CN111599620A

CN111599620A - All-dimensional pressing sensitive mouse button structure

Info

Publication number: CN111599620A
Application number: CN202010548880.1A
Authority: CN
Inventors: 李晨曦; 李卫华; 袁嘉伦
Original assignee: Dongguan Togran Electronics Technology Co ltd
Current assignee: Dongguan Togran Electronics Technology Co ltd
Priority date: 2020-06-16
Filing date: 2020-06-16
Publication date: 2020-08-28

Abstract

The invention discloses a mouse button structure with omnibearing pressing sensitivity, which comprises a mouse main body, a trigger switch, a rotary bracket and a button, wherein the button is arranged on the mouse main body; the trigger switch is provided with a trigger part; the key is provided with a first action part and a second action part; the rotating bracket is provided with a first connecting position and a second connecting position, the rotating bracket can rotate up and down around the second connecting position relative to the mouse body, and the first acting part acts on the first connecting position; the second action part is positioned above the trigger part and both the second action part and the trigger part are positioned in the area between the first connection position and the second connection position; when the front section area of the key is pressed, the first action part enables the rotating bracket to rotate downwards so as to press the trigger switch; when the rear section area of the key is pressed, the second action part presses the trigger switch downwards; so, through the design of button, runing rest, ensure to press the homoenergetic at the preceding of button, back end and trigger switch is triggered well to realize user's finger and operate the user demand of button in different positions, structural design is simple, and is ingenious reasonable, and the practicality is strong, is suitable for popularization and application.

Description

All-dimensional pressing sensitive mouse button structure

Technical Field

The invention relates to the technical field of electronic equipment, in particular to a mouse button structure with all-dimensional pressing sensitivity.

Background

Currently, as the input peripheral devices of the data processing system are continuously developed, the mouse is still an indispensable input device of most data processing systems, and is used for executing functions such as cursor operation and pointing and selecting on the display of the data processing system; the existing mouse realizes the click on a display screen by pressing a key; however, the positions of the keys clicked by different users are different, so that the pressing hand feeling of the mouse key clicked by the user is different, and the pressing sensitivity is also different.

In addition, after the key of the mouse is used for a long time, the pressing part and the trigger part of the trigger switch can be partially worn, so that when a user uses the mouse, a section of idle stroke is formed between the worn part of the pressing part and the trigger part, and the mouse can be out of order or the hand feeling is not good.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the present invention is directed to the defects existing in the prior art, and the main object of the present invention is to provide a mouse button structure with omni-directional pressing sensitivity, which ensures that the front and rear sections of the button can be well triggered to the trigger switch by the design of the button and the rotating bracket, so as to meet the use requirements of the user for operating the button at different positions with the fingers, and the present invention has strong practicability and is suitable for popularization and application.

In order to achieve the purpose, the invention adopts the following technical scheme:

a mouse button structure with omnibearing pressing sensitivity comprises a mouse main body, and a trigger switch, a rotating bracket and a button which are arranged on the mouse main body; wherein:

the trigger switch is provided with a trigger part which can be elastically reset; the key is provided with a first action part and a second action part which are arranged at a front-back interval; the rotating bracket is provided with a first connecting position and a second connecting position which are arranged at a front-back interval, the rotating bracket can rotate up and down around the second connecting position relative to the mouse body, and the first acting part acts on the first connecting position; the second acting part is correspondingly positioned above the triggering part, and both the second acting part and the triggering part are positioned in the area between the first connecting position and the second connecting position;

when the front section area of the key is pressed, the first action part enables the rotating bracket to rotate downwards so as to press the trigger switch;

when the rear section area of the key is pressed, the second acting part presses the trigger switch downwards.

Preferably, the first acting portion is pivoted to the first connecting position, and the mouse body is provided with an upward stopping structure at the first connecting position of the rotating bracket, so that when the rear section area of the key is pressed, the downward displacement of the second acting portion takes the first connecting position as a fulcrum.

As a preferred scheme, the mouse body is provided with an accommodating cavity, the trigger switch and the rotary bracket are both arranged in the accommodating cavity, and the button is arranged on the upper side of the mouse body; the mouse main body is provided with a first abdicating hole and a second abdicating hole corresponding to the first acting part and the second acting part respectively, and the first acting part and the second acting part penetrate through the corresponding first abdicating hole and the second abdicating hole and extend into the accommodating cavity.

Preferably, the button is separately assembled on the mouse body, the mouse body is provided with a pre-pressing elastic element, the pre-pressing elastic element provides a downward acting force to keep the button pressed downwards, and the pressure is less than the total pressure required by the button to trigger the trigger switch.

As a preferred scheme, a first limiting part extends backwards from the rear end of the key, and the mouse body stops above the first limiting part.

As a preferable scheme, a second limiting part extends backwards from the front end of the key, and the mouse body stops above the second limiting part.

As a preferred scheme, the mouse body comprises an upper cover, a lower cover and a shell, wherein the upper end and the lower end of the shell are respectively provided with an upper end assembling window and a lower end assembling window; wherein:

the rotary bracket and the keys are respectively assembled on the upper side and the lower side of the upper cover and then assembled at the upper end assembling window of the shell together;

the trigger switch is arranged on the lower cover and then is assembled at the assembling window at the lower end of the shell.

As a preferred scheme, the trigger switch, the rotating bracket and the keys are respectively provided with a group on the left side and the right side of the upper cover so as to correspondingly form a left key assembly and a right key assembly; the upper cover is provided with a roller wheel assembling window positioned between the left button assembly and the right button assembly;

the lower cover is assembled with a trigger switch arranged on the left side and a trigger switch arranged on the right side, and a roller assembly positioned between the left trigger switch and the right trigger switch, and the roller assembly is exposed out of the roller assembly window.

As a preferred scheme, the pre-pressing elastic element is a torsion spring, and the torsion spring comprises a first spring leg which is elastically abutted on the first limiting part and a second spring leg which is elastically abutted on the mouse body; the mouse is characterized in that a second limiting portion and a second stopping portion are arranged on the mouse body, the second limiting portion is arranged beside the second stopping portion, the second stopping portion is located above the first limiting portion, a second limiting groove is formed in the second limiting portion, the first spring foot is wound on the second limiting groove, and the lower end of the first spring foot acts on the first limiting portion.

As a preferable scheme, the mouse main body is provided with a first stopping portion extending downwards, the front end of the first connecting portion extends forwards to form a convex plate, and the lower end of the first stopping portion abuts against the convex plate.

Compared with the prior art, the invention has obvious advantages and beneficial effects, and particularly, according to the technical scheme, the design of the key and the rotary support is mainly adopted to ensure that the trigger switch can be well triggered when the front section and the rear section of the key are pressed, so that the use requirements of the user for operating the key at different positions by fingers are met, and the key has the advantages of simple structural design, skillfulness, reasonableness and strong practicability, and is suitable for popularization and application;

secondly, the keys and the rotating support are skillfully arranged on the mouse main body, so that the keys are accurately pressed and triggered, the action stroke is controllable, and the use hand feeling and the service life of the mouse keys are further improved;

the mouse body comprises an upper cover, a lower cover and a shell, wherein the rotary bracket and the keys are respectively assembled on the upper side and the lower side of the upper cover and then assembled at an assembly window at the upper end of the shell; the trigger switch is arranged on the lower cover and then is assembled at the assembling window at the lower end of the shell; the assembly is convenient, the positioning is reliable, and the mouse processing quality is ensured;

and the pre-pressing elastic element is arranged, so that the key can keep downward pre-tightening force after being reset, the pressing action stroke is shortened, the operation hand feeling is consistent, and the use stability is good.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a first cross-sectional view of an embodiment of the present invention;

FIG. 3 is a perspective view of a rotating gantry of an embodiment of the present invention;

FIG. 4 is a first exploded view of the embodiment of the present invention (the upper cover and the key are exploded views);

FIG. 5 is another angular schematic view of the structure shown in FIG. 4;

FIG. 6 is a schematic perspective view of another embodiment of the present invention (the housing is not shown);

FIG. 7 is an enlarged partial schematic view of the structure shown in FIG. 6;

fig. 8 is a second cross-sectional view of an embodiment of the present invention.

FIG. 9 is a second exploded view of an embodiment of the present invention;

FIG. 10 is another angular schematic view of the structure shown in FIG. 9;

FIG. 11 is a third cross-sectional view of an embodiment of the present invention;

FIG. 12 is an exploded view of the structure shown in FIG. 11;

FIG. 13 is a schematic perspective view of the structure shown in FIG. 12;

FIG. 14 is a diagram illustrating a rear section area of a pressed key according to an embodiment of the present invention;

FIG. 15 is a diagram of a front region of a pressed key according to an embodiment of the present invention.

The attached drawings indicate the following:

10. mouse body 11, upper cover

1101. Roller assembling window

111. The first yielding hole 112 and the second yielding hole

113. Third acting part 114, rotating shaft

115. First stop part 116 and second stop part

117. A third limiting part 118 and a third limiting groove

119. Third hole 1191 of stepping down, third backstop portion

12. Lower cover 13, shell

131. Upper end assembling window 132 and lower end assembling window

14. Accommodating cavity 20 and PCB

21. Trigger switch 211 and trigger unit

30. Rotating bracket 301, first connecting position

302. Second connecting position 31, sloping plate part

311. First pivot hole 32, horizontal plate

321. Second pivot hole 322, fourth hole of stepping down

33. Convex plate 34, pivot shaft

40. Key 41 and first action part

42. Second acting part 43 and first limiting part

431. A first limit groove 44 and a second limit part

441. Second limit groove 50, torsion spring

51. First spring leg 511 and first spring arm portion

512. Second elastic arm part 513 and third elastic arm part

514. Fourth spring arm 52 and second spring leg

60. A roller assembly.

Detailed Description

Referring to fig. 1 to 15, specific structures of the embodiment of the invention are shown.

A mouse button structure with omnibearing pressing sensitivity comprises a mouse main body 10, a trigger switch 21 arranged on the mouse main body 10, a rotating bracket 30 and a button 40; wherein:

the trigger switch 21 is provided with a trigger part 211 which can be elastically reset; the key 40 is provided with a first acting part 41 and a second acting part 42 which are arranged at a front-back interval; the rotating bracket 30 is provided with a first connecting position 301 and a second connecting position 302 which are arranged at a front-back interval, the rotating bracket 30 can rotate up and down relative to the mouse body 10 around the second connecting position 302, and the first acting part 41 acts on the first connecting position 301; the second acting part 42 is correspondingly positioned above the triggering part 211, and both the second acting part and the triggering part are positioned in the area between the first connecting position 301 and the second connecting position 302;

when the front section area of the key 40 is pressed, the first acting part 41 rotates the rotating bracket 30 downwards to press the trigger switch 21;

when the rear section area of the key 40 is pressed, the second acting part 41 presses the trigger switch 21 downwards; so, through the design of button, runing rest, ensure to press the homoenergetic at the preceding of button, back end and trigger switch is triggered well to realize user's finger in the user demand of different position operation buttons, the practicality is strong, is suitable for popularization and application.

The first acting part 41 is pivoted to the first connecting position 301, and the mouse body 10 is provided with an upward stopping structure at the first connecting position 301 of the rotating bracket, so that when the rear section area of the key 40 is pressed, the downward displacement of the second acting part 41 takes the first connecting position 301 as a fulcrum; here, the mouse body 10 has a first stopping portion 115 extending downward, the front end of the first connecting portion 301 extends forward to form a protruding plate 33, and the lower end of the first stopping portion 115 abuts against the protruding plate 33; preferably, the mouse body 10 has a third acting portion 113 extending downward, and the second connecting portion 302 is pivotally connected to the third acting portion 113.

Generally, the mouse body 10 has a receiving cavity 14, the trigger switch 21 and the rotating bracket 30 are both disposed in the receiving cavity 14, and the button 40 is disposed on the upper side of the mouse body 10; the mouse body 10 has a first yielding hole 111 and a second yielding hole 112 corresponding to the first acting portion 41 and the second acting portion 42, respectively, and the first acting portion 41 and the second acting portion 42 penetrate through the corresponding first yielding hole 111 and the corresponding second yielding hole 112 and extend into the accommodating cavity 14.

The button 40 is separately assembled on the mouse body 10, the mouse body 10 is provided with a pre-pressing elastic element 50, the pre-pressing elastic element 50 provides a downward acting force to keep the button 40 pressed downward, and the pressure is less than the total pressure required by the button 40 to trigger the trigger switch 21.

A first limiting part 43 extends backwards from the rear end of the key 40, and the mouse body 10 stops above the first limiting part 43; here, the pre-pressing elastic element 50 is a torsion spring, and the torsion spring includes a first spring leg 51 that is sprung against the first position-limiting portion 43 and a second spring leg 52 that is sprung against the mouse body 10; the mouse body 10 is provided with a second limiting portion 117 and a second stopping portion 116, the second limiting portion 117 is arranged beside the second stopping portion 116, the second stopping portion 116 is positioned above the first limiting portion 43, a second limiting groove 118 is arranged on the second limiting portion 117, the first spring leg 51 is wound on the second limiting groove 118, and the lower end of the first spring leg 51 acts on the first limiting portion 43; preferably, the first spring leg 51 has a first spring arm portion 511, a second spring arm portion 512, a third spring arm portion 513 and a fourth spring arm portion 514 which are connected in sequence, the first spring arm portion 511 extends downward from back to front, the second spring arm portion 512 extends forward from the front end of the first spring arm portion 511, the third spring arm portion 513 extends upward from the front end of the second spring arm portion 512, the fourth spring arm portion 514 extends backward from the upper end of the third spring arm portion 513, and the lower end of the second spring arm portion 512 abuts against the first limit groove 431.

A second limiting part 44 extends backwards from the front end of the button 40, and the mouse body 10 stops above the second limiting part 44; here, the mouse body 10 is provided with a third yielding hole 119 corresponding to the second limiting portion 44, a third stopping portion 1191 is provided at the rear end of the third yielding hole 119, a second limiting groove 441 is provided on the second limiting portion 44, the second limiting portion 44 extends into the third yielding hole 119, and the third stopping portion 1191 is limited to the inner end of the second limiting groove 441.

The mouse body 10 comprises an upper cover 11, a lower cover 12 and a shell 13, wherein the upper end and the lower end of the shell 13 are respectively provided with an upper end assembling window 131 and a lower end assembling window 132; wherein:

the rotating bracket 30 and the key 40 are respectively assembled at the upper side and the lower side of the upper cover 11 and then assembled at the upper end assembling window 131 of the shell 13 together; the first yielding hole 111, the second yielding hole 112, the third acting part 113 and the third yielding hole 119 are all arranged on the upper cover;

the trigger switch 21 is mounted on the lower cover 12 and then is assembled together with the lower assembly window 132 of the housing 13.

Here, the trigger switch 21, the rotating bracket 30 and the key 40 are respectively provided with a group on the left and right sides of the upper cover 11 to form a left key assembly and a right key assembly; a roller assembly window 1101 positioned between the left button assembly and the right button assembly is arranged on the upper cover 11;

the lower cover 12 is assembled with the left and right trigger switches 21 and the roller assembly 60 located between the left and right trigger switches 21, and the roller assembly 60 is exposed in the roller assembly window 1101.

A fourth abdicating hole 322 is formed on the rotating bracket 30, and the lower end of the second acting part 42 passes through the fourth abdicating hole 322 and abuts against the triggering part 211; here, the rotating bracket 30 includes a sloping plate portion 31 and a horizontal plate portion 32, the sloping plate portion 31 extends upward from front to back, the horizontal plate portion 32 extends rearward from the upper end of the sloping plate portion 31, and the fourth relief hole 322 is provided on the horizontal plate portion 32; the first connecting portion 301 is formed at the front end of the sloping plate portion 31, the second connecting portion 302 is formed at the rear end of the cross plate portion 32, the first connecting portion 301 and the second connecting portion are respectively provided with a first pivot hole 311 and a second pivot hole 321, and the first pivot hole 311 and the second pivot hole 321 are respectively connected to the corresponding first acting portion 41 and the third acting portion 113 through the pivot shaft 34.

The portable electronic device further comprises a PCB 20, wherein the PCB 20 is arranged in the accommodating cavity 14 and is positioned at the lower end of the trigger switch 21.

The key is mainly characterized in that the design of the key and the rotary bracket ensures that the trigger switch can be well triggered when the front section and the rear section of the key are pressed, so that the use requirements of operating the key at different positions by fingers of a user are met, the structural design is simple, the key is ingenious and reasonable, the practicability is high, and the key is suitable for popularization and application;

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides an all-round sensitive mouse button structure of pressing which characterized in that: comprises a mouse body (10), a trigger switch (21) arranged on the mouse body (10), a rotating bracket (30) and a key (40); wherein:

the trigger switch (21) is provided with a trigger part (211) capable of elastically resetting; the key (40) is provided with a first acting part (41) and a second acting part (42) which are arranged at a front-back interval; the rotating bracket (30) is provided with a first connecting position (301) and a second connecting position (302) which are arranged at a front-back interval, the rotating bracket (30) can rotate up and down around the second connecting position (302) relative to the mouse body (10), and the first acting part (41) acts on the first connecting position (301); the second acting part (42) is correspondingly positioned above the trigger part (211), and both the second acting part and the trigger part are positioned in the area between the first connecting position (301) and the second connecting position (302);

when the front section area of the key (40) is pressed, the first action part (41) enables the rotating bracket (30) to rotate downwards so as to press the trigger switch (21);

when the rear section area of the key (40) is pressed, the second action part (41) presses the trigger switch (21) downward.

2. The omni-directional pressure sensitive mouse button structure of claim 1, characterized in that: the first acting part (41) is pivoted to the first connecting position (301), the mouse body (10) is provided with an upward stopping structure for the first connecting position (301) of the rotating support, so that when the rear section area of the key (40) is pressed, the downward displacement of the second acting part (41) takes the first connecting position (301) as a fulcrum.

3. The omni-directional pressure sensitive mouse button structure of claim 1, characterized in that: the mouse body (10) is provided with an accommodating cavity (14), the trigger switch (21) and the rotating bracket (30) are arranged in the accommodating cavity (14), and the key (40) is arranged on the upper side of the mouse body (10); mouse main part (10) are corresponding first effect portion (41), second effect portion (42) have seted up first hole (111) and the second hole (112) of stepping down respectively, first effect portion (41), second effect portion (42) pass corresponding first hole (111), the second hole (112) of stepping down and stretch into in holding chamber (14).

4. The omni-directional pressure sensitive mouse button structure of claim 1, characterized in that: the button (40) is assembled on the mouse body (10) in a split mode, the mouse body (10) is provided with a pre-pressing elastic element (50), the pre-pressing elastic element (50) provides downward acting force to enable the button (40) to keep downward pressing pressure, and the pressure is smaller than total pressure required by the button (40) to trigger the trigger switch (21).

5. The omni-directional pressure sensitive mouse button structure of claim 4, wherein: the rear end of the key (40) extends backwards to form a first limiting part (43), and the mouse body (10) is stopped above the first limiting part (43).

6. The omni-directional pressure sensitive mouse button structure of claim 5, wherein: the front end of the key (40) extends backwards to form a second limiting part (44), and the mouse body (10) is stopped above the second limiting part (44).

7. The omni-directional pressure sensitive mouse button structure of claim 6, wherein: the mouse body (10) comprises an upper cover (11), a lower cover (12) and a shell (13), wherein the upper end and the lower end of the shell (13) are respectively provided with an upper end assembling window (131) and a lower end assembling window (132); wherein:

the rotating bracket (30) and the key (40) are respectively assembled at the upper side and the lower side of the upper cover (11) and then assembled at the upper end assembling window (131) of the shell (13) together;

the trigger switch (21) is arranged on the lower cover (12) and is assembled at the lower end assembling window (132) of the shell (13).

8. The omni-directional pressure sensitive mouse button structure of claim 7, wherein: the trigger switch (21), the rotating bracket (30) and the keys (40) are respectively provided with a group on the left side and the right side of the upper cover (11) so as to correspondingly form a left key assembly and a right key assembly; a roller assembly window (1101) positioned between the left button assembly and the right button assembly is arranged on the upper cover (11);

the lower cover (12) is assembled with a left trigger switch (21) and a right trigger switch (21) and a roller assembly (60) positioned between the left trigger switch and the right trigger switch (21), and the roller assembly (60) is exposed in the roller assembly window (1101).

9. The omni-directional pressure sensitive mouse button structure of claim 5, wherein: the prepressing elastic element (50) is a torsion spring which comprises a first spring foot (51) which is elastically propped against the first limiting part (43) and a second spring foot (52) which is elastically propped against the mouse body (10); be provided with third spacing portion (117) and second backstop portion (116) on mouse main part (10), third spacing portion (117) set up by the side of second backstop portion (116), second backstop portion (116) are located the top of first spacing portion (43), be provided with third spacing groove (118) on third spacing portion (117), first spring foot (51) is from the back toward the front coiling in third spacing groove (118), the lower extreme of first spring foot (51) acts on first spacing portion (43).

10. The omni-directional pressure sensitive mouse button structure of claim 2, characterized in that: the mouse main body (10) is provided with a first stopping portion (115) extending downwards, the front end of the first connecting portion (301) extends forwards to form a convex plate (33), and the lower end of the first stopping portion (115) abuts against the convex plate (33).