CN210573682U - Mouse of floating hanging table - Google Patents

Abstract

The utility model discloses a mouse of a floating hanging platform, which comprises a mouse main body, wherein the mouse main body is provided with a key and a trigger switch positioned below the key, and the trigger switch is provided with a trigger part which can be elastically reset; the mouse body is also provided with a floating hanging table for limiting the upward reset stroke of the key, and the floating hanging table is provided with a limiting surface and a reference positioning surface which are arranged up and down; the limiting surface is used for limiting the upward reset stroke of the key, and the reference positioning surface is limited on the trigger switch so as to lock the distance between the limiting surface and the trigger switch; pressing the key, wherein the key is far away from the limiting surface and is pressed down to act on the trigger part; releasing the key, and resetting the key upwards until the key contacts the limiting surface; therefore, the mouse has the advantages of consistent operation hand feeling of each mouse, ingenious design and strong practicability, and is suitable for popularization and application.

Description

Mouse of floating hanging table

Technical Field

The utility model belongs to the technical field of the mouse technique and specifically relates to indicate a float and hang mouse of platform.

Background

As the input peripheral devices of data processing systems are continuously developed, the mouse is still an indispensable input device for most data processing systems, and is used for performing functions such as cursor operation and pointing and selecting on the display of the data processing system; meanwhile, the operation hand feeling of the mouse depends on the distance between the touch part of the key and the trigger point of the micro switch.

In the conventional mouse, referring to fig. 1, a stopping portion 142A is disposed above a limiting portion 141A of a button 14A, and the stopping portion 142A is usually fixedly disposed on the mouse and is limited by manufacturing tolerance and assembly tolerance of components such as a mouse shell (e.g., a bottom shell), a circuit board 15A, and a trigger switch 16A, so that in each mouse, a distance H between the trigger switch 16A (specifically, a trigger portion 161A of the trigger switch 16A) and the stopping portion 142A (specifically, a limiting surface 201A) varies.

In actual production, if the consistency of the operating hand feeling of the mouse is to be enhanced, the manufacturing tolerance and the assembly tolerance of the parts such as the housing, the circuit board 15A, the trigger switch 16A and the like are often required to be controlled as much as possible, in fact, the manufacturing tolerance and the assembly tolerance of the parts are limited, the difference of the operating hand feeling of different mice can only be reduced, the hand feeling consistency still cannot be achieved, and in any case, the strict requirements on the manufacturing tolerance and the assembly tolerance of a plurality of parts are made, which inevitably leads to the increase of the manufacturing difficulty and the manufacturing cost.

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

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a mouse of floating hanging platform and ensures that mouse presses the good method of feeling uniformity, and it is spacing on trigger switch through the benchmark locating surface with floating hanging platform to the interval between spacing face of locking and the trigger switch makes the button push down and the reset distance unanimous, and is unanimous in order to realize that the operation of every mouse is felt, design benefit, and the practicality is strong, is suitable for popularization and application.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a mouse with a floating hanging platform comprises a mouse main body, wherein the mouse main body is provided with a key and a trigger switch positioned below the key, and the trigger switch is provided with a trigger part capable of elastically resetting;

the mouse body is also provided with a floating hanging table used for limiting the upward reset stroke of the key, and the floating hanging table is provided with a limiting surface and a reference positioning surface; the limiting surface is used for limiting the upward reset stroke of the key, and the reference positioning surface is limited on the trigger switch so as to lock the distance between the limiting surface and the trigger switch;

pressing the key, wherein the key is far away from the limiting surface and is pressed down to act on the trigger part; and releasing the key, and resetting the key upwards until the key contacts the limiting surface.

As a preferable scheme, the top of the trigger switch is provided with an installation reference surface, and the trigger part is exposed on the installation reference surface; the floating hanging table is abutted against the installation reference surface through the reference positioning surface.

As a preferable scheme, an elastic prepressing piece is arranged between the floating hanging table and the mouse body, and the elastic prepressing piece provides downward prepressing force for the floating hanging table so that the reference positioning surface is tightly pressed against the trigger switch.

Preferably, the key has a pressing portion extending downward, and the pressing portion extends to form a limiting portion, or the key has a limiting portion separated from the pressing portion;

the limiting part is positioned below the limiting surface; pressing the key, and enabling the limiting part to move downwards to act on the trigger part; the key is released, and the limiting part is reset upwards to contact the limiting surface.

As a preferred scheme, one end of the floating hanging table is pivoted to the mouse main body, so that the other end can rotate up and down relative to one end; the limiting surface is formed at the other end of the floating hanging table, and the elastic prepressing piece acts on the position between the two ends of the floating hanging table.

As a preferred scheme, the other end of the floating hanging platform is provided with a first inverted buckle part, the mouse body is provided with a hanging part, one end of the floating hanging platform is pivoted on the mouse body, the other end of the floating hanging platform rotates upwards until the first inverted buckle part is clamped on the hanging part, and the downward freedom degree of the floating hanging platform is limited.

Preferably, the elastic pre-pressing piece is a compression spring, the upper end of the elastic pre-pressing piece acts on the mouse body, and the lower end of the elastic pre-pressing piece acts on the floating hanging table.

As a preferred scheme, the floating hanging table is provided with a guide convex column which extends upwards, the mouse body is provided with a guide groove, and the guide convex column is matched with the guide groove;

the floating hanging table is provided with a connecting part which extends upwards, and the upper end of the connecting part is provided with a second inverted buckle part; the mouse main body is provided with a buckling hole; the floating hanging platform is assembled on the mouse main body upwards, and the second reverse buckling part of the floating hanging platform penetrates through the buckling hole and is clamped on the upper end face of the buckling hole.

As a preferred scheme, the floating hanging platform is a cantilever, one end of the cantilever is fixed relative to the mouse main body, and the other end of the cantilever is an elastic free end with downward elastic pre-pressure; the cantilever extends downwards to form a pressing part, the reference positioning surface is formed at the lower end of the pressing part, and the limiting surface is formed at the elastic free end of the cantilever.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, particularly, known by the technical scheme, it is mainly through spacing the benchmark locating surface of the platform of hanging that floats on trigger switch, with spacing between locking spacing face and the trigger switch, make the button push down and reset the distance unanimous, in order to realize the operation of each mouse feels unanimous, do not receive trigger switch and mouse main part other relevant spare part (for example: circuit board etc.) make tolerance, assembly tolerance influence, improved the product yield, reduced the preparation degree of difficulty, also be favorable to reducing the product cost, especially, its structural design is simple, ingenious reasonable, the practicality is strong, be suitable for popularization and application;

secondly, the elastic prepressing piece is arranged, or the floating hanging table is designed to be an elastic cantilever to provide downward prepressing force for the floating hanging table, so that the reference positioning surface is tightly abutted to the trigger switch, the mounting precision is higher, the distance between the limiting surface and the mounting reference surface is more stable, and the operating hand feeling consistency and the stability are better;

moreover, the floating hanging table is convenient to install and assemble on the mouse main body by combining the elastic pre-pressing piece or the elastic cantilever, and the assembly and positioning of the floating hanging table on the trigger switch are not influenced by other parts.

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

Drawings

FIG. 1 is a partial cross-sectional view of a prior art mouse;

fig. 2 is a perspective view of the present invention;

fig. 3 is a partial cross-sectional view of a first embodiment of the invention;

fig. 4 is an exploded view of a first embodiment of the present invention;

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

fig. 6 is a partial cross-sectional view of a second embodiment of the invention;

fig. 7 is an exploded view of a second embodiment of the present invention;

FIG. 8 is another angular schematic view of the structure shown in FIG. 7;

fig. 9 is a partial cross-sectional view of a third embodiment of the present invention.

The attached drawings indicate the following:

10. mouse body 11, upper case

111. Notched 112, front side pivot joint end

113. Rear side pivot end 114, extension

115. Positioning groove 116 and positioning column

117. Guide slot 118 and fastening hole

12. Lower case 13, accommodation space

14. Key 141 and pressing part

142. Limiting part 15 and PCB

16. Trigger switch 161 and trigger unit

162. Mounting reference surface 17, elastic pre-pressing member

20. Floating hanging table

201. Limiting surface 202 and reference positioning surface

21. Pivoting part 22 and positioning part

23. Guide boss 24, upper boss

241. Abdication hole 25, lower convex part

26. Connecting part 261 and second reverse-buckling part

20', cantilever 21', pillar

14A, a key 141A, and a stopper

15A, PCB plate 16A, trigger switch

161A, trigger 20A, stopper

201A, a limiting surface.

Detailed Description

Fig. 2 to 9 show specific structures of various embodiments of the present invention.

A mouse of a floating hanging platform comprises a mouse body 10, wherein the mouse body 10 is provided with a key 14 and a trigger switch 16 positioned below the key 14, and the trigger switch 16 is provided with a trigger part 161 which can be elastically reset; the key 14 is pressed, and the key 14 presses down and acts on the trigger part 161; releasing the key 14, the key 14 being reset upwards; in general, the upward reset of the key 14 may be achieved by an elastic reset force of the structure of the key 14 itself or an external force such as an elastic reset member.

The floating hanging table 20 is provided with a limiting surface 201 and a reference positioning surface 202 which are arranged up and down; the limit surface 201 is used for limiting the upward reset stroke of the key 14, and the reference positioning surface 202 is limited on the trigger switch 16 to lock the distance between the limit surface 201 and the trigger switch 16; when the key 14 is pressed, the key 14 far away from the limiting surface 201 presses the trigger part 161; the key 14 is released and the key 14 is reset upwards until it contacts the stopper surface 201. Therefore, the floating hanging table takes the trigger switch 16 as an installation reference, so that the distance between the limiting surface 201 and the trigger switch 16 is consistent, the operation hand feeling of each mouse is consistent, the influence of the manufacturing tolerance and the assembly tolerance of the trigger switch and other related parts in the mouse main body is avoided, and the floating hanging table 20 is also used skillfully to absorb the manufacturing tolerance and the assembly tolerance of the trigger switch and other related parts in the mouse main body. The same type of mouse with a plurality of numbers can realize the consistent operation hand feeling of each mouse only by ensuring that the key 14 is qualified to manufacture and ensuring the quality consistency of the key 14.

Here, the key 14 has a pressing portion 141 extending downward, and the pressing portion 141 extends to form a stopper portion 142, or the key 14 has a stopper portion 142 provided separately from the pressing portion 141; the limiting part 142 is positioned below the limiting surface 201; when the key 14 is pressed, the limiting part 142 moves downwards to be far away from the limiting surface 201; the key 14 is released and the stopper 142 is reset upward to contact the floating mount 20.

As shown in fig. 3, the top of the trigger switch 16 has a mounting reference surface 162, and the trigger part 161 is exposed on the mounting reference surface 162; the floating mount 20 abuts the mounting datum 162 via a datum locating surface 202. An elastic prepressing piece 17 is arranged between the floating hanging table 20 and the mouse body 10, and the elastic prepressing piece 17 provides downward prepressing force for the floating hanging table 20 so that the reference positioning surface 202 is tightly pressed against the trigger switch 16. Preferably, the upper end and the lower end of the floating hanging platform 20 are respectively provided with an upper convex portion 24 and a lower convex portion 25, the upper convex portion 24 and the lower convex portion 25 are located on the same straight line, the upper convex portion 24 is provided with a yielding hole 241, and the upper end of the yielding hole 241 penetrates through the upper convex portion 24; the elastic pre-pressing piece 17 is a compression spring, the upper end of the elastic pre-pressing piece acts on the mouse body 10, the lower end of the elastic pre-pressing piece acts on the floating hanging table 20, and particularly the lower end of the elastic pre-pressing piece acts on the inner end face of the abdicating hole 241; therefore, the elastic prepressing piece 17 provides the floating hanging table 20 with downward prepressing force, so that the reference positioning surface 202 tightly abuts against the installation reference surface 162 of the trigger switch 16, the installation precision is higher, the distance between the limiting surface 201 and the installation reference surface 162 is more stable, and the operation hand feeling consistency is better.

As shown in fig. 3, 4 and 5, in the first embodiment, one end of the floating platform 20 is pivoted to the mouse body 10, so that the other end can rotate up and down relative to the other end, and the other end of the floating platform 20 is limited above the limiting portion 142 in a floating manner;

here, the mouse body 10 further includes a pivot end extending downward, the pivot end has a front pivot end 112 and a rear pivot end 113, a pivot area is defined between the front pivot end 112 and the rear pivot end 113, a pivot portion 21 is disposed at the rear end of the floating platform 20, and the pivot portion 21 of the floating platform 20 is pivoted in the pivot area of the pivot end;

the mouse comprises a mouse body 10, and is characterized in that two pivoting ends are arranged, the two pivoting ends are arranged on the mouse body 10 at left and right intervals, a pivoting portion 21 extends leftwards and rightwards, and the left end and the right end of the pivoting portion 21 are respectively pivoted on the two pivoting ends.

Preferably, the other end of the floating hanging platform 20 is provided with a first inverse-buckling part 22, the mouse body 10 is provided with a hanging part 114, one end of the floating hanging platform 20 is pivoted on the mouse body 10, the other end of the floating hanging platform rotates upwards until the first inverse-buckling part 22 is clamped on the hanging part 114, and the downward freedom degree of the floating hanging platform 20 is limited. Here, the mouse body 10 has a hook portion 114 extending downward, a positioning groove 115 is provided on the hook portion 114, the first inverse-buckle portion 22 extends into the positioning groove 115, and a positioning surface of the first inverse-buckle portion 22 is limited by an inner end surface of the positioning groove 115.

As shown in fig. 6, 7 and 8, in the second embodiment, the floating platform 20 has a guiding protrusion 23 extending upward, the mouse body 10 has a guiding groove 117, and the guiding protrusion 23 is adapted to the guiding groove 117; when the key 14 is released, the limiting portion 142 is reset upward to push the floating platform 20 to move upward, and the guiding protrusion 23 moves upward in the guiding groove 117 along with the upward movement of the floating platform 20.

Two guide convex columns 23 are arranged, correspondingly, two guide grooves 117 are arranged, and the two guide convex columns 23 and the two guide grooves 117 are respectively arranged on the corresponding floating hanging table 20 and the mouse main body 10 at intervals front and back; the mouse body 10 has two guide posts 116 extending downward, and the two guide slots 117 are disposed on the two corresponding guide posts 116; when the floating platform 20 moves upwards along with the resetting of the limiting part 142, the guiding convex column 23 moves upwards along with the resetting, and the upper end of the floating platform 20 is limited by the lower ends of the two guiding columns 116.

Preferably, the floating hanging platform 20 is arranged on the mouse body 10 in a buckling manner, the floating hanging platform 20 has two connecting portions 26 extending upwards, the two connecting portions 26 are arranged at the upper end of the floating hanging platform 20 in a left-right spacing manner, and the upper ends of the two connecting portions 26 are both provided with second inverted buckling portions 261; the mouse body 10 is provided with a fastening hole 118, the floating hanging platform 20 is assembled on the mouse body 10, and the second inverse-fastening portion 261 passes through the fastening hole 118 and is fastened to the upper end surface of the fastening hole 118.

Generally, the mouse body 10 further includes a PCB 15, the mouse body 10 has an upper shell 11 and a lower shell 12, the upper shell 11 and the lower shell 12 are assembled to form an accommodating space 13, and the PCB 15, the trigger switch 16 and the floating platform 20 are all disposed in the accommodating space 13; the key 14 is disposed at the upper end of the upper case 11, the upper case 11 is provided with a notch 111, the notch 111 is communicated with the accommodating space 13, the trigger switch 16 is disposed at the front section of the upper end of the PCB 15, the trigger switch 16 is located below the notch 111, and the pressing portion 141 and the limiting portion 142 of the key 14 extend into the accommodating space 13 in the notch 111 and are located above the trigger switch 16.

In the first and second embodiments, the lower end of the floating mount 20 is positioned on the trigger switch 16 and is positioned on the trigger switch 16 by the lower end of the lower protrusion 25, and here, the reference positioning surface 202 is formed at the lower end of the lower protrusion 25 and is preferably provided at the center of the lower end of the floating mount 20.

As shown in fig. 9, it shows a partial structure of the third embodiment; the floating hanging table is a cantilever 20', one end of the cantilever 20' is fixed relative to the mouse main body 10, and the other end of the cantilever 20' is an elastic free end with downward elastic pre-pressure; the cantilever 20 'extends downwards to form a pressing part 21', the reference positioning surface 202 is formed at the lower end of the pressing part 21', and the limiting surface 201 is formed at the elastic free end of the cantilever 20'. During assembly, the elastic force of the cantilever 20' is directly utilized to tightly abut against the installation reference surface 162 of the trigger switch 16; therefore, in the third embodiment, an additional elastic reset member (such as a spring, etc.) can be omitted, and the structure is relatively simple. Here, the cantilever 20 'is generally formed in an inner housing, the inner housing is installed in the mouse body and is relatively fixed, and one end of the cantilever 20' is connected to the inner housing as a fixed end.

Of course, the floating platform 20 of the present invention is not limited to the three embodiments described herein, and can be changed into other feasible structures by slight modification, and the present invention is not limited to the specific structure of the floating platform 20.

Next, a method for ensuring good consistency of hand feeling of pressing the mouse is introduced, which is based on the mouse of the floating hanging platform; the trigger switch 16 is used as a lower limit position for the key 14 to be pressed down, and the limit surface 201 of the floating hanging platform 20 is used as an upper limit position for the key 14 to be reset upwards; the reference positioning surface 202 of the floating hanging platform 20 is limited on the trigger switch 16 to lock the distance between the limiting surface 201 and the trigger switch 16, so that the pressing and resetting distances of the key 14 are consistent.

The utility model is mainly characterized in that the reference positioning surface of the floating hanging table is limited on the trigger switch to lock the space between the limiting surface and the trigger switch, so that the press keys are pressed down and the reset distance is consistent, the operation hand feeling of each mouse is consistent, the mouse is not influenced by the manufacturing tolerance and the assembly tolerance of the trigger switch and other related parts (such as a circuit board and the like) in the mouse main body, the product yield is improved, the manufacturing difficulty is reduced, the product cost is reduced, and particularly, the mouse has simple structural design, is ingenious and reasonable, has strong practicability and is suitable for popularization and application; secondly, the elastic prepressing piece is arranged, or the floating hanging table is designed to be an elastic cantilever to provide downward prepressing force for the floating hanging table, so that the reference positioning surface is tightly abutted to the trigger switch, the mounting precision is higher, the distance between the limiting surface and the mounting reference surface is more stable, and the operating hand feeling consistency and the stability are better; moreover, the floating hanging table is convenient to install and assemble on the mouse main body by combining the elastic pre-pressing piece or the elastic cantilever, and the assembly and positioning of the floating hanging table on the trigger switch are not influenced by other parts.

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 slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (9)

1. A mouse of a floating hanging platform is characterized in that: the mouse comprises a mouse body (10), wherein the mouse body (10) is provided with a key (14) and a trigger switch (16) positioned below the key (14), and the trigger switch (16) is provided with a trigger part (161) capable of elastically resetting;

the mouse body (10) is further provided with a floating hanging table (20) used for limiting the upward reset stroke of the button (14), and the floating hanging table (20) is provided with a limiting surface (201) and a reference positioning surface (202); the limiting surface (201) is used for limiting the upward reset stroke of the key (14), and the reference positioning surface (202) is limited on the trigger switch (16) to lock the distance between the limiting surface (201) and the trigger switch (16);

the key (14) is pressed, and the key (14) is far away from the limiting surface (201) and is pressed down to act on the trigger part (161); and releasing the key (14), and resetting the key (14) upwards until the key contacts the limiting surface (201).

2. The floating platform mouse of claim 1, wherein: the top of the trigger switch (16) is provided with an installation reference surface (162), and the trigger part (161) is exposed on the installation reference surface (162); the floating hanging table (20) is abutted against the installation reference surface (162) through the reference positioning surface (202).

3. The floating-platform mouse according to claim 1 or 2, characterized in that: an elastic prepressing piece (17) is arranged between the floating hanging table (20) and the mouse body (10), and the elastic prepressing piece (17) provides downward prepressing force for the floating hanging table (20) so that the reference positioning surface (202) is tightly pressed against the trigger switch (16).

4. The floating platform mouse of claim 3, wherein: the key (14) is provided with a pressing part (141) extending downwards, the pressing part (141) extends to form a limiting part (142), or the key (14) is provided with a limiting part (142) separated from the pressing part (141);

the limiting part (142) is positioned below the limiting surface (201); when the key (14) is pressed, the limiting part (142) moves downwards to act on the trigger part (161); the key (14) is released, and the limiting part (142) is reset upwards to contact the limiting surface (201).

5. The floating platform mouse of claim 4, wherein: one end of the floating hanging table (20) is pivoted to the mouse main body (10) so that the other end can rotate up and down relative to one end; the limiting surface (201) is formed at the other end of the floating hanging table (20), and the elastic prepressing piece (17) acts on the position between the two ends of the floating hanging table (20).

6. The floating platform mouse of claim 5, wherein: the other end of the floating hanging table (20) is provided with a first inverted buckle part (22), the mouse body (10) is provided with a hanging hook part (114), one end of the floating hanging table (20) is pivoted on the mouse body (10), the other end of the floating hanging table rotates upwards until the first inverted buckle part (22) is clamped on the hanging hook part (114), and the downward freedom degree of the floating hanging table (20) is limited.

7. The floating platform mouse of claim 3, wherein: the elastic prepressing piece (17) is a compression spring, the upper end of the elastic prepressing piece acts on the mouse main body (10), and the lower end of the elastic prepressing piece acts on the floating hanging table (20).

8. The floating platform mouse of claim 3, wherein: the floating hanging table (20) is provided with a guide convex column (23) which extends upwards, a guide groove (117) is formed in the mouse body (10), and the guide convex column (23) is matched with the guide groove (117);

the floating hanging table (20) is provided with a connecting part (26) extending upwards, and the upper end of the connecting part (26) is provided with a second inverted buckling part (261); the mouse body (10) is provided with a buckling hole (118); the floating hanging table (20) is assembled on the mouse main body (10) upwards, and the second reverse buckling part (261) of the floating hanging table penetrates through the buckling hole (118) and is clamped on the upper end face of the buckling hole (118).

9. The floating-platform mouse according to claim 1 or 2, characterized in that: the floating hanging table (20) is a cantilever (20 '), one end of the cantilever (20 ') is fixed relative to the mouse main body (10), and the other end of the cantilever (20 ') is an elastic free end with downward elastic pre-pressure; the cantilever (20 ') extends downwards to form a pressing part (21'), the reference positioning surface (202) is formed at the lower end of the pressing part (21 '), and the limiting surface (201) is formed at the elastic free end of the cantilever (20').

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