CN117742508A - Translation type mouse key module and mouse device with same - Google Patents

Abstract

The mouse device comprises a shell and the translation type mouse key module arranged in the shell. The translation type mouse button module comprises: a frame body, a key board, a push switch and side-by-side components. The frame body is provided with a first frame body connecting part and a second frame body connecting part; the key board is provided with a pressing part and a first key board connecting part and a second key board connecting part; the push switch corresponding to the push part is provided with a button for the push part to correspondingly abut; the side-by-side member includes first and second swing beams that are side-by-side with each other, and the first and second swing beams are rotatably bridged between the first frame body connecting portion and the first key plate connecting portion and between the second frame body connecting portion and the second key plate connecting portion, respectively. Therefore, the key board can be pulled and driven by the side-by-side components to move horizontally, a user does not need to particularly select the part for pressing the key board, so that the key board has better pressing feeling, and the key board has the effect of easy manufacture because of the uncomplicated structure.

Description

Translation type mouse key module and mouse device with same

Technical Field

The present application relates to mouse keys of a mouse, and more particularly, to a translation type mouse key module and a mouse device having the same.

Background

The mouse comprises: the mouse comprises a shell and a switch arranged in the shell, wherein the shell is provided with two key plates, namely a left mouse button and a right mouse button commonly called. When the user presses the key pad, the key pad will press the switch device to generate a switch signal.

However, the mouse has the following disadvantages to be improved: because one end of the two key plates is integrally connected with the shell, when the key plates are pressed, the key plates can only take the connecting part as an axis to perform up-down deflection action, a certain length exists between the one end of the key plates and the opposite other end, when the length is farther from the one end, the longer the up-down deflection stroke required by the key plates is, the different pressing force required by any point on the key plates can be caused, and a user needs to particularly select the pressing part when pressing the key plates, so that poor pressing feeling is caused; further, the conventional mouse modified for this purpose has a problem that the structure is too complicated, and thus, the manufacturing is difficult.

Therefore, how to change the keypad into a translational movement when pressed and having a simple structure is a major problem to be solved by the applicant.

Disclosure of Invention

In order to solve the above-mentioned prior art problem, the present application provides a translation type mouse button module and a mouse device having the same, which can change the keypad into a translation movement when being pressed and is not complicated in structure.

The translation formula mouse key module of this application includes: the frame body is provided with a first frame body connecting part and a second frame body connecting part; a key plate having a pressing portion, a first key plate connecting portion and a second key plate connecting portion; the push switch is configured corresponding to the push part and provided with a button, and the push part is correspondingly abutted against the button; and a parallel member including a first swing beam and a second swing beam arranged side by side with each other, the first swing beam being swingably bridged between the first frame connecting portion and the first key plate connecting portion, the first swing beam being swingably bridged between the second frame connecting portion and the second key plate connecting portion with respect to the frame with the first frame connecting portion as an axis, the second swing beam being swingably bridged between the second frame connecting portion and the second key plate connecting portion with respect to the frame with the second frame connecting portion as an axis; when the key plate is pressed, the first swinging beam and the second swinging beam swing relative to the frame body to pull the key plate to translate relative to the frame body.

The application has mouse device of translation formula mouse key module, include: a shell provided with at least one opening; and at least one translational mouse key module as described in the preceding paragraph, disposed in the housing, the key plate being exposed through the opening.

Compared with the prior art, the translational mouse button module and the mouse device with the translational mouse button module can lead the keyboard to be driven by the side-by-side components to perform translational movement when being pressed, so that a user can press any point on the keyboard with similar pressing force and similar pressing stroke without selecting a pressing part, thereby having better pressing feeling; furthermore, the structure of the translation type mouse key module is not complex, so that the translation type mouse key module has the effect of easy manufacture.

Drawings

Fig. 1 is a perspective combined view of a translation type mouse key module of the present application.

Fig. 2 is an exploded perspective view of the translation type mouse button module of the present application.

Fig. 3 is a schematic side view of the translation type mouse button module before being pressed.

Fig. 4 is a schematic side view of the translation type mouse button module of the present application after being pressed.

Fig. 5 is a schematic perspective view of a mouse device with a translation type mouse button module.

Symbol description in the drawings:

100, a mouse key module;

1, a frame body;

1a, a convex arm;

11, a first frame body connecting part;

12, a second frame connecting part;

13, a setting part;

2, a key board;

2a, a first extension arm;

2b, a second extension arm;

a first key plate connecting part 21;

22 a second keypad connection;

23, a pressing part;

3, pressing the switch;

31, a button;

4, side-by-side components;

41a first swing beam;

41a, a beam body;

41b, a connecting piece;

411 a first docking portion;

42, a second swing beam;

42a, a beam body;

422 a second docking portion;

700, a circuit board;

800, a shell;

8, opening.

Detailed Description

The detailed description and technical content related to the present application are described below in conjunction with the drawings, which are however provided for reference and illustration only and are not intended to limit the present application.

The application provides a translation type mouse key module and a mouse device with the translation type mouse key module. As shown in fig. 1 to 4, a translation type mouse key module is provided; as shown in fig. 5, the mouse device with the translation type mouse key module (hereinafter referred to as a mouse device) is provided in the present application.

As shown in fig. 1 to 4, a translation type mouse key module (hereinafter, simply referred to as a mouse key module) 100 of the present application includes: a frame 1, a key plate 2, a push switch 3 and a parallel member 4. It should be noted that, as shown in fig. 2 and 3, the key plate 2 is an elongated plate body having a thickness, and thus has a length in addition to a thickness; as shown in fig. 3, the mouse button module 100 defines a first direction D1 and a second direction D2 perpendicular to each other, wherein the first direction D1 corresponds to the length direction (i.e., X-axis) of the button plate 2, and the second direction D2 corresponds to the thickness direction (i.e., Z-axis, so the Y-axis corresponds to the width of the button plate 2) of the button plate 2.

The frame 1 is used to mount a key plate 2 and side-by-side members 4, and in one embodiment a push switch 3. The frame 1 has at least a first frame connecting portion 11 and a second frame connecting portion 12. The number of the first frame connecting portions 11 may be one (not shown) or two (as shown in fig. 2), which is not limited in this application; the number of the second frame connecting portions 12 may be one (as shown in fig. 2), or may be two (not shown), which is not limited in this application. In the following description, the number of the first frame connecting portions 11 and the second frame connecting portions 12 will be described in terms of only one of them.

The key plate 2 (i.e., a mouse key) is a plate body and has a first key plate connecting portion 21, a second key plate connecting portion 22 and a pressing portion 23, and in one embodiment, the second key plate connecting portion 22 is located between the first key plate connecting portion 21 and the pressing portion 23. In other embodiments not shown in the drawings, the second key plate connecting portion 22 may also be located before the pressing portion 23, that is: the pressing portion 23 will be located between the first key plate connecting portion 21 and the second key plate connecting portion 22.

The push switch 3 is disposed corresponding to the push portion 23, in other words, the push switch 3 may be disposed on the circuit board 700 (not shown) as shown in fig. 5 in the mouse device of the present application, in addition to the frame 1 as shown in fig. 1 to 4. In an embodiment, the frame 1 further has a setting portion 13, and the push switch 3 is disposed on the setting portion 13, so that the push switch 3 and the mouse button module 100 can form a complete module, and thus there is an accurate alignment and no error between the push portion 23 and the button 31 of the push switch 3. The push switch 3 has a button 31, the push portion 23 is correspondingly abutted against the button 31, and the push portion 23 is used for pushing the button 31 to control ON (ON); the button 31 can be elastically restored, for example, by an elastic member not shown in the drawings, so that the button 31 is elastically restored in the first direction D1 and is turned OFF after being restored.

The side-by-side member 4 includes a first swing beam 41 and a second swing beam 42 which are side-by-side with each other, as shown in fig. 3, the first swing beam 41 and the second swing beam 42 are side-by-side with each other at intervals in the second direction D2 and are offset from each other in the first direction D1, thus forming a virtual parallelogram. The first swinging beam 41 is swingably bridged between the first frame body connecting portion 11 and the first key plate connecting portion 21, so that the first swinging beam 41 can swing with respect to the frame body 1 about the first frame body connecting portion 11; the second swinging beam 42 is swingably bridged between the second frame body connecting portion 12 and the second key plate connecting portion 22, so that the second swinging beam 42 can swing with respect to the frame body 1 about the second frame body connecting portion 12.

In an embodiment, as shown in fig. 3 and 4, the second frame connecting portion 12 is located between the first frame connecting portion 11 and the button 31 (or the push switch 3) in the first direction D1, and the position of the first frame connecting portion 11 in the second direction D2 is higher than the position of the second frame connecting portion 12 and the button 31 (or the push switch 3) in the second direction D2. In this way, to ensure that the key plate 2 is translated relative to the frame 1 via the swinging of the side-by-side members 4.

Thereby, as shown in fig. 3 and 4, when the user presses the key plate 2, the first swing beam 41 and the second swing beam 42 will swing relative to the frame 1, and pull and translate the key plate 2 relative to the frame 1 through these swings. In this way, the mouse key module 100 of the present application has the advantage of being easier to manufacture because the structure is less complex, and the user can press any point on the keypad 2 with similar pressing force and similar pressing stroke, so that the user can press the keypad 2 without selecting the pressing portion specifically, thereby having better pressing feeling.

In one embodiment, as shown in fig. 2, the first swing beam 41 and the second swing beam 42 may be only the second swing beam 42 is a straight beam body (or simply beam body) 42a for one side lying, and as for the first swing beam 41, it is a straight beam body (or simply beam body) 41a for two side lying with each other spaced side by side and connected to each other; in other embodiments not shown in the drawings, the first swing beam 41 and the second swing beam 42 may be straight beam bodies 41a, 42a having two side lying sides spaced apart from each other and connected to each other. When the number of the first frame connecting portions 11 is two as shown in fig. 2, the first swing beam 41 (including a connecting member 41b and two beams 41 a) as shown in fig. 2 is applied, so that the swing of the side-by-side members 4 is smoother. In the following description, the first swing beam 41 and the second swing beam 42 are each described in a state where one side-lying linear beam body 41a, 42a (not shown) is the most basic.

The first swing beam 41 shown in fig. 2 is connected between two beam bodies 41a by a connecting member 41 b.

In detail, the key plate 2 has an inner surface (not shown) on which the pressing portion 23 is formed. In an embodiment, a first extension arm 2a and a second extension arm 2b may also be formed on the inner face. The first and second key plate connecting portions 21 and 22 may be formed at the extending ends of the first and second extending arms 2a and 2b, respectively, but the positions of the first and second key plate connecting portions 21 and 22 at the extending arms (the first and second extending arms 2a and 2 b) are not limited in this application.

Furthermore, the pressing portion 23 and the first and second extension arms 2a and 2b may extend from the inner surface along the second direction D2 as shown in fig. 2 and 3; alternatively, the first extension arm 2a may extend from the periphery of the key plate 2 (not shown); in one embodiment, the first extension arm 2a extends from the inner surface of the keypad 2 along the second direction D2 as shown in fig. 2, and then bends to extend along the first direction D1 (the first extension arm 2a forms an L shape).

In addition, the frame 1 may further have a protruding arm 1a protruding along the second direction D2, and the second frame connecting portion 12 may be formed on the protruding arm 1 a.

Further, as shown in fig. 1 to 4, the first swing beam 41 has two first abutting portions 411, and the aforementioned first frame body connecting portion 11 and first key plate connecting portion 21 are rotatably connected to the two first abutting portions 411 of the first swing beam 41, respectively; the second swinging beam 42 has two second abutting portions 422, and the second frame body connecting portion 12 and the second key plate connecting portion 22 are rotatably connected to the two second abutting portions 422 of the second swinging beam 42, respectively.

It should be noted that the side-by-side member 4 is connected between the key plate 2 and the frame 1 so that the side-by-side member 4 can properly hold the key plate 2. In this way, even if there is an improper gap (not shown) between the pressing portion 23 and the push button 31 due to a tolerance problem, the mouse key module 100 of the present application can pull the key sheet 2 with the side-by-side member 4 to pull the key sheet 2 together with the pressing portion 23 thereof toward the push switch 3 to eliminate the improper gap, and even also can simultaneously eliminate noise of the key sheet 2 due to shaking or vibration.

As shown in fig. 5 and fig. 1 and 2, the mouse device with a translation type mouse button module (i.e. the mouse device for short) of the present application includes: a housing 800 and at least one translation type mouse button module (the mouse button module for short) 100. The mouse device of the present application is not limited to the mouse device provided with several mouse button modules 100, but two mouse button modules are taken as examples in the present embodiment.

The housing 800 is provided with two openings 8. Both mouse key modules 100 are disposed in the housing 800, and each key plate 2 is sealed side by side with respect to each opening 8, in other words, both key plates 2 are exposed through the openings 8. The circuit board 700 is also disposed in the housing 800. The push switch 3 may be provided on the circuit board 700 (not shown), or may be provided on the installation portion 13 of the frame 1 as shown in fig. 2 and 3.

It should be noted that the key plate 2 of each mouse key module 100 is completely separated from the housing 800, that is: the key plate 2 can not only swing up and down by taking the connecting position as an axis because of being connected to the shell as in the prior art, and the key plate 2 can be driven to move horizontally by being pulled by the side-by-side members 4.

In summary, the translation type mouse button module and the mouse device with the translation type mouse button module can achieve the expected purpose and solve the defects in the prior art.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the scope of the claims, but rather to cover all equivalent structures described herein and shown in the drawings.

Claims (11)

1. A translational mouse button module, comprising:

the frame body is provided with a first frame body connecting part and a second frame body connecting part;

a key plate having a pressing portion, a first key plate connecting portion and a second key plate connecting portion;

the push switch is configured corresponding to the push part and provided with a button, and the push part is correspondingly abutted against the button; and

a parallel member including a first swing beam and a second swing beam, wherein the first swing beam is in parallel connection with the first frame connecting portion and is in swing connection with the first key plate connecting portion, the first swing beam can swing relative to the frame body by taking the first frame connecting portion as an axis, the second swing beam is in swing connection with the second frame connecting portion and the second key plate connecting portion, and the second swing beam can swing relative to the frame body by taking the second frame connecting portion as an axis;

when the key plate is pressed, the first swinging beam and the second swinging beam swing relative to the frame body to pull the key plate to translate relative to the frame body.

2. The translational murine key module of claim 1 wherein the second swinging beam is a side lying linear beam body or a linear beam body having two side lying linear beam bodies spaced side by side and connected to each other.

3. The translating murine-key module of claim 1, wherein the first swing beam has two side-lying linear beam bodies spaced apart from each other side-by-side and connected to each other.

4. The translation mouse button module according to claim 1, wherein a first direction and a second direction perpendicular to each other are defined, the key plate is an elongated plate body having a thickness, the first direction corresponds to a length direction of the key plate, the second direction corresponds to a thickness direction of the key plate, the second frame connecting portion is located between the first frame connecting portion and the button in the first direction, and a position of the first frame connecting portion in the second direction is higher than a position of the second frame connecting portion and the button.

5. The translating murine-key module of claim 4, wherein the first and second rocking beams are spaced apart from each other side-by-side in the second direction and offset from each other in the first direction.

6. The translating mouse button module according to claim 1, wherein the button is a resiliently resettable button.

7. The translating mouse key module according to claim 1, wherein the first swing beam has two first docking portions and the second swing beam has two second docking portions, the two first docking portions of the first swing beam are rotatably connected to the first frame connecting portion and the first key plate connecting portion, respectively, and the two second docking portions of the second swing beam are rotatably connected to the second frame connecting portion and the second key plate connecting portion, respectively.

8. The translation mouse button module according to claim 1, wherein the frame further comprises a setting portion, and the push switch is disposed on the setting portion of the frame.

9. A mouse device having a translating mouse button module, comprising:

a shell provided with at least one opening; and

at least one translational mouse key module according to any one of claims 1 to 7, disposed within the housing, the key plate being exposed through the opening.

10. The mouse apparatus of claim 9, wherein the frame further comprises a setting portion, and the push switch is disposed on the setting portion of the frame.

11. The mouse apparatus of claim 9, further comprising a circuit board disposed in the housing, the push switch disposed on the circuit board.