressing signal, wherein the durations of the first pressing duration and the second pressing duration are different.

The first pressing duration is greater than or equal to a preset pressing duration threshold, and the second pressing duration is smaller than the preset pressing duration threshold.

The invention has the beneficial effects that: the invention provides a flying shuttle mouse, comprising: the upper cover can rotate around the axis perpendicular to the base and press along the extending direction perpendicular to the axis of the base, the rotary action acting on the upper cover can be detected through the photoelectric sensor, corresponding rotary signals are generated according to the position change of the upper cover before and after rotation, the pressing action acting on the upper cover is detected through the key switch, corresponding first pressing signals or second pressing signals are generated according to the different pressing time lengths, the rotary signals, the first pressing signals and the second pressing signals are sent to the computer through the communication module, the preset control menu is called out through the first pressing signals, the rotary signals are used for controlling the computer to switch among all operation options of the control menu, the operation options in the control menu are selected through the second pressing signals, the common operation menu in the computer is called and operated quickly, the design efficiency of computer aided design is improved, and the computer experience is improved. The invention also provides an input method, which can quickly call and operate the common operation menu in the computer, improve the design efficiency of computer aided design and improve the user experience.

Drawings

For a better understanding of the nature and technical aspects of the present invention, reference should be made to the following detailed description of the invention, taken in conjunction with the accompanying drawings, which are provided for purposes of illustration and description and are not intended to limit the invention.

In the drawings, there is shown in the drawings,

FIG. 1 is an exploded view of a flying shuttle mouse according to the present invention;

FIG. 2 is a schematic view of a flying shuttle mouse according to the present invention;

FIG. 3 is a flow chart of an input method of the present invention.

Detailed Description

To further illustrate the technical means adopted by the present invention and the effects thereof, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings thereof.

Referring to fig. 1 and 2, the present invention provides a shuttle mouse, including: the device comprises a base 1, an upper cover 2, a photoelectric sensor 3, a key switch 4 and a communication module 5;

the upper cover 2 is arranged on the base 1 and can rotate around an axis vertical to the base 1 and press along an extending direction vertical to the axis of the base 1; the photoelectric sensor 3, the key switch 4 and the communication module 5 are all arranged in a cavity enclosed by the base 1 and the upper cover 2, the photoelectric sensor 3 and the key switch 4 are all electrically connected with the communication module 5,

specifically, upper cover 2 is cylindrical with base 1, the inside of upper cover 2 is hollow cavity, and the bottom surface is the opening, base 1 with the opening cooperation installation of upper cover 2 bottom surface, preferably, communication module 5 is bluetooth communication module.

Specifically, for convenience, the upper cover 2 is rotated, and the outer side surface of the upper cover 2 is further provided with anti-slip lines, preferably, the anti-slip lines are a plurality of ribs 21 arranged on the outer side surface of the upper cover 2.

Specifically, the shuttle mouse further comprises: with base 1 fixed connection's printed circuit board 6, photoelectric sensor 3, key switch 4 and communication module 5 all locate on the printed circuit board 6, preferably base 1 with printed circuit board 6 threaded connection, photoelectric sensor 3 is last still to be equipped with a photoelectric sensor and detains 31.

Specifically, the shuttle mouse further comprises: a rotary drive mechanism 7, the rotary drive mechanism 7 comprising: the printed circuit board assembly comprises a fixed shaft 71 which is perpendicular to the base 1 and is fixedly connected with the printed circuit board 6, a bearing 72 which is sleeved on the fixed shaft 71, a shaft sleeve 73 which is fixedly connected with the bearing 72, and a pressing bolt 74 which is positioned on the shaft sleeve 73 and is fixedly connected with the fixed shaft 71, wherein the shaft sleeve 73 is fixedly connected with the upper cover 2, and the pressing bolt 74 is used for limiting the axial sliding of the bearing 72 and the shaft sleeve 73 on the fixed shaft 71.

Preferably, the bearing 72 is fixedly connected to the shaft sleeve 73 through a pin 75, a mounting plate integrally formed with the fixing shaft 71 and perpendicular to the fixing shaft 71 is disposed at the bottom of the fixing shaft 71, a fixing shaft through hole is formed at the center of the printed circuit board 6, the mounting plate is fixed to the printed circuit board 6 near a side surface of the base 1 through a bolt, and the fixing shaft 71 passes through the fixing shaft through hole and extends toward the upper cover 2.

Specifically, the shuttle mouse further comprises: locate on printed circuit board 6 with communication module 5 electric connection's code switch 8, furtherly, code switch 8 and communication module 5 are all located printed circuit board 6 is close to a side surface of base 1, photoelectric sensor 3 and key switch 4 are all located printed circuit board 6 keeps away from a side surface of base 1, printed circuit board 6 keeps away from a side surface of base 1 still install on the surface with the key switch clamp plate 9 of key switch 4 contact, key switch clamp plate 9 with upper cover 2 fixed connection, still locate on the base 1 and pass base 1 with code switch 118 to the code switch 8 contact, key switch clamp plate 9 is used for pressing the action on upper cover 2 and transmits to key switch 4 in order to produce first or second and press the signal, code switch 118 is used for pressing code switch 8 to open communication module 5 to establish communication connection between communication module 5 and computer.

Specifically, the base 1 includes: the battery pack comprises a middle cover 11, a battery box 12 arranged in the surface of one side of the middle cover 11 far away from the printed circuit board 6, and a lower cover plate 13 of the battery box 12 arranged corresponding to the battery box 12, wherein the battery box 12 is electrically connected with the printed circuit board 6.

Specifically, the shuttle mouse further comprises: locate in the cavity that base 1 and upper cover 2 enclose with the leaded light post 10 that photoelectric sensor 3 corresponds, further, leaded light post 10 is fixed in through a leaded light post mounting bracket 19 on the well lid 11.

Further, a plurality of first magnets 17 are further arranged in the middle cover 11, a silica gel pad 18 is arranged at the bottom of the lower cover plate 13, a plurality of second magnets 16 are arranged between the silica gel pad 18 and the lower cover plate 13, the middle cover 11 and the lower cover plate 13 are magnetically adsorbed together through the first magnets 17 and the second magnets 16, and preferably, the first magnets 17 are larger than the second magnets 16 in size.

Further, a substrate film 15 is arranged at the bottom of the battery box 12, the anode and cathode mounting directions of the battery are printed on the substrate film 15, and conducting strips 14 for connecting the battery and the printed circuit board 6 are arranged at two ends of the battery box 12.

It should be noted that the photoelectric sensor 3 is used for detecting the rotation action acting on the upper cover 2 and generating a corresponding rotation signal according to the position change of the upper cover 2 before and after rotation; the key switch 4 is used for detecting the pressing action acted on the upper cover 2 and generating a corresponding first pressing signal or a second pressing signal according to different pressing time lengths; the communication module 5 is configured to send a rotation signal, a first pressing signal, and a second pressing signal to a computer, where the first pressing signal is used to control the computer to call a preset control menu, the control menu includes a plurality of operation options, the rotation signal is used to control the computer to switch between the operation options in the control menu, and the second pressing signal is used to select an operation option in the control menu.

Further, the detailed working process of the shuttle mouse can be as follows: firstly, a code matching switch key 118 is pressed to establish communication connection between the shuttle mouse and a computer, then an upper cover 2 is pressed to generate a first pressing signal, the computer displays a preset control menu, then the upper cover 2 is rotated to generate a rotation signal, the computer switches among all options of the preset control menu, finally the upper cover 2 is pressed again to generate a second pressing signal, and an operation option in the control menu is selected, wherein the pressing duration corresponding to the first pressing signal is longer than the pressing duration corresponding to the second pressing signal.

Further, the upper cover 2 can be rotated continuously to generate a rotation signal, and parameter adjustment is performed on the selected operation option, for example, when the sound operation option is selected, the upper cover 2 is rotated to continuously adjust the magnitude of the sound, and the magnitude of the sound is increased or decreased according to different rotation directions of the upper cover 2.

It is worth mentioning that the preset control menu may be changed according to the current use state of the computer, for example, when the computer does not open any application program, the preset control menu is a system control menu, and the system control menu may include a volume control option and a brightness control option, etc.; when the computer opens the drawing software, the menu is controlled for the palette; and the control menu corresponding to each application program or use state can be set correspondingly according to the requirements of the user.

Referring to fig. 3, based on the shuttle mouse, the present invention further provides an input method, including the following steps:

step S1, providing a shuttle mouse, wherein the structure is as described above, and the description is omitted;

s2, providing a computer, and establishing communication connection between the shuttle flying mouse and the computer through the communication module 5;

s3, pressing the upper cover 2 according to a preset first pressing time, wherein the key switch 4 detects the pressing action and the first pressing time of the upper cover 2 and provides a first pressing signal to the communication module 5 according to the first pressing action and the first pressing time, the communication module 5 sends the first pressing signal to a computer, and the computer calls a preset control menu according to the first pressing signal, wherein the control menu comprises a plurality of operation options;

s4, rotating the upper cover 2, wherein the photoelectric sensor 3 detects the rotation acting on the upper cover 2 and the position change of the upper cover 2 before and after rotation, and provides a corresponding rotation signal for the communication module 5 according to the position change, the communication module 5 sends the rotation signal to a computer, and the computer switches among all operation options of the control menu according to the rotation signal;

and S5, pressing the upper cover 2 according to a preset second pressing time, detecting the pressing action and the second pressing time of the upper cover 1 by the key switch 4, providing a second pressing signal to the communication module 5 according to the second pressing action and the second pressing time, sending the second pressing signal to a computer by the communication module 5, selecting the currently switched operation option according to the second pressing signal by the computer, wherein the first pressing time and the second pressing time are different in time.

Further, the input method of the present invention further includes a step S6 of rotating the upper cover 2, wherein the photoelectric sensor 3 detects the rotation acting on the upper cover 2 and the position change of the upper cover 2 before and after the rotation, and accordingly provides a corresponding rotation signal to the communication module 5, and the communication module 5 sends the rotation signal to the computer to perform parameter adjustment on the selected operation options. For example, when the sound operation option is selected, the numerical value of the sound is adjusted by continuing to rotate the upper cover 2, and the numerical value of the sound is made larger or smaller according to the different rotation directions of the upper cover 2.

Preferably, the first pressing duration is greater than or equal to a preset pressing duration threshold, and the second pressing duration is less than the preset pressing duration threshold.

It should be noted that the preset control menu may be changed according to the current use state of the computer, for example, when the computer does not open any application program, the preset control menu is a system control menu, and the system control menu may include a volume control option and a brightness control option, etc.; when the computer opens the drawing software, the menu is controlled for the palette; and the control menu corresponding to each application program or use state can be set correspondingly according to the requirements of the user.

In summary, the present invention provides a shuttle mouse, including: the upper cover can rotate around an axis perpendicular to the base and can be pressed along an extending direction perpendicular to the axis of the base, the rotary action acting on the upper cover can be detected through the photoelectric sensor, corresponding rotary signals are generated according to position changes of the upper cover before and after rotation, the pressing action acting on the upper cover is detected through the key switch, corresponding first pressing signals or second pressing signals are generated according to different pressing time lengths, the rotary signals, the first pressing signals and the second pressing signals are sent to the computer through the communication module, the computer is controlled to call out a preset control menu through the first pressing signals, the computer is controlled to switch among operation options of the control menu through the rotary signals, the operation options in the control menu are selected through the second pressing signals, the common operation menus in the computer can be called and operated quickly, the design efficiency of aided design is improved, and computer experience is improved. The invention also provides an input method, which can quickly call and operate the common operation menu in the computer, improve the design efficiency of computer aided design and improve the user experience.

As described above, it is obvious to those skilled in the art that other various changes and modifications can be made based on the technical solution and the technical idea of the present invention, and all such changes and modifications should fall within the protection scope of the claims of the present invention.

Claims (10)

1. A flying shuttle mouse, comprising: the device comprises a base (1), an upper cover (2), a photoelectric sensor (3), a key switch (4) and a communication module (5);

the upper cover (2) is arranged on the base (1) and can rotate around an axis vertical to the base (1) and press along an extending direction vertical to the axis of the base (1); the photoelectric sensor (3), the key switch (4) and the communication module (5) are all arranged in a cavity defined by the base (1) and the upper cover (2), and the photoelectric sensor (3) and the key switch (4) are electrically connected with the communication module (5);

the photoelectric sensor (3) is used for detecting the rotation action acted on the upper cover (2) and generating a corresponding rotation signal according to the position change of the upper cover (2) before and after rotation;

the key switch (4) is used for detecting pressing action acting on the upper cover (2) and generating a corresponding first pressing signal or a corresponding second pressing signal according to different pressing time lengths;

the communication module (5) is used for sending a rotation signal, a first pressing signal and a second pressing signal to a computer, the first pressing signal is used for controlling the computer to call a preset control menu, the control menu comprises a plurality of operation options, the rotation signal is used for controlling the computer to switch among the operation options of the control menu, and the second pressing signal is used for selecting the operation options in the control menu.

2. The shuttle mouse of claim 1, further comprising: and the base (1) is fixedly connected with a printed circuit board (6), and the photoelectric sensor (3), the key switch (4) and the communication module (5) are arranged on the printed circuit board (6).

3. The shuttle mouse of claim 2, further comprising: a rotary drive mechanism (7), the rotary drive mechanism (7) comprising: perpendicular to base (1) and with printed circuit board (6) fixed connection's fixed axle (71), cover locate bearing (72) on fixed axle (71), with bearing (72) fixed connection's axle sleeve (73) and be located on axle sleeve (73) and with fixed axle (71) fixed connection's housing bolt (74), axle sleeve (73) with upper cover (2) fixed connection.

4. The shuttle mouse of claim 2, further comprising: the code matching switch (8) is arranged on the printed circuit board (6) and is electrically connected with the communication module (5);

code matching switch (8) and communication module (5) are all arranged printed circuit board (6) is close to one side surface of base (1), photoelectric sensor (3) and key switch (4) are all arranged printed circuit board (6) is far away from one side surface of base (1).

5. The shuttle mouse according to claim 4, wherein a key switch pressing plate (9) contacting with the key switch (4) is further installed on a surface of one side of the printed circuit board (6) far away from the base (1), the key switch pressing plate (9) is fixedly connected with the upper cover (2), and a code matching switch key (118) contacting with the code matching switch (8) through the base (1) is further arranged on the base (1).

6. The shuttle mouse of claim 1, further comprising: and the light guide column (10) is arranged in a cavity enclosed by the base (1) and the upper cover (2) and corresponds to the photoelectric sensor (3).

7. The flying shuttle mouse as claimed in claim 2, wherein said base (1) comprises: the battery pack comprises a middle cover (11), a battery box (12) arranged in the surface of one side, far away from the printed circuit board (6), of the middle cover (11), and a lower cover plate (13) arranged corresponding to the battery box (12), wherein the battery box (12) is electrically connected with the printed circuit board (6).

8. The flying shuttle mouse as claimed in claim 1, wherein a plurality of ribs (21) are formed on the outer side surface of the upper cover (2).

9. An input method, comprising the steps of:

step S1, providing a shuttle mouse, comprising: the device comprises a base (1), an upper cover (2), a photoelectric sensor (3), a key switch (4) and a communication module (5); the upper cover (2) is arranged on the base (1) and can rotate around an axis vertical to the base (1) and press along an extending direction vertical to the axis of the base (1); the photoelectric sensor (3), the key switch (4) and the communication module (5) are arranged in a cavity between the base (1) and the upper cover (2), and the photoelectric sensor (3) and the key switch (4) are electrically connected with the communication module (5);

s2, providing a computer, and establishing communication connection between the shuttle mouse and the computer through the communication module (5);

s3, pressing the upper cover (2) according to a preset first pressing time, wherein the key switch (4) detects the pressing action and the first pressing time of the upper cover (2) and provides a first pressing signal for the communication module (5) according to the first pressing action and the first pressing time, the communication module (5) sends the first pressing signal to a computer, the computer calls a preset control menu according to the first pressing signal, and the control menu comprises a plurality of operation options;

s4, rotating the upper cover (2), wherein the photoelectric sensor (3) detects the rotating action acting on the upper cover (2) and the position change of the upper cover (2) before and after rotation, and provides a corresponding rotating signal for the communication module (5) according to the rotating action and the position change, the communication module (5) sends the rotating signal to a computer, and the computer switches among all operation options of the control menu according to the rotating signal;

s5, pressing the upper cover (2) according to a preset second pressing duration, wherein the key switch (4) detects the pressing action of the upper cover (2) and the second pressing duration and provides a second pressing signal for the communication module (5) according to the second pressing duration, the communication module (5) sends the second pressing signal to a computer, the computer selects the operation option switched to at present according to the second pressing signal, and the durations of the first pressing duration and the second pressing duration are different.

10. The input method of claim 9, wherein the first press length is greater than or equal to a preset press length threshold and the second press length is less than a preset press length threshold.

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