CN114265510A

CN114265510A - Mouse with adjustable left and right button stroke

Info

Publication number: CN114265510A
Application number: CN202111459550.6A
Authority: CN
Inventors: 余德斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-02
Filing date: 2021-12-02
Publication date: 2022-04-01
Anticipated expiration: 2041-12-02
Also published as: CN114265510B

Abstract

The invention discloses a mouse with adjustable left and right button strokes, wherein a left switch and a right switch are arranged on a sliding framework which can slide relative to a basic framework, when the sliding framework drives the left switch and the right switch to slide, the force application points of the left switch and the right switch corresponding to the left button and the right button can be changed, and because the left button 20 and the right button basically perform turnover motion along the position, the trigger strokes of the left switch and the right switch are fixed, the strokes of the left switch and the right switch which are completely triggered by the left button and the right button are different due to different force application points, so that the strokes of the left button and the right button are adjusted by adjusting the position of the sliding framework. Because the left button 20 and the right button of the mouse can be adjusted, the mouse can be suitable for people with different requirements, such as game enthusiasts, and the strokes of the left button and the right button can be shortened, so that the button efficiency is improved, and the use experience of a user is improved.

Description

Mouse with adjustable left and right button stroke

Technical Field

The invention relates to the field of mice, in particular to a mouse with adjustable left and right key strokes.

Background

The mouse is an external input device of a computer, is also an indicator for positioning longitudinal and transverse coordinates of a computer display system, and is named like a mouse.

The mouse comprises a general basic framework, a left switch, a right switch, a left button, a right button and the like, wherein the left switch and the right switch are fixedly arranged on the basic framework, the left button and the right button are hinged on the basic framework and are arranged correspondingly to the left switch and the right switch, and a user can realize touch control of the left switch and the right switch by clicking the left button and the right button.

The inventor finds that after an existing mouse is produced and molded, the positions of a left switch, a right switch, a left button and a right button of the existing mouse are fixed, namely, the button strokes of the left button and the right button are fixed, so that the existing mouse cannot be adapted to the use requirements of different users, and the user cannot adjust the mouse and can only passively bear the mouse, so that the use experience of the user is influenced.

Disclosure of Invention

The invention mainly aims to provide a mouse with adjustable left and right key strokes, and aims to solve the technical problem that the key strokes of a left key and a right key of the existing mouse are fixed and cannot be adjusted.

In order to achieve the purpose, the invention provides a mouse with adjustable left and right button strokes, which comprises a basic framework, a left switch, a right switch, a left button, a right button and a sliding framework, wherein the basic framework is provided with a left button and a right button;

the left switch and the right switch are arranged on the sliding framework, the left switch is arranged corresponding to the left key, and the right switch is arranged corresponding to the right key;

the sliding framework is connected with the basic framework in a sliding mode, wherein the sliding direction is along the length direction of the left key and the right key;

and the first driving structure is used for driving the sliding framework and the basic framework to relatively slide and be fixed.

Furthermore, a left elastic piece is arranged between the sliding framework and the left key; a right elastic piece is arranged between the sliding framework and the right key; the left elastic piece provides restoring force after the left key is pressed, and the right elastic piece provides restoring force after the right key is pressed.

Furthermore, the left elastic part is a left elastic needle, and the right elastic part is a right elastic needle;

one end of the left elastic needle is fixed on the sliding framework, and the other end of the left elastic needle is a free end which abuts against the left key and faces to the left bottom surface of the sliding framework;

one end of the right elastic needle is fixed on the sliding framework, and the other end of the right elastic needle is a free end which abuts against the right key and faces to the right bottom surface of the sliding framework.

Furthermore, a left sliding groove is formed in the left bottom surface, and after the left spring needle is bent, the free end of the left spring needle is limited in the left sliding groove;

the right bottom surface is provided with a right sliding groove, and after the right spring needle is bent, the free end of the right spring needle is limited in the right sliding groove;

and the length directions of the left sliding chute and the right sliding chute are consistent with the sliding direction of the sliding framework.

Further, the first driving structure comprises a boss and a screw rod;

the lug boss is fixedly arranged on the basic framework, a screw rod through hole is formed in the lug boss, and a screw rod threaded hole is formed in the sliding framework;

the screw rod penetrates through the screw rod through hole and then is in adaptive threaded connection with the screw rod threaded hole, so that the sliding framework is controlled to slide relative to the basic framework through the screw rod.

Further, the bulge is arranged at the front end part of the basic framework, which is positioned on the mouse.

Furthermore, the left button and the right button are pivoted on the basic framework through bearings.

Furthermore, the mouse with the adjustable left and right button strokes is characterized by also comprising a second driving structure;

the basic framework comprises a first basic framework and a second basic framework, the first basic framework and the second basic framework are arranged in a relative sliding mode, and the sliding direction is along the length direction of the left key and the right key;

the second driving structure is used for driving the first basic framework and the second basic framework to slide relatively;

the left key and the right key are pivoted on the second basic framework;

the sliding framework is slidably connected with the first basic framework.

Furthermore, a limiting beam is transversely arranged on the basic framework along the mouse, and the limiting beam is used for limiting the bouncing heights of the left button and the right button.

Furthermore, a clamping structure for detachably mounting the decorative shell is arranged on one surface of the left key and/or the right key, which is far away from the sliding framework.

Further, the sliding framework comprises a left sliding framework and a right sliding framework, the left switch is arranged on the left sliding framework, and the right switch is arranged on the right sliding framework;

the first driving structure comprises a left first driving structure and a right first driving structure which are respectively used for driving the left sliding framework and the right sliding framework independently.

The utility model provides a control button stroke adjustable mouse, with left switch and right switch setting on can be relative the gliding slip skeleton of basic skeleton, when the slip skeleton drove left switch and right switch and slide, can change the application of force point that left button and right button correspond left switch and right switch, because left button and right button carry out the turnover motion along the position basically again, left switch and right switch's trigger stroke is fixed, so the stroke that corresponding left button and right button triggered left switch and right switch completely of different application of force is different, thereby the stroke of position control left button and right button through adjusting the slip skeleton. Because the left button and the right button of mouse can be adjusted, so can be applicable to the crowd of different demands, for example the game fan, then can shorten the stroke modulation of left button and right button to improve the efficiency of button etc. and improved user's use and experienced.

Drawings

Fig. 1 is a schematic left side view of the structure of a mouse with adjustable left and right button strokes according to an embodiment of the present application.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, an embodiment of the present application provides a mouse with adjustable left and right button strokes, which includes a base frame 10, a left switch 30, a right switch (not shown in the figure), a left button 20, a right button (not shown in the figure), and a sliding frame 40;

the left switch 30 and the right switch are arranged on the sliding framework 40, the left switch 30 is arranged corresponding to the left key 20, and the right switch is arranged corresponding to the right key;

the sliding framework 40 and the basic framework 10 are connected in a sliding way, wherein the sliding direction is along the length direction of the left key 20 and the right key;

and the first driving structure 50 is used for driving the sliding framework 40 and the basic framework 10 to relatively slide and fix.

Fig. 1 is a schematic left side view of a structure of a mouse with adjustable left and right button strokes, and since the structures of the left button 20 and the right button are substantially the same, and the structures of the left switch 30 and the right switch are substantially the same, the present application only illustrates the schematic structure of the left side view of the mouse as an example.

The basic frame 10 is a frame for fixing a mouse with a housing, a circuit board, a mouse wheel, and the like.

The left button 20 and the right button are commonly used in a mouse, and are generally disposed on the left and right sides of a mouse wheel. The left button 20 and the right button may be pivotally connected to the base frame 10, pivotally connected to the upper cover of the mouse, or integrally formed with the upper cover of the mouse. In the present embodiment, it is sufficient that the left button 20 and the right button do not translate with respect to the base frame 10 along the length direction of the left button 20 and the right button. In one embodiment, the surfaces of the left button 20 and the right button pressing the left switch 30 and the right switch are generally a straight surface, and in other embodiments, the surfaces can be arranged as required.

The left switch 30 and the right switch are the common switch buttons on the mouse, and are arranged corresponding to the left button 20 and the right button. The left switch 30 and the right switch are generally identical in structure, and taking the left switch 30 as an example, it is generally a micro switch, and includes a base 31 and a pressing portion 32 protruding from the base 31, after the left button 20 is pressed, the left button 20 presses the pressing portion 32, thereby triggering the action of clicking the left switch 30.

The sliding frame 40 is a module for carrying the left switch 30 and the right switch, and is arranged in a sliding manner relative to the base frame 10 and along the length direction of the left key 20 and the right key, so that the sliding frame 40 can drive the left switch 30 and the right switch to move relative to the left key 20 and the right key, and the positions of the pressing portions 32 of the left key 20 and the right key acting on the left switch 30 and the right switch are changed, and the stroke of the pressing portions 32 is unchanged, so that the stroke of the left switch 30 and the right switch can be completely triggered by the left key 20 and the right key to change. The sliding structure of the sliding frame 40 and the base frame 10 can be any one of the sliding structures in the prior art, such as a sliding structure with a sliding rail and a sliding groove.

The first driving structure 50 may be any one of existing driving structures such as a motor drive, a screw transmission, and a cylinder drive, and is not limited in particular.

In one embodiment, a left elastic member 60 is disposed between the sliding frame 40 and the left button 20; a right elastic piece is arranged between the sliding framework 40 and the right key; the left elastic member 60 provides a restoring force after the left button 20 is pressed, and the right elastic member provides a restoring force after the right button is pressed.

As described above, each of the left elastic member 60 and the right elastic member may be an elastic member made of a spring, a leaf spring, or the like, and may provide a restoring force to restore the original position after the left button 20 and the right button are pressed. The shape and installation manner of the left elastic member 60 and the right elastic member are substantially the same, here, taking the left elastic member 60 as an example, in one embodiment, the left elastic member 60 may be a spring, a fixed portion of the spring is fixed, the fixed portion is fixed on the base frame 10, two ends of the spring respectively abut against the sliding frame 40 and the left button 20, when the sliding frame 40 moves, one end of the spring abutting against the sliding frame 40 slides relative to the sliding frame 40; in another embodiment, the left elastic element 60 is a spring, one end of the spring is fixed on the sliding frame 40, and the other end of the spring abuts against the left button 20, and when the sliding frame 40 moves, the end of the spring abutting against the left button 20 slides relative to the left button 20. Of course, one end of the spring may be fixed on the left button 20, and the other end of the spring abuts against the sliding frame 40. The left elastic member 60 and the right elastic member are arranged to provide restoring force for the left key 20 and the right key, and when the position of the sliding framework 40 is changed and the elastic member is fixed on the sliding framework 40, the resilience stress provided by the left elastic member 60 and the right elastic member can be changed to adapt to the adjustment of the pressing force of different users on the left key 20 and the right key.

In one embodiment, the left elastic member 60 is a left pogo pin, and the right elastic member is a right pogo pin; one end of the left elastic needle is fixed on the sliding framework 40, and the other end of the left elastic needle is a free end which abuts against the left bottom surface of the left key 20 facing the sliding framework 40; one end of the right elastic needle is fixed on the sliding framework 40, and the other end of the right elastic needle is a free end which abuts against the right key and faces to the right bottom surface of the sliding framework 40.

As described above, the left elastic member 60 and the right elastic member are pogo pins, which are elastic members having a columnar structure, and have good elasticity. In this embodiment, the elastic pin is selected to facilitate the fixed installation, specifically, the sliding frame 40 is provided with a corresponding installation hole, and the installation hole is directly inserted into the installation hole, and the left button 20 and the right button bend the installation hole to provide restoring force for the left button 20 and the right button.

Furthermore, a left sliding groove is formed in the left bottom surface, and after the left spring needle is bent, the free end of the left spring needle is limited in the left sliding groove; the right bottom surface is provided with a right sliding groove, and after the right spring needle is bent, the free end of the right spring needle is limited in the right sliding groove; wherein, the length direction of the left and right chutes is consistent with the sliding direction of the sliding framework 40.

The setting of above-mentioned left spout and right spout can keep left bullet needle and right bullet needle to remove along left spout and right spout, prevents that left bullet needle and right bullet needle from breaking away from slip skeleton 40 to and prevent that left bullet needle and right bullet needle from breaking away from the extrusion of left button 20 and right button etc.. The structure is simple and practical.

In one embodiment, the first driving structure 50 includes a boss 51 and a screw 52; the boss 51 is fixedly arranged on the basic framework 10, a screw rod through hole is formed in the boss 51, and a screw rod threaded hole is formed in the sliding framework 40; the screw rod 52 penetrates through the screw rod through hole and then is in adaptive threaded connection with the screw rod threaded hole, so that the sliding framework 40 is controlled to slide relative to the base framework 10 through the screw rod 52.

As described above, the protruding portion 51 may be a protruding structure integrally formed with the base frame 10, a protruding structure fixed to the base frame 10 by a screw or the like, or even a structure suspended from the support structure. The screw 52 generally includes a nut 53 at an end portion, a limiting portion 54 for limiting the movement of the screw 52 relative to the boss 51, and a threaded rod portion with threads, and when in specific use, after the threaded rod portion passes through the screw hole, the knob enters the screw hole of the sliding framework 40, the nut 53 and the limiting portion 54 are respectively disposed at two sides of the screw hole, and the threaded rod portion rotates relative to the screw hole through the knob nut 53, thereby controlling the sliding framework 40 and the basic framework 10 to slide relative to each other through the screw 52. The screw rod transmission structure is simple and practical. Further, a driving motor and a reduction gear set can be further arranged on the base frame 10, the driving motor drives an input gear of the reduction gear set to rotate, an output gear of the reduction gear set drives the screw rod 52 to rotate so as to realize the rotation of the electric control screw rod 52, namely the electric control sliding frame 40 slides relative to the base frame 10, and accordingly, a motor driving circuit, a driving switch and the like are arranged in the mouse.

In one embodiment, the protrusion 51 is disposed at the front end of the base frame 10 at the mouse.

As described above, since the left switch 30 and the right switch are disposed on the sliding frame 40, the sliding frame 40 is disposed at the front end of the mouse, and the protrusion 51 is disposed at the front end of the mouse, so that the length of the screw rod 52 can be reduced, and the screw rod 52 can be conveniently turned manually, for example, by disposing a through hole at the front end of the housing, the screw can be applied to the nut 53 of the screw rod 52 by inserting a screw wrench into the housing for a short distance. Of course, in other embodiments, the convex portion 51 may be disposed at the rear end portion, the middle portion, etc. of the mouse as needed.

In one embodiment, the left button 20 and the right button are pivotally connected to the base frame 10 through bearings.

As described above, the base frame 10 is generally provided with the left support rod and the right support rod corresponding to the left button 20 and the right button, respectively, and then the left button 20 and the right button are pivotally connected to the left support rod and the right support rod through the bearings, respectively. Lead to the bearing pin joint, the rotation of left button 20 and right button is more smooth, and the power that its pin joint department produced is littleer to the pressing force and the resilience force influence of button, improves user's use and experiences.

In one embodiment, the mouse with adjustable left and right button strokes further includes a second driving structure 80; the basic skeleton comprises a first basic skeleton 11 and a second basic skeleton 12, the first basic skeleton 11 and the second basic skeleton 12 are arranged in a relative sliding mode, and the sliding direction is along the length direction of the left key and the right key; the second driving structure 80 is used for driving the first basic skeleton 11 and the second basic skeleton 12 to slide relatively; the left key and the right key are pivoted on the second basic skeleton 12; the sliding frame is slidably connected to the first basic frame 11.

As described above, the first basic skeleton 11 and the second basic skeleton 12 that the basic skeleton can be set up by relative sliding, the left button and the right button are all pivoted on the second basic skeleton 12, and then when the first basic skeleton 11 and the second basic skeleton 12 are driven by the second driving structure 80 to slide relatively, the position of the left button and the right button relative to the first basic skeleton 11 can be adjusted. Further, the sliding frame is slidably connected to the first base frame 11, so that the positions of the left button and the right button relative to the sliding frame can be adjusted by adjusting the positions of the first base frame 11 and the second base frame 12.

The second driving structure 80 may be any one of the existing first driving structures such as a motor drive, a screw transmission, and a cylinder drive. Specifically, the second driving structure 80 is substantially the same as the first driving structure, and includes a first protrusion 81 and a screw 82; the first boss 81 is fixedly arranged on the first base framework 11, a screw through hole is formed in the first boss 81, and a screw threaded hole is formed in the second base framework 12; the screw rod 82 penetrates through the screw rod through hole and then is in adaptive threaded connection with the screw rod threaded hole, so that the second basic framework 12 is controlled to slide relative to the first basic framework 11 through the screw rod 82. The first protruding portion 81 may be a protruding structure integrally formed with the first base frame 11, or may be a protruding structure fixed to the first base frame 11 by a screw or the like, or may even be a structure suspended by a support structure. The screw 82 generally comprises an end cap 83 at the end, a first limiting portion 84 for limiting the movement of the screw 82 relative to the first boss 81, and a first threaded rod portion with threads, when in specific use, after the first threaded rod portion penetrates through the screw hole, the knob enters the screw threaded hole of the second basic skeleton 12, the end cap 83 and the first limiting portion 84 are respectively arranged at two sides of the screw hole, the first threaded rod portion rotates relative to the screw threaded hole through the knob end cap 83, and therefore the first basic skeleton 11 and the second basic skeleton 12 are controlled to slide relative to each other through the screw 82.

In one embodiment, a limiting beam 11 is transversely disposed on the basic framework 10 along the mouse, and the limiting beam 11 is used for limiting the bounce height of the left button 20 and the right button.

As mentioned above, in order to prevent the left button 20 and the right button from rebounding too high after being pressed, the limiting beam 11 is arranged, one limiting beam 11 can limit the left button 20 and the right button at the same time, the structure is simple, and the standard consistency of the limiting bounce height is high.

In one embodiment, the side of the left button 20 and/or the right button far from the sliding framework 40 is provided with a clamping structure 21 for detachably mounting the decorative shell.

As mentioned above, the decorative shell is a shell for decoration for aesthetic or personalized purposes, and the clamping structure 21 is arranged on the left button 20 and/or the right button, that is, a way for beautifying the left button 20 and/or the right button of the user is provided for the user, so that the use experience of the user is improved.

In one embodiment, the sliding frame 40 includes a left sliding frame and a right sliding frame, the left sliding frame is provided with the left switch 30, and the right sliding frame is provided with the right switch; the first driving structure 50 includes a left first driving structure and a right first driving structure for driving the left sliding frame and the right sliding frame separately

As described above, the sliding frame 40 is two independent sliding frames 40, i.e., the left sliding frame and the right sliding frame, so that the stroke of the left button 20 can be independently adjusted and the stroke of the right button can be independently adjusted. Therefore, the stroke of the left key and the stroke of the right key can be adjusted more flexibly, and the use requirements of more users are met.

In one embodiment, the second basic skeleton 12 includes a left skeleton corresponding to the left button and a right skeleton corresponding to the right button; the second driving structure 80 includes a left second driving structure and a right second driving structure for individually driving the left key 20 and the right key, respectively. Therefore, the positions of the left key 20 and the right key can be independently adjusted, the stroke of the left key and the stroke of the right key can be adjusted more flexibly, and the use requirements of more users are met.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A mouse with adjustable left and right button strokes comprises a basic framework, a left switch, a right switch, a left button and a right button, and is characterized by also comprising a sliding framework;

2. The left-right button stroke adjustable mouse according to claim 1, wherein a left elastic member is disposed between the sliding frame and the left button; a right elastic piece is arranged between the sliding framework and the right key; the left elastic piece provides restoring force after the left key is pressed, and the right elastic piece provides restoring force after the right key is pressed.

3. The left-right button stroke adjustable mouse according to claim 2, wherein the left elastic member is a left pogo pin, and the right elastic member is a right pogo pin;

4. The left-right button stroke-adjustable mouse according to claim 3, wherein a left sliding groove is formed in the left bottom surface, and after the left spring needle is bent, the free end of the left spring needle is limited in the left sliding groove;

5. The left-right button stroke adjustable mouse according to claim 1, wherein the first driving structure comprises a protrusion and a lead screw;

6. The left-right button stroke adjustable mouse according to claim 5, wherein the protrusion is disposed at a front end of the base frame at the mouse.

7. The left-right button stroke adjustable mouse according to claim 1, wherein the left button and the right button are pivotally connected to the base frame through bearings.

8. The left-right button stroke adjustable mouse according to claim 1, further comprising a second driving structure;

the basic framework comprises a first basic framework and a second basic framework, and the first basic framework and the second basic framework are arranged in a relative sliding mode;

the second driving structure is used for driving the first basic framework and the second basic framework to relatively slide, wherein the sliding direction is along the length direction of the left key and the right key;

the left key and the right key are pivoted on the second basic framework;

the sliding framework is slidably connected with the first basic framework.

9. The left-right button travel-adjustable mouse according to claim 1, wherein a limit beam is transversely arranged on the base frame along the mouse, and the limit beam is used for limiting the bounce height of the left button and the right button.

10. The left-right button stroke adjustable mouse according to any one of claims 1-9, wherein the sliding frame comprises a left sliding frame and a right sliding frame, the left sliding frame is provided with the left switch, and the right sliding frame is provided with the right switch;