CN102654796A - Non-directional mouse - Google Patents

Abstract

The invention discloses a non-directional mouse comprising a shell, a plurality of touch control modules and a control unit. When a first finger and a second finger of a user are put on the shell and are detected by the plurality of touch control modules, the control unit determines a finger coordinate system according to the positions of the first finger and the second finger, therefore, the user is not limited by the direction of the mouse, and the user can operate the non-directional mouse on the finger coordinate system corresponding to the finger postures of the user.

Description

Non-directional mouse

Technical field

The present invention is about a kind of input media, especially about a kind of mouse that is applied to computer system.

Background technology

Mouse, keyboard, trace ball and Contact plate etc. are computer inputses commonly used at present.Wherein, because mouse can the person of being used grip with palm and moving of mouse beacon cursor, meet most of users' operating habit, so mouse becomes the most general input media.

See also Fig. 1, it is connected in the structural representation of computer system for a kind of known mouse.Computer system 2 comprises a host computer 21 and a computer screen 22; Host computer 21 is connected to an idler wheel mouse 1 and computer screen 22; Computer screen 22 is in order to showing a window 221 and cursor 222, and idler wheel mouse 1 in order to control cursor 222 so that host computer 21 is carried out corresponding instruction.Mouse 1 comprises a housing 10, a left button 11, a right button 12 and a roller 13.Housing 10 is in order to supporting first user's palm P (as shown in Figure 2), and housing 10 moves by first user and produce displacement, makes host computer 21 according to this displacement and the cursor 222 in the removable computer screen 22.Left button 11 and right button 12 in order to export signal according to first user's click so that host computer 21 is carried out corresponding instruction; And roller 13 is between left button 11 and right button 12; In order to be stirred and to rotate, make host computer 21 carry out the scrolling of window 221 to export a scrolling signal by first user.Above-mentioned mouse for having basic function.

Yet; Mouse with basic function can't satisfy user's demand; Corresponding different situations; The user needs the mouse of various difference in functionalitys, for example do not need the entity line wireless mouse, can carry out the horizontal window scrolling slant type idler wheel mouse, can adjust the mouse of motion sensitivity, the camera mouse that has the thin-type mouse of frivolous volume and have shoot function, or the like.Above-mentioned mouse no matter with any specific function; Before first user operates mouse 1, must its palm P be positioned on the housing 10, and its first finger F1 is positioned on the left button 11; And its second finger F2 is positioned over and just is able to operate mouse 1 on the right button 12, like Fig. 2 and shown in Figure 3.

Fig. 3 has shown that known mouse 1 inner displacement sensing element (not being shown among the figure) is preset with an original coordinate systems X-Y; And original coordinate systems X-Y comprises one first original axial direction Y and the one second original axial direction X vertical with the first original axial direction Y; Wherein, The first original axial direction Y is a Z-axis, and the second original axial direction X is a transverse axis.When first user operated mouse 1, because first user's gesture is consistent with the original coordinate systems X-Y of mouse 1, so the cursor in the computer screen 22 222 can carry out corresponding moving in response to moving of its palm P.At length say; When its palm P moves forward (that is the positive dirction of the past first original axial direction Y moves); Cursor 222 can move toward the top of computer screen 22; And as its palm P (that is move toward the positive dirction of the second original axial direction X) when moving right, 222 of cursors move toward the right-hand of computer screens 22.

Next see also Fig. 4, it is looked synoptic diagram for known mouse in second user operation.When second user (the not being shown in figure) desire on the right side that is arranged in first user (not being shown in figure) is used mouse 1; Because first user is positioned on the position of handled easily mouse 1; So be positioned at second user on its right side its palm P ' laterally is positioned on the housing 10, as shown in Figure 4.Can know by Fig. 4; Second user's palm P ' and original coordinate systems X-Y differ 90 degree; Make (that is the negative direction of the past second original axial direction X moves) when its palm P ' moves forward; Cursor 222 can move toward the left of computer screen 22, and as its palm P (that is move toward the positive dirction of the first original axial direction Y) when moving right, move the tops of 222 past computer screens 22 of cursor.If desire to avoid above-mentioned situation, second user must change the direction of mouse 1 and make its palm P ' consistent with the original coordinate systems X-Y of mouse 1.

Know according to above-mentioned; Desiring correctly to operate known mouse must make the preset original coordinate systems of palm and mouse consistent; That is to say; Before each user operates known mouse, all must adjust the direction of known mouse and make each user's palm consistent, not move otherwise cursor can't correctly be used the person with original coordinate systems.

Summary of the invention

The technical matters that the present invention will solve is, to the above-mentioned deficiency that prior art exists, a kind of non-directional mouse that can adjust coordinate system according to user's gesture is provided.

The technical solution adopted for the present invention to solve the technical problems provides a kind of non-directional mouse, is positioned on the workplace and is electrically connected on computer system, and this non-directional mouse comprises:

Housing;

Be arranged at a plurality of touch-control modules in this housing, this touch-control module is positioned over first finger and first finger position and the second finger position of second finger on the outside surface of this housing in order to detecting; Wherein this first finger position and this second finger position form a finger coordinate system, and this finger coordinate system comprise first-hand spindle to and perpendicular to this first-hand spindle to second finger axial;

Be arranged at the circuit board in this housing;

Be arranged on this circuit board and be preset with the displacement sensing element of an original coordinate systems; And this original coordinate systems comprises first original axial direction and second original axial direction, and this displacement sensing element is in order to according to this housing moving and the carry-out bit shifting signal on this workplace; And

Be arranged on this circuit board and be electrically connected on the control module of these a plurality of touch control components and this displacement sensing element; This control module is in order to determining this finger coordinate system according to this first finger position and this second finger position, and according to this displacement signal and this first-hand spindle to and this first original axial direction between angle produce the compensate for displacement amount.

Preferably; This of this original coordinate systems first original axial direction is a Z-axis; And this second original axial direction is a transverse axis, and this first-hand spindle to and this first original axial direction between angle equal this second finger axially and the angle between this second original axial direction; Wherein this first-hand spindle is to being the middle position of the angle between this first finger position and this second finger position and the vector between this displacement sensing element, and this second finger be axially perpendicular to this first-hand spindle to.

Preferably; This displacement signal includes the displacement that is positioned on this original coordinate systems; And this control module according to this displacement and this first-hand spindle to and this first original axial direction between angle obtain to be positioned at this compensate for displacement amount on this finger coordinate system, and the compensate for displacement signal that output includes this compensate for displacement amount is to this computer system.

Preferably; This non-directional mouse also comprises wireless signal transmitter and wireless signal receiver; This wireless signal transmitter is arranged on this circuit board, and in order to exporting this compensate for displacement signal, and this wireless signal receiver is connected in this computer system; In order to receive this compensate for displacement signal, make this computer system according to this compensate for displacement amount moving cursor.

Preferably, when this outside surface and this second finger of hitting this housing when this first-hand indication was positioned on this outside surface, each this touch-control module output first pressed signal; When this second finger was clicked this outside surface and this first finger and is positioned on this outside surface, each this touch-control module output second pressed signal; And on this outside surface of this housing, move when this first finger or this second finger, and when being detected by each this touch-control module, each this touch-control module is exported a scrolling signal.

Preferably; Each this touch-control module comprises a plurality of touch control components; These a plurality of touch control components are arranged as row, when these a plurality of touch control components detect this first finger or this second finger in regular turn, corresponding to this this scrolling signal of touch-control module output of these a plurality of touch control components.

Preferably, this non-directional mouse also comprises flexible circuit board, and this flexible circuit board is arranged on the inside surface of this housing and is electrically connected on this circuit board, in order to these a plurality of touch-control modules to be set; Wherein each this touch control component is the capacitive touch control elements.

Preferably, these a plurality of touch-control modules are arranged on this circuit board, and each this touch control component is the capacitive touch control elements.

Preferably; This non-directional mouse also comprises wireless signal transmitter and wireless signal receiver; This wireless signal transmitter is arranged on this circuit board; First press signal in order to export this, this second presses signal and this scrolling signal, and this wireless signal receiver is connected in this computer system, first presses signal in order to receive this, this second presses signal and this scrolling signal.

Preferably, this displacement sensing element comprises: in order to the light source of generation light beam, and this light beam is projeced on this workplace; In order to reflect the catoptron of this light beam; In order to focus on by these beams focusing lens of this workplace reflection; And, in order to receive this light beam and to produce the optics sensing element of this movable signal according to this light beam.

Preferably, this housing is a circular shell, and this circular shell is divided into a plurality of sector regions, and each this touch-control module is positioned at the below of each this sector region.

Perhaps, this housing is the disk housing, and this disk housing is divided into a plurality of sector regions, and each this touch-control module is positioned at the below of each this sector region.

The non-directional mouse of the present invention can determine the difference finger coordinate system corresponding to the different users according to different users's first finger position and second finger position.In addition, the non-directional mouse of the present invention is the key position that determines mouse according to finger position.Therefore, when the multidigit user operates non-directional mouse simultaneously, need not change the direction of mouse and can press signal and scrolling signal to form corresponding finger coordinate system and mouse left-right key according to each user's gesture.

Description of drawings

Fig. 1 is connected in the structural representation of computer system for known mouse.

Fig. 2 is the operated structural representation of known mouse.

Fig. 3 is that known mouse is by the synoptic diagram of first user operation.

Fig. 4 is that known mouse is by the synoptic diagram of second user operation.

Fig. 5 is connected in the schematic appearance of computer system in first preferred embodiment for the non-directional mouse of the present invention.

Fig. 6 is the diagrammatic cross-sectional side elevation of the non-directional mouse of the present invention in first preferred embodiment.

Fig. 7 is the schematic top plan view of the non-directional mouse of the present invention in first preferred embodiment.

The structural representation that Fig. 8 is operated by first user in first preferred embodiment for the non-directional mouse of the present invention.

The schematic top plan view that Fig. 9 is operated by first user in first preferred embodiment for the non-directional mouse of the present invention.

The schematic top plan view that Figure 10 is operated by second user in first preferred embodiment for the non-directional mouse of the present invention.

Figure 11 is the diagrammatic cross-sectional side elevation of the non-directional mouse of the present invention in second preferred embodiment.

Embodiment

In view of the defective of known mouse, the present invention provides a kind of non-directional mouse.Please consult Fig. 5 and Fig. 6 simultaneously, Fig. 5 is the non-directional mouse of the present invention is connected in computer system in a preferred embodiment a schematic appearance, and Fig. 6 then is the diagrammatic cross-sectional side elevation of the non-directional mouse of the present invention in first preferred embodiment.Non-directional mouse 3 comprises housing 30, circuit board 31, displacement sensing element 32, control module 33, a plurality of touch-control module 34, wireless signal transmitter 35, wireless signal receiver 36, flexible circuit board 37 and battery 38.Among Fig. 5; Displacement sensing element 32 is arranged in the housing 30 and is positioned at the center of housing 30; And displacement sensing element 32 is preset with an original coordinate systems X-Y (see figure 9), and original coordinate systems X-Y comprises the first original axial direction Y and the second original axial direction X vertical with the first original axial direction Y, in this preferred embodiment; The first original axial direction Y is a Z-axis, and the second original axial direction X is a transverse axis.

Wireless signal transmitter 35 is arranged in the housing 3, presses signal PS2 and scrolling signal SS in order to press signal PS1, second with wireless transmission method output compensate for displacement signal CDS, first.And wireless signal receiver 36 is connected in the host computer 41 of computer system 4; Press signal PS1, second and press signal PS2 and scrolling signal SS, the instruction that host computer 41 is carried out corresponding to above-mentioned signal in order to receive compensate for displacement signal CDS, first from wireless signal transmitter 35.Computer system 4 also comprises computer screen 42, is connected in host computer 41, in order to display window 421 and cursor 422.

Among Fig. 6, circuit board 31 is arranged in the housing 30, and displacement sensing element 32 is arranged on the circuit board 31, and displacement sensing element 32 comprises light source 321, catoptron 322, condenser lens 323 and optics sensing element 324.Light source 321 and optics sensing element 324 all are arranged on the first surface 311 of circuit board 31, and light source 321 is in order to producing light beam (not being shown among the figure), and light beam is projeced on the workplace T.Its catoptron 322 is formed in one with its condenser lens 323, and passes circuit board 31, and catoptron 322 is in order to folded light beam, and condenser lens 323 is in order to focus on by workplace T beam reflected.Produce a movable signal as for 324 of optics sensing elements in order to receiving beam and according to light beam; In this preferred embodiment; Light source 321 be a light emitting diode (Light Emitting Diode, LED), and optics sensing element 324 is a charge coupled cell (Charge Coupled Device; CCD) or a CMOS (Complementary Metal-Oxide-Semiconductor, CMOS).

Please continue to consult Fig. 6, a plurality of touch-control modules 34 are arranged on the flexible circuit board 37, and flexible circuit board 37 is arranged on the inside surface 302 of housing 30 and is electrically connected on circuit board 31.A plurality of touch-control modules 34 are positioned over the first finger F1 (please with reference to Fig. 8) and the second finger F2 (please with reference to Fig. 8) on the outside surface 301 of housing 30 and obtain corresponding to the first finger position P1 (please with reference to Fig. 8) of the first finger F1 and corresponding to the second finger position P2 (please with reference to Fig. 8) of second finger F2 in order to detecting.In this preferred embodiment, housing 30 is a circular shell, and circular shell 30 is divided into a plurality of sector regions, and each touch-control module 34 is positioned at the below of each sector region.A plurality of touch-control modules 34 comprise a plurality of touch control components 341,342,343,344 and 345; A plurality of touch control components 341,342,343,344 and 345 are in order to detect the first finger F1 or second finger F2 in the operation of the outside surface 301 of housing 30; And a plurality of touch control components 341,342,343,344 and 345 are arranged as row, like Fig. 6 and shown in Figure 7.Wireless signal transmitter 35, control module 33 and battery 38 all are arranged on the first surface 311 of circuit board 31, and control module 33 is electrically connected on a plurality of touch control components 341,342,343,344 and 345 and displacement sensing element 32 by circuit board 31.And battery 38 is in order to electric power to be provided, and in this preferred embodiment, a plurality of touch control components 341,342,343,344 and 345 are the capacitive touch control elements, and control module 33 is a microprocessor, and battery 38 is a rechargeable battery.

Next the operation situation of non-directional mouse 3 is described; Please consult Fig. 8 and Fig. 9 simultaneously; The schematic top plan view that the structural representation that Fig. 8 is operated by first user in first preferred embodiment for the non-directional mouse of the present invention, Fig. 9 are then operated by first user in first preferred embodiment for the non-directional mouse of the present invention.When first user (not being shown among the figure) desire is operated non-directional mouse 3; Its palm P is positioned on the outside surface 301 of housing 30 and palm P is supported by housing 30; And its first finger F1 is positioned on the outside surface 301 of housing 30 and is detectd side by touch-control module 34 and arrive; And obtain the position of the first finger F1, that is the first finger position P1.Likewise, its second finger F2 is positioned on the outside surface 301 of housing 30 and is detectd side by touch-control module 34 and arrive, and obtains the position of second finger F2, that is second finger position P2, and second finger position P2 is positioned at the side of the first finger position P1.At this moment, the first finger position P1 and second finger position P2 form one first finger coordinate system X '-Y ', first finger coordinate system X '-Y ' comprise first-hand spindle to Y ' and perpendicular to this first-hand spindle to the axial X ' of the second finger of Y '.Can know by Fig. 9; First-hand spindle has an included angle A 1 (for example being positive 45 degree) between the Y ' and the first original axial direction Y; And the angle between the axial X ' of second finger and the second original axial direction X also equals included angle A 1; That is first angle between finger coordinate system X '-Y ' and the original coordinate systems X-Y equal included angle A 1, wherein first-hand spindle is the middle position of the angle between the first finger position P1 and the second finger position P2 and the vector between the displacement sensing assembly 32 to Y '.

Among Fig. 8; Outside surface 301 and the second finger F2 that clicks housing 30 as first user's the first finger F1 is positioned at 301 last times of outside surface; It is fixed that touch-control module 34 detects second finger position P2; And since the first finger F1 leave its outside surface 301 and get back to once more on the outside surface 301; And touch-control module 34 detects the slight variations of the first finger position P1, and at this moment, touch-control module 34 outputs first press signal PS1 (left button 11 that is equivalent to known mouse 1 is by the signal of clicking and producing); Make control module 33 press signal PS1 by wireless launcher 35 and wireless receiver 36 and transfer to host computer 41, make host computer 41 press signal PS1 and carry out corresponding instruction according to first with first.In like manner; When first user's second finger F2 click the outside surface 301 of housing 30 and also the first finger F1 be positioned at 301 last times of outside surface; It is fixed that touch-control module 34 detects the first finger position P1; And since second finger F2 leave its outside surface 301 and get back to once more on the outside surface 301; And touch-control module 34 detects the slight variations of second finger position P2, and at this moment, touch-control module 34 outputs second press signal PS2 (right button 12 that is equivalent to known mouse 1 is by the signal of clicking and producing); Make control module 33 press signal PS2 by wireless launcher 35 and wireless receiver 36 and transfer to host computer 41, make host computer 41 press signal PS2 and carry out corresponding instruction according to second with second.

When first finger F1 or the second finger F2 moves on the outside surface 301 of housing 30; And when being detected (that is touch control component 341,342,343,344 and 345 is triggered in regular turn) by each touch-control module 34; The touch-control module that is triggered 34 output scrolling signal SS (roller 13 that is equivalent to known mouse 1 is struck and the signal that produces); Make control module 33 that scrolling signal SS is transferred to host computer 41 by wireless launcher 35 and wireless receiver 36, make host computer 41 carry out the scrolling instruction of window 421 according to scrolling signal SS.

Among Fig. 9; When first user's palm P moves non-directional mouse 3 toward north-east 45 degree; And when the displacement D of non-directional mouse 3 is 2 units; Displacement sensing element 32 is in order to exporting a displacement signal according to housing 30 moving on workplace T (please with reference to Fig. 6), and displacement signal includes displacement D.Can know that by Fig. 9 displacement D goes up the distance on the second original axial direction X in original coordinate systems X-Y, and the displacement D in the displacement signal that control module 33 receives moves the distance of 2 units for past positive dirction on transverse axis.When control module 33 receives displacement D, control module 33 according to this displacement D and the included angle A 1 of first-hand spindle between the Y ' and the first original axial direction Y obtain a compensate for displacement amount (Dx, Dy).At length say; Control module 33 switches to first finger coordinate system X '-Y ' with preset original coordinate systems X-Y; On first finger coordinate system X '-Y '; Displacement D is in axial X ' of second finger and the distance of first-hand spindle on the direction of miter angle between the Y ', and at this moment, control module 33 is got displacement D on first finger coordinate system X '-Y ' horizontal component and vertical component are the compensate for displacement amount; Because included angle A 1 is 45 degree; Therefore the compensate for displacement amount Dx and the Dy of control module 33 acquisitions are respectively 1.414 and 1.414, that is go up mobile 1.414 units in first-hand spindle to Y ', and upward move 1.414 units in the axial X ' of second finger.At last; The compensate for displacement signal CDS (please with reference to Fig. 5) that control module 33 will include compensate for displacement amount Dx and Dy is by wireless launcher 35 and wireless receiver 36 and transfer to host computer 41, makes host computer 41 according to compensate for displacement signal CDS and moving cursor 422.

What need special instruction is; When first user's palm P is positioned over 301 last times of outside surface of housing 30; Except the first finger F1 and second finger F2; The 3rd finger F 3, the 4th finger F 4 and the 5th finger F 5 also are positioned on its outside surface 301; And being detectd side by touch-control module 34 arrives; At this moment, control module 33 judges that which two finger is that the judgment standard of the first finger F1 and second finger F2 (that is forefinger and middle finger) has two kinds: first kind, its judgment standard is applicable to the situation that each finger only has the finger tip part to contact with outside surface 301; Control module 33 is to determine with the finger tip position of each finger and the distance between the displacement sensing element 32, that is control module 33 judges that the fingertip location among these five finger F 1, F2, F3, F4 and the F5 is first finger F1 and the second finger F2 apart from farthest the two of displacement sensing element 32; Second kind; Its judgment standard is applicable to the situation that each finger all contacts with outside surface 301 fully; Control module 33 is to judge with the contact area of outside surface 301 with each finger, that is control module 33 judges among these five finger F 1, F2, F3, F4 and the F5 that maximum the two of contact area with outside surface 301 is first finger F1 and the second finger F2.By above-mentioned judgment standard, control module 33 can judge that which two finger is is first finger F1 and the second finger F2, and the action of all the other finger F 3, F4 and F5 then can not trigger touch-control module 34, so the situation that control module 33 can not be judged by accident.

Next see also Figure 10, the schematic top plan view that it is operated by second user in first preferred embodiment for the non-directional mouse of the present invention.When second user (the not being shown in figure) desire that is arranged in first user, one side is operated non-directional mouse 3; Its palm P ' is positioned on the outside surface 301 of housing 30 and palm P ' is supported by housing 30; And its first finger F1 ' is positioned on the outside surface 301 of housing 30 and is detectd side by touch-control module 34 and arrive; And obtain the position of the first finger F1 ', that is the first finger position P1 '.Likewise; Its second finger F2 ' is positioned on the outside surface 301 of housing 30 and is detectd side by touch-control module 34 and arrive; And obtain the position of second finger F2 ', that is second finger position P2 ', and second finger position P2 ' is positioned at the side of the first finger position P1 '.At this moment, the first finger position P1 ' and second finger position P2 ' form a second finger coordinate system X*-Y*, the first finger coordinate system X*-Y* comprise first-hand spindle to Y* and perpendicular to this first-hand spindle to the axial X* of the second finger of Y*.Can know that by Figure 10 first-hand spindle has an included angle A 2 (for example being negative 30 degree) between the Y* and the first original axial direction Y, that is the angle between second finger coordinate system X*-Y* and the original coordinate systems X-Y equals included angle A 2.

Second user clicks the housing 30 of non-directional mouse 3 and produces that first (or second) presses signal and on non-directional mouse 3, move and to produce the situation of scrolling signal identical with the situation that first user operates, so no longer add explanation.Among Figure 10; When second user's palm P ' moves non-directional mouse 3 toward south; And when the displacement D* of non-directional mouse 3 is 2 units; Displacement sensing element 32 is in order to exporting a displacement signal according to housing 30 moving on workplace T (please with reference to Fig. 5), and displacement signal includes displacement D*.Can know by Figure 10; Displacement D* goes up the distance on the first original axial direction Y in original coordinate systems X-Y; And the displacement D in the displacement signal that control module 33 receives is when past negative direction moves 2 units on Z-axis; Displacement sensing element 32 is in order to exporting a displacement signal according to housing 30 moving on workplace T, and displacement signal includes displacement D*.

Can know that by Figure 10 displacement D* goes up the distance on the first original axial direction Y in original coordinate systems X-Y, and the displacement D* in the displacement signal that control module 33 receives is for moving the distance of 2 units on Z-axis.When control module 33 received displacement D*, control module 33 obtained a compensate for displacement amount Dx* and a Dy* according to this displacement D* and the included angle A 2 of first-hand spindle between the Y* and the first original axial direction Y.At length say; Control module 33 switches to second finger coordinate system X*-Y* with preset original coordinate systems X-Y; On second finger coordinate system X*-Y*; Displacement D* is in axial X* of second finger and the distance of first-hand spindle on the direction at 30 degree angles between the Y*, and at this moment, control module 33 is got displacement D* on second finger coordinate system X*-Y* horizontal component and vertical component are compensate for displacement amount Dx* and Dy*; Because included angle A 2 is 30 degree; Therefore the compensate for displacement amount Dx* and the Dy* of control module 33 acquisitions are respectively-1 and-1.732, that is go up mobile 1.732 units in first-hand spindle to Y*, and upward move 1 unit in the axial X* of second finger.At last, the compensate for displacement signal CDS* that control module 33 will include compensate for displacement amount Dx* and Dy* is by wireless launcher 35 and wireless receiver 36 and transfer to host computer 41, makes host computer 41 according to compensate for displacement signal CDS* and moving cursor 422.Above-mentioned is structure and the action situation of the non-directional mouse of the present invention in first preferred embodiment.

In addition, the present invention also provides one second preferred embodiment, sees also Figure 11, and it is the diagrammatic cross-sectional side elevation of the non-directional mouse of the present invention in second preferred embodiment.Non-directional mouse 5 is positioned on the workplace T ', and non-directional mouse 5 comprises housing 50, circuit board 51, displacement sensing element 52, control module 53, a plurality of touch-control module 54, wireless signal transmitter 55, wireless signal receiver (not being shown among the figure) and battery 56.Circuit board 51 is arranged in the housing 50, and displacement sensing element 52 is arranged on the circuit board 51, and displacement sensing element 52 comprises light source 521, catoptron 522, condenser lens 523 and optics sensing element 524.Light source 521 and optics sensing element 524 all are arranged on the second surface 512 of circuit board 51, and its catoptron 522 is formed in one with its condenser lens 523, is positioned at the below of circuit board 51.Wireless signal transmitter 55, control module 53 and battery 56 all are arranged on the second surface 512 of circuit board 51, and control module 53 is electrically connected on a plurality of touch control components 54 and displacement sensing element 52 by circuit board 51.

Among Figure 11; A plurality of touch-control modules 54 are arranged on the first surface 511 of circuit board 51; And each touch-control module 54 comprises a plurality of touch control components 541,542,543,544 and 545; And a plurality of touch control components 541,542,543,544 and 545 are arranged as row, and are arranged on the first surface 511 of circuit board 51 and with the inside surface 502 of housing 50 and contact, in order to detect first finger (not being shown among the figure) or second finger (not being shown among the figure) in the operation of the outside surface 501 of housing 50.In this preferred embodiment, housing 50 is a disk housing, and the disk housing is divided into a plurality of sector regions, and each touch-control module 54 is positioned at the below of each sector region.The operation situation of the function of all the other each elements and non-directional mouse 5 is all identical with first preferred embodiment and no longer add explanation, only is the position that is provided with of each element with the first preferred embodiment difference.

Know that according to above-mentioned the non-directional mouse of the present invention can determine the difference finger coordinate system corresponding to the different users according to different users's first finger position and second finger position.In addition, the non-directional mouse of the present invention is the key position that determines mouse according to finger position.Therefore, when the multidigit user operates non-directional mouse simultaneously, need not change the direction of mouse and can press signal and scrolling signal to form corresponding finger coordinate system and mouse left-right key according to each user's gesture.

The above is merely preferred embodiment of the present invention, is not in order to limiting claim scope of the present invention, and therefore all other do not break away from the equivalence of being accomplished under the disclosed spirit and change or modify, and all should be contained in the scope of the present invention.

Claims (12)

1. non-directional mouse is positioned on the workplace and is electrically connected on a computer system, and it is characterized in that: this non-directional mouse comprises:

Housing;

Be arranged at a plurality of touch-control modules in this housing, this touch-control module is positioned over first finger and first finger position and the second finger position of second finger on the outside surface of this housing in order to detecting; Wherein this first finger position and this second finger position form a finger coordinate system, and this finger coordinate system comprise first-hand spindle to and perpendicular to this first-hand spindle to second finger axial;

Be arranged at the circuit board in this housing;

Be arranged on this circuit board and be preset with the displacement sensing element of an original coordinate systems; And this original coordinate systems comprises first original axial direction and second original axial direction, and this displacement sensing element is in order to according to this housing moving and the carry-out bit shifting signal on this workplace; And

Be arranged on this circuit board and be electrically connected on the control module of these a plurality of touch control components and this displacement sensing element; This control module is in order to determining this finger coordinate system according to this first finger position and this second finger position, and according to this displacement signal and this first-hand spindle to and this first original axial direction between angle produce the compensate for displacement amount.

2. non-directional mouse as claimed in claim 1; It is characterized in that: this of this original coordinate systems first original axial direction is a Z-axis; And this second original axial direction is a transverse axis, and this first-hand spindle to and this first original axial direction between angle equal this second finger axially and the angle between this second original axial direction; Wherein this first-hand spindle is to being the middle position of the angle between this first finger position and this second finger position and the vector between this displacement sensing element, and this second finger be axially perpendicular to this first-hand spindle to.

3. non-directional mouse as claimed in claim 1; It is characterized in that: this displacement signal includes the displacement that is positioned on this original coordinate systems; And this control module according to this displacement and this first-hand spindle to and this first original axial direction between angle obtain to be positioned at this compensate for displacement amount on this finger coordinate system, and the compensate for displacement signal that output includes this compensate for displacement amount is to this computer system.

4. non-directional mouse as claimed in claim 3; It is characterized in that: also comprise wireless signal transmitter and wireless signal receiver; This wireless signal transmitter is arranged on this circuit board, and in order to exporting this compensate for displacement signal, and this wireless signal receiver is connected in this computer system; In order to receive this compensate for displacement signal, make this computer system according to this compensate for displacement amount moving cursor.

5. non-directional mouse as claimed in claim 1 is characterized in that: when this outside surface and this second finger of hitting this housing when this first-hand indication was positioned on this outside surface, each this touch-control module output first pressed signal; When this second finger was clicked this outside surface and this first finger and is positioned on this outside surface, each this touch-control module output second pressed signal; And on this outside surface of this housing, move when this first finger or this second finger, and when being detected by each this touch-control module, each this touch-control module output scrolling signal.

6. non-directional mouse as claimed in claim 5; It is characterized in that: each this touch-control module comprises a plurality of touch control components; These a plurality of touch control components are arranged as row; When these a plurality of touch control components detect this first finger or this second finger in regular turn, corresponding to this this scrolling signal of touch-control module output of these a plurality of touch control components.

7. non-directional mouse as claimed in claim 6 is characterized in that: also comprise flexible circuit board, this flexible circuit board is arranged on the inside surface of this housing and is electrically connected on this circuit board, in order to these a plurality of touch-control modules to be set; Wherein each this touch control component is the capacitive touch control elements.

8. non-directional mouse as claimed in claim 6 is characterized in that: these a plurality of touch-control modules are arranged on this circuit board, and each this touch control component is the capacitive touch control elements.

9. non-directional mouse as claimed in claim 5; It is characterized in that: also comprise wireless signal transmitter and wireless signal receiver; This wireless signal transmitter is arranged on this circuit board; First press signal in order to export this, this second presses signal and this scrolling signal, and this wireless signal receiver is connected in this computer system, first presses signal in order to receive this, this second presses signal and this scrolling signal.

10. non-directional mouse as claimed in claim 1 is characterized in that: this displacement sensing element comprises:

In order to the light source of generation light beam, and this light beam is projeced on this workplace;

In order to reflect the catoptron of this light beam;

In order to focus on by these beams focusing lens of this workplace reflection; And

In order to receive this light beam and to produce the optics sensing element of this movable signal according to this light beam.

11. non-directional mouse as claimed in claim 1 is characterized in that: this housing is a circular shell, and this circular shell is divided into a plurality of sector regions, and each this touch-control module is positioned at the below of each this sector region.

12. non-directional mouse as claimed in claim 1 is characterized in that: this housing is the disk housing, and this disk housing is divided into a plurality of sector regions, and each this touch-control module is positioned at the below of each this sector region.

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