CN111381690B - Mouse with movable luminous structure - Google Patents

Abstract

A mouse with a movable hand rest comprises a mouse body, a bracket component, a base, a movable hand rest, a first sliding rail component, a second sliding rail component, a first positioning component and a second positioning component. A bracket component is connected to the rear side of the mouse body; a base is arranged at the rear end of the bracket component; the movable hand rest is connected to the base; the first sliding rail component and the second sliding rail component are arranged between the movable hand rest and the base, and the first sliding rail component and the second sliding rail component jointly define an action path and can guide the movable hand rest to reciprocate along the action path; the first positioning component and the second positioning component are arranged between the movable hand rest and the base and are used for selectively positioning the movable hand rest at a plurality of positioning positions on the action path so as to enable a user to adjust the position of the movable hand rest according to the size and the shape of the palm.

Description

Mouse with movable luminous structure

Technical Field

The present invention relates to a mouse with a movable hand rest, and more particularly, to a mouse with a movable hand rest that can be adjusted according to the palm size of a user.

Background

The existing computer operating system mostly adopts an image type operating interface, so that a mouse becomes the most important computer input device. When the mouse is operated, the user must grasp the mouse by hand and press the buttons and the rollers of the mouse by fingers, so that when the user uses the mouse for a long time, the user's wrist and fingers are easy to fatigue, and if the mouse is not designed well in an ergonomic way, the user is easy to feel uncomfortable, and even chronic diseases of wrist joints and finger joints are caused. Especially, for the software of game, the requirement of user on the ergonomic design of mouse is more strict, if the shape or size of mouse and the palm of user can not be matched, the reaction speed and action accuracy of mouse operation are easily reduced, and the palm of user is more easily hurt by incorrect operation gesture.

Therefore, a great deal of high-grade mice and electronic competition mice are paid great attention to the ergonomic design of the mouse shape. However, the shape of the existing mouse is mostly a fixed structure, so that the shape design of the mouse cannot meet the requirements of users with different palm shapes or sizes.

For the above reasons, there are a number of disadvantages in the use of the conventional mouse, and how to overcome the above-mentioned disadvantages by improving the structure has become one of the important problems to be solved by this industry.

Disclosure of Invention

The invention mainly aims to solve the defect that the shape of the existing mouse cannot be adjusted according to the size and shape of the palm of a user, and cannot be suitable for different users.

In order to solve the above-mentioned problems, an embodiment of the present invention provides a mouse with a movable hand rest, which includes a mouse body, a support member, a base, a movable hand rest, a first sliding rail assembly, a second sliding rail assembly, a first positioning assembly, and a second positioning assembly. The mouse body is positioned at the front end of the mouse and is provided with a top surface, a bottom surface, a front side and a rear side; a support member connected to the rear side of the mouse body, the support member extending from the rear side of the mouse body in a direction away from the mouse body along a longitudinal axis of the mouse, the bottom surface of the support member having a contact plane, the contact plane being parallel and coplanar with the bottom surface of the mouse body; the base is arranged at the rear end of the bracket component; the movable hand rest is connected to the base; the first sliding rail component and the second sliding rail component are arranged on one of the movable hand rest and the base, the second sliding rail component and the first sliding rail component are oppositely arranged on the movable hand rest or the base, the first sliding rail component and the second sliding rail component are connected together in a relatively sliding mode, and the first sliding rail component and the second sliding rail component jointly define an action path so as to guide the movable hand rest to reciprocate along the action path, so that the distance between the movable hand rest and the mouse body is changed; the first positioning component is arranged on one of the movable hand support and the base, the second positioning component and the first positioning component are oppositely arranged on the movable hand support or the base, when the movable hand support is arranged on the base, the first positioning component and the second positioning component can be contacted relatively, and the movable hand support can be selectively positioned at a plurality of positioning positions on the action path through the mutual matching of the first positioning component and the second positioning component.

In a preferred embodiment of the present invention, the first positioning component includes at least one positioning seat and a plurality of positioning slots, and the plurality of positioning slots are disposed at a side of the positioning seat facing the second positioning component along the motion path at intervals; the second positioning assembly comprises an elastic member and a positioning lug, when the movable hand support is arranged on the base, the positioning lug can interfere with the positioning seat, and is kept in contact with the positioning seat by the elastic force of the elastic member, and the positioning lug can be clamped into any one of the positioning grooves.

In a preferred embodiment of the present invention, the elastic member is a spring, one of two ends of the elastic member forms a fixed end, the other of two ends of the elastic member forms a movable end, and the positioning protrusion is disposed at the movable end of the elastic member and protrudes toward the first positioning component.

In a preferred embodiment of the present invention, the first sliding rail assembly includes at least one sliding slot, the second sliding rail assembly includes at least one engaging portion, and at least one of the engaging portion and the sliding slot are engaged together in a relatively slidable manner.

In a preferred embodiment of the present invention, one of two ends of at least one of the sliding grooves has an opening, and the engagement portion can be placed into at least one of the sliding grooves from the opening of the sliding groove; at least one stop member is arranged at the opening of at least one sliding groove, and at least one stop member can interfere with at least one engagement portion to prevent at least one engagement portion from being separated from at least one sliding groove.

In a preferred embodiment of the present invention, the rear end of the support member has an upwardly bent portion, and the base and the movable hand rest are disposed at the top end of the bent portion.

In a preferred embodiment of the present invention, the center of the bracket member has a rib extending along the longitudinal axis and protruding upward, and two sides below the rib extend outward to form two bottom plates, and bottom surfaces of the two bottom plates form the contact plane.

In a preferred embodiment of the present invention, two symmetrical extension plates are disposed on both sides of the front end of the bracket member, and the two extension plates are connected to the outer sides of the two base plates in such a manner as to extend outwards in a direction substantially perpendicular to the longitudinal axis direction; the mouse comprises a mouse body, wherein the bottom surface of the mouse body is close to the rear side, two transverse grooves are formed in the position, close to the rear side, of the bottom surface of the mouse body, the shapes of the two transverse grooves and the shapes of the two extension plates correspond to each other, a longitudinal groove, corresponding to the shape of the front end of each rib, is formed in the bottom surface of the mouse body between the two transverse grooves, the two extension plates can be embedded into the two transverse grooves, and the front end of each rib can be embedded into the longitudinal groove.

In a preferred embodiment of the present invention, a protrusion is disposed on a top surface of a front end of the rib, a positioning hole is disposed at a position of the longitudinal groove corresponding to the protrusion, a screw hole is disposed at a position of the two lateral grooves corresponding to the two screw holes, respectively, when the rib and the two extension plates are embedded in the longitudinal groove and the two lateral grooves, the protrusion can be engaged in the positioning hole, and a screw can be locked in the two screw holes and the two screw holes, respectively, so as to fix the two extension plates in the two lateral grooves.

In a preferred embodiment of the present invention, a platform portion is disposed on a top surface of the bending portion, and a slot is disposed on a rear side surface of the bending portion; the bottom of the base is provided with an embedded groove, and the shape of the embedded groove is matched with the shape of the platform part so as to be sleeved on the platform part; the rear side of the bottom surface of the base is provided with a downward extending plug-in part, the position of the plug-in part corresponds to the slot, when the base is installed at the top end of the bending part, the embedded groove is sleeved on the platform part, and the plug-in part is inserted into the slot.

The movable hand rest has the beneficial effects that when the mouse with the movable hand rest is used, a user can adjust the position of the movable hand rest along the action path defined by the first sliding rail component and the second sliding rail component, so that the distance between the movable hand rest and the mouse body is changed, and the movable hand rest is positioned at different positioning positions through the cooperation of the first positioning component and the second positioning component, so that the user can adjust the movable hand rest to be positioned at different positioning positions according to the size of a palm or the use habit, and the use comfort of the mouse is improved.

For a further understanding of the nature and the technical aspects of the present invention, reference should be made to the following detailed description of the invention and to the accompanying drawings, which are provided for purposes of reference only and are not intended to limit the invention.

Drawings

Fig. 1 is a perspective combined view of a mouse with a movable hand rest according to the present invention.

FIG. 2 is a perspective view of a mouse with a movable hand rest according to the present invention, taken from another angle.

Fig. 3 is an exploded perspective view of a mouse with a movable hand rest according to the present invention.

Fig. 4 is an exploded perspective view of a bracket member and a base for use with the present invention.

Fig. 5 is a perspective view of a base used in the present invention taken from the bottom surface.

Fig. 6 is a perspective view of a bracket member and a base for use in the present invention.

Fig. 7 is a perspective view of a movable hand rest used in the present invention taken from the bottom surface.

Fig. 8 is a cross-sectional view showing the combination of the movable hand rest and the base and bracket member used in the present invention.

Fig. 9 to 11 are schematic diagrams illustrating continuous operation of the first and second positioning assemblies according to the present invention.

Detailed Description

As shown in fig. 1 and 2, the present invention discloses a mouse with a movable hand rest, wherein the mouse 1 comprises: a mouse body 10, a bracket member 20, a bracket member 30 and a movable hand rest 40.

The mouse 1 can define a longitudinal direction C, the mouse body 10 is located at a front side of the mouse 1 in the longitudinal direction, the body has a top surface and a bottom surface opposite to each other, and the top surface of the mouse body 10 is provided with a plurality of keys 11 and at least one roller 12 for pressing or rotating a finger of a user. The bottom surface of the mouse body 10 forms a plane portion, and is provided with a plurality of contact pads 13 for contacting the desktop or the mouse pad, so as to reduce the friction force of the mouse 1 contacting the desktop or the mouse pad. The bottom surface of the mouse body 10 is further provided with at least one optical sensor 14 for detecting the displacement of the mouse 1.

The stand member 20 is connected to the rear side of the mouse body 10, and the stand member 20 extends from the rear side of the mouse body 10 in the direction away from the mouse body 10 along the longitudinal axis direction C. In this embodiment, the center of the support member 20 has a rib 22 extending along the longitudinal axis C and protruding upward, two sides below the rib 22 extend outward to form two bottom plates 21, and the bottom surfaces of the two bottom plates 21 form a contact plane 211, and the contact plane 211 and the bottom surface of the mouse body 10 are coplanar, so that when the mouse 1 is placed on a desktop or a mouse pad, the contact plane 211 and the bottom surface of the mouse body 10 can jointly contact the desktop or the mouse pad.

As shown in fig. 3 to 5, two extension plates 23 symmetrical to each other are provided at both sides of the front end of the holder member 20, and the two extension plates 23 are connected to the outer sides of the two base plates 21 to extend outwardly in a direction substantially perpendicular to the longitudinal axis direction C, so that the bottom side of the front end of the holder member 20 is formed in a substantially T-shape. Two screw holes 231 are respectively disposed on the two extending plates 23 for inserting a screw 232. The rib 22 is also provided with an upwardly projecting boss 221 on the upper side of the front end.

As shown in fig. 3, two transverse grooves 15 with shapes corresponding to the shapes of the two extending plates 23 are provided on the bottom surface of the mouse body 10 near the rear side, and a longitudinal groove 16 with a shape corresponding to the shape of the front end of the rib 22 is provided on the position between the two transverse grooves 15, the two extending plates 23 can be embedded in the two transverse grooves 15, and the front end of the rib 22 can be embedded in the longitudinal groove, so that the front end of the bracket member 20 can be positioned on the rear side of the mouse body 10 by being clamped.

In addition, the mouse body 10 is provided with a positioning hole 161 at a position corresponding to the boss 221 in the longitudinal groove 16, the boss 221 can be engaged with the positioning hole 161 when the front end of the rib 22 is engaged with the longitudinal groove 16, and two screw holes 151 are provided at positions corresponding to the two screw holes 231 in the two lateral grooves 15, and when the two extension plates 23 are engaged with the two lateral grooves 15, the two screw holes 231 and the two screw holes 151 can be engaged with the two screws 232, thereby fixing the two extension plates 23 in the two lateral grooves 15.

As shown in fig. 4 to 6, the rear end of the bracket member 20 along the longitudinal axis C forms an upwardly extending bent portion 24, a flat portion 241 is disposed at the upper end of the bent portion 24, and a slot 242 is disposed at the rear side of the bent portion 24, and the slot 242 extends from the upper end to the lower end of the rear surface of the bent portion 24. As shown in fig. 4, the two side walls of the slot 242 are parallel to each other, and two engaging grooves 244 are provided at positions of the two side walls of the slot 242 near the upper end of the bending portion 24.

The base 30 is disposed at the top end of the bending portion 24 of the bracket member 20, as shown in fig. 5, the base 30 has a base body 31, a bottom of the base body 31 has a fitting groove 312, and the shape of the fitting groove 312 matches the shape of the platform portion 241 so as to be able to fit over the platform portion 241. The rear side of the bottom surface of the base body 31 is provided with a downward extending plugging portion 32, the position of the plugging portion 32 corresponds to the slot 242, and the width of the plugging portion 32 is slightly smaller than the width of the slot 242. When the base 30 is mounted on the top end of the bending portion 24, the fitting groove 312 is fitted over the platform portion 241, and the insertion portion 32 is inserted into the insertion groove 242, so that the base 30 can be accurately positioned on the bending portion 24 by the fitting groove 312 and the insertion portion 32 being engaged with the platform portion 241 and the insertion groove 242.

In addition, in order to enable the top ends of the base 30 and the bending portion 24 to be combined together, the base body 31 is provided with a first engaging protrusion 321 at the front side of the inner side wall of the engaging groove 312, and two second engaging protrusions 322 are disposed at the positions of the upper ends of the two side walls of the inserting portion 32. The first engaging protrusion 321 horizontally protrudes from the front side wall of the engaging groove 312, and the position of the first engaging protrusion 321 is matched with the front side edge of the platform 241, so that the front side of the platform 241 can be engaged with the position of the second engaging protrusion 322 and the position of the second engaging groove 244 are corresponding to each other, so that the second engaging protrusions 322 can be engaged in the second engaging grooves 244, and the base 30 can be fixedly coupled to the top surface of the bending portion 24.

As shown in fig. 2 and 8-11, the movable hand rest 40 is disposed at the top end of the bending portion 24 of the bracket member 20 through the base 30, and a first sliding rail assembly 33 and a second sliding rail assembly 42 are disposed between the movable hand rest 40 and the base 30. The first sliding rail assembly 33 and the second sliding rail assembly 42 are engaged together in a relatively sliding manner, and the first sliding rail assembly 33 and the second sliding rail assembly 42 can jointly define an action path, so that the movable hand rest 40 can be guided to reciprocate along the action path by the mutual cooperation of the first sliding rail assembly 33 and the second sliding rail assembly 42, and when the movable hand rest 40 reciprocates along the action path, the distance between the movable hand rest 40 and the mouse body 10 can also be changed.

In this embodiment, the number of the first sliding rail assemblies 33 is two, and the two first sliding rail assemblies 33 are respectively disposed on two sides of the base 30, and the two first sliding rail assemblies 33 respectively have a sliding slot 331. The second sliding rail assemblies 42 are disposed on the bottom surface of the movable hand support 40, in this embodiment, the number of the second sliding rail assemblies 42 is two, the cross-sectional shapes of the two second sliding rail assemblies 42 are approximately L-shaped, and the two second sliding rail assemblies 42 respectively include a connecting portion 421 connected to the bottom surface of the movable hand support, and a connecting portion 422 formed at the bottom end of the connecting portion 421.

As shown in fig. 8, two of the connecting portions 421 are disposed at positions on the bottom surface of the movable hand rest 40 corresponding to the outer sides of the two first sliding rail assemblies 33, and two of the engaging portions 422 are respectively disposed at the bottom ends of the two connecting portions 421 toward one side of the two first sliding rail assemblies 33 and extend toward the two first sliding rail assemblies 33. The height position of the two engaging portions 422 corresponds to the height of the two sliding grooves 331, so when the two second sliding rail assemblies 42 and the two first sliding rail assemblies 33 are engaged with each other, the two engaging portions 422 are respectively engaged in the two sliding grooves 331 and can slide reciprocally in the two sliding grooves 331, so that the two second sliding rail assemblies 42 and the two first sliding rail assemblies 33 can be engaged together in a relatively slidable manner.

In addition, as shown in fig. 4 and 6, one end of each of the two sliding grooves 331 has an opening, and the engaging portion 422 of the second positioning component 43 can be inserted into the two sliding grooves 331 from the opening of the two sliding grooves 331. In order to avoid the disengagement of the two engaging portions 422 and the two sliding grooves 331, two stop members 243 may be further disposed at the openings of the two sliding grooves 331 to prevent the two engaging portions 422 from being disengaged from the two sliding grooves 331. As shown in fig. 4, in the present embodiment, the openings of the two sliding grooves 331 are located at the rear side of the base 30, the two stop members 243 are integrally formed at the rear side of the platform 241 and located at the two sides of the slot 242, and two perforation portions 311 are provided at the rear side of the base body 31 and located at the two sides of the plugging portion 32 and corresponding to the two stop members 243, so that the two stop members 243 pass through the two perforation portions 311. As shown in fig. 6, when the base 30 is assembled on the top end of the bending portion 24, the upper ends of the two stop members 243 protrude above the two through holes 311, and the upper ends of the two stop members 243 are exactly blocked at the opening positions of the two sliding grooves 331, so that the two stop members 243 can interfere with the rear sides of the engaging portions 422 of the two second sliding rail assemblies 42, and can block the engaging portions 422 of the two second sliding rail assemblies 42 from disengaging from the two sliding grooves 331.

In particular, in the present embodiment, the first sliding rail assembly 33 and the second sliding rail assembly 42 are both linear, and the movement path defined by the first sliding rail assembly 33 and the second sliding rail assembly 42 is also a linear path and is substantially parallel to the longitudinal axis direction C. However, in other embodiments of the present invention, the first rail member 33 and the second rail member 42 are not limited to a linear structure (e.g., may be arc-shaped), and the motion path is not limited to a linear motion path or a parallel motion path.

In addition, in the present embodiment, although the first sliding rail assembly 33 is disclosed as being disposed on the base 30, and the second sliding rail assembly 42 is disclosed as being disposed on the movable hand rest 40, in other embodiments of the present invention, the positions where the first sliding rail assembly 33 and the second sliding rail assembly 42 are disposed can be changed according to the requirements.

As shown in fig. 6, 7 and 9-11, a first positioning component 34 and a second positioning component 43 are further disposed between the movable hand rest 40 and the base 30, when the movable hand rest 40 is disposed on the base 30, the first positioning component 34 and the second positioning component 43 can relatively contact, and the movable hand rest 40 is selectively positioned at a plurality of positioning positions on the motion path by the first positioning component 34 and the second positioning component 43 cooperating with each other.

As shown in fig. 6, in the present embodiment, the first positioning component 34 is disposed on the top surface of the base 30, the first positioning component 34 includes at least one positioning seat 341, and a plurality of positioning grooves 342, and the plurality of positioning grooves 342 are disposed on a side of the positioning seat 341 facing the second positioning component 43 along the movement path at intervals. As shown in fig. 7, in this embodiment, the second positioning assembly 43 is disposed on the bottom surface of the movable hand rest 40, and the second positioning assembly 43 includes: an elastic member 431 and a positioning protrusion 432, wherein the elastic member 431 is a spring, one of two ends of the elastic member 431 is connected to the bottom of the movable hand rest 40 to form a fixed end, the other end of the elastic member 431 forms a movable end, and the positioning protrusion 432 is disposed at the movable end of the elastic member 431 and protrudes toward the first positioning component 34.

As shown in fig. 9 to 11, the shape of the positioning protrusion 432 and the shape of the plurality of positioning grooves 342 are matched with each other, thereby enabling the positioning protrusion 432 to be engaged in the plurality of positioning grooves 342. And the first positioning component 34 and the second positioning component 43 are designed such that when the movable hand support 40 is disposed on the base 30, the positioning protrusion 432 of the second positioning component 43 can interfere with the top surface of the positioning seat 341 of the first positioning component 34, and the positioning protrusion 432 can be pushed by the elastic force of the elastic member 431 to be in pressing contact with the top surface of the positioning seat 341, so when the positioning protrusion 432 moves to a position aligned with any one of the positioning grooves 342 of the plurality of positioning grooves 342 along with the movable hand support 40, the positioning protrusion 432 can be pushed by the elastic force of the elastic member 431 to be clamped into the positioning groove 342 aligned with the positioning protrusion 432, and therefore the positioning protrusion 432 can be selectively clamped with any one of the positioning grooves 342 of the plurality of positioning grooves 342, so as to position the movable hand support 40 in a plurality of different positions, as shown in fig. 9 and 11.

In addition, as shown in fig. 10, in the present embodiment, the surfaces of the positioning lug 432 and the positioning grooves 342 are designed to be arc-shaped, so that after the positioning lug 432 is engaged with any one of the positioning grooves 342, a user can apply a force to push the movable hand rest 40, so that the positioning lug 432 is separated from the positioning groove 342 that is engaged originally, and the elastic member 431 is bent, until the positioning lug 432 is displaced to a position aligned with another positioning groove 342, the positioning lug 432 is pushed by the elastic force of the elastic member 431 and is engaged into another positioning groove 342.

In summary, when the mouse with the movable hand rest is used, the user can adjust the position of the movable hand rest 40 along the movement path defined by the first sliding rail assembly 33 and the second sliding rail assembly 42, so that the distance between the movable hand rest 40 and the mouse body 10 is changed, and the movable hand rest 40 is positioned at different positioning positions by matching the first positioning assembly 34 and the second positioning assembly 43, so that the user can adjust and position the movable hand rest 40 at different positioning positions according to the size of the palm or the use habit, thereby improving the comfort of the mouse.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the scope of the invention, so that all equivalent technical changes made by the specification and drawings are included in the scope of the invention.

Claims (9)

1. A mouse with a movable hand rest, comprising:

the mouse body is positioned at the front end of the mouse and is provided with a top surface, a bottom surface, a front side and a rear side;

a support member connected to the rear side of the mouse body, the support member extending from the rear side of the mouse body in a direction away from the mouse body along a longitudinal axis of the mouse, the bottom surface of the support member having a contact plane, the contact plane being parallel and coplanar with the bottom surface of the mouse body;

the base is arranged at the rear end of the bracket component;

the movable hand rest is connected to the base;

the first sliding rail component and the second sliding rail component are arranged on one of the movable hand rest and the base, the second sliding rail component and the first sliding rail component are oppositely arranged on the movable hand rest or the base, the first sliding rail component and the second sliding rail component are connected together in a relatively sliding mode, and the first sliding rail component and the second sliding rail component jointly define an action path so as to guide the movable hand rest to reciprocate along the action path, so that the distance between the movable hand rest and the mouse body is changed; a kind of electronic device with high-pressure air-conditioning system

The first positioning component and the second positioning component are arranged on one of the movable hand rest and the base, the second positioning component and the first positioning component are oppositely arranged on the movable hand rest or the base, when the movable hand rest is arranged on the base, the first positioning component and the second positioning component can be oppositely contacted, and the movable hand rest can be selectively positioned at a plurality of positioning positions on the action path through the mutual matching of the first positioning component and the second positioning component;

the first positioning component comprises at least one positioning seat and a plurality of positioning grooves, and the positioning grooves are arranged on one side of the positioning seat facing the second positioning component at intervals along the action path; the second positioning assembly comprises an elastic member and a positioning lug, when the movable hand support is arranged on the base, the positioning lug can interfere with the positioning seat, and is kept in contact with the positioning seat by the elastic force of the elastic member, and the positioning lug can be clamped into any one of the positioning grooves.

2. The mouse with movable hand rest according to claim 1, wherein the elastic member is a spring, one of two ends of the elastic member forms a fixed end, the other of two ends of the elastic member forms a movable end, and the positioning projection is disposed at the movable end of the elastic member and protrudes toward the first positioning component.

3. The mouse with a movable hand rest of claim 2, wherein the first slide assembly includes at least one runner, the second slide assembly includes at least one engagement portion, and at least one of the engagement portion and the runner are slidably engaged with each other.

4. The mouse with movable hand rest according to claim 3, wherein one of two ends of at least one chute is provided with an opening, and the engagement part can be placed into at least one chute from the opening of the chute; at least one stop member is arranged at the opening of at least one sliding groove, and at least one stop member can interfere with at least one engagement portion to prevent at least one engagement portion from being separated from at least one sliding groove.

5. The mouse with a movable hand rest according to any one of claims 1 to 4, wherein the rear end of the stand member has a bent portion bent upward, and the base and the movable hand rest are disposed at the top end of the bent portion.

6. The mouse with a movable hand rest according to claim 5, wherein the center of the stand member has a rib extending in the longitudinal direction and protruding upward, and both sides under the rib extend outward to form two bottom plates, respectively, and the bottom surfaces of the two bottom plates form the contact plane.

7. The mouse with a movable hand rest according to claim 6, wherein two extension plates symmetrical to each other are provided on both sides of the front end of the stand member, and the two extension plates are connected to the outer sides of the two base plates so as to extend outward in a direction substantially perpendicular to the longitudinal axis direction; the mouse comprises a mouse body, wherein the bottom surface of the mouse body is close to the rear side, two transverse grooves are formed in the position, close to the rear side, of the bottom surface of the mouse body, the shapes of the two transverse grooves and the shapes of the two extension plates correspond to each other, a longitudinal groove, corresponding to the shape of the front end of each rib, is formed in the bottom surface of the mouse body between the two transverse grooves, the two extension plates can be embedded into the two transverse grooves, and the front end of each rib can be embedded into the longitudinal groove.

8. The mouse with movable hand rest according to claim 7, wherein a boss is provided on the top surface of the front end of the rib, a positioning hole is provided at the position of the longitudinal groove corresponding to the boss, a screw hole is provided at the two extending plates corresponding to the two screw holes, a screw hole is provided at the two lateral grooves corresponding to the two screw holes, when the rib and the two extending plates are engaged in the longitudinal groove and the two lateral grooves, the boss can be engaged in the positioning hole, and a screw can be locked in the two screw holes and the two screw holes, respectively, to fix the two extending plates in the two lateral grooves.

9. The mouse with movable hand rest according to claim 8, wherein the top surface of the bending part is provided with a platform part, and the rear side surface of the bending part is provided with a slot; the bottom of the base is provided with an embedded groove, and the shape of the embedded groove is matched with the shape of the platform part so as to be sleeved on the platform part; the rear side of the bottom surface of the base is provided with a downward extending plug-in part, the position of the plug-in part corresponds to the slot, when the base is installed at the top end of the bending part, the embedded groove is sleeved on the platform part, and the plug-in part is inserted into the slot.