CN110246716B

CN110246716B - Mouse button response mechanism

Info

Publication number: CN110246716B
Application number: CN201810188181.3A
Authority: CN
Inventors: 王唯川
Original assignee: American Voyetla Turtle Beach Co Ltd
Current assignee: American voyetla Turtle Beach Co., Ltd
Priority date: 2018-03-07
Filing date: 2018-03-07
Publication date: 2022-01-18
Anticipated expiration: 2038-03-07
Also published as: CN110246716A

Abstract

The invention provides a mouse button response mechanism, which comprises a body, a button and an elastic piece. The body is provided with a push switch. The key comprises an extension arm, one end of the extension arm is pivoted with the body, and the other end of the extension arm contacts with the press switch. The elastic piece is connected between the body and the extension arm, and the elastic piece pushes the extension arm to generate moment on the extension arm so that the extension arm is pre-pressed on the press switch without touching the press switch. Therefore, the user can trigger the push switch by only slightly pressing the extension arm.

Description

Mouse button response mechanism

Technical Field

The present invention relates to a mouse, and more particularly, to a mouse button response mechanism with pre-loaded pressing force.

Background

The existing mouse button response mechanism generally includes a body, at least one switch and at least one button corresponding to the switch. The key is generally in a strip sheet shape, one end of the key is fixedly connected with the body, the other end of the key is suspended on the corresponding switch, and a user can press the suspended end to trigger the switch. The structure has the defects that the elastic restoring force of the key causes pressing resistance, a gap is formed between the key and the switch, a plurality of sections of different resistances exist in the pressing stroke of the key, and the addition resultant force of the elastic restoring force of the key and the resistance of the switch is needed to be overcome at the tail end of the pressing stroke, so that the pressing is laborious and unsmooth.

Disclosure of Invention

The invention aims to provide a mouse button response mechanism preloading pressing force.

The invention provides a mouse button response mechanism, which comprises a body, a button and an elastic piece. The body is provided with a push switch. The key comprises an extension arm, one end of the extension arm is pivoted with the body, and the other end of the extension arm contacts with the press switch. The elastic piece is connected between the body and the extension arm, and the elastic piece pushes the extension arm to generate moment on the extension arm so that the extension arm is pre-pressed on the press switch without touching the press switch.

The invention relates to a mouse button response mechanism, wherein a body of the mouse button response mechanism is provided with at least one pivot groove, one end of an extension arm pivoted with the body is provided with a pivot pivoted with the pivot groove, and a contact point of an elastic piece and a button is arranged between the pivot groove and a press switch. A cup body is arranged between the pivot and the other end of the extension arm, and the elastic piece is accommodated in the cup body and is abutted against the inner wall of the cup body. The body is provided with a pressing plate, the pressing plate covers the opening of the cup body, and the elastic piece is abutted to the pressing plate. The pressing plate is provided with a convex column, the elastic piece is a cylindrical spring, one end of the elastic piece is sleeved with the convex column, and the other end of the elastic piece is abutted to the inner wall of the bottom of the cup body. The elastic piece applies a thrust opposite to the opening of the pivot groove to the bottom of the cup body so as to press the pivot shaft into the corresponding pivot groove.

The invention relates to a mouse key response mechanism, wherein a body of the mouse key response mechanism is provided with at least one pair of coaxially arranged pivot grooves, one end of an extension arm pivoted with the body is provided with a pair of coaxially arranged pivots which are respectively pivoted with the pair of pivot grooves, an elastic piece is arranged between the pair of pivot grooves, and a contact point of the elastic piece and a key is arranged between the pivot grooves and a press switch. A cup body is arranged between the pair of pivots, the cup body is arranged between the pair of pivots and deviates to one side of the central axis of the pair of pivots towards the other end of the extension arm, and the elastic piece is accommodated in the cup body and is abutted against the inner wall of the cup body. The body is provided with a pressing plate, the pressing plate covers the opening of the cup body, and the elastic piece is abutted to the pressing plate. The pressing plate is provided with a convex column, the elastic piece is a cylindrical spring, one end of the elastic piece is sleeved with the convex column, and the other end of the elastic piece is abutted to the inner wall of the bottom of the cup body. The elastic piece applies a thrust opposite to the opening of the pivot groove to the bottom of the cup body so as to press the pivot shaft into the corresponding pivot groove.

In the mouse button response mechanism, one side surface of the extension arm is convexly provided with a top block which is abutted against the press switch.

The mouse button response mechanism pushes the extension arm by the elastic piece so that the extension arm is pre-pressed on the press switch without touching the press switch, and the press switch can be pre-pressed by the press force. Therefore, the user can trigger the push switch by only slightly pressing the extension arm.

Drawings

FIG. 1 is an exploded perspective view of a mouse button response mechanism according to a preferred embodiment of the present invention.

FIG. 2 is a perspective view of a mouse button response mechanism according to a preferred embodiment of the present invention.

FIG. 3 is a cross-sectional view of a mouse button response mechanism according to a preferred embodiment of the present invention.

FIG. 4 is a diagram of a mouse button response mechanism according to a preferred embodiment of the present invention.

In the figure:

100 a body;

101 a pivot groove;

110 press the switch;

120, pressing a plate;

121 convex columns;

200 keys;

210 an extension arm;

211 a top block;

220 a pivot shaft;

230 a cup body;

300 resilient member.

Detailed Description

Referring to fig. 1 to 4, a preferred embodiment of the present invention provides a mouse button response mechanism, which is configured to drive a mouse to send a control signal without a user operation.

The mouse button response mechanism of the present invention comprises a body 100, at least one button 200 and an elastic member 300.

In the present embodiment, the main body 100 is preferably a plastic base, which forms a part of the mouse. The main body 100 is provided with at least one push switch 110, and when the push switch 110 is pushed, the push switch 110 can output a control signal. In the present embodiment, the body 100 preferably has a pair of pivot slots 101 corresponding to each push switch 110, and the two pivot slots 101 in each pair are coaxially disposed, but the number of the pivot slots 101 is not limited, and the single pivot slot 101 can achieve the pivoting effect.

The present embodiment is a two-button mouse, and therefore preferably includes a pair of identical buttons 200, and only one of the buttons 200 is used as an example to describe the structure and operation thereof, but it can be a single-button or a three-button mouse, and the invention is not limited thereto. The key 200 includes an extension arm 210, one end of the extension arm 210 is pivotally connected to the body 100, and the other end of the extension arm 210 contacts the push switch 110 and is pressed by a user to activate the push switch 110. Preferably, a top block 211 abutting against the push switch 110 is protruded from one side of the extension arm 210. In the present embodiment, the extension arm 210 is an arc-shaped, the convex surface is disposed towards the outer side of the mouse, the concave surface opposite to the convex surface is disposed towards the inner side of the mouse, and the top block 211 is preferably disposed convexly at the concave surface.

One end of the extension arm 210 pivoted to the body 100 is provided with a pivot 220 pivoted to the pivot slot 101, so that the pivot 220 of the key 200 and the central axis of the pivot slot 101 pivoted thereto are coaxially aligned. In the present embodiment, one end of the extension arm 210 pivotally connected to the body 100 is preferably provided with a pair of pivots 220 corresponding to the pair of pivot slots 101, the pair of pivots 220 are coaxially arranged and spaced apart from each other, and each pivot 220 is pivotally connected to the corresponding pivot slot 101.

The elastic member 300 is connected between the body 100 and the extension arm 210, and the elastic member 300 is disposed between the pivot slot 101 and the push switch 110, so that the elastic member 300 can push against the extension arm 210 to apply a moment to the extension arm 210 to rotate the extension arm 210 to pre-press the push switch 110, and the elastic member 300 with a proper elastic coefficient is disposed to provide a proper elastic force so that the extension arm 210 does not touch the push switch 110 when pre-pressing the push switch 110. Specifically, the elastic member 300 is disposed between the pair of hinge slots 101 and the contact point between the elastic member 300 and the key 200 is between the hinge 220 and the push switch 110. In the present embodiment, the elastic member 300 is preferably disposed toward the push switch 110 biased toward one side of the central axis of the pair of hinge slots 101. Therefore, the user can activate the push switch 110 by only slightly pressing the extension arm 210. Furthermore, the user feels a uniform slight resistance force (i.e., the elastic member 300 generates a destructive force of the elastic force and the resistance force of the push switch 110 itself) during the push stroke, so that the push stroke is smooth.

Because the elastic member 300 is disposed between the hinge slot 101 and the push switch 110, the elastic member 300 is required to apply a downward pressure to the extension arm 210 from above the extension arm 210 to generate a moment rotating toward the push switch 110. In order to prevent the elastic member 300 from protruding from the surface of the mouse and spoiling the appearance, a cup 230 is disposed between the pivot 220 and the other end of the extension arm 210, and in this embodiment, the cup 230 is preferably disposed between the pair of pivots 220 and biased toward the other end of the extension arm 210 to one side of the central axis of the pair of pivots 220. The cup 230 is generally concave in the extension arm 210, and the opening of the cup 230 is generally on the extension surface of the extension arm 210. The elastic member 300 is accommodated in the cup 230 and abuts against the inner wall of the cup 230, a pressing plate 120 is respectively disposed on the body 100 corresponding to each cup 230, the pressing plate 120 is substantially located on the extension surface of the extension arm 210 to cover the opening of the cup 230 and abut against the elastic member 300. In this embodiment, the elastic element 300 is a cylindrical spring, and the pressing plate 120 is convexly provided with a convex pillar 121, the convex pillar 121 is disposed toward the inside of the cup body 230, one end of the elastic element 300 is sleeved with the convex pillar 121, and the other end of the elastic element 300 abuts against the inner wall of the bottom of the cup body 230.

Furthermore, the elastic member 300 applies a pushing force to the bottom of the cup 230 opposite to the opening of the pivot slot 101 to press the pivot 220 into the corresponding pivot slot 101, thereby pressing and fixing the key 200 to the body 100.

In addition, since the surface of the mouse is generally an arc spherical surface, the pivot 220 of the button 200 is usually disposed in a non-horizontal position when the mouse is laid flat, and if the body 100 is disposed with an oblique pivot hole for pivoting the button 200, it is difficult to design and manufacture the mold or install the components. The present invention pivots the pivot 220 through the pivot slot 101, so that the assembly is not required to be aligned obliquely, and the mold design and manufacture are easy.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims

1. A mouse button response mechanism, comprising: a body, on which a push switch is arranged; a key, which comprises an extension arm, one end of the extension arm is pivoted with the body, and the other end of the extension arm contacts the press switch; the elastic piece is connected between the body and the extension arm, and pushes the extension arm to generate moment to the extension arm so that the extension arm is pre-pressed on the press switch without touching the press switch;

the body is provided with at least one pivot groove, one end of the extension arm pivoted with the body is provided with a pivot pivoted with the pivot groove, and the contact point of the elastic piece and the key is arranged between the pivot groove and the press switch;

a cup body is arranged between the pivot and the other end of the extension arm, and the elastic piece is accommodated in the cup body and is abutted against the inner wall of the cup body;

the elastic piece applies a pushing force opposite to the opening of the pivot groove to the bottom of the cup body so as to press the pivot shaft into the corresponding pivot groove.

2. The mouse button responsive mechanism of claim 1 wherein the body defines a pressure plate, the pressure plate covering the opening of the cup and the resilient member abutting the pressure plate.

3. The mouse button response mechanism of claim 2 wherein the pressure plate has a post, the resilient member is a cylindrical spring, one end of the resilient member is sleeved on the post and the other end of the resilient member abuts against the inner wall of the bottom of the cup.

4. The mouse button responsive mechanism of claim 1, wherein the body defines at least a pair of coaxially disposed hinge slots, the extension arm pivotally couples to a pair of coaxially disposed pivots defined at an end of the body and pivotally couples to the pair of hinge slots, the resilient member is disposed between the pair of hinge slots and a contact point of the resilient member with the button is between the hinge slot and the push switch.

5. The mouse button responsive mechanism according to claim 4 wherein a cup is disposed between the pair of pivots, the cup being disposed between the pair of pivots and biased toward one side of the central axes of the pair of pivots toward the other end of the extension arm, the resilient member being received in the cup and abutting against an inner wall of the cup.

6. The mouse button response mechanism of claim 5 wherein the body defines a pressure plate that covers the opening of the cup and the resilient member abuts the pressure plate.

7. The mouse button response mechanism of claim 6 wherein the pressure plate has a post, the resilient member is a cylindrical spring, one end of the resilient member is sleeved on the post and the other end of the resilient member abuts against the inner wall of the bottom of the cup.

8. The mouse button responsive mechanism of claim 5 wherein the resilient member urges the pivot shaft into the corresponding pivot slot by applying a pushing force to the bottom of the cup in a direction opposite the pivot slot opening.

9. The mouse button responsive mechanism of claim 1 wherein a top block is raised on one side of the extension arm to abut the push switch.