CN108089733B - Mouse (Saggar) - Google Patents

Abstract

The invention discloses a mouse. The mouse comprises an upper shell, an outer cover, a switch component and a mechanical key. The upper shell is provided with a recess and a through hole formed at the bottom of the recess. The outer cover is detachably clamped on the upper shell and comprises a pressing part. The pressing part is positioned above the recess. The switch assembly is arranged below the through hole. In particular, the mechanical key is detachably engaged with the recess. The mechanical keys include actuating posts that can move up and down. When the pressing part is pressed, the pressing part moves downwards and actuates the actuating column to penetrate through the through hole, and then the switch component is pressed to be conducted. The mouse of the invention can replace the soft coating component or the compression spring with different geometric parameters or characteristics according to different use requirements, and even can replace the component for adjusting the counterweight. Therefore, the pressing hand feeling and the key stroke of the pressing switch of the mouse can be adjusted according to different users, and no extra component and assembly waste exists.

Description

Mouse (Saggar)

Technical Field

The invention relates to a mouse, in particular to a mouse comprising a detachable mechanical key, which can further replace a component determining the pressing hand feeling and the pressing stroke in the mechanical key, and even replace a component adjusting a counterweight.

Background

As data processing systems continue to develop their input peripherals, the mouse remains an indispensable input peripheral for most data processing systems. The mouse is used for executing functions of cursor operation, positioning and clicking on a display of the data processing system.

A general mouse structure generally includes a housing, a circuit board for mounting the housing, a cover engaged with the housing, and left and right switches and components electrically disposed on the circuit board. The upper front part of the outer cover is formed with a left and a right pressing parts corresponding to the left and the right switches. When the user presses the left pressing part or the right pressing part, the corresponding switch can be pressed and touched, and then the corresponding operation of the operating system and the application program executed in the data processing system is started, so that the expected action is generated.

However, in the conventional mouse structure, since the pressing hand and the pressing stroke of the push switch are determined at the time of manufacturing, the pressing hand and the pressing stroke at the time of pressing cannot be adjusted to the personal preference of the user. Such a mouse has many disadvantages for users using multimedia application software, particularly game software.

U.S. Pat. No. 9,201,518 discloses a mouse with a detachable module, which can replace different functional modules according to the user's needs, and should also include replacing functional modules with different pressing handfeel and pressing stroke. However, the hand feeling and the stroke of the push switch of the mouse can be adjusted and changed by only using a few members. When the mouse structure disclosed in U.S. Pat. No. 9,201,518 is used to manufacture functional modules with different pressing handfeel and pressing strokes, extra components and assemblies are wasted. Taking three different springs for determining hand feeling and two different actuating columns for determining pressing stroke as an example, if the functional module is manufactured, six different functional modules need to be manufactured, waste is generated, and the design trend of green environmental protection is not met.

In addition, the weight member of the conventional mouse is often fixed in the housing, and the user cannot adjust or change the weight of the mouse.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to provide a mouse including a detachable mechanical button. Therefore, the pressing hand feeling and the key stroke of the mechanical keys of the mouse can be adjusted according to different users.

Another object of the present invention is to provide a mouse in which a member for adjusting a weight can be replaced.

A mouse according to a preferred embodiment of the present invention comprises:

an upper housing having a recess and a first through hole formed at a bottom of the recess;

the outer cover is detachably clamped on the upper shell and comprises a pressing part which is positioned above the recess;

the switch assembly is arranged below the first through hole; and

the mechanical key is detachably clamped at the recess and comprises an actuating column capable of moving up and down;

when the pressing part is pressed, the pressing part moves downwards and actuates the actuating column to penetrate through the first through hole so as to press the switch component to conduct the switch component.

As an optional technical solution, the mechanical key further includes a compression spring, and the compression spring is used for providing an elastic restoring force of the actuating column.

As an optional technical solution, the mechanical key further includes a second substrate and a ring-shaped member, the actuation post extends downward from a lower surface of the second substrate, and the ring-shaped member extends downward from the lower surface of the second substrate and surrounds the actuation post.

As an optional technical solution, the upper end of the compression spring abuts against the lower surface of the second substrate, the upper end of the compression spring is sleeved around the annular component, and the actuating column is disposed in the compression spring.

As an optional technical solution, the mechanical key further includes a soft cladding member, the soft cladding member has a recess matching the actuating post, the soft cladding member is sleeved on the actuating post via the recess, when the pressing portion is pressed, the pressing portion moves downward and actuates the actuating post and the soft cladding member to pass through the first through hole, and the switch assembly is pressed by the soft cladding member to conduct the switch assembly.

As an optional technical solution, the mouse further includes an actuation plate having a free end and a tail end, wherein the upper housing further includes an upright wall, the actuation plate is rotatably connected to the upright wall by the tail end, the free end of the actuation plate is disposed on the mechanical key, and when the pressing portion is pressed to the pressing position, the pressing portion actuates the actuation plate to rotate, so that the actuation plate actuates the actuation post to pass through the first through hole and further presses the switch element to turn on the switch element.

As an optional technical solution, the mechanical key has a second through hole opposite to the first through hole, and when the pressing portion is pressed, the pressing portion moves downward and actuates the actuating column to pass through the second through hole and the first through hole to press the switch assembly to turn on the switch assembly.

As an optional technical solution, the switch assembly includes a switch circuit layer and an elastic member, the switch circuit layer includes a substrate and a plurality of switch contacts formed on the substrate, and the elastic member is fixed on the substrate so that the plurality of switch contacts are disposed right below the elastic member. As an optional technical solution, the lower housing includes a plurality of pillars, and the plurality of pillars prop against the switch circuit layer, so that the switch circuit layer tightly props against a lower edge of the bottom of the recess of the upper housing.

As an optional technical solution, the mouse further includes an inner cover, the inner cover includes a third substrate and two side portions extending downward from two side edges of the third substrate, a third through hole is formed on the third substrate, the third through hole is disposed corresponding to the pressing column of the actuating member, and the inner cover is detachably engaged with the recess through the two side walls, so that the third substrate is located above the opening of the recess.

Compared with the prior art, the mouse comprises the mouse with the detachable mechanical keys, and further can replace a component which determines the pressing hand feeling and the pressing stroke in the mechanical keys, and even replace a component for adjusting the balance weight. Therefore, the pressing hand feeling and the key stroke of the pressing switch of the mouse can be adjusted according to different users, and no extra component and assembly waste exists.

The advantages and spirit of the present invention can be further understood by the following detailed description of the invention and the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective view of a mouse according to an embodiment of the invention.

FIG. 2 is a schematic partial cross-sectional view of the mouse of FIG. 1 taken along line A-A.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

Referring to fig. 1 and 2, the drawings are schematic views of a mouse 1 according to an embodiment of the invention. Fig. 1 is a perspective view of a mouse 1 according to an embodiment of the present invention. Fig. 2 is a partial cross-sectional view of the mouse 1 of fig. 1 taken along line a-a.

As shown in fig. 1 and 2, a mouse 1 according to a preferred embodiment of the present invention includes an upper housing 22, a cover 3, a switch assembly 4, and mechanical buttons 5.

The upper shell 22 has a cavity 26 and a first through-hole 266 formed at the bottom 262 of the cavity 26. The outer lid 3 is detachably engaged with the upper case 22, and the outer lid 3 includes the pressing portion 32. The pressing portion 32 is located above the pocket 26. Switch assembly 4 is disposed below first throughbore 266. The mechanical key 5 is detachably engaged with the recess 26. The mechanical key 5 includes an actuating post 566 that can move up and down.

When the pressing portion 32 is pressed, the pressing portion 32 moves downward and actuates the actuating post 566 to pass through the first through hole 266, thereby pressing the switch assembly 4 to turn on the switch assembly 4.

Further, the mechanical key 5 of the present invention further comprises a compression spring 54, wherein the compression spring 54 is used for providing the elastic restoring force of the actuating rod 566. Thus, in practical applications, the mouse 1 of the present invention can replace the compression spring 54 that determines the pressing feeling.

Further, the mechanical key 5 of the present invention further includes a soft covering member 57. The soft cover member 57 has a recess 572 that matches the actuating post 566. The flexible cover member 57 fits over the actuating post 566 with the recess 572. When the pressing portion 32 is pressed, the pressing portion 32 moves downward and actuates the actuating rod 566 and the soft covering member 57 to pass through the first through hole 266, so that the switch assembly 4 is pressed by the soft covering member 57 to conduct the switch assembly 4. Thus, in practical applications, the soft coating member 57 determining the pressing stroke of the mouse 1 of the present invention can be replaced.

Further, the mouse 1 of the present invention further includes an actuation plate 6. The actuation plate 6 has a free end 62 and a trailing end 64. The upper housing 22 also includes an upstanding wall 27. The actuator plate is pivotally engaged with the upstanding wall 27 at a trailing end 64. The free end 64 of the actuation plate 6 is arranged on the mechanical key 5. When the pressing portion 32 is pressed to the pressing position, the pressing portion 32 actuates the actuation plate 6 to rotate (specifically, the actuation plate 6 rotates relative to the upright wall 27, so that the free end 64 of the actuation plate 6 approaches the mechanical key 5 and presses the actuation member 56 of the mechanical key 5), so that the actuation plate 6 actuates the actuation post 566 to pass through the first through hole 266, and further, the switch assembly 4 is pressed to conduct the switch assembly 4. Therefore, in practical application, the mouse 1 of the present invention can replace the actuating plate 6 for adjusting the counterweight.

In one embodiment, the housing 2 includes an upper housing 22 and a lower housing 24. The upper case 22 and the lower case 24 are fixed to form a housing space 23 covered by the upper case 22 and the lower case 24. The upper shell 22 has a cavity 26 and a first through-hole 266 formed at the bottom 262 of the cavity 26. The outer lid 3 is detachably engaged with the upper case 22, and the outer lid 3 includes the pressing portion 32. The pressing part 32 is located above the pocket 26 of the upper case 22. Like the mouse of the prior art, in practical applications, the outer cover 3 of the mouse 1 of the present invention has two or three pressing portions 32, and as shown in fig. 1 and 2, only one pressing portion 32 is shown.

In one embodiment, the switching element 4 includes a switching circuit layer 42 and a resilient member 44. The switch circuit layer 42 includes a substrate 422 and a plurality of switch contacts 424 formed on the substrate 422. The flexible member 44 is fixed to the substrate 422 such that the plurality of switch contacts 424 are disposed directly below the flexible member 44. At least the first lower surface 442 of the resilient member 44 is electrically conductive. In this embodiment, the switch circuit layer 42 is disposed against a lower edge 264 of the bottom 262 of the cavity 26 of the upper housing 22 such that the resilient member 44 is directly below the first through hole 266. For example, the lower housing 24 may include a plurality of top posts 242, the plurality of top posts 242 abutting the switch circuit layer 42 such that the switch circuit layer 42 abuts against a lower edge 264 of the bottom 262 of the cavity 26 of the upper housing 22.

In one embodiment, the plurality of switch contacts 424 may be formed of copper or a copper alloy, but is not limited thereto.

In one embodiment, the resilient member 44 is a dome and covers the plurality of switch contacts 424. The elastic member 44 may be formed of metal, but is not limited thereto.

In one embodiment, the mechanical key 5 includes a restriction member 52, a compression spring 54, an actuation member 56, a flexible covering member 57, and an inner cover 58.

The restriction member 52 includes a first substrate 522 and at least one restriction part 524 extending upward from a first upper surface 5222 of the first substrate 522, and the restriction member 52 has a second through-hole 5224 formed on the first substrate 522. The at least one restricting member 524 is disposed around the second through hole 5224. The first substrate 522 is disposed on the bottom 262 of the cavity 26 of the upper housing 22 such that the second through-hole 5224 is aligned with the first through-hole 266.

In one embodiment, the at least one limiting member 524 may be a pair of limiting members 524, and the pair of limiting members 524 are disposed at both sides of the second through hole 5224. The at least one restriction member 524 may also be hollow cylindrical and surround the second through hole 5224.

The compression spring 54 includes an upper end 542 and a lower end 544. The lower end portion 544 abuts the first substrate 522, and preferably, the lower end portion 544 is located between the at least one restriction member 524 and surrounds the second through hole 5224.

Actuating member 56 includes second base plate 562, pressing posts 564, and actuating posts 566. The pressing rod 564 extends upward from the second upper surface 5622 of the second substrate 562, and the actuating rod 566 extends downward from the second lower surface 5624 of the second substrate 562, that is, the pressing rod 564 and the actuating rod 566 extend from two opposite surfaces of the second substrate 562, respectively.

The soft cover member 57 has a recess 572 that matches the actuating post 566. The flexible cover member 57 fits over the actuating post 566 with the recess 572. The actuating post 566, which is nested with the soft cover member 57, is disposed within the compression spring 54. The upper end 542 of the compression spring 54 abuts against the second lower surface 5624 of the second substrate 562.

In one embodiment, the soft covering member 57 may be formed of a rubber material, but not limited thereto.

The inner lid 58 has a third through hole 5822. In operation, the third through hole 5822 is positioned in correspondence with the pressing post 564 of the actuation member 56. The inner lid 58 removably covers the opening 268 of the pocket 26 such that the pressing post 564 protrudes through the third through-hole 5822.

The pressing portion 32 of the outer lid 3 is restricted from moving between the non-pressing position and the pressing position. When the pressing portion 32 of the outer cover 3 is pressed to the pressing position, the pressing portion 32 of the outer cover 3 moves downward and actuates the pressing column 564, so that the compression spring 54 is compressed and the soft covering member 57 passes through the second through hole 5224 and the first through hole 266 to press the elastic member 44, and the first lower surface 442 of the elastic member 44 contacts the switch contacts 424 to conduct the switch contacts 424.

When the pressing portion 32 of the outer cover 3 is released and moves to the non-pressed position, the compression spring 54 restores the original shape to separate the soft covering member 57 from the elastic member 44, so that the first lower surface 442 of the elastic member 44 is separated from the plurality of switch contacts 424.

In practice, the user can remove the outer cap 3 from the upper housing 22 and then remove the inner cap 58, such that the compression spring 54 or the soft cover member 57 can be removed. The user can replace the flexible covering member 57 or the compression spring 54 having different geometric parameters or characteristics, such as the compression spring 54 having a higher spring constant (or spring constant) (more turns), the compression spring 54 having a lower spring constant (less turns), the flexible covering member 57 having a shorter length (which can increase the pressing stroke), the flexible covering member 57 having a longer length (which can shorten the pressing stroke), and the like. Therefore, the user can adjust the pressing hand feeling and the key stroke of the press switch of the mouse 1 according to the use requirement.

Further, as shown in fig. 2, the recess 26 of the upper housing 22 has a rear inner side wall 269, and the upper housing 22 further includes an upright wall 27 and a joining portion 28. An upstanding wall 27 is formed at a distance behind the rear inner side wall 269. In one embodiment, the upstanding wall 27 is disposed parallel to the rear interior side wall 269 and spaced apart from the rear interior side wall by a first distance. The engaging portion 28 is formed extending perpendicularly from the upright wall 27. The mouse 1 of the present invention further comprises an actuation plate 6. The actuation plate 6 has a free end 62 and a trailing end 64. The actuator plate 6 is rotatably engaged with the engagement portion 28 at the trailing end 64. The free end 62 of the actuation plate 6 is disposed on the push post 564. When pressing portion 32 of outer lid 3 is pressed to the pressing position, pressing portion 32 of outer lid 3 actuates actuation plate 6 to rotate, causing actuation plate 6 to actuate pressing posts 564, which in turn causes actuation member 56 to move downward to compress compression spring 54. In practical applications, the actuating plate 6 can be used as a member for adjusting the weight.

In one embodiment, the actuator plate 6 may be formed of a metal material or a polymer material. If the actuator plate 6 is made of a magnetically permeable metal (e.g., galvanized steel sheet), the user can suck out the magnetically permeable actuator plate 6 by using a magnet. If the actuator plate 6 is made of a metal (e.g., a copper alloy sheet) or a polymer material that does not have magnetic permeability, a user may use a tool to suck the actuator plate 6 out.

Further, the actuation member 56 also contains a ring-like component 568. A ring member 568 extends downwardly from the second lower surface 5624 of the second base plate 562 and encircles the actuating post 566. The soft cover member 57 is nested between the actuating post 566 and the ring component 568. The upper end 542 of the compression spring 54 is fitted around the annular member 568.

In one embodiment, the lid 58 includes a third base panel 582 and two sidewalls 584, 586 extending downward from two sides of the third base panel 582. The third through hole 5822 is formed on the third base plate 582. The inner lid 58 is detachably fitted to the cavity 26 with the two side walls 584, 586 so that the third base 582 is positioned above the opening 268 of the cavity 26.

In summary, the mouse of the present invention can replace the soft covering member or the compression spring with different geometric parameters or characteristics according to different requirements, and even replace the member for adjusting the weight. Therefore, the pressing hand feeling and the key stroke of the pressing switch of the mouse can be adjusted according to different users, and no extra component and assembly waste exists.

The present invention has been described in relation to the above embodiments, which are only exemplary of the implementation of the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. Rather, it is intended that all such modifications and variations be included within the spirit and scope of this invention.

Claims (10)

1. A mouse, comprising:

an upper housing having a recess and a first through hole formed at a bottom of the recess;

the outer cover is detachably clamped on the upper shell and comprises a pressing part which is positioned above the recess;

the switch assembly is arranged below the first through hole; and

the mechanical key is detachably clamped at the recess and comprises an actuating column capable of moving up and down;

when the pressing part is pressed, the pressing part moves downwards and actuates the actuating column to penetrate through the first through hole so as to press the switch component to conduct the switch component.

2. The mouse of claim 1, wherein the mechanical button further comprises a compression spring for providing a resilient restoring force of the actuating post.

3. The mouse of claim 2, wherein the mechanical button further comprises a second substrate and a ring member, the actuating post extending downward from a lower surface of the second substrate, the ring member extending downward from the lower surface of the second substrate and surrounding the actuating post.

4. The mouse as recited in claim 3 wherein the upper end of the compression spring abuts against the lower surface of the second substrate, the upper end of the compression spring is disposed around the annular member and the actuating post is disposed in the compression spring.

5. The mouse of claim 1, wherein the mechanical button further comprises a soft covering member having a recess matching the actuating post, the soft covering member being sleeved on the actuating post via the recess, when the pressing portion is pressed, the pressing portion moves downward to actuate the actuating post and the soft covering member to pass through the first through hole, and the switch assembly is pressed by the soft covering member to conduct the switch assembly.

6. The mouse of claim 1, further comprising an actuation plate having a free end and a tail end, wherein the upper housing further comprises an upright wall, the actuation plate rotatably engaging the upright wall with the tail end, the free end of the actuation plate being disposed on the mechanical button, and when the pressing portion is pressed to the pressing position, the pressing portion actuates the actuation plate to rotate, so that the actuation plate actuates the actuation post to pass through the first through hole and press the switch element to turn on the switch element.

7. The mouse of claim 1, wherein the mechanical button has a second through hole opposite to the first through hole, and when the pressing portion is pressed, the pressing portion moves downward and actuates the actuating post to pass through the second through hole and the first through hole to press the switch element to turn on the switch element.

8. The mouse of claim 1, wherein the switch assembly comprises a switch circuit layer and a resilient member, the switch circuit layer comprising a substrate and a plurality of switch contacts formed on the substrate, the resilient member being secured to the substrate such that the plurality of switch contacts are disposed directly below the resilient member.

9. The mouse of claim 8, further comprising a lower housing, wherein the lower housing comprises a plurality of posts, the plurality of posts abutting the switch circuit layer such that the switch circuit layer abuts against a lower edge of the bottom of the cavity of the upper housing.

10. The mouse of claim 1, further comprising an inner cover, wherein the inner cover comprises a third substrate and two sidewalls extending downward from two sides of the third substrate, the third substrate is formed with a third through hole, the third through hole is disposed corresponding to the pressing post of the actuating member, and the inner cover is detachably engaged with the cavity through the two sidewalls, so that the third substrate is located above the opening of the cavity.

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