CN205827341U - The mouse of adjustable sensing module - Google Patents

Abstract

The utility model discloses the mouse of a kind of adjustable sensing module, comprise a bottom surface and be provided with the mouse body of a circular open, an external toroidal ring that can be arranged on horizontally rotating on this circular open, an inner collar that can be arranged on horizontally rotating in this external toroidal ring itself and a disk；Wherein when this inner collar be operable to relatively this external toroidal ring horizontally rotate an angle forward or backwards time, this disk is i.e. driven the motion in one dimension making upward and downward with this inner collar relatively by this inner collar, to adjust this sensing module relative altitude relative to the work surface of this mouse, to adjust the lifting distance of mouse to promote use height；Wherein when this external toroidal ring is operable to rotate an angle relative to this circular open, this inner collar and this disk can rotate this angle integratedly and synchronously with this external toroidal ring, to adjust the two dimension use angle of this sensing module corresponding computer screen of using relative with this sensing window；Making this mouse reach can the one-dimensional or three-dimensional using effect adjusting sensing module.

Description

The mouse of adjustable sensing module

Technical field

This utility model relates to a kind of mouse, mouse (the MOUSE WITH A of a kind of adjustable sensing module ADJUSTABLE SENSING MODULE), can simply adjust this sensing module one-dimensional (Z axis) relative to work surface for user Use height or lifting distance (LOD, lift off distance) or use relative to the two dimension (X-Y axle) of computer screen Angle.

Background technology

Mouse is that periphery necessity for computer installation is equipped with, and is the most more generalized to electric competing field and uses, its quilt Be used for operate on a work surface with the computer installation of corresponding use such as computer screen is carried out input coordinate, click right As, the upper and lower various functions such as (front and back) or left and right scrolling picture.Owing to being used for operating the work surface of mouse, exist various different Change, such as the pigment coated mouse pad faces of difference, plastic desktop, wooden desktop etc., causes the sensing device that mouse used Lifting distance (LOD, lift off distance) is affected relatively.The sense used due to general mouse or mouse for electric competitions Surveying device, the manufacture end at mouse has the most been set and has been completed, and therefore chooses when consumption end (use end) and uses one During mouse, lifting distance (LOD) of this mouse is relatively made to be restricted because of the unlike material of work surface or detract, and consumption end It is difficult to from Row sum-equal matrix or improvement, unless used the operation of relative software just can complete.For disadvantages mentioned above, mouse is relevant has manufactured end Solution is proposed, such as US 8,850,093 (i.e. TW 201430626A) " MOUSE WITH A REPLACEABLE SENSING UNIT (mouse of replaceable sensing unit) ", mouse disclosed in it can be selected advantageous by consumption end with using needs voluntarily Sensing unit with change and be assembled in mouse body in default storage tank, wherein this sensing unit can use different Sensing component or a combination thereof, such as dissimilar sensing component or a combination thereofs such as yellow HONGGUANG, blue light, infrared ray, laser.But, with US8, for the actual application of 850,093, because same mouse probably must supply consumption by more than one different types of sensing component additional End selects, and relatively increases manufacturing cost (at least increasing sensing component cost) and the purchase cost of mouse, and US8, and 850,093 is public " the replaceable sensing unit " technology opened, for the consumption end of general mouse, the most inessential means, therefore US 8,850,093 Using effect is the best, and market acceptance is the highest.

Additionally, when mouse operates on a work surface, the front extreme direction of mouse, it is defined herein as Y-axis (with reference to Fig. 1, figure Shown in 2), substantially in the face of computer screen faced by the Y-axis of computer screen (not shown), i.e. mouse and put down with its normal OK, so when mouse operate X-Y two-dimentional (shown in reference Fig. 1, Fig. 2) mobile on work surface, the cursor ability on screen Correspondence presents the motion track of identical X-Y two dimension；But, when consuming end and operating mouse on a work surface, individual Chang Youyi The most different operating habits, most common be the Y-axis (with reference to shown in Fig. 1, Fig. 2) of mouse the most positively in the face of computer screen, The i.e. Y-axis of mouse does not has parallel with the normal of computer screen, more or less produces an angular deviation, cause mouse to exist between the two X-Y two-dimensional movement on work surface can not be completely corresponding and synchronously present on the computer screen, is so unfavorable for also cannot Meet the most quick and accurate operational requirements of electric competing game player.

Utility model content

Main purpose of the present utility model is to provide the mouse of a kind of adjustable sensing module, comprises a mouse body, Its bottom surface is provided with a circular open, an external toroidal ring that can be arranged on horizontally rotating on this circular open, one can horizontally rotate ground Being arranged on the inner collar in this external toroidal ring and a disk, disk can be located in this inner collar up and downly and which is provided with a sense Survey module and a sensing window；Wherein when this external toroidal ring remains stationary as this inner collar be operable to relatively this external toroidal ring forward or When rotating backward an angle, this disk can be driven to move up or down with this inner collar relatively by this inner collar and be somebody's turn to do to adjust Sensing module uses height relative to one-dimensional (Z axis) of the work surface of this mouse；Wherein it is operable to this circle relatively when this external toroidal ring When shape opening rotates an angle, this inner collar integrally and synchronously can rotate this angle with this external toroidal ring with this disk, with Adjust this sensing module and use angle with this sensing window relative to the two dimension (X-Y axle) of a computer screen, thereby make this mouse Reach one-dimensional, two-dimentional (X-Y) or three-dimensional (X-Y-Z) using effect sensing module to be adjusted.

In order to achieve the above object, the mouse of the adjustable sensing module that this utility model provides is grasped on a work surface Making, it comprises: a mouse body, is provided with a mouse circuit in it, and in order to control mouse performance, its bottom surface is provided with a circle and opens Mouthful；One external toroidal ring, it has a central circular hole, and it is rotatably arranged on the circular open of this mouse body, makes this outer shroud Circle can rotate relative to this circular open；One inner collar, it is rotatably arranged on the central circular hole of this external toroidal ring；And one circle Dish, it can be arranged on the central circular hole of this inner collar up and downly, and when this inner collar carries out forward relative to this external toroidal ring Or when reversely horizontally rotating, this disk simultaneously can carry out upward and downward relative to this inner collar and move, with change this disk relatively this The relative altitude of inner collar；It is provided with a sensing mould towards carrying on the medial surface of the circular open of this mouse body again at this disk Block, this sensing module is electrically coupled to the mouse circuit in this mouse body, and being provided with a pair in the card of this disk should feel Survey the sensing window of module, enable this sensing module by this sensing window, the work surface of this mouse to be sensed, with sense Survey this mouse body and move produced input signal at this work surface, and corresponding output cursor control signal fills to a computer Put；Wherein when this external toroidal ring remains stationary as, this inner collar is operable to rotate forward or backwards an angle relative to this external toroidal ring Time, this disk can be driven by this inner collar with this inner collar relative integratedly with sensing module set on it and sensing window Move up or down, to change this sensing module relative to this inner collar or the relative altitude in mouse performance face, i.e. adjust mouse LOD height (Z axis) with promote use height；Wherein it is operable to set by the bottom surface of relatively this mouse body when this external toroidal ring When circular open rotates an angle, this inner collar and this disk and sensing window set on it and sensing module can be integratedly Synchronize to rotate this angle with this external toroidal ring, i.e. adjust the use angle of mouse.

In an embodiment of the present utility model, the inner peripheral edge surfaces of the central circular hole of this inner collar is provided with along ring periphery At least one has a central angle scope and is extended to the ramp type internal chute of a high point by a low spot, and in the face, outer peripheral edge of this disk On be provided with at least one protruding shaft inserts the ramp type internal chute of this inner collar with correspondence along ring periphery and can slide in this ramp type Groove slides relatively；Wherein when this inner collar is operable to rotate forward or backwards relative to this external toroidal ring, by this inner collar The rotating between the low and high to drive at least one protruding shaft of this disk in this ramp type internal chute of ramp type internal chute Slide, so that this disk can move up or down by this inner collar relatively, to change this disk relative to maybe this work of this inner collar The use height in face.

In an embodiment of the present utility model, along between ring periphery etc. in the inner peripheral edge surfaces of the central circular hole of this inner collar Away from being provided with three ramp type internal chutes, and equidistantly it is provided with three protruding shafts along ring periphery on the face, outer peripheral edge of this disk, for dividing In correspondence does not inserts each ramp type internal chute.

In an embodiment of the present utility model, it is provided with a upward and downward groove further on this ramp type internal chute and leads to Road, can be inserted in this ramp type internal chute by this recess channels correspondence for protruding shaft set on the face, outer peripheral edge of this disk.

In an embodiment of the present utility model, in the inner peripheral edge surfaces of the central circular hole of this inner collar is provided with at least one Screw thread supplies in order to replace this ramp type internal chute, and it is convex respectively to set one on the face, outer peripheral edge of this disk and on the two ends of a diameter Axle, is crossed on this at least one female thread with symmetry.

In an embodiment of the present utility model, the face, outer peripheral edge of this external toroidal ring is provided with at least one along ring periphery and has The external chute of one central angle scope, and it is convex to be provided with at least one along ring periphery in the inner peripheral edge surfaces of the circular open of this mouse body Axle, insert the external chute of this external toroidal ring with correspondence in and slidably, so that this external toroidal ring can the circle of this mouse body relatively Open horizontal rotates an angle, and the angle limits rotated is in the range of the central angle of this external chute.

In an embodiment of the present utility model, the face, outer peripheral edge of this external toroidal ring is equidistantly provided with three along ring periphery External chute, and equidistantly it is provided with three protruding shafts along ring periphery in the inner peripheral edge surfaces of the circular open of this mouse body.

In an embodiment of the present utility model, it is provided with one in order to indicate this disk at the peripheral place of this disk further The scale of produced displacement when being moved up by operation.

In an embodiment of the present utility model, it is further on the bottom surface of this mouse body and outside this external toroidal ring Enclose place and be provided with one in order to indicate this external toroidal ring to be operated the angle index of the angle of rotation.

Accompanying drawing explanation

Fig. 1 is the stereoscopic schematic diagram of this utility model one embodiment；

Fig. 2 is the side schematic view that mouse shown in Fig. 1 operates at a work surface；

Fig. 3 is to regard schematic appearance in an end of mouse shown in Fig. 1；

Fig. 4 is visual angle, an end decomposing schematic representation；

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

Fig. 6 is this utility model one embodiment China and foreign countries ring, inner collar and the exploded perspective schematic diagram of disk；

Fig. 7 is this utility model one embodiment China and foreign countries ring, inner collar and the exploded side schematic diagram of disk；

Fig. 8 is another embodiment China and foreign countries ring of this utility model, inner collar and the exploded side schematic diagram of disk.

Description of reference numerals: the mouse of 1-adjustable sensing module；2-work surface；10-mouse body；11-mouse circuit； 12-bottom surface；13-circular open；14-inner peripheral edge surfaces；15-protruding shaft；20-external toroidal ring；21-central circular hole；22-inner peripheral edge surfaces；23- Recessed guide groove；Face, 24-outer peripheral edge；25-external chute；26-double wedge；30-inner collar；31-central circular hole；Face, 32-outer peripheral edge；33-is convex Lead；34-inner peripheral edge surfaces；35-ramp type internal chute；351-low spot；352-high point；353-recess channels；36-female thread；36a- Screw thread entrance；37-double wedge；40-disk；41-medial surface；42-senses window；Face, 43-outer peripheral edge；44-protruding shaft；50-senses mould Block；60-angle index；70-scale 70.

Detailed description of the invention

For making this utility model the most full and accurate, hereby enumerate preferred embodiment and coordinate following schemes, this practicality is new After the structure of type and technical characteristic thereof describe in detail such as.

As shown in Figures 1 to 7, the mouse 1 of the adjustable sensing module that this utility model provides is for grasping on a work surface 2 Using, it comprises: mouse body 10, external toroidal ring 20, inner collar 30, disk 40 and a sensing module 50.

A mouse circuit 11 it is provided with, in order to control the adjustable sensing module that this utility model provides in this mouse body 10 Mouse 1 work, its bottom surface 12 is provided with a circular open 13.

This external toroidal ring 20 is provided with a central circular hole 21 run through, and it can be arranged on the circle of this mouse body 10 with horizontally rotating On shape opening 13, make this external toroidal ring 20 obtain and rotate relative to this circular open 13, as shown in arrow A in Fig. 3.

This inner collar 30 is provided with a central circular hole 31 run through, and it can be arranged on the central authorities of this external toroidal ring 20 with horizontally rotating On circular hole 21；Wherein, the inner peripheral edge surfaces 22 of this external toroidal ring 20 can set a recessed guide groove 23 along ring periphery, and at this inner collar 30 Face, outer peripheral edge 32 on set one along ring periphery and convex lead in the 33 recessed guide grooves 23 inserting this external toroidal ring 20 with correspondence and can flatly slide Dynamic, as shown in arrow B in Fig. 3.

This disk 40 can be arranged on the central circular hole 31 of this inner collar 30 up and downly, when this inner collar 30 relatively should When external toroidal ring 20 horizontally rotates forward or backwards (as shown in arrow B in Fig. 3), this disk 40 can not rotate in holding In the case of simultaneously relatively this inner collar 30 carry out moving up or down (as shown in arrow C in Fig. 2, Fig. 7), to be altered or modified The relative altitude of the central circular hole 31 of this disk 40 this inner collar 30 relative；Additionally, be provided with a sense in the card of this disk 40 Survey window 42.

This sensing module 50 is located at (towards this circular open 13) on this disk 40 medial surface 41, this sensing module 50 in order to It is electrically coupled to the mouse circuit 11 in this mouse body 10, makes this sensing module 50 can pass through this sensing window 42 to this work Make face 2 to sense, to sense this mouse body 10 mobile produced input signal on this work surface 2, and corresponding output Cursor control signal is to a computer installation (non-icon).

When the circular open 13 that this external toroidal ring 20 is operable to this mouse body 10 relatively horizontally rotates an angle, such as figure In 3 shown in arrow A, this inner collar 30, this disk 40 can synchronize to rotate this angle with this external toroidal ring 20, to adjust this sensing Module 50 uses angle, as shown in Figure 1, Figure 2 middle institute with the two dimension (X-Y axle) of this sensing window 42 relative computer screen (not shown) Show.

When this inner collar 30 this external toroidal ring 20 relative horizontally rotates forward or backwards, as shown in arrow B in Fig. 3, This disk 40 can move up or down by this inner collar 30 relatively in the case of keeping not rotating, and makes this sensing module 50 can move making upward and downward (Z axis) relative to this inner collar 30 along with this disk 40, such as figure integratedly with this sensing window 42 2, in Fig. 7 shown in arrow C, to change this sensing module 50 this inner collar 30 relative or the relative altitude of this work surface 2, i.e. adjust Lifting distance (LOD, lift off distance) of mouse 1 uses height to promote.

Have outside a central angle scope additionally, be provided with at least one along ring periphery on the face, outer peripheral edge 24 of this external toroidal ring 20 Chute 25, is equidistantly provided with three external chutes 25, as shown in Figure 5 (because visual angle relation only sees two external chutes such as the present embodiment 25)；And in the inner peripheral edge surfaces 14 of the circular open 13 of this mouse body 10, it is provided with at least one protruding shaft 15 along ring periphery, such as this reality Execute example and be equidistantly provided with three protruding shafts 15, as shown in Figure 4 (because visual angle relation only sees two protruding shafts 15), insert this in order to correspondence In the external chute 25 of external toroidal ring 20 and slidably, so that this external toroidal ring 20 can circular open 13 water of this mouse body 10 relatively Level land rotates an angle and the Angle ambiguity that rotated in the range of the central angle of this external chute 25.

Additionally, be provided with at least one along ring periphery in the inner peripheral edge surfaces 34 of the circular hole 31 of this inner collar 30 there is a central angle Scope and extended to the ramp type internal chute 35 of a high point 352 by a low spot 351 but be not intended to, as the present embodiment intermediate reach sets There are three ramp type internal chutes 35, (because visual angle relation only sees two) as shown in Fig. 5, Fig. 6, Fig. 7；And outside this disk 40 It is provided with at least one protruding shaft 44 along ring periphery, as the present embodiment intermediate reach is provided with three protruding shafts 44, such as Fig. 5, Fig. 6 on circumferential surface 43 Shown in (because visual angle relation only sees two protruding shafts), in inserting this ramp type internal chute 35 in order to correspondence and slidably so that this Inner collar 30 can rotate the angle limits of an angle and this rotation at this ramp type internal chute forward or backwards relative to this disk 40 In the range of the central angle of 35.When this inner collar 30 this external toroidal ring 20 relative horizontally rotates (arrow in such as Fig. 3 forward or backwards Shown in B) and this disk 40 be maintained in the case of not rotating (as set a block card between disk 40 and external toroidal ring 20 to prevent circle Dish 40 rotates with this inner collar 30), then this ramp type internal chute 35 can simultaneously drive this disk 40 in rotation relative this is interior Ring 30 carries out moving up or down (as shown in arrow C in Fig. 2, Fig. 7), so that this disk 40 relative this internal ring is altered or modified Circle 30 or the relative altitude of this work surface 2.

It is not restricted to by the type of drive horizontally rotating to drive this disk 40 to move up and down of this inner collar 30 The ramp type internal chute 35 of this inner collar 30, as it is shown in fig. 7, it separately can utilize at least one female thread 36, replaces as shown in Figure 8 This ramp type internal chute 35, in the embodiment shown in fig. 8, on the face, outer peripheral edge 43 of this disk 40 and on the two ends of a diameter It is respectively provided with a protruding shaft 44, is crossed on this at least one female thread 36 with symmetry, thereby when this inner collar 30 this external toroidal ring 20 relative When just carrying out or reversely horizontally rotate, it is set holding at this disk 40 and does not rotates that (i.e. this disk 40 this inner collar 30 relative is not Rotate) in the case of, this at least one female thread 36 set by inner collar 30 can drive this by the gradient of this female thread 36 Disk 40 moves up or down, if wherein this inner collar 30 is when forward horizontally rotates, this disk 40 is set to upwards Mobile (away from work surface 2), then, when this inner collar 30 reversely horizontally rotates, this disk 40 is and moves down (near work Make face 2).

In order to easy to assembly, as it is shown in fig. 7, set a upward and downward recess channels 353 on this ramp type internal chute 35, such as figure 6, shown in Fig. 7, can be inserted this by this recess channels 353 correspondence with for protruding shaft 44 set on the face, outer peripheral edge 43 of this disk 40 In ramp type internal chute 35.In like manner, as shown in Figure 8, this at least one female thread 36 can respectively set a screw thread entrance 36a such as Fig. 8 Shown in, can be imported in this at least one female thread 36 by this screw thread entrance 36a correspondence for protruding shaft 44 set on this disk 40.

Additionally, as it is shown on figure 3, at least one double wedge 26 can be set on the outer surface of this external toroidal ring 20, as right in the present embodiment Claim to be provided with two double wedges 26, can be opened with this external toroidal ring 20 this circle relative of ease of Use by this at least one double wedge 26 for user Mouth 13 rotates.It is provided with one in order to indicate this external toroidal ring on the bottom surface 12 of this mouse body 10 and at the peripheral place of this external toroidal ring 20 The angle index 60 of the rotational angle of 20.

Additionally, as it is shown on figure 3, at least one double wedge 37 can be set on the outer surface of this inner collar 30, as right in the present embodiment Claim to be provided with two double wedges 37, can be by this at least one double wedge 37 with this inner collar 30 this external toroidal ring relative of ease of Use for user 20 rotate.Be provided with one in order to indicate this disk 40 to move up the scale 70 of distance at the peripheral place of this disk 40, it is in order to table Show that, when this inner collar 30 rotates a certain angle relative to this external toroidal ring 20, this disk 40 this inner collar 30 relative can increase relatively Amount of height (distance that i.e. this disk 40 moves up)；Wherein this amount of height relatively increased is according to this ramp type internal chute 35 Or the gradient (slope) of this at least one female thread 36 and preset.

The mouse of the adjustable sensing module that this utility model provides compares with other prior aries, has the advantage that

(1) this utility model only sets a sensing module, not only one-dimensional (Z axis) can adjust this sensing module relative to this work surface Relative altitude, again can reselection two dimension (X-Y axle) adjust this sensing module with this sensing window relative to the two of computer screen Dimension (X-Y axle) uses angle, therefore service efficiency of the present utility model is better than prior art (such as US 8,85 row 0,093).

(2) this utility model only sets a sensing module, does not the most increase the cost of sensing module, and structure simplifies, assembles Easily, especially need not significantly revise original mouse body in set mouse circuit soft and hardware design, therefore be conducive to manufacture end and Consumption end.

(3) consumption end can adjust merit with one-dimensional (Z axis) or three-dimensional (X-Y-Z axle) that carry out sensing module by ease of Use Can, therefore this utility model is easily subject to consume the welcome of the most electric competing player of end, contributes to promoting the market competition of mouse for electric competitions Power.

The foregoing is only preferred embodiment of the present utility model, be merely illustrative for this utility model, rather than Restrictive；Those of ordinary skill in the art understand, can be right in the spirit and scope that this utility model claim is limited It carries out many changes, amendment, even equivalence change, but falls within protection domain of the present utility model.

Claims (10)

1. a mouse for adjustable sensing module, for operating with on a work surface, it is characterised in that comprise:

One mouse body, is provided with a mouse circuit in order to control mouse performance in it, its bottom surface is provided with a circular open；

One external toroidal ring, it is provided with a central circular hole run through, and its level is located on the circular open of this mouse body；

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

One disk, it is located on the central circular hole of this inner collar movably, and when this inner collar is just being carried out relative to this external toroidal ring To or when reversely horizontally rotating, this disk can in the case of keeping not rotating the most relatively this inner collar carry out upwards or to Lower movement, to change this disk relative altitude relative to this inner collar, is provided with again a sensing window in the card of this disk；With And

One sensing module, it is located at this disk towards on the medial surface of the circular open of this mouse body, and this sensing module is electrical Being coupled to the mouse circuit in this mouse body, this work surface can be sensed by this sensing module by this sensing window, Move produced input signal at this work surface sensing this mouse body, and corresponding output cursor control signal calculates to one Machine；

Wherein when this inner collar horizontally rotates forward or backwards relative to this external toroidal ring, this disk can not rotate in holding In the case of relatively this inner collar move up or down, enable this sensing module and this sensing window integratedly along with This disk is to move as upward and downward relative to this external toroidal ring, to change and to adjust this sensing module relative to this inner collar or this work surface Relative altitude.

The mouse of adjustable the most according to claim 1 sensing module, it is characterised in that at the central circular hole of this inner collar Inner peripheral edge surfaces on be provided with at least one tool one central angle scope along ring periphery and extended to the ramp type of a high point by a low spot in Chute, and be provided with in the ramp type that at least one protruding shaft inserts this inner collar with correspondence along ring periphery on the face, outer peripheral edge of this disk Chute is interior and relatively can slide in this ramp type internal chute；Wherein when this inner collar be operable to relatively this external toroidal ring forward or When rotating backward, oblique at this with at least one protruding shaft relatively driving this disk by the rotation of the ramp type internal chute of this inner collar Slide between the low and high in the formula internal chute of slope, so that this disk can move up or down by this inner collar relatively, to change This disk is relative to this inner collar or the relative altitude of this work surface.

The mouse of adjustable the most according to claim 2 sensing module, it is characterised in that at the central circular hole of this external toroidal ring Inner peripheral edge surfaces on be equidistantly provided with three external chutes, and equidistantly set in the inner peripheral edge surfaces of the circular open of this mouse body There are three protruding shafts, insert in each ramp type internal chute with correspondence.

The mouse of adjustable the most according to claim 1 sensing module, it is characterised in that at the central circular hole of this inner collar Inner peripheral edge surfaces at least one female thread is set, and it is convex respectively to set one on the face, outer peripheral edge of this disk and on the two ends of a diameter Axle, is crossed on this at least one female thread with symmetry, is wherein just carrying out relative to this external toroidal ring when this inner collar or reversely level turns Dynamic and this disk is set when keeping not rotating, and this at least one female thread set by inner collar can be by the gradient of this female thread This disk is driven to move up or down.

The mouse of adjustable the most according to claim 1 sensing module, it is characterised in that in the inner peripheral edge surfaces of this external toroidal ring On be provided with a recessed guide groove along ring periphery, and on the face, outer peripheral edge of this inner collar, be provided with one along ring periphery convex lead, insert with correspondence In the recessed guide groove of this external toroidal ring and flatly can slide in this recessed guide groove.

The mouse of adjustable the most according to claim 1 sensing module, it is characterised in that this external toroidal ring further can level On the circular open of the bottom surface being rotatably arranged at this mouse body, this external toroidal ring is enable to rotate relative to this circular open；Its In when this external toroidal ring is operable to rotate an angle relative to the circular open of this mouse body, this inner collar and this disk can Synchronize integratedly to rotate this angle with this external toroidal ring, to adjust this sensing module with this sensing window relative to computer screen Two dimension uses angle.

The mouse of adjustable the most according to claim 6 sensing module, it is characterised in that in the face, outer peripheral edge of this external toroidal ring On be provided with at least one external chute with a central angle scope, and the inner peripheral of the circular open in this mouse body along ring periphery It is provided with at least one protruding shaft along ring periphery, in order in the corresponding each external chute inserting this external toroidal ring respectively and can level cunning on face It is dynamic, so that this external toroidal ring can flatly rotate an angle and the Angle ambiguity rotated relative to the circular open of this mouse body In the range of the central angle of this external chute.

The mouse of adjustable the most according to claim 7 sensing module, it is characterised in that in the face, outer peripheral edge of this external toroidal ring On be equidistantly provided with the external chute of three each tool one central angle scopes along ring periphery, and in the circular open of this mouse body Three protruding shafts equidistantly it are provided with along ring periphery on circumferential surface.

The mouse of adjustable the most according to claim 1 sensing module, it is characterised in that be provided with at the peripheral place of this disk One in order to indicate this disk to move up the scale of distance, and this scale is in order to represent when this inner collar rotates certain relative to this external toroidal ring During one angle, the amount of height that this disk can increase relatively relative to this inner collar.

The mouse of adjustable the most according to claim 5 sensing module, it is characterised in that in the bottom surface of this mouse body Upper and be provided with at the peripheral place of this external toroidal ring one in order to indicate that the circular open of this external toroidal ring this mouse body relatively rotates turn The angle index of dynamic angle.