CN105630198A - Mouse adjustment device - Google Patents

Abstract

The invention discloses a mouse adjustment device for adjusting the lifting height of the track sensing module of a mouse. The device comprises a sliding base, a bearing base and an adjustment component; the sliding base is arranged on the mouse in a sliding mode; at least one pushing and resisting block is arranged at the bottom of the sliding base; the bearing base can be arranged on the mouse in a lifting mode, is located under the sliding base and bears the track sensing module; at least one protruding block resisting against the at least one pushing and resisting block is arranged on the top of the bearing base; the adjustment component is equipped with a transmission screw and a transmission nut; the transmission nut is embedded in the sliding base; one end of the transmission screw is rotationally exposed out of the mouse; and the other end is in rotational threaded connection with the transmission nut.

Description

The adjusting apparatus of mouse

Technical field

The present invention relates to the adjusting apparatus of a kind of mouse, and particularly relate to the adjusting apparatus of the adjustment of the adjustable height of a kind of track sensing module for mouse.

Background technology

Today at science and technology development, whether the portable mobile device of PC or the computer equipment such as notebook computer, panel computer or even various sizes, become popular portable tool indispensable on daily life is entertained or in work, and mouse has become the said equipment or the conventional input equipment of device. But general mouse has not applied the user demand of specific personage, for instance: the user demand of electric competing player. Therefore, market occurs in that many mouses that may conform to the programmable that specific personage uses, allow specific personage can adjust, according to its demand (such as: word processing, object for appreciation game), the sensitivity that the cursor of mouse controls, or adjust the sensing height of mouse. And electric competing player is highly critically important by the sensing of mouse; because game often may require that and doing significantly mobile and trickle operation; such as quickly turn round and the mobile quasi-heart is to aim at enemy, all can somewhat lift mouse and move a small distance, then put down and continue to move to. If the sensing of mouse is highly too high, as long as the insufficient height that electric competing player lifts is high, erroneous judgement will be caused because continuing sensing. But, to adjust the sensing height of mouse in game in carrying out, it is necessary to jump out of ongoing game, and by Windows, start and set software, revise parameter, return in game, game can be caused to have some setbacks, produce to have a strong impact on.

In view of this, the present inventor this in exploitation and the design of being engaged in Related product for many years, improving of thoughts drawbacks described above, be that spy concentrates on studies and coordinates the utilization of scientific principle, finally propose the present invention that is a kind of reasonable in design and that be effectively improved drawbacks described above.

Summary of the invention

Present invention is primarily targeted at the adjusting apparatus that a kind of mouse is provided, make mouse have liftable and adjust the function of its track sensing module, with the manipulation demand that corresponding user is different, make mouse more convenient on using.

Described above in order to reach, the invention provides the adjusting apparatus of a kind of mouse, the adjustment of adjustable height for the track sensing module of a mouse, the adjusting apparatus of this mouse includes: a sliding seat, this sliding seat can be slidingly arranged at the lower half of this mouse, and the bottom of this sliding seat has at least one pushing and pressing part; One load bearing seat, this load bearing seat can be arranged at the lower half of this mouse up and down and be positioned at below this sliding seat, and this load bearing seat carries this track sensing module, and the top of this load bearing seat has correspondence and is connected at least one projecting block of this at least one pushing and pressing part; And an adjustment part, this adjustment part has a drive screw and a transmission nut, and this transmission nut is embedded and is placed in this sliding seat, one end of this drive screw can expose to this mouse rotationally, and the other end of this drive screw can be threadedly connected to this transmission nut rotationally.

In sum, the adjusting apparatus of the mouse of the present invention, by sliding seat slidably and load bearing seat liftable, and at least one pushing and pressing part and at least one projecting block of load bearing seat top abut against accordingly bottom sliding seat, and the drive screw of adjustment part is threadedly connected to transmission nut rotationally, again owing to transmission nut is embedded on sliding seat, make the drive screw of adjustment part when transmission nut rotates, can synchronize to drive transmission nut, sliding seat and pushing and pressing part transverse shifting, the projecting block making load bearing seat is forced to produce Relative sliding with pushing and pressing part, and then drive load bearing seat and track sensing module to vertically move, the adjusting apparatus of mouse of the present invention is made by rotating adjustment part sliding seat to be slid laterally the longitudinal sliding motion being converted to load bearing seat, liftably adjust the function of its track sensing module reaching mouse, with the manipulation demand that corresponding user is different.

Accompanying drawing explanation

Fig. 1 is perspective view of an embodiment of the present invention.

Fig. 2 is the partial exploded view () of one embodiment of the invention.

Fig. 3 is the partial exploded view (two) of one embodiment of the invention.

Fig. 4 is the partial exploded view (three) of one embodiment of the invention.

Fig. 5 is the operation chart () of one embodiment of the invention.

Fig. 6 is the operation chart (two) of one embodiment of the invention.

Fig. 7 is the operation chart (three) of one embodiment of the invention.

Fig. 8 is the operation chart of another embodiment of the present invention.

[symbol description]

Mouse 10

The first half 11

Lower half 12

Projection 121

Concave block 122

Notching construction 123

Track sensing module 13

Adjusting apparatus 20

Sliding seat 21

Bottom 210

Pushing and pressing part 211

Inclined-plane 2111

Through hole 212

Caulking groove 213

Load bearing seat 22

Top 220

Projecting block 221

Cambered surface 2211

Holding part 222

Elastic component 223

Extension 224

Guidance part 225

The arm of force 226

Compression spring 2261

Adjustment part 23

Drive screw 231

Runner 2311

Transmission nut 232

Control circuit plate 24

Pressure transducer 25

First direction of rotation R1

Second direction of rotation R2

First direction S1

Second direction S2

Detailed description of the invention

Referring to Fig. 1 to Fig. 4, for one embodiment of the invention, the embodiment of the present invention provides the adjusting apparatus of a kind of mouse. As shown in Figure 1, 2, mouse 10 can divide into the first half 11 and lower half 12, and adjusting apparatus 20 is arranged at the lower half 12 of mouse 10. And, adjusting apparatus 20 is for the adjustment of the adjustable height of the track sensing module 13 of mouse 10, and track sensing module 13 is for judging moving direction and the displacement of mouse 10, thus completing light target location, it can be such as optical track sensing module, can also being laser trace sensing module, the present embodiment be not limiting as the aspect of track sensing module 13. Again, it should be noted that mouse 10 also comprises other spare part, for instance elements such as roller, button, microswitch, it is respectively arranged at the first half 11 or the lower half 12 of mouse 10, seldom gives repeating at this. The adjusting apparatus 20 of the present embodiment consists essentially of sliding seat 21, load bearing seat 22 and an adjustment part 23.

Sliding seat 21 is slidably disposed in the lower half 12 of mouse 10, and the bottom 210 of sliding seat 21 has at least one pushing and pressing part 211. In the present embodiment, the bottom 210 of sliding seat 21 can have two pushing and pressing parts being parallel to each other 211. Preferably, pushing and pressing part 211 can be a trapezoidal pushing and pressing part, and pushing and pressing part 211 has an inclined-plane 2111 (as shown in Figure 3).

Load bearing seat 22 is liftably arranged at the lower half 12 of mouse 10 and is positioned at below sliding seat 21. Load bearing seat 22 carries track sensing module 13, and the top 220 of load bearing seat 22 has correspondence and is connected at least one projecting block 221 of pushing and pressing part 211. In the present embodiment, the top 220 of load bearing seat 22 can have two projecting blocks being parallel to each other 221 so that two projecting blocks 221 each correspondence can be connected to two pushing and pressing parts 211. Preferably, projecting block 221 can be an arc projecting block, and projecting block 221 has a cambered surface 2211 (as shown in Figure 3).

Adjustment part 23 has drive screw 231 and a transmission nut 232, and transmission nut 232 is embedded at sliding seat 21, and one end of drive screw 231 exposes to mouse 10 rotationally, and the other end is threadedly connected to transmission nut 232 rotationally. Therefore, when the drive screw 231 of adjustment part 23 rotates relative to transmission nut 232, drive transmission nut 232 and sliding seat 21 along the axle center flatly displacement of drive screw 231, drive pushing and pressing part 211 along with sliding seat 21 flatly displacement simultaneously, make the projecting block 221 being connected to pushing and pressing part 211 be forced longitudinally displacement, and then drive track sensing module 13 along with load bearing seat 22 longitudinally displacement. Following respectively with regard to sliding seat 21, load bearing seat 22, adjustment part 23 structure make a more detailed description, then introduce annexation to each other and detailed operation more in good time.

Sliding seat 21 can be one is polygonal skeleton frame, it may also be said to be the structure being made up of multiple interconnective crossbeams, say, that the pushing and pressing part 211 of sliding seat 21 is to be downwardly extended by the bottom 210 of crossbeam to be formed. And, sliding seat 21 is formed with multiple through hole 212, and the lower half 12 of mouse 10 is formed with multiple projection 121, these projections 121 can respectively correspondingly pass these through holes 212, by coordinating of through hole 212 and projection 121, sliding seat 21 can be made stably to translate the lower half 12 in mouse 10, simultaneously can also the translation distance of limit slippage seat 21. It addition, through hole 212 can also lock screw, sliding seat 21 is made can more stably to translate without deviating from. Additionally, sliding seat 21 is formed with a caulking groove 213, and transmission nut 232 is embedded in caulking groove 213.

Load bearing seat 22 concavity is formed with a holding part 222, and track sensing module 13 is placed in holding part 222, makes load bearing seat 22 be carried track sensing module 13. It addition, load bearing seat 22 can have multiple elastic component 223, one end of these elastic components 223 is longitudinally disposed in load bearing seat 22, and the other end is longitudinally resisted against the lower half 12 of mouse 10. Preferably, load bearing seat 22 has four elastic components 223, and four elastic components 223 are respectively arranged at four corners of load bearing seat 22 periphery, and the four of load bearing seat 22 corners have been extended outward horizontally so as to form an extension 224 respectively, one end of these elastic components 223 is each longitudinally disposed these extensions 224 in load bearing seat 22, and the other end is each longitudinally resisted against the lower half 12 of mouse 10. Therefore, when elastic component 223 compresses, load bearing seat 22 declines mobile, and when elastic component 223 discharges, load bearing seat 22 rises mobile, makes load bearing seat 22 be liftably arranged at the lower half 12 of mouse 10 by compression and the release of elastic component 223. Furthermore, by the setting of elastic component 223, make the pushing and pressing part 211 that the projecting block 221 of load bearing seat 22 can flexibly be connected to sliding seat 21 by elastic force that elastic component 223 provides, and then make pushing and pressing part 211 remain stable for each other contacting with projecting block 221. Additionally, the periphery of load bearing seat 22 is also formed with multiple longitudinal guidance part 225, and the lower half 12 of mouse 10 is formed with multiple concave block 122, these guidance parts 225 can respectively correspondingly be slidedly arranged in these concave blocks 122, by coordinating of guidance part 225 and concave block 122, load bearing seat 22 is made when lifting displacement, not result in situation that is crooked or that deviate from.

One end of the drive screw 231 of adjustment part 23 can have a runner 2311, and runner 2311 exposes to the notching construction 123 in order to position formed in the lower half 12 of mouse 10 rotationally, it is beneficial to the adjustable height that user adjusts track sensing module 13 by rotating the runner 2311 exposing setting.

Refer to Fig. 5 to Fig. 7, and can consider referring to figs. 1 to Fig. 4. Fig. 5 to Fig. 7 is the operation chart of the adjusting apparatus of embodiment of the present invention mouse.

As shown in Figure 5, when user not yet rotates the runner 2311 of adjustment part 23, the cambered surface 2211 of the projecting block 221 of load bearing seat 22 is connected to inclined-plane 2111 centre of the pushing and pressing part 211 of sliding seat 21 routinely, and the track sensing module 13 that now load bearing seat 22 carries is positioned at preset height position.

As shown in Figure 6, when user rotates the runner 2311 of adjustment part 23, make drive screw 231 along the first direction of rotation R1 (such as clockwise) rotate relative to transmission nut 232 time, drive the transmission nut 232 being arranged at sliding seat 21 mobile towards first direction S1 (such as the left) along the axle center of transmission shaft lever 231, drive pushing and pressing part 211 along with sliding seat 21 is towards first direction S1 flatly sliding simultaneously, thus causing elastic force that the projecting block 221 on the inclined-plane 2111 being connected to pushing and pressing part 22 can be accumulated by elastic component 223 and along inclined-plane 2111 upwards sliding, load bearing seat 22 is made to shift up, and then make the track sensing module 13 that load bearing seat 22 carries shift up.

As shown in Figure 7, when user rotates the runner 2311 of adjustment part 23, make transmission shaft lever 231 along the second direction of rotation R2 (such as counterclockwise) rotate relative to transmission nut 232 time, drive the transmission nut 232 being arranged at sliding seat 21 mobile towards second direction S2 (such as the right) along the axle center of transmission shaft lever 231, drive the pushing and pressing part 211 of sliding seat 21 towards second direction S2 flatly sliding simultaneously, thus cause the projecting block 221 on the inclined-plane 2111 being connected to pushing and pressing part 211 to be subject to the strength of pushing and pressing part 211 compressing and along the downward sliding in inclined-plane 2111 of pushing and pressing part 211, make load bearing seat 22 to bottom offset, and then make track sensing module 13 that load bearing seat 22 carries to bottom offset.

Therefore, the transmission shaft lever 231 of the present embodiment can respectively along the first rotation direction S1, second rotation direction S2 rotates relative to transmission nut 232, drive sliding seat 21 can respectively along the axle center of drive screw 231 towards first direction S1, second direction S2 is relative to load bearing seat 22 flatly axial displacement, and the cambered surface 2211 of the projecting block 221 of load bearing seat 22 is connected to the inclined-plane 2111 of pushing and pressing part 211 of sliding seat 21 slidably, so that when projecting block 221 and pushing and pressing part 211 produce Relative sliding, make load bearing seat 22 upward, under relative to sliding seat 21 longitudinally axial displacement, and adjusted the adjustable height of track sensing module 13.

Refer to Fig. 8, for another embodiment of the adjusting apparatus of mouse of the present invention. the adjusting apparatus 20 of the present embodiment mouse 10 is roughly the same with above-described embodiment (as shown in Figures 1 to 4), and Main Differences is in that, adjusting apparatus 20 also includes a control circuit plate 24 and and is arranged at the pressure transducer 25 of control circuit plate 24, and pressure transducer 25 can be such as piezoelectric type, pressure resistance type, condenser type, or the pressure transducer of metallic film type, but it is not limited with above-mentioned, and the pressure transducer 25 of the present embodiment is preferably the pressure transducer of a pressure resistance type and is positioned at the bottom surface of control circuit plate 24, and control circuit plate 24 is arranged in mouse 10 and is positioned at above sliding seat 21. additionally, load bearing seat 22 horizontally outward extends to form an arm of force 226, and the arm of force 226 has a compression spring 2261, and one end of compression spring 2261 is longitudinally disposed in the arm of force 226, and the other end is longitudinally connected to pressure transducer 25. therefore, when user rotates the runner 2311 of adjustment part 23, make load bearing seat 22 rise displacement or decline displacement time, compression spring 2261 can compress along with the lifting displacement of load bearing seat 22 or discharge, the force value that compression spring 2261 is connected to pressure transducer 25 is made to produce to change, and then make the resistance value of pressure transducer 25 change, and the change of resistance value can make control circuit plate 24 differentiate the adjustable height of track sensing module 13 accordingly, and can by differentiate result be sent to a display unit (LED light of such as mouse or in, externally connected with display screen curtain etc.) display. therefore, adjusting apparatus 20 is by the organ electromechanical integration design that coordinate corresponding to electronic component, to reach electromechanical integration so that the adjusting apparatus 20 of the present embodiment is an electromechanical integration adjusting apparatus.

But the foregoing is only the preferred embodiments of the present invention; it is not intended to the scope of patent protection of the limitation present invention; therefore the equivalence change that every utilization description of the present invention and accompanying drawing content are made, is all in like manner contained in the claims of the present invention, closes and give Chen Ming.

Claims (12)

1. an adjusting apparatus for mouse, for the adjustment of adjustable height of the track sensing module of a mouse, it is characterised in that the adjusting apparatus of described mouse includes:

One sliding seat, described sliding seat can be slidingly arranged at the lower half of described mouse, and the bottom of described sliding seat has at least one pushing and pressing part;

One load bearing seat, described load bearing seat can be arranged at the described lower half of described mouse up and down and be positioned at below described sliding seat, described load bearing seat carries described track sensing module, and the top of described load bearing seat has correspondence and is connected at least one projecting block of described pushing and pressing part; And

One adjustment part, described adjustment part has a drive screw and a transmission nut, and described transmission nut is embedded at described sliding seat, one end of described drive screw can expose to described mouse rotationally, and the other end of described drive screw can be threadedly connected to described transmission nut rotationally.

2. the adjusting apparatus of mouse according to claim 1, it is characterized in that, described pushing and pressing part includes two pushing and pressing parts being parallel to each other, and described projecting block includes two projecting blocks being parallel to each other, and these two described projecting block each correspondences are connected to this two described pushing and pressing parts.

3. the adjusting apparatus of mouse according to claim 1, it is characterised in that described pushing and pressing part is trapezoidal pushing and pressing part.

4. the adjusting apparatus of mouse according to claim 1, it is characterised in that described projecting block is arc projecting block.

5. the adjusting apparatus of mouse according to claim 1, it is characterised in that described pushing and pressing part has an inclined-plane, described projecting block has a cambered surface, and the described cambered surface of described projecting block can be connected to the described inclined-plane of described pushing and pressing part slidably.

6. the adjusting apparatus of mouse according to claim 1, it is characterized in that, described load bearing seat has multiple elastic component, and one end of described elastic component is longitudinally disposed in described load bearing seat, and the other end of described elastic component is longitudinally resisted against the described lower half of described mouse, makes the described projecting block of described load bearing seat can flexibly be connected to the described pushing and pressing part of described sliding seat.

7. the adjusting apparatus of mouse according to claim 1, it is characterised in that described sliding seat is formed with multiple through hole, the described lower half of described mouse is formed with multiple projection, and described projection is respectively correspondingly through described through hole.

8. the adjusting apparatus of mouse according to claim 1, it is characterised in that described sliding seat is formed with a caulking groove, and described transmission nut is embedded in described caulking groove.

9. the adjusting apparatus of mouse according to claim 1, it is characterised in that the concavity of described load bearing seat is formed with a holding part, and described track sensing module is placed in described holding part.

10. the adjusting apparatus of mouse according to claim 1, it is characterized in that, one end of the described drive screw of described adjustment part has a runner, and described runner can expose to the notching construction in order to position formed in the described lower half of described mouse rotationally.

11. the adjusting apparatus of mouse according to claim 1, it is characterized in that, the adjusting apparatus of described mouse also includes a control circuit plate and and is arranged at the pressure transducer of described control circuit plate, and described control circuit plate is arranged in described mouse and is positioned at above described sliding seat.

12. the adjusting apparatus of mouse according to claim 11, it is characterized in that, described load bearing seat horizontally outward extends to form an arm of force, and the described arm of force has a compression spring, one end of described compression spring is longitudinally disposed in the described arm of force, and the other end of described compression spring is longitudinally connected to described pressure transducer.