CN204904223U - Mouse button is pressed grammes per square metre and is adjusted structure - Google Patents

Abstract

The utility model provides a mouse button is pressed grammes per square metre and is adjusted structure, including: a casing device is equipped with the button on it, a circuit arrangement, it sets firmly in this casing device, and this circuit arrangement front end is equipped with an at least touch pressure switch, an adjusting device is including a drive module, hold and put seat, slider and elastic component, this drive module, it is done all can and corresponding motion by starting him, and this drive module is equipped with moving part in a row, should hold and put the seat and solidify in this casing device, should hold and put the seat including the peripheral sideboard of a bottom plate and this bottom plate, should hold to put and be equipped with one in the seat and supply the through -hole that interlock spare passed through, this slider cunning is located to hold and is put in the seat, this slider department is located to this elastic component to support between this slider and this button, so, through simple and easy convenient operation, can this slider of interlock carry out the linear displacement motion when drive interlock spare, make the button have that fast speed adjusting is whole to be pressed down the grammes per square metre and press down feel nature effect, and can actively promote the easy -to -use nature and the individual suitability of button.

Description

Mousebutton pressing grammes per square metre adjust structure

Technical field

The utility model relates to a kind of mouse structure, espespecially a kind of utilize ease of Use form with adjust mousebutton pressing grammes per square metre and pressing texture, and then facility with the use of person individual operational suitability mousebutton press time grammes per square metre adjust structure.

Background technology

Mouse is normal to carry out the interfacing equipment manipulated during various computing machine uses, mouse structure is provided with the button of a roller and this roller side usually, rely on this roller operation computer screen page that rolls to carry out scrolling, and this button is usually in order to perform the related functionality operation of mouse.Existing mouse structure as shown in Figure 1, this mouse 90 includes a housing 91, this housing 91 front end upper surface is provided with at least one button 92, there is bottom this button 92 briquetting 93, this housing 91 inside is provided with should the touch-pressure switch 94 of button 92, and this touch-pressure switch 94 upper end is provided with one by compressing switch 941; When pressing this button 92, this briquetting 93 will press tactile being somebody's turn to do by compressing switch 941 downwards, make this touch-pressure switch 94 produce running, to carry out the operation of mouse related functionality.

Though this existing mouse 90 aforementioned can rely on the pressing of this button 92 to start and to perform correlation function, so, its disappearance is still had to exist, such as, the pressed state of this button 92 is subject to (comprising pressing grammes per square metre and pressing texture etc.) restriction of the set formation of mouse 90, cannot adjust, the component of the most frequent operation of mark 90 and button 92 is born in the year of mouse, especially electric competing game operation, a large amount of pressing operations of this button 92 often make it press grammes per square metre to change, but cannot adjust for the pressing grammes per square metre of this button 92 or elastic reaction state, aobvious nonideal design, moreover, because mouse belongs to the consumptive material product of computer interface equipment, often there is the phenomenon of replacing, every user requires different to the grammes per square metre sense of button during pressing and the button feedback sense that rebounds, especially handfeel of keys is required sharper for the user being engaged in electric competing game, so can be have its indispensability from Row sum-equal matrix button grammes per square metre for user, moreover when its older mouse of use or when more renewing mouse, its operation skill being familiar with training can be subject to the impact of different mouse pressing operation sense, because key structure of mouse cannot carry out the restriction that adjusts, make the operation texture of its old mouse that must again adapt to change or different new mouse, unnecessarily cause the puzzlement in use, also the necessity improved in the lump is had.Therefore, how to solve above-mentioned existing key structure of mouse manipulation on disappearance problem, should be industry should make great efforts solve, overcome enter a problem.

Edge this, the utility model designer, in view of in the key controlled use of existing mouse wheel structure, disappearance and structural design thereof does not attain the desirable fact, namely this case utility model designer sets about researching and developing its solution, wish to develop a kind of mousebutton pressing grammes per square metre adjust structure having more adjustable, ease of use and suitable to individual, with service society masses and the development promoting this industry, satisfy the design when many and have generation of the present utility model.

Utility model content

The purpose of this utility model is providing a kind of mousebutton pressing grammes per square metre adjust structure, it can rely on the operation of Simple convenient, make mousebutton have the effect of its pressing grammes per square metre of rapid adjustment and pressing texture, and actively can promote ease of use and the suitable to individual of mousebutton.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of mousebutton pressing grammes per square metre adjust structure, is characterized in that, include:

One casing device, which is provided with at least one button, and the bottom of this casing device is provided with at least onely recessedly wears portion;

One circuit arrangement, includes a circuit board, and this circuit board is fixedly arranged on this casing device, and this circuit board front end is provided with at least one touch-pressure switch;

One adjusting gear, include a driver module, holder, sliding part and elastic component, this driver module is a rotating part, this driver module is provided with the wide larger turn seat in footpath being positioned at bottom and the wide less spiro rod section in footpath being positioned at top, this spiro rod section penetrates this and recessedly wears portion, this holder is consolidated in this casing device, this holder includes the side plate of a base plate and this floor peripheral, this base plate is provided with a through hole worn for this spiro rod section, this sliding part is slidedly arranged in this holder and is positioned between side plate, this sliding part is provided with the screw of one and this spiro rod section bolt, this elastic component is sheathed on this spiro rod section place and is butted between this sliding part and this button.

Aforementioned formation, wherein, this casing device includes a top cover and drain pan, is provided with a pressing piece and arrived piece bottom this button, and this pressing piece penetrates a through hole of this top cover.

Aforementioned formation, wherein, this adjusting gear enters one and includes a positioning disk, and this positioning disk is fixedly arranged on this and recessedly wears portion, and this positioning disk is provided with a through hole of central part, and this side plate is provided with one and microsclerly wears groove.

Aforementioned formation, wherein, this driver module is provided with a positioning ring groove, and this positioning ring groove is embedded with one in order to locate the locating part of this positioning disk, and this sliding part periphery is provided with to be placed through this microscler nose bar wearing groove.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of mousebutton pressing grammes per square metre adjust structure, is characterized in that, include:

One casing device, it is at least provided with a button;

One circuit arrangement, includes a circuit board, and this circuit board is fixedly arranged on this casing device, and this circuit board front end is provided with at least one touch-pressure switch;

One adjusting gear, include a driver module, holder, sliding part and elastic component, this driver module is power start, and be electrically connected to circuit arrangement, include gear motor and gear set, this driver module also drives a moving part, this holder is consolidated in this casing device, include the side plate of a base plate and this floor peripheral, this base plate is provided with a through hole, this through hole wears combination for this moving part, this sliding part is slidedly arranged in this holder, this elastic component is located at the top of this sliding part, and be butted between this sliding part and this button, the running of this driver module is opened by electric signal, and this moving part of interlock, this this sliding part of moving part interlock carries out straight-line displacement campaign, make the operation this elastic component pressed or loosens.

Aforementioned formation, wherein, this casing device includes a top cover and drain pan, is provided with a pressing piece and arrived piece bottom this button, and this pressing piece penetrates a through hole of this top cover.

Aforementioned formation, wherein, this side plate is provided with one and microsclerly wears groove, and this sliding part periphery is provided with to be placed through this microscler nose bar wearing groove.

Aforementioned formation, wherein, moving part includes the main joint part that is connected and further from joint piece, this this driver module of main joint part one end pivot joint, its other end connects should from joint piece, and should to pass through this through hole in the one end away from this main joint part from joint piece and against this sliding part.

Aforementioned formation, wherein, this mouse is provided with the plus-minus button controlling this gear motor running in driver module, manipulates the running of this motor by means of pressing this plus-minus button continuously with electric signal.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of mousebutton pressing grammes per square metre adjust structure, is characterized in that, include:

One casing device, includes a top cover and at least one button;

One circuit arrangement, includes a circuit board, and this circuit board is fixedly arranged on this casing device, and this circuit board front end is provided with at least one touch-pressure switch;

One adjusting gear, include a driver module, holder, sliding part and elastic component, this driver module is manual toggle, include handsetting gear and gear set, this handsetting gear is convex to be at least partly exposed to outside this on, this driver module also drives a moving part, this holder is consolidated in this casing device, include the side plate of a base plate and this floor peripheral, a through hole is provided with in this holder, this through hole wears combination for this moving part, this sliding part is slidedly arranged in this holder, this elastic component is located at the top of this sliding part, and be butted between this sliding part and this button, by stirring handsetting gear and the gear set running of this driver module, and the running of this moving part of interlock, and this sliding part of interlock carries out straight-line displacement campaign, this elastic component is made to carry out the operation pressed or loosen.

Aforementioned formation, wherein, this moving part is a cam.

Aforementioned formation, wherein, this driver module is provided with a transmission shaft, and this transmission shaft drives this cam to rotate.

Aforementioned formation, wherein, this holder is combined by two halves cylinder to be formed.

Compared with prior art, the advantage adopting the utility model of technique scheme to have is: by the operation of Simple convenient, make mousebutton have the effect of its pressing grammes per square metre of rapid adjustment and pressing texture, and actively can promote ease of use and the suitable to individual of mousebutton.

Hereby further understand and understanding for making your juror more have technical characteristic of the present utility model and effect of reaching, careful assistant is with preferred embodiment figure and coordinate detailed description, illustrates as after.

Accompanying drawing explanation

Fig. 1 is existing press-key structure schematic diagram;

Fig. 2 is the solid combination schematic diagram of the utility model first embodiment;

Fig. 3 is the decomposing schematic representation of the utility model first embodiment;

Fig. 4 is the cross-sectional schematic one of the utility model first embodiment;

Fig. 5 is the cross-sectional schematic two of the utility model first embodiment;

Fig. 6 is the partial exploded view of the utility model second embodiment;

Fig. 7 is the partial schematic sectional view of the utility model second embodiment;

Fig. 8 is the part isometric schematic diagram of the utility model the 3rd embodiment.

Description of reference numerals: casing device 10; Top cover 11; Roller 111; Button 112; Pressing piece 113; Arrived piece 114; Location division 115; Positioning hole collumn 116; Through hole 117; Drain pan 12; Turning rolls 121; Recessedly wear portion 122; Circuit arrangement 20; Circuit board 21; Touch-pressure switch 22; Press key 221; Adjusting gear 30; Driver module 31; Turn seat 311; Positioning ring groove 312; Spiro rod section 313; Turn groove 314; Positioning disk 32; Pilot hole sheet 321; Through hole 322; Locating part 33; Holder 34; Side plate 341; Base plate 342; Wear groove 343; Through hole 344; Sliding part 35; Screw 351; Nose bar 352; Screw plug member 36; Elastic component 37; Adjusting gear 40; Driver module 41; Handsetting gear 411; Moving part 42; Main joint part 421; From joint piece 422; Holder 43; Side plate 431; Base plate 432; Wear groove 433; Through hole 434; Fixed orifice 435; Sliding part 44; Through post 441; Nose bar 442; Spacing hole 443; Elastic component 46; Fore-set 461.

Implementation Modes

Refer to Fig. 2 to Fig. 5, be the utility model mousebutton pressing grammes per square metre adjust structure first embodiment, it includes a casing device 10, circuit arrangement 20 and two adjusting gears 30; This casing device 10 includes a top cover 11 and drain pan 12, wherein, this top cover 11 is provided with a roller 111 and is positioned at the button 112 of these roller 111 both sides, the position, rear end of this button 112 is provided with the location division 115 of an en plaque, this location division 115 is fixedly arranged on a positioning hole collumn 116 of this top cover 11, this button 112 is positioned for pressing operation above this top cover 11 front end, and be provided with a pressing piece 113 and arrived piece 114 bottom this button 112, this pressing piece 113 can penetrate a through hole 117 of this top cover 11; This drain pan 12 is provided with one in order to the turning rolls 121 of this roller 111 of bearing, and separately the bottom of this drain pan 12 is provided with two and recessedly wears portion 122 (as shown in Figure 2, Figure 4 shows).

This circuit arrangement 20 includes a circuit board 21, this circuit board 21 is fixedly arranged in this casing device 10 (as being installed in drain pan 12 or top cover 11), this circuit board 21 is provided with the control of mouse, the electronic package (unnumbered) of start-up operation, and this circuit arrangement 20 can form telecommunication with an electronic installation (non-icon) is by wireless or cable connected, and the cursor movement controlling electronic installation is (because this part is the basic function of mouse movement, therefore separately do not repeat), and these both sides, circuit board 21 front end are respectively equipped with a touch-pressure switch 22, this touch-pressure switch 22 is in should the setting of button 112, this touch-pressure switch 22 is provided with one and presses key 221.

This adjusting gear 30 is located on this casing device 10, and this adjusting gear 30 includes a driver module 31, positioning disk 32, holder 34, sliding part 35 and elastic component 37; This positioning disk 32 is fixedly arranged on the recessed of this drain pan 12 and wears place of portion 122, and this positioning disk 32 is provided with periphery in order to be consolidated in a through hole 322 of plural pilot hole sheet 321 on this drain pan 12 and central part; This driver module 31, a rotating part in the present embodiment, the through hole 322 of this positioning disk 32 can be arranged in as a body of rod, this driver module 31 includes the bottom one wide larger turn seat 311 in footpath and top one spiro rod section 313, this driver module 31 is provided with a positioning ring groove 312, this turn seat another can arrange a turn groove 314 for 311 times, in order to the turn of this driver module 31; This holder 34 its include the side plate 341 (in this holder 34 of the present embodiment slightly in a U-shaped pedestal) of a base plate 342 and this base plate 342 periphery, this base plate 342 is provided with a through hole 344, this side plate 341 can be consolidated in this top cover 11, and this side plate 341 is provided with one and microsclerly wears groove 343; This sliding part 35 can be a square block (but not by being limit), and it is located in this holder 34 and is positioned between side plate 341, and this sliding part 35 is provided with a screw 351 of central part and the nose bar 352 of both sides, and this nose bar 352 is placed through this and wears groove 343; This elastic component 37 (as spring etc.) is located at the top position of this sliding part 35, and is butted between this sliding part 35 and arrived piece 114 (or button 112).During its combination running, this driver module 31 is arranged in through hole 322, the through hole 344 of this holder 34, the screw 351 of this sliding part 35 of this positioning disk 32 from bottom to top, and make this elastic component 37 sheathed on it, and with locating part 33 (as a C shape clasp) embedding positioning ring groove 312 tied in this driver module 31, this locating part 33 is made to be positioned at the top of this positioning disk 32, in order to locate this positioning disk 32; Now, this turn seat 311 is positioned at the recessed of this drain pan 12 and wears place of portion 122, namely form that this turn seat 311 exposes this drain pan 12 (casing device 10) recessed wear outside portion 122 can turning component; In suitable embodiment, the screw 351 of this sliding part 35 a screw plug member 36 can be located in this sliding part 35 and be formed, and makes this elastic component 37 be butted between this screw plug member 36 (or sliding part 35) and arrived piece 114; And this recessed suitable design of wearing portion 122, this turn seat 311 can be made to expose this drain pan 12 (casing device 10) outside, and the setting of this turn seat 311 periphery groove (not shown) can be coordinated and the turn operation of this turn seat 311 convenient.

During its adjustment operation of the utility model mousebutton pressing grammes per square metre adjust structure, namely with this turn seat 311 of the dynamic operation of hand-screw, and this spiro rod section 313 of interlock rotates, because this holder 34 is in fixing, and this sliding part 35 limit by this holder 34 rotation, therefore when turn seat 311 (spiro rod section 313) rotates, this sliding part 35 of interlock is carried out straight-line displacement campaign, even if this sliding part 35 produces the interlock rising or fall, and simultaneously to the operation that this elastic component 37 presses or loosens, so, namely the pressing grammes per square metre on this button 112 pressing operation of adjustable or operation texture, therefore the pressing of this this button 112 of turn seat 311 (driver module 31) adjustable of user's turn sensation is until most suitable mode of operation.

Refer to Fig. 6, Fig. 7, the utility model mousebutton pressing grammes per square metre adjust structure second embodiment, in order to illustrate that the change of this adjusting gear arranges formation; This adjusting gear 40 includes a driver module 41, holder 43, sliding part 44 and elastic component 46; This driver module 41, in the present embodiment with power start, can be a gear motor and gear set formed, and this driver module 41 can be located on this drain pan 12 (casing device 10) or circuit board 21, and be electrically connected to circuit arrangement 20; Again, this driver module 41 drives a moving part 42, and in this moving part of this embodiment by one group of main joint part 421 be connected and formed from joint piece 422, this this driver module 41 of main joint part 421 one end pivot joint, the other end connects should from joint piece 422; This holder 43 includes the side plate 431 (in the present embodiment slightly in a U-shaped pedestal) of a base plate 432 and this base plate 432 periphery, its, this base plate 432 is provided with a through hole 434, and this through hole 434 wears for this one end away from main joint part 421 from joint piece 422; And this side plate 431 can rely on the fixed orifice 435 above it to be consolidated in this top cover 11 (with the first embodiment), and this side plate 431 is provided with a microscler groove 433 of wearing; This sliding part 44 can be a square block (but not by being limit), it is located in this holder 43 and is positioned between side plate 431, a through post 441 of central part and the nose bar 442 of both sides is provided with above this sliding part 44, this nose bar 442 is placed through this and wears groove 433, and the below of this sliding part 44 is arranged with a spacing hole 443, after this spacing hole 443 provides this to pass through this through hole 434 from joint piece 422 against use; This moving part 42 is so made to be able to this sliding part 44 of interlock; This elastic component 46 (as spring etc.) is located at through post 441 position above this sliding part 44, and is butted between this sliding part 44 and arrived piece 114 (or button 112).

When its adjustment of mousebutton pressing grammes per square metre adjust structure of the present embodiment operates, open the motor operation of this driver module 41 with electric signal by means of mouse action, and interlock one moving part 42, and this moving part 42 is able to this sliding part 44 of interlock carries out straight-line displacement campaign, even if this sliding part 44 produces the interlock rising or fall, and simultaneously to the operation that this elastic component 46 presses or loosens.So, the pressing grammes per square metre namely on this button 112 pressing operation of adjustable or operation texture, until most suitable mode of operation.And open this driver module 41 running can perform the software being installed on electronic installation in advance, and the cursor movement in operating electronic devices, screen such as, can show and make this driver module 41 operate as+(increases) grammes per square metre or-(minimizings) grammes per square metre, by means of this+selection of-scale can start software and manipulate that the motor of this driver module 41 is appropriate to be operated; Similarly, also can be provided with+plus-minus the button (non-icon) of (increase) grammes per square metre or-(minimizing) grammes per square metre in this mouse, rely on continuously this plus-minus button of pressing and manipulate the appropriateness running of this driver module 41 with electric signal.

Refer to Fig. 8 again, the utility model mousebutton pressing grammes per square metre adjust structure the 3rd embodiment, it is converted setting based on the architecture basics of above-described embodiment, and its difference is: this adjusting gear 40 includes one with the driver module 41 of manual toggle, holder 43, sliding part 44 and elastic component 46; This driver module 41, that a handsetting gear 411 and gear set formed in suitable embodiment, and this driver module 41 can be located on this drain pan 12 (casing device 10) or circuit board 21, and this handsetting gear 411 convex outer (not shown) of this on that is exposed at least partly, in convex this top cover that is exposed to of the present embodiment part; Again, this driver module 41 relies on a transmission shaft 412 to drive a moving part 42, is that a cam formed in this moving part 42 of this embodiment; This holder 43 includes the side plate 431 (to be combined by two halves cylinder in the present embodiment and form) of a base plate 432 and this base plate 432 periphery, and is provided with a through hole 434 in this holder 43; This sliding part 44 (be a bar shape in the present embodiment, but not for limit) can be located in the through hole 434 of this holder 43, again, is provided with a through post 441 of central part above this sliding part 44; So, this moving part 42 is resisted against the below of this sliding part 44 after passing through this side plate 431, and is able to this sliding part 44 of interlock; This elastic component 46 (as spring etc.) is located at through post 441 position above this sliding part 44, and is butted between this sliding part 44 and arrived piece 114 (or button 112).In the present embodiment, between the top of this elastic component 46 (as spring etc.) and arrived piece 114 (or button 112), be provided with a fore-set 461 further, this fore-set 461 protects this elastic component 46 can not crookedly to offset in time moving.

When its adjustment of mousebutton pressing grammes per square metre adjust structure of the present embodiment operates, by means of mouse action to stir handsetting gear 411 and the gear set running of this driver module 41, and the cam of interlock one moving part 42 rotates, and this sliding part 44 of interlock carries out straight-line displacement campaign, even if this sliding part 44 produces the interlock rising or fall, and simultaneously to the operation that this elastic component 46 presses or loosens.So, the pressing grammes per square metre namely on this button 112 pressing operation of adjustable or operation texture, until most suitable mode of operation; Simultaneously rely on this fore-set 461 setting and can more accurate response pressing time grammes per square metre or operation texture.

The utility model mousebutton pressing grammes per square metre adjust structure relies on aforementioned formation, it is by the operation of Simple convenient, make mousebutton have the effect of its pressing grammes per square metre of rapid adjustment and pressing texture, and actively can promote ease of use and the suitable to individual of mousebutton.

More than illustrate the utility model just illustrative; and nonrestrictive, those of ordinary skill in the art understand, when not departing from the spirit and scope that claim limits; many amendments, change or equivalence can be made, but all will fall within protection domain of the present utility model.

Claims (13)

1. a mousebutton pressing grammes per square metre adjust structure, is characterized in that, include:

One casing device, which is provided with at least one button, and the bottom of this casing device is provided with at least onely recessedly wears portion;

One circuit arrangement, includes a circuit board, and this circuit board is fixedly arranged on this casing device, and this circuit board front end is provided with at least one touch-pressure switch;

One adjusting gear, include a driver module, holder, sliding part and elastic component, this driver module is a rotating part, this driver module is provided with the turn seat being positioned at bottom and the spiro rod section being positioned at top, the footpath that the footpath of this turn seat is wider than this spiro rod section is wide, this spiro rod section penetrates this and recessedly wears portion, this holder is consolidated in this casing device, this holder includes the side plate of a base plate and this floor peripheral, this base plate is provided with a through hole worn for this spiro rod section, this sliding part is slidedly arranged in this holder and is positioned between side plate, this sliding part is provided with the screw of one and this spiro rod section bolt, this elastic component is sheathed on this spiro rod section place and is butted between this sliding part and this button.

2. mousebutton pressing grammes per square metre adjust structure according to claim 1, it is characterized in that, this casing device includes a top cover and drain pan, is provided with a pressing piece and arrived piece bottom this button, and this pressing piece penetrates a through hole of this top cover.

3. mousebutton pressing grammes per square metre adjust structure according to claim 1, it is characterized in that, this adjusting gear enters one and includes a positioning disk, and this positioning disk is fixedly arranged on this and recessedly wears portion, this positioning disk is provided with a through hole of central part, and this side plate is provided with one and microsclerly wears groove.

4. mousebutton pressing grammes per square metre adjust structure according to claim 3, it is characterized in that, this driver module is provided with a positioning ring groove, and this positioning ring groove is embedded with one in order to locate the locating part of this positioning disk, and this sliding part periphery is provided with to be placed through this microscler nose bar wearing groove.

5. a mousebutton pressing grammes per square metre adjust structure, is characterized in that, include:

One casing device, it is at least provided with a button;

One circuit arrangement, includes a circuit board, and this circuit board is fixedly arranged on this casing device, and this circuit board front end is provided with at least one touch-pressure switch;

One adjusting gear, include a driver module, holder, sliding part and elastic component, this driver module is power start, and be electrically connected to circuit arrangement, include gear motor and gear set, this driver module also drives a moving part, this holder is consolidated in this casing device, include the side plate of a base plate and this floor peripheral, this base plate is provided with a through hole, this through hole wears combination for this moving part, this sliding part is slidedly arranged in this holder, this elastic component is located at the top of this sliding part, and be butted between this sliding part and this button, the running of this driver module is opened by electric signal, and this moving part of interlock, this this sliding part of moving part interlock carries out straight-line displacement campaign, make the operation this elastic component pressed or loosens.

6. mousebutton pressing grammes per square metre adjust structure according to claim 5, it is characterized in that, this casing device includes a top cover and drain pan, is provided with a pressing piece and arrived piece bottom this button, and this pressing piece penetrates a through hole of this top cover.

7. mousebutton according to claim 5 pressing grammes per square metre adjust structure, is characterized in that, this side plate is provided with one and microsclerly wears groove, and this sliding part periphery is provided with to be placed through this microscler nose bar wearing groove.

8. mousebutton pressing grammes per square metre adjust structure according to claim 5, it is characterized in that, moving part includes the main joint part that is connected and further from joint piece, this this driver module of main joint part one end pivot joint, its other end connects should from joint piece, and should to pass through this through hole in the one end away from this main joint part from joint piece and against this sliding part.

9. mousebutton pressing grammes per square metre adjust structure according to claim 5, it is characterized in that, this mouse is provided with the plus-minus button controlling this gear motor running in driver module, manipulates the running of this motor by means of continuous this plus-minus button of pressing with electric signal.

10. a mousebutton pressing grammes per square metre adjust structure, is characterized in that, include:

One casing device, includes a top cover and at least one button;

One circuit arrangement, includes a circuit board, and this circuit board is fixedly arranged on this casing device, and this circuit board front end is provided with at least one touch-pressure switch;

One adjusting gear, include a driver module, holder, sliding part and elastic component, this driver module is manual toggle, include handsetting gear and gear set, this handsetting gear is convex to be at least partly exposed to outside this on, this driver module also drives a moving part, this holder is consolidated in this casing device, include the side plate of a base plate and this floor peripheral, a through hole is provided with in this holder, this through hole wears combination for this moving part, this sliding part is slidedly arranged in this holder, this elastic component is located at the top of this sliding part, and be butted between this sliding part and this button, by stirring handsetting gear and the gear set running of this driver module, and the running of this moving part of interlock, and this sliding part of interlock carries out straight-line displacement campaign, this elastic component is made to carry out the operation pressed or loosen.

11. mousebutton pressing grammes per square metre adjust structure according to claim 10, it is characterized in that, this moving part is a cam.

12. mousebutton pressing grammes per square metre adjust structure according to claim 11, it is characterized in that, this driver module is provided with a transmission shaft, and this transmission shaft drives this cam to rotate.

13. mousebutton pressing grammes per square metre adjust structure according to claim 10, it is characterized in that, this holder is combined by two halves cylinder to be formed.