CN107463278A - The mouse of adjustable sensing module - Google Patents

Abstract

The invention discloses a kind of mouse of adjustable sensing module, it is provided with the mouse body of a circular open, an external toroidal ring being arranged on the circular open with can horizontally rotating comprising a bottom surface, one is arranged on inner collar in the external toroidal ring itself and a disk with can horizontally rotating；Wherein when the inner collar, which is operable to the relative external toroidal ring, horizontally rotates an angle forward or backwards, the disk is that the motion in one dimension for making upward and downward with the relative inner collar is driven by the inner collar, to adjust relative altitude of the sensing module with respect to the working face of the mouse, promoted with adjusting the lifting distance of mouse using height；Wherein when the external toroidal ring is operable to rotate an angle relative to the circular open, the inner collar integratedly and synchronously can rotate an angle with the disk with the external toroidal ring, and angle is used to adjust the two dimension of the sensing module corresponding computer screen used relative with the sensing window；Make the mouse reach can it is one-dimensional or it is three-dimensional adjustment sensing module using effect.

Description

The mouse of adjustable sensing module

Technical field

The present invention relates to a kind of mouse, the mouse (MOUSE of espespecially a kind of adjustable sensing module WITH A ADJUSTABLE SENSING MODULE), it can simply adjust the sensing for user Module uses height or lifting distance (LOD, lift off relative to one-dimensional (Z axis) of working face Distance) or relative to the two dimension (X-Y axles) of computer screen angle is used.

Background technology

Mouse, which is that a periphery of computer installation is necessary, to be equipped with, and is more generalized to the competing field of electricity in recent years Use, it is used to operate with to the corresponding computer installation used such as computer on a working face Screen carries out input coordinate, clicks object, the up and down various functions such as (front and rear) or left and right scrolling picture. Due to for operating the working face of mouse, a variety of changes be present, such as different pigment coated mouse Pad face, plastic desktop, wooden desktop etc. are marked, causes the lifting distance of sensing device further used in mouse (LOD, lift off distance) is relative to be affected.By general mouse or mouse for electric competitions are used Sensing device further, be mostly set and be completed at the manufacture end of mouse, therefore (made when consumption terminal With end) to choose and when use a mouse, the relative lifting for making the mouse is apart from (LOD) because of working face Unlike material and be restricted or detract, and consumption terminal is difficult to voluntarily adjust or improve, unless using It can just be completed with respect to software operation.For disadvantages mentioned above, the related manufacture end of mouse has pointed out solution, Such as US 8,850,093 (i.e. TW 201430626A) " MOUSE WITH A REPLACEABLE SENSING UNIT (mouse of replaceable sensing unit) ", its disclosed mouse can need with using Will and that advantageous sensing unit is voluntarily selected by consumption terminal is pre- to change and be assembled in mouse body institute If storage tank in, wherein the sensing unit can use different sensing component or its combination, Ru Huanghong The different type such as light, blue light, infrared ray, laser sensing component or its combination.But with US For 8,850,093 practical application, because same mouse fears that more than one different types of sensing must be added Component selects for consumption terminal, the manufacturing cost (at least increasing sensing component cost) of relative increase mouse And purchase cost, and US8, " replaceable sensing unit " technology disclosed in 850,093, to general mouse For target consumption terminal, and inessential means, therefore US 8,850,093 using effect is bad, market Acceptance is not high.

In addition, when mouse is operating on one working face, the preceding extreme direction of mouse, Y is defined herein as Axle (with reference to shown in figure 1, Fig. 2), substantially in face of computer screen (not shown), i.e. mouse Target Y-axis in face of computer screen and with its normal parallel, so operated on working face when mouse X-Y two dimensions (with reference to figure 1, Fig. 2 shown in) it is mobile when, the cursor on screen could correspond to presentation The motion track of identical X-Y two dimensions；However, when consumption terminal is operating mouse on one working face, it is individual People often has some different operating habits, and most common is the Y-axis of mouse (with reference to shown in figure 1, Fig. 2) Not facing computer screen positively, i.e. the Y-axis of mouse does not have parallel with the normal of computer screen, An angular deviation is more or less produced between the two, causes X-Y two-dimensional movement of the mouse on working face not It can correspond to and synchronously present on the computer screen completely, so be unfavorable for also meeting the competing trip of electricity The both quick and accurate operational requirements of play player.

The content of the invention

It is a primary object of the present invention to provide a kind of mouse of adjustable sensing module, a mouse is included Body, its bottom surface are arranged on outer on the circular open in which can horizontally rotate provided with a circular open, one Ring, one are arranged on inner collar and a disk in the external toroidal ring in which can horizontally rotate, and disk can be upper and lower Actively it is located in the inner collar and which is provided with a sensing module and a sensing window；Wherein when this is outer Ring remains stationary as and the inner collar is operable to rotate an angle forward or backwards relative to the external toroidal ring When, the disk can be driven to be moved up or down with the relative inner collar by the inner collar and is somebody's turn to do with adjusting Sensing module uses height with respect to one-dimensional (Z axis) of the working face of the mouse；Wherein when the external toroidal ring When being operable to relative to the circular open one angle of rotation, the inner collar can be integrally and same with the disk Step ground with the external toroidal ring rotates an angle, by adjust the sensing module with terms of the sensing window relative one The two dimension (X-Y axles) of calculation machine screen uses angle, and thereby reaching the mouse can be one-dimensional, two-dimentional (X-Y) Or the using effect of three-dimensional (X-Y-Z) adjustment sensing module.

In order to achieve the above object, the mouse of adjustable sensing module provided by the invention is in a working face Upper operation, it is included：One mouse body, a mouse circuit is provided with it, to control mouse performance, Its bottom surface is provided with a circular open；One external toroidal ring, it has a central circular hole, its rotatably arranged with On the circular open of the mouse body, the external toroidal ring is set to be rotated relative to the circular open；In one Ring, it is rotatably arranged on the central circular hole of the external toroidal ring；And a disk, it can live up and down It is arranged on dynamicly on the central circular hole of the inner collar, and when the inner collar carries out forward direction with respect to the external toroidal ring Or when reversely horizontally rotating, the disk can carry out upward and downward movement relative to the inner collar simultaneously, to change Become relative altitude of the disk with respect to the inner collar；Opened again in the disk towards the circle of the mouse body Carrying is provided with a sensing module on the medial surface of mouth, and the sensing module is electrically coupled in the mouse body Mouse circuit, in the card of the disk be provided with a pair should sensing module sensing window, make this Sensing module can be sensed by the sensing window to the working face of the mouse, to sense the mouse Body is in input signal caused by working face movement, and the corresponding cursor control signal that exports is to a meter Calculation machine device；Wherein when the external toroidal ring remains stationary as and the inner collar is being operable to the relative external toroidal ring just To or when rotating backward an angle, the disk and set sensing module thereon and sensing window can one Driven by the inner collar body and moved up or down with the relative inner collar, to change the sensing module With respect to the inner collar or the relative altitude in mouse performance face, that is, adjust the LOD of mouse highly (Z axis) To promote using height；Wherein when the external toroidal ring is operable to set by the bottom surface of the relative mouse body When circular open rotates an angle, the inner collar and the disk and set thereon sensing window and sensing Module integratedly synchronously can rotate an angle with the external toroidal ring, that is, adjust the use angle of mouse.

In one embodiment of this invention, along ring week in the inner peripheral edge surfaces of the central circular hole of the inner collar Edge is provided with least one one center of circle angular region of tool and the ramp type internal chute of a high point is extended to by a low spot, And it is provided with an at least protruding shaft along ring periphery on the outer peripheral edge face of the disk and inserts the inner collar with corresponding In ramp type internal chute and relative in the ramp type internal chute it can slide；Wherein when the inner collar is grasped When making to be rotated forward or backwards relative to the external toroidal ring, pass through turn of the ramp type internal chute of the inner collar It is dynamic to be slided with driving between low and high of at least protruding shaft for the disk in the ramp type internal chute, So that the disk can move up or down with respect to the inner collar, to change the disk with respect to the inner collar Or the use height of the working face.

In one embodiment of this invention, along ring week in the inner peripheral edge surfaces of the central circular hole of the inner collar Edge is equidistantly provided with three ramp type internal chutes, and along between ring periphery etc. on the outer peripheral edge face of the disk Away from provided with three protruding shafts, confession is corresponding respectively to insert in each ramp type internal chute.

In one embodiment of this invention, it is further provided with a upward and downward on the ramp type internal chute Recess channels, this can be correspondingly inserted by the recess channels for protruding shaft set on the outer peripheral edge face of the disk In ramp type internal chute.

In one embodiment of this invention, it is provided with extremely in the inner peripheral edge surfaces of the central circular hole of the inner collar A few internal thread is supplied to substitute the ramp type internal chute, and on the outer peripheral edge face of the disk and one A protruding shaft is respectively set on the both ends of diameter, to be symmetrically crossed on this at least on an internal thread.

In one embodiment of this invention, it is provided with least along ring periphery on the outer peripheral edge face of the external toroidal ring One has the external chute of a center of circle angular region, and in the inner peripheral edge surfaces of the circular open of the mouse body An at least protruding shaft is provided with along ring periphery, is inserted with corresponding in the external chute of the external toroidal ring and slidably, with The external toroidal ring is set to horizontally rotate an angle with respect to the circular open of the mouse body, and rotated Angle is limited in the range of the central angle of the external chute.

In one embodiment of this invention, equidistantly set along ring periphery on the outer peripheral edge face of the external toroidal ring There are three external chutes, and it is equidistant along ring periphery in the inner peripheral edge surfaces of the circular open of the mouse body Provided with three protruding shafts.

In one embodiment of this invention, it is further provided with one to indicate at the periphery of the disk The disk by operate move up when caused displacement scale.

In one embodiment of this invention, it is further on the bottom surface of the mouse body and in the outer shroud One is provided with the periphery of circle to indicate the external toroidal ring by the angle index of the angle of operation rotation.

Brief description of the drawings

Fig. 1 is the stereoscopic schematic diagram of one embodiment of the invention；

Fig. 2 is the side schematic view that mouse shown in Fig. 1 operates in a working face；

Fig. 3 is that a bottom of mouse shown in Fig. 1 regards schematic appearance；

Fig. 4 is a bottom visual angle decomposing schematic representation；

Fig. 5 is Fig. 4 another visual angle (upward angle of visibility) schematic diagram；

Fig. 6 is the exploded perspective schematic diagram of external toroidal ring, inner collar and disk in one embodiment of the invention；

Fig. 7 is the exploded side schematic diagram of external toroidal ring, inner collar and disk in one embodiment of the invention；

Fig. 8 is the exploded side schematic diagram of external toroidal ring, inner collar and disk in another embodiment of the present invention.

Description of reference numerals：1- can adjust the mouse of sensing module；2- working faces；10- mouse bodies； 11- mouse circuits；12- bottom surfaces；13- circular opens；14- inner peripheral edge surfaces；15- protruding shafts；20- external toroidal rings； 21- central circular holes；22- inner peripheral edge surfaces；The recessed guide grooves of 23-；24- outer peripheral edges face；25- external chutes；26- is convex Tooth；30- inner collars；31- central circular holes；32- outer peripheral edges face；33- is convex to be led；34- inner peripheral edge surfaces；35- Ramp type internal chute；351- low spots；352- high points；353- recess channels；36- internal threads；36a- spiral shells Line entrance；37- double wedges；40- disks；41- medial surfaces；42- senses window；43- outer peripheral edges face；44- Protruding shaft；50- sensing modules；60- angle indexs；70- scales 70.

Embodiment

To make the present invention definitely full and accurate, hereby enumerate preferred embodiment and coordinate following schemes, incite somebody to action this The structure and its technical characteristic of invention are described in detail as after.

As shown in Figures 1 to 7, the mouse 1 of adjustable sensing module provided by the invention is in a work Make to operate with face 2, it is included：One mouse body 10, an external toroidal ring 20, an inner collar 30, One disk 40 and a sensing module 50.

A mouse circuit 11 is provided with the mouse body 10, it is provided by the invention adjustable to control The mouse 1 of sensing module works, and its bottom surface 12 is provided with a circular open 13.

The external toroidal ring 20 is provided with a central circular hole 21 run through, and it is arranged on the mouse with can horizontally rotating On the circular open 13 of sample body 10, obtain the external toroidal ring 20 and rotated relative to the circular open 13, As shown in arrow A in Fig. 3.

The inner collar 30 is provided with a central circular hole 31 run through, and it is outer that it is arranged on this with can horizontally rotating On the central circular hole 21 of ring 20；Wherein, can be along ring in the inner peripheral edge surfaces 22 of the external toroidal ring 20 Periphery sets a recessed guide groove 23, and sets one along ring periphery on the outer peripheral edge face 32 of the inner collar 30 and convex lead 33 to correspond in the recessed guide groove 23 for inserting the external toroidal ring 20 and can flatly slide, such as arrow in Fig. 3 Shown in B.

The disk 40 can be arranged on the central circular hole 31 of the inner collar 30 up and downly, when this is interior (such as arrow B institutes in Fig. 3 when ring 30 is horizontally rotated forward or backwards with respect to the external toroidal ring 20 Show), the disk 40 can in the case where keeping not rotating simultaneously the relative inner collar 30 carry out to Above or move down (as shown in arrow C in Fig. 2, Fig. 7), so that the phase of disk 40 is altered or modified To the relative altitude of the central circular hole 31 of the inner collar 30；In addition, set in the card of the disk 40 There is a sensing window 42.

The sensing module 50 is located on the medial surface 41 of disk 40 (towards the circular open 13), The sensing module 50 makes the sensing to the mouse circuit 11 being electrically coupled in the mouse body 10 Module 50 can be sensed by the sensing window 42 to the working face 2, to sense the mouse sheet Input signal caused by body 10 is mobile on the working face 2, and corresponding output cursor control signal is extremely One computer installation (non-icon).

The circular open 13 that the relative mouse body 10 is operable to when the external toroidal ring 20 horizontally rotates one During angle, as shown in arrow A in Fig. 3, the inner collar 30, the disk 40 can be synchronously outer with this Ring 20 rotates an angle, to adjust the sensing module 50 with the sensing window 42 with respect to computer The two dimension (X-Y axles) of screen (not shown) uses angle, as shown in Figure 1, Figure 2 shown in.

When the inner collar 30 is horizontally rotated forward or backwards with respect to the external toroidal ring 20, such as Fig. 3 Shown in middle arrow B, the disk 40 can enter the relative inner collar 30 in the case where keeping not rotating Row moves up or down, and enables the sensing module 50 with the sensing window 42 integratedly with this Disk 40 relative to the inner collar 30 to make upward and downward (Z axis) movement, such as arrow C in Fig. 2, Fig. 7 It is shown, to change relative altitude of the sensing module 50 with respect to the inner collar 30 or the working face 2, The lifting distance (LOD, lift off distance) for adjusting mouse 1 uses height to promote.

In addition, being provided with least one along ring periphery on the outer peripheral edge face 24 of the external toroidal ring 20 has a circle The external chute 25 of heart angular region, as the present embodiment is equidistantly provided with three external chutes 25, as shown in Figure 5 (because visual angle relation only sees two external chutes 25)；And in the circular open 13 of the mouse body 10 Inner peripheral edge surfaces 14 on along ring periphery be provided with an at least protruding shaft 15, as the present embodiment is equidistantly provided with three Individual protruding shaft 15, (because visual angle relation only sees two protruding shafts 15) as shown in Figure 4, inserted to corresponding In the external chute 25 of the external toroidal ring 20 and slidably, so that the external toroidal ring 20 can be with respect to the mouse sheet The angle that the circular open 13 of body 10 flatly rotates an angle and rotated is controlled in the external chute 25 Central angle in the range of.

In addition, it is provided with least one along ring periphery in the inner peripheral edge surfaces 34 of the circular hole 31 of the inner collar 30 The ramp type internal chute 35 of a high point 352 is extended to a center of circle angular region and by a low spot 351 But do not limit, as being equidistantly provided with three ramp type internal chutes 35 in the present embodiment, as Fig. 5, Fig. 6, (because visual angle relation only sees two) shown in Fig. 7；And the edge on the outer peripheral edge face 43 of the disk 40 Ring periphery is provided with an at least protruding shaft 44, as being equidistantly provided with three protruding shafts 44 in the present embodiment, as Fig. 5, (because visual angle relation only sees two protruding shafts) shown in Fig. 6, the ramp type internal chute is inserted to corresponding In 35 and slidably, so that the inner collar 30 can rotate an angle forward or backwards relative to the disk 40 And the angle of the rotation is limited in the range of the central angle of the ramp type internal chute 35.When the inner collar 30 relative external toroidal rings 20 horizontally rotated forward or backwards (as shown in arrow B in Fig. 3) and The disk 40 is maintained at do not rotate in the case of (block card is such as set between disk 40 and external toroidal ring 20 To prevent disk 40 from being rotated with the inner collar 30), then the ramp type internal chute 35 can be in rotation The disk 40 is driven to be moved up or down (such as Fig. 2, Fig. 7 with respect to the inner collar 30 simultaneously Shown in middle arrow C), so that the disk 40 is altered or modified with respect to the inner collar 30 or the working face 2 Relative altitude.

Pass through horizontally rotating to drive the type of drive that the disk 40 moves up and down for the inner collar 30 The ramp type internal chute 35 of the inner collar 30 is not restricted to, as shown in fig. 7, it can separately be utilized extremely A few internal thread 36, substitute the ramp type internal chute 35 as shown in Figure 8, in embodiment illustrated in fig. 8 In, a protruding shaft 44 is respectively provided with the outer peripheral edge face 43 of the disk 40 and on the both ends of a diameter, To be symmetrically crossed on this at least on an internal thread 36, thereby when the inner collar 30 is with respect to the external toroidal ring 20 When progress just or reversely horizontally rotates, it is set holding in the disk 40 and does not rotate (i.e. disk 40 Do not rotated relative to the inner collar 30) in the case of, at least internal thread 36 set by the inner collar 30 By the gradient of the internal thread 36 disk 40 can be driven to move up or down, if wherein The inner collar 30 as forward direction horizontally rotate when, the disk 40 is set to move up (away from work Face 2), then when the inner collar 30 reversely horizontally rotates, the disk 40 is to move down (to lean on Nearly working face 2).

In order to easy to assembly, as shown in fig. 7, setting a upward and downward groove on the ramp type internal chute 35 Passage 353, as shown in Figure 6, Figure 7, with set convex on the outer peripheral edge face 43 for the disk 40 Axle 44 can be inserted in the ramp type internal chute 35 by the recess channels 353 are corresponding.Similarly, such as Fig. 8 It is shown, a screw thread entrance 36a can be respectively at least set on an internal thread 36 as shown in figure 8, for this at this Set protruding shaft 44 can correspondingly be imported an at least internal thread 36 by screw thread entrance 36a on disk 40 It is interior.

In addition, as shown in figure 3, an at least double wedge 26 can be set on the outer surface of the external toroidal ring 20, As being arranged with two double wedges 26 in the present embodiment, for user can by an at least double wedge 26 with The ease of Use external toroidal ring 20 rotates relative to the circular open 13.In the bottom surface of the mouse body 10 One is provided with 12 and at the periphery of the external toroidal ring 20 to indicate the rotational angle of the external toroidal ring 20 Angle index 60.

In addition, as shown in figure 3, an at least double wedge 37 can be set on the outer surface of the inner collar 30, As being arranged with two double wedges 37 in the present embodiment, for user can by an at least double wedge 37 with The ease of Use inner collar 30 rotates relative to the external toroidal ring 20.One is provided with the periphery of the disk 40 To indicate that the disk 40 moves up the scale 70 of distance, it is representing to work as the phase of inner collar 30 When rotating a certain angle to the external toroidal ring 20, the disk 40 can relative increase with respect to the institute of inner collar 30 Amount of height (distance that i.e. disk 40 moves up)；The wherein amount of height foundation of the relative increase The gradient (slope) of the ramp type internal chute 35 or an at least internal thread 36 and preset.

The mouse of adjustable sensing module provided by the invention has following compared with other prior arts Advantage：

(1) present invention only set a sensing module, not only can one-dimensional (Z axis) adjust the sensing module phase To the relative altitude of the working face, and can reselection two dimension (X-Y axles) adjusts the sensing module with being somebody's turn to do Sensing window uses angle with respect to the two dimension (X-Y axles) of computer screen, therefore the use of the present invention is imitated Rate is better than prior art (such as rows 0,093 of US 8,85).

(2) present invention only sets a sensing module, does not increase the cost of sensing module, and structure letter not only Change, assembling it is easy, especially need not significantly change original mouse body in set the soft, hard of mouse circuit Part designs, therefore is advantageous to manufacture end and consumption terminal.

(3) consumption terminal can ease of Use to carry out one-dimensional (Z axis) of sensing module or three-dimensional (X-Y-Z Axle) adjustment function, therefore the present invention is easily welcome by the especially electric competing player of consumption terminal, helps to carry Rise the market competitiveness of mouse for electric competitions.

The preferred embodiments of the present invention are the foregoing is only, are merely illustrative for the purpose of the present invention, and It is nonrestrictive；Those of ordinary skill in the art understand, in the spirit that the claims in the present invention are limited Many changes can be carried out to it, change with scope, or even equivalent change, but fall within the present invention Protection domain in.

Claims (10)

1. a kind of mouse of adjustable sensing module, for being operated with a working face, its feature exists In, comprising：

One mouse body, for its interior mouse circuit that is provided with to control mouse performance, its bottom surface is provided with one Circular open；

One external toroidal ring, it is provided with a central circular hole run through, and its level is located at the circle of the mouse body In opening；

One inner collar, it is provided with a central circular hole run through, and it is located at the external toroidal ring with can horizontally rotating Central circular hole on；

One disk, it is movably located on the central circular hole of the inner collar, and when the inner collar is relative When the external toroidal ring is horizontally rotated forward or backwards, the disk can be in the case where keeping not rotating The relative inner collar is moved up or down simultaneously, to change phase of the disk with respect to the inner collar To height, and a sensing window is provided with the card of the disk；And

One sensing module, it is located at the disk towards on the medial surface of the circular open of the mouse body, The sensing module is electrically coupled to the mouse circuit in the mouse body, and the sensing module can be by this Sensing window senses to the working face, to sense the mouse body produced by working face movement Input signal, and the corresponding cursor control signal that exports is to a computer installation；

Wherein when the inner collar is horizontally rotated forward or backwards with respect to the external toroidal ring, the disk energy Enough inner collars relative in the case where keeping not rotating are moved up or down, and make the sensing mould Block and the sensing window can integratedly as the disk relative to the external toroidal ring to make upward and downward movement, with Change and adjust relative altitude of the sensing module with respect to the inner collar or the working face.

2. the mouse of adjustable sensing module according to claim 1, it is characterised in that at this In the inner peripheral edge surfaces of the central circular hole of inner collar along ring periphery be provided with least one tool one center of circle angular region and by One low spot extends to the ramp type internal chute of a high point, and along ring periphery on the outer peripheral edge face of the disk Inserted provided with an at least protruding shaft with corresponding in the ramp type internal chute of the inner collar and can be in the ramp type It is relative in chute to slide；Wherein when the inner collar is operable to rotate forward or backwards relative to the external toroidal ring When, by the rotation of the ramp type internal chute of the inner collar with the relative at least protruding shaft for driving the disk Slided between low and high in the ramp type internal chute so that the disk can with respect to the inner collar to Above or move down, to change relative altitude of the disk with respect to the inner collar or the working face.

3. the mouse of adjustable sensing module according to claim 2, it is characterised in that at this Three external chutes equidistantly are provided with the inner peripheral edge surfaces of the central circular hole of external toroidal ring, and in the mouse body Circular open inner peripheral edge surfaces on be equidistantly provided with three protruding shafts, with it is corresponding insert it is sliding in each ramp type In groove.

4. the mouse of adjustable sensing module according to claim 1, it is characterised in that at this An at least internal thread is set in the inner peripheral edge surfaces of the central circular hole of inner collar, and in the outer peripheral edge of the disk A protruding shaft is respectively set on face and on the both ends of a diameter, to be symmetrically crossed on this at least on an internal thread, Wherein when the inner collar with respect to the external toroidal ring just or reversely horizontally rotate and the disk is set holding When not rotating, at least internal thread set by the inner collar can be somebody's turn to do by the gradient driving of the internal thread Disk moves up or down.

5. the mouse of adjustable sensing module according to claim 1, it is characterised in that at this A recessed guide groove is provided with along ring periphery in the inner peripheral edge surfaces of external toroidal ring, and on the outer peripheral edge face of the inner collar Along ring periphery be provided with one it is convex lead, with the corresponding recessed guide groove for inserting the external toroidal ring and can be in the recessed guide groove Flatly slide.

6. the mouse of adjustable sensing module according to claim 1, it is characterised in that this is outer On the circular open for the bottom surface that ring is arranged on the mouse body with can further horizontally rotating, make this outer Ring can rotate relative to the circular open；Wherein when the external toroidal ring is operable to the relative mouse body Circular open when rotating an angle, the inner collar and the disk can be integratedly synchronously with the external toroidal rings An angle is rotated, is made with adjusting the two dimension of sensing module computer screen relative with the sensing window Use angle.

7. the mouse of adjustable sensing module according to claim 6, it is characterised in that at this Being provided with least one along ring periphery on the outer peripheral edge face of external toroidal ring has the external chute of a center of circle angular region, and Be provided with an at least protruding shaft along ring periphery in the inner peripheral edge surfaces of the circular open of the mouse body, for It is respectively in the corresponding each external chute for inserting the external toroidal ring and horizontally slidable, so that the external toroidal ring being capable of phase The angle for flatly rotating an angle to the circular open of the mouse body and being rotated is controlled in the outer cunning In the range of the central angle of groove.

8. the mouse of adjustable sensing module according to claim 7, it is characterised in that at this The outer cunning of three one center of circle angular regions of each tool is equidistantly provided with the outer peripheral edge face of external toroidal ring along ring periphery Groove, and it is equidistantly convex provided with three along ring periphery in the inner peripheral edge surfaces of the circular open of the mouse body Axle.

9. the mouse of adjustable sensing module according to claim 1, it is characterised in that at this One is provided with the periphery of disk to indicate that the disk moves up the scale of distance, the scale is to table Show that the disk can phase with respect to inner collar institute when the inner collar rotates a certain angle relative to the external toroidal ring To increased amount of height.

10. the mouse of adjustable sensing module according to claim 5, it is characterised in that One is provided with the bottom surface of the mouse body and at the periphery of the external toroidal ring to indicate that the external toroidal ring is relative The angle index for the rotational angle that the circular open of the mouse body rotates.