CN218273345U - Mouse (Saggar) - Google Patents

Abstract

The application is suitable for computer input equipment, provides a mouse, and the mouse includes: the mouse comprises a mouse main body, wherein a mounting cavity and a standby microswitch mounting groove are formed in the mouse main body; a key part installed on the mouse body; a plurality of micro-gap switches, one detachably installs in the installation cavity in a plurality of micro-gap switches to be located the below of button portion, other detachably of a plurality of micro-gap switches install in reserve micro-gap switch mounting groove, and the micro-gap switch that is arranged in the installation cavity can be pushed down by button portion and triggers. The utility model provides a mouse can be under the micro-gap switch in the installation cavity damages the condition, and the micro-gap switch who installs in reserve micro-gap switch mounting groove through detachably replaces the micro-gap switch that damages, need not the user and purchases micro-gap switch by oneself, alright make mouse can resume normal in the short time, not only effectual improvement user's use experience, but also prolonged the life of the mouse that this application provided.

Description

Mouse (Saggar)

Technical Field

The application belongs to the technical field of computer input equipment, and particularly relates to a mouse.

Background

The mouse is an external input device of a computer, is also an indicator for positioning longitudinal and transverse coordinates of a computer display system and is named like a mouse. The standard name is 'mouse', the mouse is used for replacing the complicated instructions of a keyboard, and the operation of a computer is simpler, more convenient and faster. The micro switch of the mouse is one of the most frequently used components of the mouse, the micro switch is often damaged firstly, in order to enable the mouse to be continuously used under the condition that the micro switch is damaged, the existing mouse often designs the micro switch into a detachable form, and a user can replace the micro switch by himself after the micro switch is damaged.

However, in the existing mouse, after the micro switch is damaged, a user needs to purchase the micro switch by himself to replace the micro switch, the micro switch cannot be completely adapted, and meanwhile, the damaged mouse cannot be used continuously before the micro switch arrives at a good place.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the present application is to provide a mouse, and aims to solve the technical problem that a mouse in the prior art cannot be restored to be normal in a short time because a user needs to purchase a microswitch by himself to replace the microswitch when the microswitch is damaged.

To achieve the above object, according to one aspect of the present application, there is provided a mouse including: the mouse comprises a mouse main body, wherein a mounting cavity and a standby microswitch mounting groove are formed in the mouse main body; a key part installed on the mouse body; a plurality of micro-gap switches, one detachably installs in the installation cavity in a plurality of micro-gap switches to be located the below of button portion, other detachably of a plurality of micro-gap switches install in reserve micro-gap switch mounting groove, and the micro-gap switch that is arranged in the installation cavity can be pushed down by button portion and triggers.

Optionally, the micro-switch installed below the key portion is a main micro-switch, the micro-switches installed in the standby micro-switch installation grooves are standby micro-switches, the number of the standby micro-switch installation grooves is multiple, and the plurality of standby micro-switches are installed in the plurality of standby micro-switch installation grooves in a one-to-one correspondence manner.

Optionally, the mouse further comprises a PCB, the PCB is mounted on the mouse body, the micro switch is in signal connection with the PCB, and the micro switch is a mechanical micro switch, an optical micro switch, or a magnetic micro switch.

Optionally, the micro switch is a mechanical micro switch, a pin is arranged at the bottom of the mechanical micro switch, the mouse further comprises a plug-in component, the plug-in component is fixedly mounted on the PCB, the PCB is electrically connected with the plug-in component, a pin plug-in port is arranged on the plug-in component, and the pin of the mechanical micro switch is arranged in the pin plug-in port in a penetrating mode and is electrically connected with the plug-in component.

Optionally, the plug assembly includes a plug base and a conductive elastic sheet, the plug base is fixedly mounted on the PCB, a conductive elastic sheet mounting position is provided in the plug base, the conductive elastic sheet is mounted on the conductive elastic sheet mounting position and electrically connected to the PCB, the pin socket is disposed at one end of the plug base away from the PCB, the pin socket is communicated with the conductive elastic sheet mounting position, and the pin is inserted into the pin socket and abuts against the conductive elastic sheet.

Optionally, the number of the pins and the pin sockets is multiple, the pins are arranged at intervals along the length direction of the mechanical microswitch, the pin sockets are arranged at intervals along the length direction of the plugging base body, and the pins correspond to the pin sockets one by one; the plurality of conductive elastic sheets are arranged on the conductive elastic sheet mounting position at intervals and correspond to the plurality of pin interfaces one to one.

Optionally, the microswitch is an optical microswitch, an optical trigger structure is arranged at the bottom of the optical microswitch, an optical detection assembly is arranged on the PCB, and the optical trigger structure avoids the optical detection assembly when the optical microswitch is not triggered; in the event that the optical microswitch is triggered, the optical trigger structure moves down to be detected by the light detection assembly.

Optionally, the microswitch is a magnetic microswitch, a magnetic trigger structure is arranged at the bottom of the magnetic microswitch, a magnetic detection assembly is arranged on the PCB, and the magnetic trigger structure avoids the magnetic detection assembly when the magnetic microswitch is not triggered; in the event that the magnetic microswitch is triggered, the magnetic trigger structure moves down to be detected by the magnetic detection assembly.

Optionally, the microswitch installed below the key part is a primary microswitch, the microswitch installed in the standby microswitch installation groove is a standby microswitch, and the mouse further comprises a microswitch installation seat detachably installed on the mouse main body and located below the key part for installing the primary microswitch.

Optionally, the mouse further comprises a cover plate detachably mounted on the mouse body for shielding or exposing the spare microswitch mounting groove.

The mouse provided by the application has the beneficial effects that: compared with the prior art, the mouse that this application provided is through setting up installation cavity and reserve micro-gap switch mounting groove in the mouse main part, and install one detachably in the installation cavity among a plurality of micro-gap switches, other detachably in a plurality of micro-gap switches install in reserve micro-gap switch mounting groove, make the mouse that this application provided can be under the condition that micro-gap switch in the installation cavity damaged, install the micro-gap switch in reserve micro-gap switch mounting groove through detachably and replace the micro-gap switch that damages, need not the user and purchase micro-gap switch by oneself, alright make mouse can resume normal in the short time, not only effectual improvement user's use is experienced, and the life of the mouse that this application provided has still been prolonged.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings required to be used in the embodiments or the prior art description will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings may be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic structural diagram of a mouse with parts removed according to an embodiment of the present disclosure;

FIG. 2 is a partial cross-sectional view of a mouse with a mechanical microswitch installed with parts removed according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a mouse with parts removed from the mouse from another view according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a plug assembly provided in an embodiment of the present application;

fig. 5 is a schematic structural view of a plugging base body provided in the embodiment of the present application;

fig. 6 is a schematic structural view of a conductive elastic sheet according to an embodiment of the present disclosure;

FIG. 7 is a partial view of a mouse with parts removed according to an embodiment of the present application;

FIG. 8 is a schematic structural diagram of a mouse with optical micro-switches, with parts removed, according to an embodiment of the present disclosure;

FIG. 9 is a schematic structural diagram of a mouse with optical micro switches with parts removed from the mouse at another view angle according to an embodiment of the present disclosure;

FIG. 10 is a schematic structural diagram of a mouse with a magnetic microswitch and with parts removed according to an embodiment of the present application;

FIG. 11 is a schematic structural diagram of a mouse with a magnetic microswitch and with parts removed according to another view angle provided by an embodiment of the present application;

fig. 12 is a schematic structural diagram of a plug assembly according to another embodiment of the present application;

fig. 13 is a schematic structural view of a plugging seat provided in another embodiment of the present application;

FIG. 14 is a schematic view of a plug assembly with parts broken away according to another embodiment of the present application;

reference is now made to the following figures, in which:

10. a mouse main body; 11. a mounting cavity; 12. a standby microswitch mounting groove;

20. a key section;

30. a microswitch; 31. a main microswitch; 32. a standby microswitch; 33. a pin; 34. a light trigger structure; 35. a magnetic trigger structure;

40. a PCB board; 41. a light detection component; 42. a magnetic detection component;

50. a plug-in assembly; 51. plugging and unplugging the base body; 511. a conductive elastic sheet mounting position; 512. a pin interface; 52. a conductive spring plate;

60. a microswitch mounting seat;

70. and (7) a cover plate.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be constructed in operation as a limitation of the application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

As mentioned in the background, the mouse is an external input device of the computer, and is also an indicator for positioning the vertical and horizontal coordinates of the computer display system, and is named like a mouse. The standard name of the mouse is 'mouse', and the mouse is used for replacing the complicated instructions of a keyboard, so that the operation of a computer is simpler, more convenient and quicker. The microswitch 30 of the mouse is one of the most frequently used components of the mouse, and is often damaged firstly, in order to enable the mouse to be continuously used under the condition that the microswitch 30 is damaged, the microswitch 30 of the existing mouse is often designed into a detachable form, so that a user can replace the microswitch 30 by himself after the microswitch 30 is damaged. However, in the conventional mouse, after the micro switch 30 is damaged, the user needs to purchase the micro switch 30 by himself to replace the micro switch 30, the micro switch 30 cannot be completely adapted, and meanwhile, the damaged mouse cannot be used continuously until the micro switch 30 arrives at a good place.

Referring to fig. 1 to 11, in order to solve the above-mentioned problems, according to an aspect of the present application, an embodiment of the present application provides a mouse including: the mouse comprises a mouse body 10, a button part 20 and a plurality of micro switches 30, wherein the mouse body 10 is provided with a mounting cavity 11 and a standby micro switch mounting groove 12; the key part 20 is installed on the mouse body 10; one of the plurality of micro switches 30 is detachably mounted in the mounting cavity 11 below the key part 20, and the other of the plurality of micro switches 30 is detachably mounted in the backup micro switch mounting groove 12, and the micro switch 30 in the mounting cavity 11 can be activated by the key part 20 being pressed down. The mouse that this embodiment provided is through setting up installation cavity 11 and reserve micro-gap switch mounting groove 12 on mouse main part 10, and install one detachably in a plurality of micro-gap switch 30 in installation cavity 11, other detachably in a plurality of micro-gap switch 30 install in reserve micro-gap switch mounting groove 12, make the mouse that this embodiment provided can be under the micro-gap switch 30 condition damaged in installation cavity 11, install the micro-gap switch 30 in reserve micro-gap switch mounting groove 12 through detachably and replace the micro-gap switch 30 that damages, it purchases micro-gap switch 30 to need not the user by oneself, alright make mouse can resume normally in the short time, not only effectual improvement user's use is experienced, and the life of the mouse that this embodiment provided has still been prolonged.

In a preferred embodiment, the micro switch 30 provided in this embodiment can be replaced with a light touch switch.

In a preferred embodiment, the microswitch 30 of the present embodiment has a micro contact at one end close to the key section 20, the key section 20 is in contact with the micro contact, the micro contact has a first state in which it is not activated and a second state in which it is activated, and when the key section 20 is not subjected to an external force, the micro contact is always in the first state, and the micro contact can be switched from the first state to the second state by pressing the key section 20.

In a preferred embodiment, the key portion 20 of the present embodiment includes a key main body and an abutting structure protruding from the key main body, the abutting structure is disposed on a side of the key main body close to the micro switch 30, and the abutting structure is used for abutting against a micro contact of the micro switch 30 in the installation cavity 11.

Referring to fig. 3, in order to prolong the service life of the mouse provided in this embodiment, the micro-switch 30 installed below the key portion 20 in this embodiment is the main micro-switch 31, the micro-switch 30 installed in the spare micro-switch installation groove 12 is the spare micro-switch 32, the spare micro-switch installation groove 12 is multiple, and the multiple spare micro-switches 32 are installed in the multiple spare micro-switch installation grooves 12 in a one-to-one correspondence manner. By arranging a plurality of the spare microswitch installation grooves 12 provided by the embodiment and installing the plurality of spare microswitches 32 in the spare microswitch installation grooves 12 in a one-to-one correspondence manner, the damaged main microswitch 31 can be replaced by any one of the spare microswitches 32 in the plurality of spare microswitch installation grooves 12 when the main microswitch 31 is damaged, thereby effectively prolonging the service life of the mouse provided by the embodiment.

In a preferred embodiment, the number of the mounting cavities 11 and the number of the main micro switches 30 in the present embodiment are multiple, and the plurality of mounting cavities 11 correspond to the plurality of micro switches 30 one by one.

In a specific embodiment, the two mounting cavities 11 and the two main micro switches 30 are both provided in the present embodiment, and the two main micro switches 30 are respectively mounted in the two mounting cavities 11.

In a specific embodiment, the mouse of this embodiment further includes a PCB 40, the PCB 40 is mounted on the mouse body 10, the micro switch 30 is in signal connection with the PCB 40, and the micro switch 30 is a mechanical micro switch, an optical micro switch, or a magnetic micro switch. The signal may be an electrical signal, or an optical signal, or a magnetic signal.

Referring to fig. 1 to 7, in a specific embodiment, the micro switch 30 in this embodiment is a mechanical micro switch, a pin 33 is disposed at a bottom of the mechanical micro switch, the mouse further includes a plug-in component 50, the plug-in component 50 is fixedly mounted on the PCB 40, the PCB 40 is electrically connected to the plug-in component 50, a pin plug-in interface 512 is disposed on the plug-in component 50, and the pin 33 of the mechanical micro switch is inserted into the pin plug-in interface 512 and electrically connected to the plug-in component 50. By fixedly mounting the plug-in component 50 provided with the pin plug-in port 512 provided by the embodiment on the PCB 40 and electrically connecting the PCB 40 and the plug-in component 50, the pin 33 of the mechanical microswitch provided by the embodiment can be electrically connected with the plug-in component 50 under the condition of penetrating through the pin plug-in port 512, so that the signal sent by the mechanical microswitch can be transmitted to the PCB 40 in the form of an electrical signal.

Referring to fig. 1 to 7, in a specific embodiment, the plug assembly 50 in the embodiment includes a plug base 51 and a conductive elastic sheet 52, the plug base 51 is fixedly mounted on the PCB 40, a conductive elastic sheet mounting location 511 is disposed in the plug base 51, the conductive elastic sheet 52 is mounted on the conductive elastic sheet mounting location 511 and electrically connected to the PCB 40, a pin socket 512 is disposed at an end of the plug base 51 away from the PCB 40, the pin socket 512 is communicated with the conductive elastic sheet mounting location 511, and the pin 33 penetrates through the pin socket 512 and abuts against the conductive elastic sheet 52. When the mechanical microswitch provided by the embodiment needs to be replaced, the mechanical microswitch provided by the embodiment needs to be moved towards a direction away from the PCB 40, the pin 33 of the mechanical microswitch gradually separates from the conductive elastic sheet 52 along with the movement of the mechanical microswitch, after the pin 33 and the conductive elastic sheet 52 are completely separated, the electrical connection between the mechanical microswitch and the plug-in assembly 50 is also disconnected, and after the mechanical microswitch moves towards a direction away from the PCB 40 for a certain distance, the mechanical microswitch completely separates from the mounting cavity 11, and then the mechanical microswitch is disassembled; after the mechanical microswitch is disassembled, the mechanical microswitch on the standby microswitch mounting groove 12 can be taken down, after the standby mechanical microswitch is taken down, the standby mechanical microswitch can be moved to the upper part of the mounting cavity 11, meanwhile, the pin 33 of the mechanical microswitch is aligned with the pin interface 512 arranged on one end of the plugging base body 51 far away from the PCB 40, after the pin 33 is aligned with the pin interface 512, the mechanical microswitch can be moved towards the direction close to the PCB 40, along with the movement of the mechanical microswitch, the pin 33 of the mechanical microswitch can also gradually penetrate through the pin interface 512, the part of the pin 33 penetrates through the pin interface 512, and after the pin 33 is fully abutted against the conductive elastic sheet 52, the installation of the mechanical microswitch can be completed.

In a preferred embodiment, in the present embodiment, the number of the pins 33 and the pin sockets 512 is multiple, the pins 33 are arranged at intervals along the length direction of the mechanical microswitch, the pin sockets 512 are arranged at intervals along the length direction of the plugging base 51, and the pins 33 correspond to the pin sockets 512 one by one; the number of the conductive elastic pieces 52 is multiple, the conductive elastic pieces 52 are arranged on the conductive elastic piece mounting position 511 at intervals, and the conductive elastic pieces 52 correspond to the pin sockets 512 one by one.

Referring to fig. 4, 5 and 7, in a specific embodiment, the number of the pins 33 and the pin sockets 512 in this embodiment is three, the three pins 33 are arranged at intervals along the length direction of the micro switch, the three pin sockets 512 are arranged at intervals along the length direction of the plug base 51, and the three pins 33 correspond to the three pin sockets 512 one by one; the number of the conductive elastic pieces 52 is three, the three conductive elastic pieces 52 are arranged on the conductive elastic piece mounting position 511 at intervals, and the three conductive elastic pieces 52 correspond to the three pin insertion ports 512 one by one.

Referring to fig. 12 to 14, in another embodiment, two pins 33 and two pin sockets 512 are provided in the present embodiment, the two pins 33 are arranged at intervals along the length direction of the micro switch, the two pin sockets 512 are arranged at intervals along the length direction of the plug base 51, and the two pins 33 and the two pin sockets 512 are in one-to-one correspondence; the number of the conductive elastic pieces 52 is two, the two conductive elastic pieces 52 are arranged on the conductive elastic piece mounting position 511 at intervals, and the two conductive elastic pieces 52 correspond to the two pin insertion ports 512 one by one.

Referring to fig. 8 and 9, in another embodiment, the micro switch 30 in the present embodiment is an optical micro switch, the bottom of the optical micro switch is provided with an optical triggering structure 34, the pcb 40 is provided with an optical detection assembly 41, and the optical triggering structure 34 is retracted from the optical detection assembly 41 when the optical micro switch is not triggered; in the event that the optical microswitch is triggered, the optical trigger structure 34 moves down to be detected by the light detection assembly 41.

In a specific embodiment, the light detection component 41 in this embodiment includes an infrared emission tube and a photosensitive receiving tube, and certainly in other embodiments, the light detection component 41 in this embodiment may also be other types of light tubes, the light triggering structure 34 in this embodiment is a light shielding plate, a yielding hole is provided on the PCB 40 provided in this embodiment, an end portion of the light shielding plate provided in this embodiment penetrates through the yielding hole, the infrared emission tube and the photosensitive receiving tube provided in this embodiment are both disposed on a board surface of the PCB 40 away from the microswitch 30 and electrically connected to the PCB 40, meanwhile, an emission end of the infrared emission tube provided in this embodiment is disposed opposite to a receiving end of the photosensitive receiving tube, infrared rays emitted by the emission end of the infrared emission tube can be received by the receiving end of the photosensitive receiving tube, and, in a case that the optical microswitch is not triggered, the light shielding plate avoids infrared rays emitted by the emission end of the infrared emission tube, and then the photosensitive receiving tube emits a signal that the microswitch is not triggered to the PCB 40; under the condition that the optical microswitch is triggered, the shading plate moves downwards and shields the infrared rays emitted by the emitting end of the infrared emitting tube, and at the moment, the photosensitive receiving tube sends a signal that the optical microswitch is triggered to the PCB 40.

In a preferred embodiment, a pin 33 is disposed at the bottom of the optical microswitch in this embodiment, and the mouse provided in this embodiment further includes a plug assembly 50, where the plug assembly 50 in this embodiment is the plug assembly 50 in the foregoing embodiment, and the pin 33 disposed at the bottom of the optical microswitch provided in this embodiment is inserted through the plug assembly 50.

Referring to fig. 10 and 11, in another embodiment, the microswitch 30 in the present embodiment is a magnetic microswitch, a magnetic triggering structure 35 is disposed at the bottom of the magnetic microswitch, a magnetic detection component 42 is disposed on the pcb 40, and the magnetic triggering structure 35 avoids the magnetic detection component 42 when the magnetic microswitch is not triggered; in the event that the magnetic microswitch is triggered, the magnetic trigger structure 35 moves downward to be detected by the magnetic detection assembly 42.

In a specific embodiment, the magnetic detection component 42 in this embodiment is a hall sensor, the magnetic triggering structure 35 in this embodiment is a magnet, the PCB 40 provided in this embodiment is provided with a yielding hole, an end portion of the magnet provided in this embodiment is inserted into the yielding hole, the hall sensor provided in this embodiment is disposed on a board surface of the PCB 40 away from the microswitch 30 and electrically connected to the PCB 40, when the magnetic microswitch provided in this embodiment is not triggered, the magnet yields the hall sensor, the magnetic field strength around the hall sensor is low, and the hall sensor outputs a first voltage to the PCB 40, so that the PCB 40 detects that the magnetic microswitch is not triggered; under the condition that the magnetic microswitch is triggered, the magnet moves downwards and is close to the Hall sensor, the magnetic field intensity around the Hall sensor is stronger at the moment, and the Hall sensor outputs a second voltage to the PCB 40 so that the PCB 40 detects that the magnetic microswitch is triggered.

In a preferred embodiment, the bottom of the magnetic microswitch in this embodiment is provided with a pin 33, the mouse provided in this embodiment further includes a plug assembly 50, the plug assembly 50 in this embodiment is the plug assembly 50 in the above embodiment, and the pin 33 provided at the bottom of the magnetic microswitch in this embodiment is inserted into the plug assembly 50.

Referring to fig. 1, in order to effectively fix the micro-switch 30 provided in this embodiment, the micro-switch 30 installed below the key part 20 in this embodiment is the main micro-switch 31, the micro-switch 30 installed in the spare micro-switch installation groove 12 is the spare micro-switch 32, and the mouse further includes a micro-switch installation seat 60 detachably installed on the mouse body 10 and located below the key part 20 for installing the main micro-switch 31. The microswitch 30 provided by the embodiment can be effectively fixed by detachably arranging the microswitch mounting seat 60 on the mouse body 10 provided by the embodiment and installing the microswitch 30 in the microswitch mounting seat 60.

In a preferred embodiment, the microswitch mounting base 60 and the mouse body 10 are detachably connected by a snap.

In a preferred embodiment, the microswitch mounting seat 60 in this embodiment is provided with a receiving cavity therein, and the microswitch 30 provided in this embodiment is detachably mounted in the receiving cavity.

In a preferred embodiment, the lateral wall of the accommodating cavity in this embodiment is provided with a guiding convex rib, one end of the guiding convex rib close to the key portion 20 is provided with a guiding inclined plane, the guiding convex rib and the guiding inclined plane provided by this embodiment can effectively guide the micro switch 30, so that the micro switch 30 can be quickly installed in the accommodating cavity.

In a preferred embodiment, a plurality of first yielding openings are disposed at an end of the accommodating cavity close to the PCB 40 in this embodiment, the first yielding openings are disposed at intervals along the length direction of the microswitch mounting seat 60 and correspond to the pins 33 one by one, and the first yielding openings provided in this embodiment are used for yielding the pins 33 of the microswitch 30.

Referring to fig. 1 and 2, in order to effectively protect the microswitch 30 in the spare microswitch mounting groove 12 provided in the present embodiment, the mouse in the present embodiment further comprises a cover plate 70, and the cover plate 70 is detachably mounted on the mouse body 10 for shielding or exposing the spare microswitch mounting groove 12. Through installing apron 70 that this embodiment provided on mouse main body 10 detachably, can effectually shield the micro-gap switch 30 in reserve micro-gap switch mounting groove 12, make the protection that micro-gap switch 30 in reserve micro-gap switch mounting groove 12 obtained, guaranteed the life of micro-gap switch 30 in reserve micro-gap switch mounting groove 12.

In summary, the mouse provided by the embodiment at least has the following beneficial technical effects: the mouse that this embodiment provided is through setting up installation cavity 11 and reserve micro-gap switch mounting groove 12 on mouse main part 10, and install one detachably in a plurality of micro-gap switch 30 in installation cavity 11, other detachably in a plurality of micro-gap switch 30 install in reserve micro-gap switch mounting groove 12, make the mouse that this embodiment provided can be under the condition of micro-gap switch 30 damage in installation cavity 11, install the micro-gap switch 30 of damage in reserve micro-gap switch mounting groove 12 through detachably and replace micro-gap switch 30, it purchases micro-gap switch 30 by oneself to need not the user, alright make mouse can resume normal in the short time, not only effectual improvement user's use is experienced, but also the life of the mouse that this embodiment provided has been prolonged.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A mouse, comprising:

the mouse comprises a mouse main body (10), wherein the mouse main body (10) is provided with a mounting cavity (11) and a standby microswitch mounting groove (12);

a key part (20), the key part (20) being mounted on the mouse body (10);

the microswitch mounting structure comprises a plurality of microswitches (30), wherein one of the microswitches (30) is detachably mounted in a mounting cavity (11) and is positioned below a key part (20), the other microswitches (30) are detachably mounted in a standby microswitch mounting groove (12), and the microswitches (30) positioned in the mounting cavity (11) can be pressed down and triggered by the key part (20).

2. The mouse according to claim 1, wherein the micro switch (30) installed below the key part (20) is a master micro switch (31), the micro switch (30) installed in the spare micro switch installation groove (12) is a spare micro switch (32), the spare micro switch installation groove (12) is plural, and the plural spare micro switches (32) are installed in the plural spare micro switch installation grooves (12) in a one-to-one correspondence.

3. The mouse of claim 1, further comprising a PCB board (40), wherein the PCB board (40) is mounted on the mouse body (10), the micro switch (30) is in signal connection with the PCB board (40), and the micro switch (30) is a mechanical micro switch, an optical micro switch, or a magnetic micro switch.

4. The mouse of claim 3, wherein the micro switch (30) is a mechanical micro switch, a pin (33) is disposed at a bottom of the mechanical micro switch, the mouse further comprises a plug-in component (50), the plug-in component (50) is fixedly mounted on the PCB (40), the PCB (40) is electrically connected with the plug-in component (50), a pin plug-in port (512) is disposed on the plug-in component (50), and the pin (33) of the mechanical micro switch penetrates through the pin plug-in port (512) and is electrically connected with the plug-in component (50).

5. The mouse of claim 4, wherein the plug assembly (50) comprises a plug base (51) and a conductive elastic sheet (52), the plug base (51) is fixedly mounted on the PCB (40), a conductive elastic sheet mounting position (511) is provided in the plug base (51), the conductive elastic sheet (52) is mounted on the conductive elastic sheet mounting position (511) and electrically connected to the PCB (40), the pin socket (512) is provided at an end of the plug base (51) away from the PCB (40), the pin socket (512) is communicated with the conductive elastic sheet mounting position (511), and the pin (33) is inserted into the pin socket (512) and abuts against the conductive elastic sheet (52).

6. The mouse of claim 5, wherein the plurality of pins (33) and the plurality of pin sockets (512) are provided, the plurality of pins (33) are arranged at intervals along a length direction of the mechanical microswitch, the plurality of pin sockets (512) are arranged at intervals along a length direction of the plugging base body (51), and the plurality of pins (33) correspond to the plurality of pin sockets (512) one by one; the number of the conductive elastic sheets (52) is multiple, the conductive elastic sheets (52) are arranged on the conductive elastic sheet mounting positions (511) at intervals, and the conductive elastic sheets (52) correspond to the pin interfaces (512) one by one.

7. The mouse according to claim 3, characterized in that the micro switch (30) is an optical micro switch, the bottom of the optical micro switch is provided with an optical trigger structure (34), the PCB (40) is provided with an optical detection component (41), and the optical trigger structure (34) avoids the optical detection component (41) when the optical micro switch is not triggered; in the event that the optical microswitch is triggered, the optical trigger structure (34) moves down to be detected by the light detection assembly (41).

8. The mouse of claim 3, wherein the microswitch (30) is a magnetic microswitch, a magnetic trigger structure (35) is arranged at the bottom of the magnetic microswitch, a magnetic detection component (42) is arranged on the PCB (40), and the magnetic trigger structure (35) avoids the magnetic detection component (42) under the condition that the magnetic microswitch is not triggered; in the event that the magnetic microswitch is triggered, the magnetic trigger structure (35) moves down to be detected by the magnetic detection assembly (42).

9. The mouse according to any one of claims 1 to 8, wherein the microswitch (30) installed below the key part (20) is a primary microswitch (31), the microswitch (30) installed in the standby microswitch installation groove (12) is a standby microswitch (32), and the mouse further comprises a microswitch mounting seat (60), the microswitch mounting seat (60) being detachably installed on the mouse body (10) and located below the key part (20) for mounting the primary microswitch (31).

10. The mouse according to any one of claims 1 to 8, further comprising a cover plate (70), wherein the cover plate (70) is detachably mounted on the mouse body (10) for shielding or exposing the spare microswitch mounting groove (12).

Images