CN108628471A - Mouse - Google Patents

Abstract

The present invention relates to a kind of mouses, including shell, the first sensing module, the second sensing module and handover module.There is shell opening in shell, the first sensing module and the second sensing module to be all set on handover module, and part is revealed in except opening in shell.By the first sensing module or the second sensing module that are revealed in except opening in shell is stirred, make the switching cylinder of handover module relative to housing into rotation, and the movement resolution of mouse can be switched in response to demand.Handover module is formed by simple mechanical structure, can be by simply running the effect of reaching the movement resolution for changing mouse.

Description

Mouse

Technical field

The present invention relates to the mouses that a kind of input equipment more particularly to controllable cursor move.

Background technology

Common computer peripheral equipment input equipment includes mouse, keyboard and trace ball etc., wherein since mouse can be by user The movement that cursor is controlled with palm grip meets the operating habit of big number user, therefore mouse becomes most common input Equipment.

Illustrate the structure and function of existing mouse first, referring to Fig. 1, it is connected to the knot of computer system for existing mouse Structure schematic diagram.Computer system 2 include host computer 21 and computer screen 22, host computer 21 be connected to mouse 1 and Computer screen 22, and host computer 21 has a port 211, computer screen 22 can display window 221 and cursor 222 in wherein. The function of mouse 1 is can control cursor 222 in response to the operation of user so that and host computer 21 can perform corresponding instruction, And mouse 1 includes ontology 10, left button 11, right button 12, idler wheel 13 and connecting line 14.Left button 11 is set on ontology 10 and is located at The left side of idler wheel 13, left button 11 are revealed in except ontology 10, and can be pressed by user and be generated left button signal.12 class of right button It is similar to left button 11, right button 12 is set to the right side on ontology 10 and positioned at idler wheel 13, and right button 12 is also revealed in except ontology 10, And it can be pressed by user and generate right button signal.Idler wheel 13 is set in ontology 10 and part is revealed in except ontology 10, It can be stirred and rotate by user, to generate scrolling signal.Connecting line 14 is set to ontology 10 and is stretched out outward by ontology 10, Function is to be connected to port 211, to establish the connection relation between mouse 1 and computer system 2.

The internal structure of existing mouse will be illustrated next.Referring to Fig. 2, it is the structural profile illustration of existing mouse. In mouse 1, ontology 10 is positioned on working face T, and main circuit board 15, sensing module 16 and control have been further included inside mouse 1 Unit 17 processed.Sensing module 16 is set on main circuit board 15 and part is revealed in except the bottom opening 101 of ontology 10, work( Can export a displacement signal for the movement of detection body 10, sensing module 16 include light-emitting component 161, optical mirror slip 162 with And optical sensing elements 163.Light-emitting component 161 is set on main circuit board 15, and function is to generate light beam B.Optical mirror slip 162 Be set in ontology 30, function be for light beam B by and so that light beam B is reflected, with projecting beam B under ontology 10 On the working face T of side.And the function of optical sensing elements 163 is then to receive by the working face T light beam B reflected and according to light beam B And generate displacement signal.Control unit 17 is set on main circuit board 15 and is electrically connected at optical sensing elements 163.

Simple declaration generates the operation situation of displacement signal.When mouse 1 is when un-shifted on working face T, light-emitting component 161 generate light beam B, and light beam B is refracted by optical mirror slip 162 so that light beam B is projected on working face T.It connects down Come, light beam B is reflected by working face T and is again introduced into optical mirror slip 162, by the light beam B of optical mirror slip 162 by optical sensing member Part 163 receives, at this point, optical sensing elements 163 generate the first working face image.Next, when user moves up in working face T When dynamic mouse 1 to a certain position, light beam B is by optical mirror slip 162, working face T and optical frames caused by light-emitting component 161 The path of piece 162 and received by optical sensing elements 163, and optical sensing elements 163 generate the second working face image.

Next, control unit 17 receives the first working face image and the second work from optical sensing elements 163 Face picture, and compare the difference of the first working face image and the second working face image and obtain ontology 10 on working face T Displacement, and generate the displacement signal corresponding to the displacement.That is, when user is in mobile mouse 1 on working face T When, 16 detection body 10 of displacement sensing device generates displacement signal in the displacement on working face T, and according to the displacement. After host computer 21 receives displacement signal, host computer 21 can be according to the displacement signal and in removable computer screen 22 Cursor 222.

In response to the development of mouse, the function of mouse is increasingly strengthened, such as the movement resolution of mouse is substantially improved.Mouse Mouse a distance is often moved in movement resolution representative, and the sensitivity that the cursor of host computer is moved, movement resolution is bigger, The sensitivity of its cursor movement is bigger.When user carries out computer game, need to fast move mouse, therefore mouse needs high movement Resolution ratio；And when user only needs to carry out word processing, mouse only needs low movement resolution.In order to avoid user must constantly more Suitable mouse is changed, a kind of mouse of modifiable movement resolution is provided on the market, there is such mouse a switching to switch, work( It can be to be pressed the movement resolution for changing mouse by user.For example, when user touches toggle switch one time, this mouse Target movement resolution can be changed, such as be changed to 1600dpi by 800dpi (Dots Per Inch).And work as user again When touching toggle switch one time, the movement resolution of this mouse is then changed to 800dpi by 1600dpi.Thus, it can be known that this mouse Movement resolution can be changed in response to different service conditions.

However, although this mouse changes movement resolution, various working faces can not be suitable for, such as：Transparent material Working face made by material (such as acryl) can cause penetrating for light beam, and reduce the reflection of light beam, therefore will influence displacement letter Number generation.

Therefore, it is necessary to a kind of modifiable movement resolution and it is applicable to the mouses of a variety of working faces.

Invention content

The purpose of the present invention is to provide a kind of modifiable movement resolution and it is applicable to the mouses of a variety of working faces.

In a preferred embodiment, the present invention provides a kind of mouse, is connected to a computer system and to control the computer The movement of one cursor of system, the mouse include a shell, a handover module, a main circuit board, one first sensing module and One second sensing module.The shell includes an opening in shell and a supporting rack, which is set to a bottom of the shell Portion and the bottom for running through the shell, and the supporting rack is set on the bottom of the shell and is located in the shell.The switching Module is set to the top on the supporting rack and positioned at the opening in shell, can be relative to the housing into rotation, and the main circuit board is set It is placed in the shell and is electrically connected at the handover module.First sensing module is set to one first side of the handover module On, and can because should handover module rotation due to part be revealed in except the opening in shell.Second sensing module is set to this In one the second side of handover module, and can because should handover module rotation due to part be revealed in except the opening in shell.Wherein, The handover module can be in response to first sensing module or second sensing module being revealed in except the opening in shell, and switching should The movement resolution of mouse.

In short, user can control different sensing modules and be revealed in except opening in shell according to demand, with selection Suitable movement resolution.Wherein, the handover module in mouse by mechanical structure operation coordinate simple detecting element and Control unit and act, therefore mouse of the present invention have the advantages that it is simple in structure and of low cost.In addition, due to the first sensing mould Block, the second sensing module and third sensing module are respectively different types of sensing module, thus its be respectively suitable for it is not of the same race The working face of class, therefore, other than movement resolution, user also can select suitable sensing module according to demand, make this Invention mouse can be run on suitable working face.In other words, mouse of the present invention not only changes movement resolution, also can be in more It is run on kind working face.

Description of the drawings

Fig. 1 is the structural schematic diagram that existing mouse is connected to computer system.

Fig. 2 is the structural profile illustration of existing mouse.

Fig. 3 is structural decomposition diagram of the mouse of the present invention in a preferred embodiment.

Fig. 4 is the partial structurtes decomposition diagram at mouse of the present invention another visual angle in a preferred embodiment.

Fig. 5 is partial structural diagram of the mouse of the present invention in a preferred embodiment.

Fig. 6 is structural profile illustration of the mouse of the present invention in a preferred embodiment.

Fig. 7 is the partial structural diagram that the handover module of mouse of the present invention is run in a preferred embodiment.

Wherein, the reference numerals are as follows：

1,3 mouse

2 computer systems

10 ontologies

11 left buttons

12 right buttons

13 idler wheels

14 connecting lines

15,31 main circuit board

16 sensing modules

17,355 control unit

21 host computers

22 computer screens

30 shells

32 first sensing modules

33 second sensing modules

34 second sensing modules

35 handover modules

36 operation modules

161 light-emitting components

162 optical mirror slips

163 optical sensing elements

211 ports

221 windows

222 cursors

The bottom of 300 shells

301 opening in shell

302 supporting racks

321 first light-emitting components

322 first optical mirror slips

323 first optical sensing elements

324 first circuit boards

325 first lids

332 second optical mirror slips

333 second optical sensing elements

334 second circuit boards

335 second lids

342 third optical mirror slips

343 third optical sensing elements

344 tertiary circuit plates

345 third lids

351 switching cylinders

352 fixed seats

353 rotating elements

354 detecting elements

3021 first support columns

3022 second support columns

3251 first trepannings

3351 second trepannings

3451 third trepannings

The first end of 3511 switching cylinders

The second end of 3512 switching cylinders

The first surface of 3513 switching cylinders

The second surface of 3514 switching cylinders

The third surface of 3515 switching cylinders

3521 main bodys

3522 interconnecting pieces

3523 fixing grooves

3531 first plates

3532 second plates

B light beams

The first light beams of B1

The first rotation directions of C1

T working faces

Specific implementation mode

In view of the puzzlement caused by the prior art, the present invention provides a kind of mouse solving prior art problem.First The structure for illustrating mouse of the present invention, please refer to Fig. 3, Fig. 4 and Fig. 5, Fig. 3 is mouse of the present invention in a preferred embodiment Structural decomposition diagram, Fig. 4 be mouse of the present invention another visual angle in a preferred embodiment partial structurtes decomposition diagram, And Fig. 5 is partial structural diagram of the mouse of the present invention in a preferred embodiment.Mouse 3 is connected to computer system and (does not show In figure) and the cursor (not shown in the figures) of controllable computer system movement, mouse 3 include shell 30, main circuit board 31, First sensing module 32, the second sensing module 33, third sensing module 34, handover module 35 and operation module 36.Shell 30 Including opening in shell 301 and supporting rack 302, opening in shell 301 is set to the bottom 300 of shell 30 and the bottom through shell 30 Portion 300, and supporting rack 302 is set on the bottom 300 of shell 30 and is located in shell 30.Wherein, supporting rack 302 includes first Support column 3021 and the second support column 3022, the first support column 3021 are set on the bottom 300 of shell 30, and are located at shell The side of trepanning 301.And the second support column 3022 is set on the bottom 300 of shell 30, and positioned at the another of opening in shell 301 Side.Handover module 35 is set to the top on supporting rack 302 and positioned at opening in shell 301, can be rotated relative to shell 30, and Main circuit board 31 is also set in shell 30 and is electrically connected at handover module 35.Operation module 36 include left button, right button and The related elements such as idler wheel, those elements are set on main circuit board 31, and its structure is as described in the prior art, and so it will not be repeated. In this preferred embodiment, main circuit board 31 is printed circuit board (PCB).

First sensing module 32 is set on the first side of handover module 35, and can in response to handover module 35 rotation and portion Part is revealed in except opening in shell 301.Similar to the first sensing module 32, the second sensing module 33 is set to handover module 35 In the second side, and it can be partly revealed in except opening in shell 301 in response to the rotation of handover module 35, and third sensing module 34 Be set on the third side of handover module 35, and can in response to handover module 35 rotation and part be revealed in opening in shell 301 it Outside.In short, handover module 35 can be in response to the first sensing module 32, the second sensing module being revealed in except opening in shell 301 33 or third sensing module 34, and switch the movement resolution of mouse 3.It, will be detailed in back segment as the operation of handover module 35 Explanation.

Please continue to refer to Fig. 3, Fig. 4 and Fig. 5, handover module 35 includes switching cylinder 351, fixed seat 352, rotating element 353, detecting element 354 and control unit 355.Switching cylinder 351 is set in shell 30 and positioned at the upper of opening in shell 301 Side, and can be rotated relative to shell 30 in response to stirring for user.Fixed seat 352 is fixed in second of supporting rack 302 On dagger 3022, fixed seat 352 includes main body 3521 and interconnecting piece 3522, and main body 3521 has fixing groove 3523, wherein the Two support columns 3022 pass through fixing groove 3523, and are arranged fixed seat 352 on the second support column 3022.Interconnecting piece 3522 is connected to Main body 3521 may connect to rotating element 353, and fix rotating element 353 in fixed seat 352.

By Fig. 3 and Fig. 5 it is found that the first end 3511 of switching cylinder 351 passes through the first support column 3021, and fixed seat 352 are sheathed on the second support column 3022, and switching cylinder 351 is enable to be fixed in shell 30 and can be 30 turns relative to shell It is dynamic.

Rotating element 353 is connected to switching cylinder 351 and fixed seat 352, can be switched cylinder 351 and drive and turn Dynamic, rotating element 353 includes the first plates 3531 and the second plates 3532.First plates 3531 are connected to interconnecting piece 3522, and the second plates 3532 are then fixed in the second end 3512 of switching cylinder 351 and can be relative to the first plates 3531 rotations.Wherein, when switching cylinder 351 is rotated relative to shell 30, the second end 3512 of switching cylinder 351 drives second Plates 3532 are rotated relative to the first plates 3531.In this preferred embodiment, rotating element 353 is hinge (Hinge) Structure, and the second plates 3532 are restricted to that only about 180 degree can be rotated relative to the first plates 3531.

Detecting element 354 is set on main circuit board 31, and can be with switching cylinder 351 positioned at one end of main circuit board 31 First end 3511 connect, function be the rotary state that detection switches cylinder 351, and exports corresponding detection signal.Its In, the first end 3511 of switching cylinder 351 passes through the first support column 3021 and is inserted into detecting element 354, switches cylinder 351 First end 3511 in the detecting element 354 rotation and be able to be detected element 354 and detected.Control unit 355 is set to master On circuit board 31 and it is electrically connected at detecting element 354, the first sensing module 32, the second sensing module 33 and third sensing mould Block 34 can control the first sensing module 32, the second sensing module 33 and third sense in response to received detection signal Survey the operating status of module 34.Wherein, the acquiescence of control unit 355 has first state value, the second state value and third state value, When control unit 355 receives the detection signal corresponding to first state value, control unit 355 can according to first state value and Control the first sensing module 32, the operating status of the second sensing module 33 and third sensing module 34.In this preferred embodiment In, detecting element 354 is encoder.

The first sensing module 32, the structure of the second sensing module 33 and third sensing module 34 will be illustrated next.It please be same When refering to Fig. 3, Fig. 4 and Fig. 6, Fig. 6 is structural profile illustration of the mouse of the present invention in a preferred embodiment.First sensing Module 32 include the first light-emitting component 321, the first optical lens 322, the first optical sensing elements 323, first circuit board 324 with And first lid 325, the second sensing module 33 include the second light-emitting component (not shown in the figures), the second optical lens 332, the Two optical sensing elements 333, second circuit board 334 and the second lid 335, and third sensing module 34 includes the luminous member of third Part (not shown in the figures), third optical lens 342, third optical sensing elements 343, tertiary circuit plate 344 and third lid Body 345.Fig. 6 shows that the detailed construction of the first sensing module 32, first circuit board 324 are set to the first of switching cylinder 351 On surface 3513, the first lid 325 is covered in first circuit board 324 and is fixed on first circuit board 324, the first lid 325 have the first trepanning 3251.First light-emitting component 321 is set on first circuit board 324 and is electrically connected at control unit 355, function is to generate the first light beam B1.First optical lens 322 is set on the first lid 325 and is revealed in the first trepanning Except 3251, so that the first light beam B1 is passed through.First optical sensing elements 323 are set on first circuit board 324 and electrically connect It is connected to control unit 355, can receive the first light beam B1 by the first optical lens 322, and generates working face image.

Specifically have two, first, first circuit board 324 can be by the various combinations such as hot melt, screw closure And it is set on the first surface 3513 of switching cylinder 351；And the first lid 325 can also be fixed on by various combinations On one circuit board 324, in other words, each element in the first sensing module 32 can first be combined as a whole, then pass through first circuit board 324 and switch cylinder 351 combination and be arranged the first sensing module 32 in switching cylinder 351 first surface 3513 on.Second, Similar to the first lid 325, there is the second trepanning 3351 on the second lid 335, and there is third trepanning on third lid 345 3451, the structure of the second lid 335 and third lid 345 is identical as the first lid 325, and so it will not be repeated.

It is all identical as the first sensing module 32 as the structure of the second sensing module 33 and third sensing module 34, no Have two with place：The second circuit board 334 of the first, the second sensing module 33 is set to the second surface 3514 of switching cylinder 351 On, and the tertiary circuit plate 344 of third sensing module 34 is then set on the third surface 3515 of switching cylinder 351.The second, the First light-emitting component 321 of one sensing module 32 uses visible light light-emitting component, the second light-emitting component of the second sensing module 33 Using black light light-emitting component, and the third light-emitting component of third sensing module 34 is then laser (Laser) light-emitting component, His structure all same, so it will not be repeated.In other words, the first sensing module 32 is visible optical sensing module, the second sensing module 33 For black light sensing module, and third sensing module 34 is then laser sensing module.

The situation for the operating status that mouse 3 is changed using handover module 35 will be illustrated next.Please refer to Fig. 3, Fig. 4 with And the partial structural diagram that the handover module that Fig. 7, Fig. 7 are mouse of the present invention is run in a preferred embodiment.When user needs When wanting higher movement resolution, user can be by stirring the first lid 325 for being revealed in opening in shell 301 so that with first The switching cylinder 351 that sensing module 32 connects is rotated relative to shell 30 toward the first rotation direction C1, at this point, switching cylinder 351 The rotation of second end 3512 and drive rotating element 35 to rotate, make the second plates 3532 relative to 3531 turns of the first plates It is dynamic.In the rotation process of switching cylinder 351, switch the first end 3511 of cylinder 351 in rotation in detecting element 354, and its Rotary state is detected element 354 and reads, therefore the output of detecting element 354 corresponds to the detection letter of third state value (being, for example, 3) Number give control unit 355.Control unit 355 then can drive third sensing module 34 according to third state value, and control first Sensing module 32 and the second sensing module 33 enter suspend mode, also that is, mouse 3 is in the operation mould of high movement resolution Formula.By 35 above-mentioned operation of handover module so that third lid 345 is Chong Die with opening in shell 301, therefore third sensing module 34 can It is revealed in except opening in shell 301.

When user is intended in response to the change of working face T using the second sensing module 33, user can utilize handover module 35 carry out above-mentioned operation and change mouse 3 to be the state that the second sensing module 33 is revealed in except opening in shell 301.It runs letter Unitary declaration is as follows：User stirs the third lid 345 for being revealed in opening in shell 301 so that is connect with third sensing module 34 Switching cylinder 351 continue toward the first rotation direction C1 rotation relative to shell 30, at this point, the second end of switching cylinder 351 3512 rotations and the drive rotation of rotating element 35, make the second plates 3532 be rotated relative to the first plates 3531.In switching In the rotation process of cylinder 351, switch the rotation in the detecting element 354 of first end 3511 of cylinder 351, and its rotary state quilt The reading of detecting element 354, therefore the detection signal that the output of detecting element 354 corresponds to the second state value (being, for example, 2) gives control list Member 355.Control unit 355 then can drive the second sensing module 33 according to the second state value, and control the first sensing module 32 And third sensing module 34 enters suspend mode so that the second sensing module 33 suitable for working face T is run.As for The driven operation of first sensing module 32 with it is above-mentioned similarly, and repeat no more.

Specifically, it is hollow-core construction, internal hollow-core construction to switch cylinder 351 and its second end 3512 The electric wire (not shown in the figures) for being connected to first circuit board 324, second circuit board 334 and tertiary circuit plate 344 can be accommodated, And make trepanning of the electric wire across the second support column 3022, to complete first circuit board 324, second circuit board 334 and third electricity The circuit configuration of road plate 344.Wherein, can be incorporated in due to electric wire at the axle center inside switching cylinder 351, therefore in switching cylinder When 351 rotation, electric wire will not be rotated with switching cylinder 351, the damaged feelings therefore electric wire will not twist because of inordinate rotation Shape.

According to above-mentioned operation it is found that user can control according to demand different sensing modules be revealed in opening in shell it Outside, to select suitable movement resolution.Wherein, the handover module in mouse is by the simple detection of mechanical structure operation cooperation Element and control unit and act, therefore mouse of the present invention have the advantages that it is simple in structure and of low cost.In addition, due to One sensing module, the second sensing module and third sensing module are respectively different types of sensing module, therefore it is applicable in respectively In different types of working face, therefore, other than movement resolution, user also can select suitable sensing mould according to demand Block makes mouse of the present invention that can be run on suitable working face.In other words, mouse of the present invention not only changes movement resolution, Also it can be run on a variety of working faces.

The foregoing is merely presently preferred embodiments of the present invention, is not limited to protection scope of the present invention, thus it is all its It is intended to be limited solely by claims of this case without departing from the equivalent change or modification completed under disclosed spirit Protection domain in.

Claims (10)

1. a kind of mouse, be connected to a computer system and to control the computer system a cursor movement, which includes：

One shell, including：

One opening in shell is set to a bottom of the shell and the bottom through the shell；And

One supporting rack is set on the bottom of the shell and in the shell；

One handover module is set to the top on the supporting rack and positioned at the opening in shell, can be relative to the housing into rotation；

One main circuit board is set in the shell and is electrically connected at the handover module；

One first sensing module is set on one first side of the handover module, and can because should handover module rotation due to Part is revealed in except the opening in shell；And

One second sensing module, is set in a second side of the handover module, and can because should handover module rotation due to Part is revealed in except the opening in shell；Wherein, the handover module can in response to be revealed in except the opening in shell this first Sensing module or second sensing module, and switch the movement resolution of the mouse.

2. mouse as described in claim 1, the wherein handover module include：

One switching cylinder, is set to the top in the shell and positioned at the opening in shell, to relative to the housing into rotation；

One fixed seat is fixed on the supporting rack；

One rotating element is connected to the switching cylinder and the fixed seat, can be driven and rotate by the switching cylinder；

One detecting element is set on the main circuit board and is connect with a first end of the switching cylinder, to detect the switching The rotary state of cylinder, and export a detection signal；And

One control unit is set on the main circuit board and is electrically connected at the detecting element, first sensing module and is somebody's turn to do Second sensing module, to control first sensing module and the operation shape of second sensing module because signal should be detected State.

3. mouse as claimed in claim 2, the wherein supporting rack include：

One first support column, is set on the bottom of the shell, and positioned at the side of the opening in shell；And

One second support column, is set on the bottom of the shell, and positioned at an other side of the opening in shell；Wherein, this is cut The first end for changing cylinder passes through first support column, and the fixed seating is set on second support column, makes the switching cylinder It is able to relative to the housing into rotation.

4. mouse as claimed in claim 3, the wherein fixed seat include：

One main body has a fixing groove；Wherein second support column passes through the fixing groove, and is arranged the fixed seat in this second On dagger；And

One interconnecting piece is connected to the main body, to be connected to the rotating element, and fixes the rotating element in the fixed seat.

5. mouse as claimed in claim 2, the wherein rotating element include：

One first plates, are connected to the interconnecting piece；And

One second plates are fixed in a second end of the switching cylinder and can be rotated relative to first plates；Its In, when the switching cylinder is relative to the housing into rotation, the second end of the switching cylinder drive second plates relative to First plates rotate.

6. mouse as claimed in claim 2, wherein first sensing module include：

One first circuit board is set on a first surface of the switching cylinder；

One first lid is covered in the first circuit board, and has one first trepanning；

One first light-emitting component, is set on the first circuit board, to generate one first light beam；

One first optical lens is set on first lid and is revealed in except first trepanning, so that first light beam is worn It crosses；And

One first optical sensing elements, are set on the first circuit board, to receive by first optical lens this One light beam.

7. mouse as claimed in claim 6, wherein the mouse is placed on a working face, when the switching cylinder relative to The housing into rotation, and when appearing first lid except the opening in shell, first light beam across first optical lens and It is projected to the working face, by first light beam of the work surface by first optical lens and by first optical sensing Element receives, to generate a working face image.

8. the mouse as described in claim 2, wherein second sensing module include：

One second circuit board is set on a second surface of the switching cylinder；

One second lid is covered in the second circuit board, and has one second trepanning；

One second light-emitting component, is set on the second circuit board, to generate one second light beam；

One second optical lens is set on second lid and is revealed in except second trepanning, so that second light beam is worn It crosses；And

One second optical sensing elements, are set on the second circuit board, to receive by second optical lens this Two light beams.

9. the mouse as described in claim 2, the wherein control unit acquiescence have a first state value and one second state Value, when the control unit receives the detection signal corresponding to the first state value, which drives first sense Module is surveyed, and controls second sensing module and enters suspend mode；And when the control unit is received corresponding to second state When the detection signal of value, which drives second sensing module, and controls first sensing module and enter suspend mode mould Formula.

10. the mouse as described in claim 2, the wherein detecting element are encoder.