CN102541291A - Wearable mouse - Google Patents

Abstract

The invention discloses a wearable mouse comprising a mouse body and a circuit module arranged in the mouse body, wherein the mouse body is used for fixing the mouse on a hand of a user; the mouse body comprises a fixing part, an accommodating part arranged on the fixing part as well as a first ring, a second ring and a third ring which are electrically connected to the circuit module; the mouse body is fixed on the palm of the user through the fixing part; the accommodating part is used for accommodating the circuit module; the first ring is lifted upwards and matched with the circuit module to realize a first function; the second ring is lifted upwards and matched with the circuit module to realize a second function; the first ring is lifted upwards and the third ring is actuated to do horizontal motion far away from the first ring to realize a third function; and the first ring is lifted upwards and the third ring is actuated to do horizontal motion near the first ring to realize a fourth function.

Description

The Wearable mouse

Technical field

The present invention relates to a kind of mouse, relate in particular to a kind of Wearable mouse.

Background technology

The peripheral hardware input media of computer such as mouse, keyboard in the use of computer, plays an important role.Existing mouse is positioned on the desktop usually, is connected to main frame through data line, moves to the menu precalculated position through the cursor on the whole control of the rolling mouse screen, and through the button on the mouse and roller input instruction with the main control system execution work.Yet in the use of these existing mouses, the user generally needs rolling mouse on operator's console constantly, uses comparatively inconvenience, and because of the friction of mouse and operator's console mouse is caused wearing and tearing easily.

Summary of the invention

In view of above content, be necessary to provide a kind of convenient mouse that uses.

A kind of Wearable mouse; Comprise mouse body and the circuit module of being located in the mouse body; Mouse body is in order to being fixed in the user on hand with this mouse, first finger ring, second finger ring and the 3rd finger ring that this mouse body comprises fixed part, is installed in the resettlement section on the fixed part and is electrically connected to circuit module, and mouse body is fixed on user's the palm through fixed part; Said circuit module is accommodated in the resettlement section, on lift the first finger ring mating circuit module and realize one first function; On lift the second finger ring mating circuit module and realize one second function; On lift first finger ring and start the 3rd finger ring is realized one the 3rd function away from the first finger ring tangential movement; On lift first finger ring and start the 3rd finger ring is realized one the 4th function near the first finger ring tangential movement.

Above-mentioned Wearable mouse is worn on user's the palm, and the user need not on operator's console repeatedly rolling mouse.In addition, the motion that this Wearable MouseAcross is crossed finger can realize the conventional func of mouse, and need not to be provided with physical button, uses more convenient and the saving manufacturing cost.

Description of drawings

Fig. 1 is that embodiment of the present invention Wearable mouse is worn on the synoptic diagram on the staff.

Fig. 2 is the synoptic diagram that embodiment of the present invention Wearable mouse is worn on another visual angle on the staff.

Fig. 3 is dressing the operation chart that Wearable mouse shown in Figure 1 uses keyboard.

Fig. 4 is the operation chart that Wearable mouse shown in Figure 1 is realized the roller function of existing mouse.

Fig. 5 is the left button function operations synoptic diagram that Wearable mouse shown in Figure 1 is realized existing mouse.

Fig. 6 is the operation chart that Wearable mouse shown in Figure 1 is realized the right button function of existing mouse.

Fig. 7 is the operation chart that Wearable mouse shown in Figure 1 is realized the picture enlarging function.

Fig. 8 is the operation chart that Wearable mouse shown in Figure 1 is realized the picture reduction capability.

Fig. 9 is the circuit module figure of Wearable mouse of the present invention.

The main element symbol description

The Wearable mouse	100
		Mouse body	10
Fixed part	11
		The resettlement section	12
Accommodation bag	121
		Web joint	122
Trackpad	123
		First finger ring	13
Second finger ring	14
		The 3rd finger ring	15
Circuit module	30
		Signal processor	31
The location sensing module	33
		X axle alignment sensor	331
Y axle alignment sensor	333
		The feature operation module	35
First acceleration transducer	351
		Second acceleration transducer	352
The 3rd acceleration transducer	353
		Radio receiving transmitting module	37
Switch	38
		Power supply unit	39
Keyboard	300
		Main frame	500

Embodiment

Please refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 9; Wearable mouse 100 of the present invention comprises mouse body 10 and the circuit module of being located in the mouse body 10 30; The wearable hand motion through the user on hand in the user of mouse body 10 is to the computer input instruction; Circuit module 30 foundation are communicated by letter with main frame 500, and cooperate to realize each item traditional function of Wearable mouse 100 with mouse body 10.In addition, the user wearable use keyboard 300 this Wearable mouse 100 time, need not switching between mouse and keyboard 300 repeatedly.

Mouse body 10 comprises fixed part 11, be connected in resettlement section 12 on the fixed part 11, first finger ring 13, second finger ring 14 and the 3rd finger ring 15.Fixed part 11, first finger ring 13, second finger ring 14 and the 3rd finger ring 15 are in order on the palm and finger that this Wearable mouse 100 are fixed in the user.Resettlement section 12 is fixed on the fixed part 11, and accommodates circuit module 30 in it.First finger ring 13, second finger ring 14 and the 3rd finger ring 15 all are electrically connected to the circuit module 30 that is contained in the resettlement section 12 through connecting line 16, realize each item traditional function of Wearable mouses 100 with mating circuit module 30.

Please consult Fig. 4 in the lump, 11 one-tenth annulus of fixed part are banded, adopt resilient material to process, be sheathed on user's the palm, but and its elasticity of mat to adapt to the palm of different size.Resettlement section 12 dismountable outside surfaces that are fixed in fixed part 11 comprise an accommodation bag 121 and the web joint 122 that extends accommodation bag 121 1 ends.Accommodation bag 121 is accommodated circuit module 30 in its inside.Installing one is electrically connected to the Trackpad 123 of circuit module 30 on the web joint 122, realizes being equivalent to the roller function of existing mouse in order to mating circuit module 30.Concrete operations are: utilize thumb on Trackpad 123, to reciprocatingly slide, can realize the rolling of the page.

Please consult Fig. 5-8 in the lump; First finger ring 13, second finger ring 14 and the 3rd finger ring 15 all roughly are the annulus band shape; The employing resilient material is processed; Also but its elasticity of mat can be sheathed on respectively on the finger to adapt to the finger of different size, realizes each item function of Wearable mouse 100 to realize respectively or to cooperatively interact.In preferred embodiments of the present invention; This first finger ring 13 is sheathed on the forefinger, and second finger ring 14 is sheathed on the middle finger, and the 3rd finger ring 15 is sheathed on the thumb; And mating circuit module 30 can realize following function: when forefinger drives when lifting on first finger ring 13; Realization is equivalent to the function of pressing left button of existing mouse, and forefinger drives first finger ring 13 and puts down, and realization is equivalent to the function of the release left button of existing mouse; When middle finger drives when lifting on second finger ring 14, realize being equivalent to the function of pressing right button of existing mouse, middle finger drives the function that second finger ring 14 puts down the release right button of then realizing being equivalent to existing mouse; Lift when forefinger drives on first finger ring 13, and thumb drive the 3rd finger ring 15 by near first finger ring, 13 places to away from the motion of the direction of first finger ring 13 time, realize the function that picture selected is amplified; Otherwise, lift when forefinger drives on first finger ring 13, and thumb drives the 3rd finger ring 15 when moving near the direction of first finger ring 13, the function that picture selected is dwindled in realization.

Please consult Fig. 9 in the lump; Circuit module 30 comprises signal processor 31, location sensing module 33, feature operation module 35 and radio receiving transmitting module 37; Signal processor 31 all connects with location sensing module 33, feature operation module 35 and radio receiving transmitting module 37; Convert a control signal in order to will locate the operation signal that positioning signal that sensing module 33 send and feature operation module 35 send; To be sent to main frame 500, make main frame 500 realize the operation of Wearable mouse 100 according to the control signal that receives through radio receiving transmitting module 37.

Signal processor 31 is in order to realizing the analog to digital conversion of signal, and the digital signal after will changing is integrated into a control signal and is sent to main frame 500 through radio receiving transmitting module 37.In embodiment of the present invention; If location sensing module 33 is simulating signal with the signal that feature operation module 35 is sent; After then this signal processor 31 becomes digital signal with the analog signal conversion that receives, be encoded into a control signal again and be sent to main frame 500.

Location sensing module 33 is arranged at the end of resettlement section 12 away from Trackpad 123, and in order to detect moving of Wearable mouse 100, it comprises X axle alignment sensor 331 and the Y axle alignment sensor 333 vertical with the X axle.X axle alignment sensor 331 is in order to detect Wearable mouse 100 in the displacement component of directions X, and Y axle alignment sensor 333 is in order to detect Wearable mouse 100 in the displacement component of Y direction.In embodiment of the present invention, this X axle alignment sensor 331 is the optical alignment sensor with Y axle alignment sensor 333, and the displacement signal of output is a simulating signal, and through transferring to signal processor 31 after the operations such as filtering and amplification.

Feature operation module 35 comprises first acceleration transducer 351, second acceleration transducer 352 and the 3rd acceleration transducer 353, realizes the instruction of the conventional func of Wearable mouse 100 in order to input.In embodiment of the present invention; This first acceleration transducer 351, second acceleration transducer 352 and the 3rd acceleration transducer 353 are arranged at respectively on first finger ring 13, second finger ring 14 and the 3rd finger ring 15; And, be sent to main frame 500 by signal processor 31 and radio receiving transmitting module 37 again in order to detect the acceleration of corresponding finger ring respectively.This first acceleration, second acceleration and the 3rd acceleration include the component of X, Y, three directions of Z (all vertical with directions X and Y direction); Main frame 500 promptly according to first acceleration, second acceleration and the 3rd acceleration that receive in the component of X, Y, Z direction, judge and carry out the feature operation of instruction correspondence of the transmission of Wearable mouse 100.In embodiment of the present invention, this first acceleration transducer 351, second acceleration transducer 352 and the 3rd acceleration transducer 353 are the acceleration of gravity sensor, and the signal of output is digital signal.

Radio receiving transmitting module 37 is an antenna, is sent to main frame 500 or passes the signal of main frame 500 feedbacks back this Wearable mouse 100 in order to the signal that this Wearable mouse 100 is sent, and realization Wearable mouse 100 is communicated by letter with main frame 500.

In embodiment of the present invention, this circuit module 30 comprises that also a contiguous Trackpad 123 is arranged at the switch 38 on the web joint 122, in order to open or to close this circuit module 30, opens or close this Wearable mouse 100 accordingly.

In embodiment of the present invention, this circuit module 30 also comprises a power supply unit 39, in order to this circuit module 30 is supplied power.This power supply unit 39 can be rechargeable batteries such as a lithium battery.

Main frame 500 is an existing main frame, the digital signal that its receiving circuit module 30 sends, and to realizing a certain feature operation of mouse by signal.In embodiment of the present invention; In the control signal that main frame 500 receives; Comprise that Wearable mouse 100 that corresponding location sensing module 33 records is when the displacement component of X axle and Y axle; Main frame 500 will according to this Wearable mouse 100 on X axle and Y axle displacement component and cursor is carried out corresponding moving on screen, thereby realize being equivalent to the function that the control cursor of existing mouse moves.When comprise in the control signal that main frame 500 receives that corresponding first acceleration transducer 351 records in the acceleration of+Z-direction the time; Main frame 500 is with the function of pressing left button that realizes being equivalent to existing mouse; Detect that first acceleration transducer 351 records when the acceleration of-Z-direction, main frame 500 is with the function of the release left button of realizing being equivalent to existing mouse.When comprise in the control signal that main frame 500 receives that corresponding second acceleration transducer 352 records in the acceleration of+Z-direction the time; Main frame 500 will realize being equivalent to the function of pressing right button of existing mouse; Receive that corresponding second acceleration transducer 352 records when the acceleration of-Z-direction, main frame 500 is with the function of the release right button of realizing being equivalent to existing mouse.Comprise in the control signal that main frame 500 receives that first acceleration transducer 351 records in the acceleration of+Z-direction; Receive also simultaneously that the 3rd acceleration transducer 353 records when the acceleration of-X-direction (away from the direction of first acceleration transducer 351), main frame 500 will be realized function that picture selected is amplified.Comprise in the control signal that main frame 500 receives that first acceleration transducer 351 records in the acceleration of+Z-direction; Receive also simultaneously that the 3rd acceleration transducer 353 records when the acceleration of+X-direction (towards the direction of first acceleration transducer 351), main frame 500 will be realized function that picture selected is dwindled.

On the Wearable mouse 100 of the present invention, the palm that is fixed in the user through mouse body 10 and finger, the user need not on operator's console repeatedly rolling mouse.In addition, this Wearable mouse 100, it utilizes the motion of acceleration transducer sensing finger to realize being equivalent to each item function of existing mouse, and need not to be provided with physical button, uses more convenient and the saving manufacturing cost.

Claims (11)

1. Wearable mouse; Comprise mouse body and the circuit module of being located in the mouse body; It is characterized in that: mouse body is in order to be fixed in the user on hand with this mouse; First finger ring, second finger ring and the 3rd finger ring that this mouse body comprises fixed part, is installed in the resettlement section on the fixed part and is electrically connected to circuit module; Mouse body is fixed in through fixed part on user's the palm, and said circuit module is accommodated in the resettlement section, on lift the first finger ring mating circuit module and realize one first function; On lift the second finger ring mating circuit module and realize one second function; On lift first finger ring and start the 3rd finger ring is realized one the 3rd function away from the first finger ring tangential movement; On lift first finger ring and start the 3rd finger ring is realized one the 4th function near the first finger ring tangential movement.

2. Wearable mouse as claimed in claim 1; It is characterized in that: said first function is equivalent to the function of pressing left button of existing mouse; Second function is equivalent to the function of pressing right button of existing mouse; Its 3rd function is equivalent to the picture enlarging function, and the 4th function is equivalent to the picture reduction capability.

3. Wearable mouse as claimed in claim 1 is characterized in that: said fixed part adopts resilient material to process.

4. Wearable mouse as claimed in claim 1 is characterized in that: said first finger ring, second finger ring and the 3rd finger ring all adopt resilient material to process.

5. Wearable mouse as claimed in claim 1 is characterized in that: said fixed part be provided with one be electrically connected to circuit module Trackpad, realize being equivalent to the roller function of existing mouse in order to the mating circuit module.

6. Wearable mouse as claimed in claim 1; It is characterized in that: said circuit module comprises the location sensing module of being located on the resettlement section; In order to the displacement of sensing mouse, and this displacement is sent to main frame, controls cursor with the displacement of corresponding mouse and move.

7. Wearable mouse as claimed in claim 6 is characterized in that: said location sensing module is the optical alignment sensor.

8. Wearable mouse as claimed in claim 6; It is characterized in that: said circuit module also comprises the feature operation module; The feature operation module comprises first acceleration transducer be located on first finger ring, is located at second acceleration transducer on second finger ring and is located at the 3rd acceleration transducer on the 3rd finger ring; Whether first acceleration transducer is lifted in order to detect first finger ring; Whether second acceleration transducer is lifted in order to detect second finger ring, and the 3rd acceleration transducer is in order to detect the 3rd finger ring whether near first finger ring or away from the direction tangential movement of finger ring.

9. Wearable mouse as claimed in claim 8 is characterized in that: said first acceleration transducer, second acceleration transducer and the 3rd acceleration transducer are the acceleration of gravity sensor.

10. Wearable mouse as claimed in claim 8; It is characterized in that: said circuit module also comprises being electrically connected to locatees sensing module and feature operation module by signal processor; Become a control signal in order to will locate sensing module with the conversion of signals that the feature operation module records; Be sent to main frame, main frame can be realized each item function through this control signal.

11. Wearable mouse as claimed in claim 10 is characterized in that: said circuit module also comprises the radio receiving transmitting module that is connected to signal processing module, mouse and main frame are set up communication through this radio receiving transmitting module.

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