CN108628474B

CN108628474B - Mouse with a sliding mechanism

Info

Publication number: CN108628474B
Application number: CN201810301675.8A
Authority: CN
Inventors: 陈志名
Original assignee: Benq Dentsu Co ltd; Mingji Intelligent Technology Shanghai Co ltd
Current assignee: Benq Dentsu Co ltd; Mingji Intelligent Technology Shanghai Co ltd
Priority date: 2018-04-04
Filing date: 2018-04-04
Publication date: 2021-07-27
Anticipated expiration: 2038-04-04
Also published as: CN108628474A

Abstract

The invention provides a mouse, which comprises a shell, a receiver, a reflecting piece, a light source module and a limiting structure. The shell is provided with a pressing piece. The receiver is disposed in the housing. The reflector is arranged in the shell and provided with a reflecting surface. The light source module is arranged in the shell. The limiting structure is arranged in the shell. When the pressing piece is not pressed, the light emitted by the light source module does not pass through the receiver. When the pressing piece is pressed, the limiting structure limits the pressing piece to provide pressing hand feeling, and the pressing piece drives one of the reflecting piece and the light source module to move relative to the other of the reflecting piece and the light source module, so that the reflecting surface reflects light rays emitted by the light source module to the receiver. By means of the provided photoelectric micro mouse, the problem of poor contact caused by oxidation or elastic fatigue of the metal reed in the prior art can be avoided, and the service life of the mouse is further prolonged.

Description

Mouse with a sliding mechanism

Technical Field

The present invention relates to a mouse, and more particularly to a mouse with an optical micro-switch.

Background

With the progress and development of science and technology, computers have been widely used in every person's daily life. As one of the indispensable input devices in terms of the current usage habits of personal computers, a mouse is used. Generally, a mechanical micro-switch is disposed under a button of a mouse. When the button of the mouse is pressed once, the metal reed in the mechanical micro-motion switch will trigger the contact point below to complete one-time clicking operation. However, after the mouse is used for a period of time, the metal reed is easily oxidized or the elasticity is exhausted to cause the problem of poor contact, which further causes the operation trouble for the user.

Disclosure of Invention

The present invention is directed to a mouse with an optical microswitch to solve the above problems.

To achieve the above object, the present invention provides a mouse, comprising: a housing having a pressing member; a receiver disposed in the housing; the reflecting piece is arranged in the shell and provided with a reflecting surface; the light source module is arranged in the shell; the limiting structure is arranged in the shell; when the pressing piece is not pressed, the light emitted by the light source module does not pass through the receiver; when the pressing piece is pressed, the limiting structure limits the pressing piece to provide a pressing hand feeling, and the pressing piece drives one of the reflecting piece and the light source module to move relative to the other of the reflecting piece and the light source module, so that the reflecting surface reflects the light emitted by the light source module to the receiver.

Preferably, the reflection member is connected to the pressing member, the light source module is disposed on the base of the housing, and when the pressing member is pressed, the pressing member drives the reflection member to move relative to the light source module.

Preferably, the light source module includes a light emitting unit and a light guide member, the light emitting unit emits the light in a first direction, and the light guide member guides the light in a second direction.

Preferably, the light emitting unit is connected to the pressing member, the light guide member and the reflecting member are disposed on the base of the housing, and when the pressing member is pressed, the pressing member drives the light emitting unit to move relative to the light guide member and the reflecting member; or, the light guide member is connected to the pressing member, the light emitting unit and the reflecting member are arranged on the base of the shell, and when the pressing member is pressed, the pressing member drives the light guide member to move relative to the light emitting unit and the reflecting member.

Preferably, the limiting structure includes a first limiting member and a second limiting member, the first limiting member is connected to the pressing member, the second limiting member is connected to the base of the housing and opposite to the first limiting member, and when the pressing member is pressed, the first limiting member abuts against the second limiting member to provide the pressing hand feeling.

Preferably, the limiting structure is a non-electric structure.

To achieve the above object, the present invention further provides a mouse, comprising: a housing having a pressing member; a receiver disposed in the housing; the reflecting piece is arranged in the shell and provided with a reflecting surface; the light source module is arranged in the shell; the limiting structure is arranged in the shell; when the pressing piece is not pressed, the light emitted by the light source module passes through the receiver; when the pressing piece is pressed, the limiting structure limits the pressing piece to provide a pressing hand feeling, and the pressing piece drives one of the reflecting piece and the light source module to move relative to the other of the reflecting piece and the light source module, so that the reflecting surface reflects the light emitted by the light source module away from the receiver.

Preferably, the limiting structure is a non-electric structure.

Compared with the prior art, the optical micro-motion switch is formed by the receiver, the reflecting piece and the light source module. In one embodiment, when the pressing member is not pressed, the light emitted by the light source module does not pass through the receiver; when the pressing piece is pressed, the invention can drive one of the reflecting piece and the light source module to move by the pressing piece, so that the reflecting surface of the reflecting piece reflects the light emitted by the light source module to the receiver. Therefore, when the receiver receives the light emitted by the light source module, the user is indicated to operate the mouse to execute one click operation. In another embodiment, when the pressing member is not pressed, the light emitted by the light source module can pass through the receiver; when the pressing piece is pressed, the invention can drive one of the reflecting piece and the light source module to move by the pressing piece, so that the reflecting surface of the reflecting piece reflects the light emitted by the light source module away from the receiver. Therefore, when the receiver does not receive the light emitted from the light source module, it indicates that the user operates the mouse to execute a click operation. The invention uses the optical micro-motion switch to replace the mechanical micro-motion switch in the prior art to execute the click operation of the mouse, therefore, the invention can avoid the problem that the metal reed in the prior art is easy to cause poor contact due to oxidation or elastic fatigue, thereby prolonging the service life of the mouse. In addition, the invention arranges a limit structure for limiting the pressing piece in the shell of the mouse. Therefore, when the pressing piece is pressed, the limiting structure can provide pressing hand feeling for a user.

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 diagram of a mouse according to an embodiment of the present invention.

Fig. 2 is a schematic view of the pressing member of fig. 1 after being pressed.

FIG. 3 is a diagram of a mouse according to another embodiment of the present invention.

Fig. 4 is a schematic view of the pressing member of fig. 3 after being pressed.

FIG. 5 is a diagram of a mouse according to another embodiment of the present invention.

Fig. 6 is a schematic view of the pressing member of fig. 5 after being pressed.

FIG. 7 is a diagram of a mouse according to another embodiment of the present invention.

Fig. 8 is a schematic view of the pressing member of fig. 7 after being pressed.

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, fig. 1 is a schematic view of a mouse 1 according to an embodiment of the invention, and fig. 2 is a schematic view of the pressing member 100 in fig. 1 after being pressed. As shown in fig. 1 and 2, the mouse 1 includes a housing 10, a receiver 12, a reflector 14, a light source module 16, and a position-limiting structure 18. In practical applications, the mouse 1 can communicate with an electronic device (e.g., a computer) in a wired or wireless manner to perform an input function.

The housing 10 has a pressing member 100, wherein the pressing member 100 is a button (e.g., a left button or a right button) of the mouse 1. The receiver 12, the reflector 14, the light source module 16 and the limiting structure 18 are disposed in the housing 10. In this embodiment, the reflection member 14 may be connected to the inner surface of the pressing member 100, and the reflection member 14 has a reflection surface 140. The light source module 16 may be disposed on the base 102 of the housing 10, wherein the base 102 may be a circuit board. In this embodiment, the light source module 16 may include a light emitting unit 160 and a light guide 162, wherein the light emitting unit 160 emits a light L in a first direction a1, and the light guide 162 guides the light L to a second direction a 2. In practical applications, the light emitting unit 160 may be a light emitting diode, but not limited thereto.

As shown in fig. 1, when the pressing member 100 is not pressed, the light L emitted from the light emitting unit 160 of the light source module 16 does not pass through the receiver 12, i.e., the light L emitted from the light emitting unit 160 is not transmitted to the receiver 12. As shown in fig. 2, when the pressing member 100 is pressed in the third direction A3, the pressing member 100 drives the reflection member 14 to move in the third direction A3 relative to the light source module 16, so that the reflection surface 140 of the reflection member 14 moves to the path of the light L, and the light L emitted by the light emitting unit 160 of the light source module 16 is reflected to the receiver 12 in the third direction A3. Therefore, when the receiver 12 receives the light L emitted from the light emitting unit 160 of the light source module 16, it indicates that the user operates the mouse 1 to perform a click operation. In this embodiment, the mouse 1 can transmit the light intensity received by the receiver 12 to a processor (not shown). The processor determines whether the intensity of light received by the receiver 12 is greater than a threshold value. When the processor determines that the intensity of the light received by the receiver 12 is greater than the threshold value, the processor performs a predetermined function corresponding to the click operation.

In addition, when the pressing member 100 is pressed in the third direction a3, the stopper structure 18 may stopper the pressing member 100 to provide a pressing feeling. In this embodiment, the position-limiting structure 18 may include a first position-limiting member 180 and a second position-limiting member 182. The first limiting member 180 may be connected to an inner surface of the pressing member 100, and the second limiting member 182 may be connected to the base 102 of the housing 10 and opposite to the first limiting member 180. Therefore, as shown in fig. 2, when the pressing member 100 is pressed in the third direction a3, the first limiting member 180 will abut against the second limiting member 182 to provide a pressing feeling. In this embodiment, the second limiting member 182 may have an elastic portion 184, and when the pressing member 100 is pressed in the third direction a3, the first limiting member 180 may abut against the elastic portion 184 of the second limiting member 182, so that the elastic portion 184 generates elastic deformation to provide a pressing feel. In this embodiment, the position-limiting structure 18 is a non-electrical structure. In other words, the position-limiting structure 18 is only used to provide the pressing feeling, and has no other electrical function.

Referring to fig. 3 and 4, fig. 3 is a schematic view of a mouse 3 according to another embodiment of the present invention, and fig. 4 is a schematic view of the pressing element 100 in fig. 3 after being pressed. The main difference between the mouse 3 and the mouse 1 is that in the mouse 3, the light emitting unit 160 is connected to the inner surface of the pressing member 100, and the light guide member 162 and the reflection member 14 are disposed on the base 102 of the housing 10, as shown in fig. 3. Therefore, as shown in fig. 4, when the pressing member 100 is pressed in the third direction A3, the pressing member 100 drives the light emitting unit 160 to move in the third direction A3 relative to the light guide 162 and the reflector 14, so that the light L emitted from the light emitting unit 160 can be guided to the reflective surface 140 of the reflector 14 by the light guide 162, and the light L emitted from the light emitting unit 160 is reflected to the receiver 12 in the third direction A3 by the reflective surface 140 of the reflector 14. It should be noted that the same reference numerals as those in fig. 1-2 are used for other elements in fig. 3-4, and the operation principle is substantially the same, and will not be described herein again.

Referring to fig. 5 and 6, fig. 5 is a schematic view of a mouse 5 according to another embodiment of the present invention, and fig. 6 is a schematic view of the pressing element 100 in fig. 5 after being pressed. The main difference between the mouse 5 and the mouse 1 is that in the mouse 5, the light guide 162 is connected to the inner surface of the pressing member 100, and the light emitting unit 160 and the reflection member 14 are disposed on the base 102 of the housing 10, as shown in fig. 5. Therefore, as shown in fig. 6, when the pressing member 100 is pressed in the third direction A3, the pressing member 100 drives the light guide 162 to move in the third direction A3 relative to the light emitting unit 160 and the reflector 14, so that the light L emitted from the light emitting unit 160 is guided to the reflective surface 140 of the reflector 14 by the light guide 162, and the light L emitted from the light emitting unit 160 is reflected to the receiver 12 in the third direction A3 by the reflective surface 140 of the reflector 14. It should be noted that the same reference numerals are used for other elements shown in fig. 5-6 and fig. 1-2, and the operation principle is substantially the same, and will not be described herein again.

Therefore, according to the embodiment shown in fig. 1 to 6, when the pressing member 100 is pressed, the pressing member 100 of the present invention drives one of the reflecting member 14 and the light source module 16 to move relative to the other of the reflecting member 14 and the light source module 16, so that the reflecting surface 140 of the reflecting member 14 reflects the light emitted from the light source module 16 to the receiver 12.

Referring to fig. 7 and 8, fig. 7 is a schematic view of a mouse 7 according to another embodiment of the present invention, and fig. 8 is a schematic view of the pressing member 100 in fig. 7 after being pressed. The mouse 7 is mainly different from the mouse 1 in that, in the mouse 7, when the pressing member 100 is not pressed, the light L emitted from the light emitting unit 160 of the light source module 16 passes through the receiver 12, as shown in fig. 7; when the pressing member 100 is pressed in the third direction A3, the pressing member 100 drives the reflection member 14 to move in the third direction A3 relative to the light source module 16, so that the reflection surface 140 of the reflection member 14 reflects the light L emitted from the light emitting unit 160 of the light source module 16 away from the receiver 12. Therefore, when the receiver 12 does not receive the light L emitted from the light emitting unit 160 of the light source module 16, it indicates that the user operates the mouse 1 to perform a click operation. In this embodiment, the mouse 1 can transmit the light intensity received by the receiver 12 to a processor (not shown). The processor may determine whether the intensity of light received by the receiver 12 is zero. When the processor determines that the intensity of the light received by the receiver 12 is zero, the processor performs a predetermined function corresponding to the clicking operation. It should be noted that the same reference numerals in fig. 7-8 as those in fig. 1-2 are used for other elements, and the operation principle is substantially the same, and will not be described again.

In addition, by proper design, the operation principle of the embodiment shown in fig. 3-6 is also applicable to the embodiment shown in fig. 7-8, that is, when the pressing member 100 is pressed, the present invention can make the pressing member 100 drive one of the reflecting member 14 and the light source module 16 to move relative to the other one of the reflecting member 14 and the light source module 16, so that the reflecting surface 140 of the reflecting member 14 reflects the light emitted from the light source module 16 away from the receiver 12.

In summary, the optical micro-switch is composed of the receiver, the reflector and the light source module. In one embodiment, when the pressing member is not pressed, the light emitted by the light source module does not pass through the receiver; when the pressing piece is pressed, the invention can drive one of the reflecting piece and the light source module to move by the pressing piece, so that the reflecting surface of the reflecting piece reflects the light emitted by the light source module to the receiver. Therefore, when the receiver receives the light emitted by the light source module, the user is indicated to operate the mouse to execute one click operation. In another embodiment, when the pressing member is not pressed, the light emitted by the light source module can pass through the receiver; when the pressing piece is pressed, the invention can drive one of the reflecting piece and the light source module to move by the pressing piece, so that the reflecting surface of the reflecting piece reflects the light emitted by the light source module away from the receiver. Therefore, when the receiver does not receive the light emitted from the light source module, it indicates that the user operates the mouse to execute a click operation. The invention uses the optical micro-motion switch to replace the mechanical micro-motion switch in the prior art to execute the click operation of the mouse, therefore, the invention can avoid the problem that the metal reed in the prior art is easy to cause poor contact due to oxidation or elastic fatigue, thereby prolonging the service life of the mouse. In addition, the invention arranges a limit structure for limiting the pressing piece in the shell of the mouse. Therefore, when the pressing piece is pressed, the limiting structure can provide pressing hand feeling for a user.

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

1. A mouse, comprising:

a housing having a pressing member;

a receiver disposed in the housing;

the reflecting piece is arranged in the shell and provided with a reflecting surface;

the light source module is arranged in the shell and comprises a light-emitting unit and a light guide piece, wherein the light-emitting unit emits light rays towards a first direction, and the light guide piece guides the light rays to a second direction; and

the limiting structure is arranged in the shell;

when the pressing piece is not pressed, the light emitted by the light-emitting unit does not pass through the receiver; when the pressing piece is pressed, the limiting structure limits the pressing piece to provide a pressing hand feeling, the pressing piece drives one of the reflecting piece and the light source module to move relative to the other of the reflecting piece and the light source module, the light rays emitted by the light emitting unit are guided to the reflecting surface of the reflecting piece by the light guide piece, and the light rays emitted by the light emitting unit are reflected to the receiver by the reflecting surface of the reflecting piece in a third direction.

2. A mouse as recited in claim 1, wherein the reflector is connected to the pressing member, the light source module is disposed on the base of the housing, and the pressing member drives the reflector to move relative to the light source module when the pressing member is pressed.

3. The mouse of claim 1, wherein the first direction is different from the second direction.

4. A mouse as recited in claim 1, wherein the light emitting unit is connected to the pressing member, the light guide member and the reflecting member are disposed on the base of the housing, and when the pressing member is pressed, the pressing member drives the light emitting unit to move relative to the light guide member and the reflecting member; alternatively, the first and second electrodes may be,

the light guide part is connected to the pressing part, the light emitting unit and the reflecting part are arranged on the base of the shell, and when the pressing part is pressed, the pressing part drives the light guide part to move relative to the light emitting unit and the reflecting part.

5. The mouse of claim 1, wherein the position-limiting structure comprises a first position-limiting member and a second position-limiting member, the first position-limiting member is connected to the pressing member, the second position-limiting member is connected to the base of the housing and the second position-limiting member is opposite to the first position-limiting member, when the pressing member is pressed, the first position-limiting member abuts against the second position-limiting member to provide the pressing feeling.

6. The mouse of claim 1, wherein the retaining structure is a non-electrical structure.

7. A mouse, comprising:

a housing having a pressing member;

a receiver disposed in the housing;

the limiting structure is arranged in the shell;

when the pressing piece is not pressed, the light emitted by the light-emitting unit passes through the receiver; when the pressing piece is pressed, the limiting structure limits the pressing piece to provide a pressing hand feeling, the pressing piece drives one of the reflecting piece and the light source module to move relative to the other of the reflecting piece and the light source module, the light rays emitted by the light emitting unit are guided to the reflecting surface of the reflecting piece by the light guide piece, and the light rays emitted by the light emitting unit are reflected by the reflecting surface of the reflecting piece towards a third direction to leave the receiver.

8. The mouse as recited in claim 7, wherein the reflector is connected to the pressing member, the light source module is disposed on the base of the housing, and the pressing member drives the reflector to move relative to the light source module when the pressing member is pressed.

9. The mouse of claim 7, wherein the first direction is different from the second direction.

10. The mouse of claim 7, wherein the light emitting unit is connected to the pressing member, the light guide member and the reflection member are disposed on the base of the housing, and when the pressing member is pressed, the pressing member drives the light emitting unit to move relative to the light guide member and the reflection member; alternatively, the first and second electrodes may be,

11. The mouse of claim 7, wherein the position-limiting structure comprises a first position-limiting member and a second position-limiting member, the first position-limiting member is connected to the pressing member, the second position-limiting member is connected to the base of the housing and the second position-limiting member is opposite to the first position-limiting member, when the pressing member is pressed, the first position-limiting member abuts against the second position-limiting member to provide the pressing feeling.

12. The mouse of claim 7, wherein the retaining structure is a non-electrical structure.