CN210119759U - Tumbler gyroscope mouse - Google Patents

Abstract

The utility model discloses a tumbler gyroscope mouse belongs to digital product technical field, including upper cover and lower cover, the pressure sensors is installed to the top of upper cover, the internally mounted of upper cover has first mainboard, through first fixed screw fixed connection between first mainboard and the upper cover, first mainboard carries there are main control chip and the anodal shell fragment of battery. The gyroscope is the gyroscope of diaxon or the unipolar gyroscope that two mutually perpendicular placed, acceleration sensor is triaxial acceleration sensor, acceleration sensor is used for measuring the linear acceleration of controller body, pressure sensor, be responsible for collecting user's button data and feed back to the main control singlechip and handle, traditional mouse compares, neotype gyroscope mouse operation mode not falling is novel, alleviate hand fatigue, the bottommost end of lower cover has an iron plate as the focus of mouse, the principle of "tumbler" has been realized, let use mouse to become more interesting.

Description

Tumbler gyroscope mouse

Technical Field

The utility model belongs to the technical field of digital product, specifically be tumbler gyroscope mouse.

Background

The mouse, an input device of the computer, is also an indicator for the vertical and horizontal coordinate positioning of the computer display system, and is shaped like a mouse to obtain its name (mouse is used in the airport). The standard name is 'mouse', and the mouse is used for making the operation of the computer more convenient and faster to replace the complicated instructions of the keyboard.

The conventional mouse utilizes the principle of an optical sensor and a common micro-motion key to complete the normal functions of the mouse, and the conventional mouse can cause hand fatigue and lack of interestingness after being used for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the non-toppling gyroscope mouse aims to solve the problems that the normal functions of the mouse are completed by using a principle of adding an optical sensor and a common micro-motion key, the hand fatigue and the interestingness lack can be caused by long-time use of the traditional mouse, and the non-toppling gyroscope mouse is provided.

The utility model adopts the technical scheme as follows:

the utility model provides a do not fall gyroscope mouse, includes upper cover and lower cover, pressure sensors is installed to the top of upper cover, the internally mounted of upper cover has first mainboard, through first fixed screw fixed connection between first mainboard and the upper cover, first mainboard carries there is main control chip and the anodal shell fragment of battery, the below of first mainboard is provided with the second mainboard, pass through second fixed screw fixed connection between second mainboard and the first mainboard, the second mainboard carries there is acceleration sensor, battery negative pole bullet and gyroscope, be provided with the battery between anodal shell fragment of battery and the battery negative pole bullet, the inside of lower cover is provided with the iron plate, the iron plate spiro union in the upper cover, the lower cover is located the below of upper cover, first mainboard and the equal electric connection of second mainboard in the battery.

Wherein the upper surface of the pressure sensor is covered with an insulating film.

The lower cover is oval, the iron block is hemispherical, and the iron block is movably connected with the lower cover.

The battery is characterized in that the first main board and the second main board are arranged in a circular shape, holes are formed in the middle of the first main board and the middle of the second main board, and the diameter of each hole is larger than that of each battery.

Wherein, the below of insulating film is provided with the internal thread, the top of lower cover is provided with the external screw thread, the internal thread with the external screw thread looks adaptation.

And the middle of the first main board and the second main board is connected by using a flat pin and a flat cable.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses utilize gyroscope plus pressure sensor's principle to realize the mouse function, the gyroscope is the gyroscope of diaxon or the unipolar gyroscope that two mutually perpendicular placed, and acceleration sensor is triaxial acceleration sensor, and acceleration sensor is used for measuring the linear acceleration of controller body, and pressure sensor is responsible for collecting user's button data and feeds back to the main control singlechip and handles, compares traditional mouse, and neotype not fall gyroscope mouse operation mode is novel, alleviates hand fatigue.

2. The utility model discloses in, there is an iron plate as the focus of mouse bottom of lower cover, has realized the principle of "tumbler", lets use mouse to become more interesting

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an exploded view of the present invention;

fig. 3 is a schematic diagram of a first main board structure of the present invention;

fig. 4 is a schematic diagram of a structure of a second main board in the present invention.

The labels in the figure are: 1. an insulating film; 2. a pressure sensor; 3. an upper cover; 4. a battery positive electrode spring plate; 5. a main control chip; 6. a first main board; 7. a battery; 8. a first fixing screw; 9. a second fixing screw; 10. an acceleration sensor; 11. a second main board; 12. a gyroscope; 13. a battery negative electrode spring plate; 14. an iron block; 15. and (7) a lower cover.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 and fig. 2, a non-falling gyroscope mouse comprises an upper cover 3 and a lower cover 15, a pressure sensor 2 is mounted above the upper cover 3, a first main board 6 is mounted inside the upper cover 3, the first main board 6 and the upper cover 3 are fixedly connected through a first fixing screw 8, the first main board 6 is provided with a main control chip 5 and a battery anode elastic sheet 4, a second main board 11 is arranged below the first main board 6, the second main board 11 and the first main board 6 are fixedly connected through a second fixing screw 9, the second main board 11 is provided with an acceleration sensor 10, a battery cathode elastic sheet 13 and a gyroscope 12, a battery 7 is arranged between the battery anode elastic sheet 4 and the battery cathode elastic sheet 13, an iron block 14 is arranged inside the lower cover 15, the iron block 14 is screwed to the upper cover 3, the lower cover 15 is arranged below the upper cover 3, the first main board 6 and the second main board 11 are both electrically connected to the battery 7, insulating film 1's below is provided with the internal thread, and the top of lower cover 15 is provided with the external screw thread, internal thread and external screw thread looks adaptation, uses row needle and winding displacement to connect in the middle of first mainboard 6 and the second mainboard 11, and the upper surface of pressure sensors 2 covers there is insulating film 1, the utility model discloses when using, gyroscope 12 is the unipolar gyroscope combination that gyroscope or two mutually perpendicular placed of diaxon, and gyroscope 12's effect is the angular velocity of measurement controller body, and acceleration sensor 10 is triaxial acceleration sensor, and acceleration sensor 10 is used for measuring the linear acceleration of controller body, and pressure sensors 2 are responsible for collecting user's button data and feed back to main control singlechip and handle. Above components and parts all integrate on two PCBs, and the centre uses row needle and winding displacement to connect, and lower cover 15 sets up to the ellipse, and iron plate 14 sets up to the hemisphere, and iron plate 14 swing joint is in lower cover 15, and when the user fell mouse left or right side down, the cursor in the computer will move toward corresponding direction, can loosen the hand after removing appointed position, and mouse can automatic playback at this moment, resumes to the mode of "standing". The left, middle and right keys adopt film type pressure sensors, the left and right keys adopt a reverse identification mode, namely, when in a normal state, fingers of a person are placed on the left and right keys, the mouse does not have an output function, and when one finger is taken up, the pressure sensor can consider that the corresponding key has the output function. When the two fingers are released at the same time, the main control chip judges that no operation is available and does not output signals. The middle is a positive identification mode, and when a finger slides on the middle, a signal is output.

Referring to fig. 3 and 4, the first main board 6 and the second main board 11 are both arranged in a circular shape, a hole is formed in the middle of the first main board 6 and the second main board 11, and the diameter of the hole is larger than that of the battery 7, so that the battery can be replaced conveniently.

The working principle is as follows: the utility model discloses when using, gyroscope 12 is the gyroscope of diaxon or the unipolar gyroscope combination that two mutually perpendicular placed, and gyroscope 12's effect is the angular velocity of measurement controller body, and acceleration sensor 10 is triaxial acceleration sensor, and acceleration sensor 10 is used for measuring the linear acceleration of controller body, and pressure sensor 2 is responsible for collecting user's button data and feeds back to the main control singlechip and handles. Above components and parts all integrate on two PCBs, and the centre uses row needle and winding displacement to connect, and lower cover 15 sets up to the ellipse, and iron plate 14 sets up to the hemisphere, and iron plate 14 swing joint is in lower cover 15, and when the user fell mouse left or right side down, the cursor in the computer will move toward corresponding direction, can loosen the hand after removing appointed position, and mouse can automatic playback at this moment, resumes to the mode of "standing". The left, middle and right keys adopt film type pressure sensors, the left and right keys adopt a reverse identification mode, namely, when in a normal state, fingers of a person are placed on the left and right keys, the mouse does not have an output function, and when one finger is taken up, the pressure sensor can consider that the corresponding key has the output function. When the two fingers are released at the same time, the main control chip judges that no operation is available and does not output signals. The middle is a positive identification mode, and when a finger slides on the middle, a signal is output.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a tumbler gyroscope mouse, includes upper cover (3) and lower cover (15), its characterized in that: a pressure sensor (2) is installed above the upper cover (3), a first main board (6) is installed inside the upper cover (3), the first main board (6) and the upper cover (3) are fixedly connected through a first fixing screw (8), a main control chip (5) and a battery anode elastic sheet (4) are installed on the first main board (6), a second main board (11) is arranged below the first main board (6), the second main board (11) and the first main board (6) are fixedly connected through a second fixing screw (9), an acceleration sensor (10), a battery cathode elastic sheet (13) and a gyroscope (12) are installed on the second main board (11), a battery (7) is arranged between the battery anode elastic sheet (4) and the battery cathode elastic sheet (13), an iron block (14) is arranged inside the lower cover (15), and the iron block (14) is screwed on the upper cover (3), the lower cover (15) is located below the upper cover (3), and the first main board (6) and the second main board (11) are both electrically connected to the battery (7).

2. The tumble gyroscope mouse according to claim 1, characterized in that: the upper surface of the pressure sensor (2) is covered with an insulating film (1).

3. The tumble gyroscope mouse according to claim 1, characterized in that: the lower cover (15) is oval, the iron block (14) is hemispherical, and the iron block (14) is movably connected with the lower cover (15).

4. The tumble gyroscope mouse according to claim 1, characterized in that: the setting of first mainboard (6) and second mainboard (11) all sets up to circular, the hole has all been seted up to the centre of first mainboard (6) and second mainboard (11), the hole diameter is greater than the diameter of battery (7).

5. The tumble gyroscope mouse according to claim 1, characterized in that: an internal thread is arranged below the insulating film (1), an external thread is arranged above the lower cover (15), and the internal thread is matched with the external thread.

6. The tumble gyroscope mouse according to claim 1, characterized in that: the middle of the first main board (6) and the second main board (11) is connected by a pin header and a flat cable.

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