CN218273347U - Mouse with replaceable foot pad - Google Patents

Abstract

The utility model relates to a mouse of displaceable callus on sole, including the mouse body and set up in callus on the sole on the mouse body bottom surface sets up the callus on the sole groove that is used for installing the callus on the sole on the bottom surface of mouse body, be provided with the movable block that is used for installing other callus on the sole on the bottom surface of mouse body, still set up on the bottom surface of mouse body and be used for the adjustment groove of the position of movable block, the movable block is followed the adjustment inslot slides, the movable block be provided with the installation piece on the surface, the installation piece protrusion in the bottom surface of mouse body, can dismantle on the installation piece and be provided with the replacement callus on the sole, the size and the shape of replacement callus on the sole are selected according to user's use custom, the callus on the sole with the material of replacement callus on the sole is glass and makes. The foot pad has the effects that the foot pad can be freely replaced, and the friction force of the foot pad and the position of the foot pad is changed to adapt to different use requirements of a user.

Description

Mouse with replaceable foot pad

Technical Field

The utility model belongs to the technical field of the technique of computer peripheral equipment and specifically relates to a mouse of displaceable callus on sole is related to.

Background

In daily life, people rely on computer equipment increasingly, and some entertainment in life or business operations in work have to be completed by the computer equipment. When computer equipment is used, the most important is the mouse which is a peripheral input device used as a man-machine communication interface. With the progress of computer software and the popularization of graphical user interfaces, the mouse can be used for controlling a computer more easily and conveniently, some operations on the computer can be completed quickly, the mouse becomes one of indispensable computer peripherals, and therefore the performance of the mouse is related to the use experience of a user. In some special fields, such as the electronic competition industry, users have higher requirements on the sliding speed, the friction force and the like of the mouse.

The bottom of the mouse in the related art is provided with a plurality of callus on the sole, and when the mouse was moving, through the surface contact of these callus on the sole bottom surface and desktop or mouse pad, the bottom surface and the mouse pad or desktop of mouse separated to reduce the mouse and the mouse pad or the desktop between frictional force, improve the use of mouse and feel, be convenient for slide fast and change the position of mouse.

However, different users have different habits on the mouse, and the gesture when using the mouse affects the contact position between the foot pad below the mouse and the desktop, thereby affecting the use hand feeling of the mouse. The positions of foot pads in a common mouse are set when leaving a factory, so that the positions and the sizes of the foot pads cannot be changed. Therefore, the size and the position of the foot pad of the mouse can not be adjusted according to the use habits of different people.

SUMMERY OF THE UTILITY MODEL

The invention provides a mouse with a replaceable foot pad, aiming at improving the phenomenon that the position and the size of the foot pad in the existing mouse are set when leaving a factory and the size and the position of the foot pad can not be adjusted according to the use habits of different people.

The utility model provides a pair of mouse of displaceable callus on sole adopts following technical scheme:

the mouse with the replaceable foot pad comprises a mouse body and the foot pad arranged on the bottom surface of the mouse body, wherein a foot pad groove used for mounting the foot pad is formed in the bottom surface of the mouse body, a moving block used for mounting other foot pads is arranged on the bottom surface of the mouse body, an adjusting groove used for adjusting the position of the moving block is further formed in the bottom surface of the mouse body, the moving block slides along the adjusting groove, a mounting piece is arranged on the surface of the moving block and protrudes out of the bottom surface of the mouse body, a replacement foot pad is detachably arranged on the mounting piece, the size and the shape of the replacement foot pad are selected according to the using habit of a user, and the foot pad and the replacement foot pad are made of glass.

Through adopting above-mentioned technical scheme, the foot pad groove has been seted up in the below of mouse body to the foot pad inslot is provided with the callus on the sole and is used for the user to normally use, feels when inconsistent with the use habit when the user uses, changes the position of movable block in the adjustment inslot, then sets up the replacement callus on the sole on the mounting plate of movable block, because the size and the shape of replacement callus on the sole etc. all can be selected by the user, thereby increased optional scope, feel with the use friction of adaptation difference. In addition, the relative positions of the replacement foot pad and other foot pads can be changed by changing the position of the moving block, and further special requirements of users are met. Simultaneously, callus on the sole and replacement callus on the sole all have glass to make, and the frictional force between with desktop or mouse pad is littleer, more is favorable to the mouse body that slides fast.

Preferably, the surface of the mouse body is hollowed out.

Through adopting above-mentioned technical scheme, the fretwork design is favorable to reducing the weight of mouse body to improve the radiating effect of the inside circuit board of mouse body.

Preferably, the edge of the moving block is provided with an abutting edge, a limiting edge is arranged at the notch of the adjusting groove, the abutting edge is slidably abutted to one side of the limiting edge facing the inside of the mouse body, a ball is arranged on the abutting edge, and the ball rolls and abuts to the surface of the limiting edge.

Through adopting above-mentioned technical scheme, utilize spacing along restricting the movable block and break away from the adjustment groove to at the butt and rotate on along and install the ball, with the frictional force between reduction movable block and spacing edge, make the removal of movable block more smooth and easy.

Preferably, a plurality of filling blocks used for filling gaps in the adjusting groove are arranged in the adjusting groove, the plurality of filling blocks are distributed in the adjusting groove in parallel, the moving block is in butt fit with the adjacent filling blocks, a jacking spring is arranged on one side of each filling block facing the inside of the mouse body, and the other end of each jacking spring is in butt joint with the bottom of the adjusting groove.

By adopting the technical scheme, the filling blocks are arranged in the adjusting groove, and the gaps of the adjusting groove are filled by utilizing the filling blocks, so that the situation that sundries fall into the adjusting groove to influence the movement of the moving block is avoided.

Preferably, the moving block is arranged in a quadrangular frustum pyramid shape, the mounting piece is located on the bottom surface of the large opening end of the moving block, and the edge of the filling block is provided with a pressing edge which abuts against the side surface of the moving block.

By adopting the technical scheme, when the moving block moves along the adjusting groove, the inclined surface of the side surface of the quadrangular frustum pyramid is pressed on the pressing surface, and then the top holding spring below the filling block is compressed along with the movement of the moving block, so that the filling block moves to a position between the moving block and the groove bottom of the adjusting groove, and the moving block is moved to a position away so as to move conveniently.

Preferably, the side surface of the pressing edge is inclined towards the center of the surface of the filling block.

By adopting the technical scheme, the side surface of the pressing edge is obliquely arranged, so that the pressing edge is matched with the side surface of the moving block.

Preferably, a rotating bead is embedded in the bottom surface of one side of the moving block, which faces the inside of the mouse body, the rotating bead abuts against the surface of the filling block, a positioning groove for fixing the moving block is formed in the surface of the filling block, and the rotating bead is clamped in the positioning groove.

By adopting the technical scheme, the rotating beads at the end part of the moving block abut against the surface of the filling block in the moving process of the moving block, so that the friction force between the moving block and the filling block is reduced, and the moving block is favorable for moving.

Preferably, it is provided with dwang and lifter to slide in the removal piece, the one end of dwang with installation piece fixed connection, the other end of dwang with the lifter rotates to be connected, the side of lifter is provided with the connecting block, be provided with in the movable block and be used for the holding the lifter and the holding hole of dwang, offer on the pore wall in holding hole and be used for the guide lifter pivoted spiral guiding groove, the pore wall department in holding hole still along the depth direction in holding hole has seted up the straight flute, the straight flute is kept away from the open-ended one end in holding hole with spiral guiding groove intercommunication, the connecting block slides and sets up in spiral guiding groove.

Through adopting above-mentioned technical scheme, when the installation piece was located the adjustment tank, the connecting block on the lifter was located spiral guide groove, utilized at spiral guide groove restriction connecting block lift, and then made the installation piece restriction at the adjustment tank. When installing the replacement callus on the sole to the installation piece, press the installation piece and make the connecting block shift to the straight flute along spiral guiding groove in to sliding along the straight flute, making the installation piece break away from the adjustment tank, and then the replacement callus on the sole fully contacts.

Preferably, the accommodating hole is internally provided with a lifting spring for pushing the mounting piece to leave the notch of the adjusting groove, one end of the lifting spring abuts against one end of the lifting rod far away from the rotating rod, and the other end of the lifting spring is fixedly arranged at the bottom of the accommodating hole.

Through adopting above-mentioned technical scheme, this lifter is held in the lift spring top, utilizes lift spring's elasticity can enough hold the connecting block top in spiral guiding groove and realize the locking to the lifter. Meanwhile, the connecting block can be pushed to slide along the straight groove, so that the mounting piece can be pushed out of the adjusting groove.

Preferably, a protruding block is arranged at a position, opposite to the spiral guide groove, in the straight groove, and when the lifting rod retracts into the accommodating hole, the connecting block abuts against the protruding block.

Through adopting above-mentioned technical scheme to be provided with protruding piece in the intercommunication department of straight flute and spiral guiding groove for when the connecting block along the straight flute sideslip to with spiral guiding groove intercommunication department, protruding piece butt in the side of connecting block, thereby exert elasticity to the connecting block, in order to change the removal trend of connecting block, make the connecting block can be by the straight flute redirecting removal to the opening of spiral guiding groove in, and finally get into in the spiral guiding groove.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the bottom surface of the mouse body is provided with a movable block capable of sliding, a replacement foot pad can be arranged on the mounting piece according to the use habit of a user, and the position of the replacement foot pad can be changed at will according to the gesture of using the mouse body, so that the operation habit of the user is adapted;

2. the foot pad and the replacement foot pad are glass foot pads, so that the friction force between the mouse body and the desktop or the mouse pad can be greatly reduced, the sliding speed of the mouse body is favorably improved, and the use comfort of a user is improved.

Drawings

FIG. 1 is a bottom view of the overall structure of the present embodiment;

FIG. 2 is a sectional view of FIG. 1 showing the inner structure of the adjustment tank;

FIG. 3 is a sectional view showing the fitting relationship between the movable block and the filling block in the adjustment groove;

fig. 4 is a sectional view for embodying the internal structure of the moving block;

FIG. 5 is a schematic view showing the assembly relationship between the turning rod and the lifting rod in the present embodiment;

fig. 6 is a partially-shown view for showing a structure of a communication between a straight groove and a spiral guide groove.

Description of reference numerals: 10. a mouse body; 11. a foot pad slot; 12. a foot pad; 20. an adjustment groove; 21. a limiting edge; 22. filling blocks; 23. a positioning groove; 24. pressing and holding the edge; 25. a jacking spring; 30. a moving block; 31. an abutting edge; 32. a ball bearing; 33. rotating the beads; 34. mounting a sheet; 35. anti-skid convex points; 36. replacing the foot pad; 37. a housing hole; 38. rotating the rod; 381. a shaft lever; 39. a lifting rod; 391. inserting holes; 310. connecting blocks; 311. a lift spring; 312. a straight groove; 313. a spiral guide groove; 314. clamping the notch; 315. a guide surface; 316. and (4) a convex block.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

A mouse with a replaceable foot pad is disclosed, referring to fig. 1, and comprises a mouse body 10, wherein the surface of the mouse body 10 is hollowed out so as to reduce the weight of the mouse body 10. The bottom surface of the mouse body 10 is provided with four foot pad 12 grooves 11, the number of the foot pad 12 grooves 11 is four, and the four foot pad 12 grooves 11 are respectively positioned at four corners of the bottom surface of the mouse body 10. The callus on the sole 12 has callus on the sole 12 in 11 demountable installation, and the material of callus on the sole 12 is the glass callus on the sole.

Referring to fig. 1 and 2, an adjusting groove 20 is further formed in the bottom surface of the mouse body 10, the adjusting groove 20 is located between the two grooves 11 of the foot pad 12, a limiting edge 21 is fixedly mounted at a notch of the adjusting groove 20, and a distance between the opposite limiting edges 21 in the adjusting groove 20 is smaller than a width of the adjusting groove 20. In this embodiment, the adjustment groove 20 is disposed in a cross shape. The adjustment groove 20 is provided with a plurality of filling blocks 22 for filling the adjustment groove 20, and the plurality of filling blocks 22 are distributed in parallel along the length direction of the adjustment groove 20. One side of the filling block 22, which faces away from the mouse body 10, is provided with a positioning groove 23, and the positioning groove 23 is located at the center of the surface of the filling block 22. The edge of the filling block 22 is integrally formed with a pressing edge 24, the pressing edge 24 abuts against one side of the limiting edge 21 facing the inside of the mouse body 10, and the side surface of the pressing edge 24 is inclined toward the center of the filling block 22. A propping spring 25 is fixedly installed on one side of the filling block 22 facing the mouse body 10, one end of the propping spring 25 is fixedly connected to the side facing the filling block 22, the other end of the propping spring 25 is fixedly connected to the bottom of the adjusting groove 20, and the propping spring 25 abuts the filling block 22 at the position of the limiting edge 21.

Referring to fig. 3, a moving block 30 for mounting other foot pads 12 is further slidably mounted in the adjusting groove 20, specifically, the moving block 30 is integrally arranged in a quadrangular frustum pyramid shape, a small opening end of the moving block 30 is inserted into the adjusting groove 20, a large opening end of the moving block 30 faces the direction of the notch of the adjusting groove 20, and a side surface of the moving block 30 is slidably abutted to the pressing edge 24 of the filling block 22. The large opening end of the moving block 30 is provided with an abutting edge 31, the abutting edge 31 abuts against one side of the limiting edge 21 facing the inside of the mouse body 10, a ball 32 is rotatably mounted on the abutting edge 31, and the ball 32 is in rolling contact with the surface of the limiting edge 21. A rotating ball 33 is embedded in the bottom surface of the small opening end of the moving block 30, and the rotating ball 33 is in rolling contact with the surface of the filling block 22. And when the moving block 30 moves along the adjustment groove 20, the moving block 30 presses the filling block 22 into the adjustment groove 20. When moving block 30 stops moving, rotating balls 33 are clamped in positioning grooves 23.

Referring to fig. 3, the surface of the large opening end of the moving block 30 is movably provided with an installation piece 34, the installation piece 34 is square, the surface of the installation piece 34 is provided with an anti-skid convex point 35, and the thickness of the installation piece 34 is matched with the thickness of the limiting edge 21. A distance gap for the mounting piece 34 to be pushed down and bounced is reserved between the mounting piece 34 and the surface of the moving block 30. The mounting piece 34 is detachably provided with a replacing foot pad 36, and one side of the replacing foot pad 36, which is abutted against the tabletop, is made of glass. The mounting piece 34 is provided with an attracting magnet, the surface of the replacing foot pad 36 is provided with an auxiliary magnet, and the auxiliary magnet and the attracting magnet are in attracting fit. In this embodiment, different replacement footpads 36 may be replaced by the user's usage habits to select appropriate parameters of the replacement footpad 36, such as the size, shape, thickness, and bottom surface smoothness of the replacement footpad 36.

Referring to fig. 4 and 5, a receiving hole 37 is formed in one side of the large opening end of the moving block 30, a rotating rod 38 and a lifting rod 39 are slidably disposed in the receiving hole 37, the rotating rod 38 is rotatably connected to the lifting rod 39, the lifting rod 39 is located inside the receiving hole 37, one end of the rotating rod 38 protrudes out of the opening of the receiving hole 37, and one end of the rotating rod 38 protruding out of the opening of the receiving hole 37 is fixedly connected to the central point of the surface of the mounting plate 34. A shaft rod 381 is integrally formed at an end of the rotating rod 38 away from the opening of the accommodating hole 37, and the shaft rod 381 and the rotating rod 38 are arranged along the same central line. One end of the lifting rod 39 is provided with a rotating insertion hole 391, the shaft rod 381 is rotatably inserted into the rotating insertion hole 391, and the shaft rod 381 and the lifting rod 39 cannot be separated from each other, so that the rotating rod 38 and the lifting rod 39 can rotate relatively independently.

Referring to fig. 4, a lifting spring 311 for pushing the lifting rod 39 and the rotating rod 38 out of the accommodating hole 37 is further installed in the accommodating hole 37, one end of the lifting spring 311 is fixedly connected to the bottom surface of the accommodating hole 37, and the other end of the lifting spring 311 is fixedly connected to an end surface of the lifting rod 39 far away from the rotating rod 38.

Referring to fig. 5 and 6, the side wall of the lifting rod 39 is integrally formed with a connection block 310, and the connection block 310 protrudes from the side wall of the lifting rod 39. The hole wall of the containing hole 37 is provided with a straight groove 312, the height of the straight groove 312 is larger than the thickness of the limiting edge 21, the straight groove 312 is arranged along the depth direction of the containing hole 37, and the groove width of the straight groove 312 is matched with the width of the connecting block 310. The hole wall of the containing hole 37 is further provided with a spiral guiding groove 313, the connecting block 310 is connected in a sliding mode along the spiral guiding groove 313, the spiral guiding groove 313 is arranged in a spiral mode around the center line of the containing hole 37, and the height of the spiral guiding groove 313 is smaller than the distance clearance between the mounting piece 34 and the surface of the moving block 30. The starting end of the spiral guiding groove 313 is spiral towards the direction close to the mouse body 10, the starting end of the spiral guiding groove 313 is provided with a clamping notch 314, one side edge of the clamping notch 314 close to the straight groove 312 is a guiding surface 315, and the guiding surface 315 is obliquely arranged towards the direction inside the clamping notch 314. An end of the straight groove 312 remote from the opening of the accommodation hole 37 communicates with the spiral guide groove 313. When the connecting block 310 is clamped in the clamping notch 314, the mounting piece 34 is located in the adjusting groove 20. When the connection block 310 is transferred from the spiral guide groove 313 to the straight groove 312, the elastic force of the lifting spring 311 pushes the lifting rod 39 to slide toward the opening direction close to the containing hole 37, so that the installation piece 34 can be separated from the limit of the limit edge 21, protrude from the bottom surface of the mouse body 10, and can rotate around the shaft 381. At this time, the mounting piece 34 is rotated around the shaft 381, so that the edge of the mounting piece 34 and the edge of the limiting edge 21 are in a non-flush or vertical state, and the mounting piece 34 is limited from being retracted into the adjusting groove 20 again by abutting the mounting piece 34 on the side surface of the limiting edge 21 away from the mouse body 10.

Referring to fig. 5 and 6, a protrusion 316 for guiding the connection block 310 located in the straight groove 312 to quickly return to the spiral guide groove 313 is further installed in the straight groove 312, the protrusion 316 is elastically disposed, the protrusion 316 is located on one side wall of the straight groove 312, and the center point of the protrusion 316 is at the same height as the edge of the guide surface 315 in the spiral guide groove 313. After the mounting plate 34 is aligned, the mounting plate 34 is pressed to slide the lifting rod 39 toward the inside of the receiving hole 37, the connecting block 310 abuts against the surface of the protrusion 316, a transverse force is applied to the connecting block 310 under the elastic force of the protrusion 316 to change the moving path of the connecting block 310, and when the connecting block 310 is aligned with the notch of the spiral guide groove 313, the connecting block 310 enters the spiral guide groove 313 under the guiding fit of the guide surface 315, and finally the connecting block 310 is clamped in the clamping notch 314 to lock the lifting rod 39.

The implementation principle of the application is as follows: when the user wants to change the position, size, etc. of the foot pad 12 according to the usage habit of the mouse body 10, the surface of the mounting piece 34 is pressed, the mounting piece 34 drives the rotating rod 38 and the lifting rod 39 to slide towards the containing hole 37, so that the connecting block 310 on the lifting rod 39 moves into the straight groove 312 under the guidance of the side surface of the spiral guide groove 313, and slides along the straight groove 312 under the action of the elastic force of the lifting spring 311 until the mounting piece 34 is pushed out of the adjusting groove 20. Thereafter, the mounting piece 34 is rotated so that the surface of the mounting piece 34 abuts on the bottom surface of the mouse body 10, and the mounting piece 34 is restricted from returning to the adjustment groove 20 by the misalignment of the posture of the mounting piece 34 with the adjustment groove 20 at this time. The replacement mat 36 is attached to the surface of the mounting piece 34, and the size, shape, thickness, etc. of the replacement mat 36 are determined by the preference of the user. And the rotation angle of the mounting piece 34 can be adjusted to make the contact area between the mounting piece 34 and the replacement foot pad 36, so that the replacement foot pad 36 can be more firmly attracted with the mounting piece 34.

The moving block 30 is driven to slide along the adjustment groove 20 by the anti-slip protrusions 35 abutting on the surface of the mounting piece 34 to change the position of the moving block 30. When the moving block 30 moves in the adjusting groove 20, the design is made by the arc-shaped side surface of the moving block 30 and the inclined pressing edge 24 of the filling block 22, so that when the moving block 30 is driven by the moving force, the arc-shaped side surface presses on the pressing edge 24, and the filling block 22 is pressed between the moving block 30 and the groove bottom of the adjusting groove 20. When the moving block 30 moves to a proper position, the rotating balls 33 at the end part of the moving block 30 are in clamping fit with the positioning grooves 23 on the surfaces of the pressing and holding filling blocks 22, so that the shaking of the moving block 30 is limited, and the replacement foot pad 36 is matched with other foot pads 12 to improve the use hand feeling of the mouse body 10.

When the replacement foot pad 36 does not need to be installed, the replacement foot pad 36 is separated from the mounting piece 34, and the posture of the mounting piece 34 is adjusted so that the mounting piece 34 can be placed in the adjustment groove 20 again. When the mounting piece 34 is pressed, the connecting block 310 slides along the straight groove 312 toward the spiral guide groove 313, and the side surface of the connecting block 310 abuts against the protrusion block 316, the moving path of the connecting block 310 is changed by the elastic force of the protrusion block 316 to enter the opening of the spiral guide groove 313, and then the connecting block slides along the spiral guide groove 313 into the clamping notch 314, so that the mounting piece 34 is limited in the adjusting groove 20.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a mouse of displaceable callus on sole, includes mouse body (10) and set up in callus on the sole (12) on mouse body (10) bottom surface, its characterized in that: the mouse comprises a mouse body (10), wherein a foot pad (12) groove (11) used for mounting the foot pad (12) is formed in the bottom surface of the mouse body (10), a moving block (30) used for mounting other foot pads (12) is arranged on the bottom surface of the mouse body (10), an adjusting groove (20) used for adjusting the position of the moving block (30) is further formed in the bottom surface of the mouse body (10), the moving block (30) slides in the adjusting groove (20), a mounting piece (34) is arranged on the surface of the moving block (30), the mounting piece (34) protrudes out of the bottom surface of the mouse body (10), a replacement foot pad (36) is detachably arranged on the mounting piece (34), the size and the shape of the replacement foot pad (36) are selected according to the use habit of a user, and the foot pad (12) and the replacement foot pad (36) are both made of glass.

2. The mouse with replaceable foot pad according to claim 1, wherein: the surface of the mouse body (10) is arranged in a hollow manner.

3. The mouse with replaceable foot pad according to claim 1, wherein: the edge of the moving block (30) is provided with an abutting edge (31), a limiting edge (21) is arranged at the notch of the adjusting groove (20), the abutting edge (31) slides and abuts against one side, facing the inside of the mouse body (10), of the limiting edge (21), a ball (32) is arranged on the abutting edge (31), and the ball (32) rolls and abuts against the surface of the limiting edge (21).

4. The mouse with replaceable foot pad according to claim 1, wherein: the mouse is characterized in that a plurality of filling blocks (22) used for filling gap gaps in the adjusting groove (20) are arranged in the adjusting groove (20), the plurality of filling blocks (22) are distributed in the adjusting groove (20) in parallel, the moving block (30) is in butt fit with the adjacent filling blocks (22), a jacking spring (25) is arranged on one side, facing the inside of the mouse body (10), of each filling block (22), and the other end of each jacking spring (25) is in butt joint with the bottom of the adjusting groove (20).

5. The mouse with replaceable foot pad according to claim 4, wherein: the moving block (30) is arranged in a quadrangular frustum pyramid shape, the mounting piece (34) is positioned on the bottom surface of a large opening end in the moving block (30), a pressing and holding edge (24) is arranged on the edge of the filling block (22), and the pressing and holding edge (24) is abutted to the side surface of the moving block (30).

6. The mouse with replaceable foot pads according to claim 5, wherein: the side surface of the pressing edge (24) is inclined towards the center of the surface of the filling block (22).

7. The mouse with replaceable foot pad according to claim 4, wherein: a rotating bead (33) is embedded in the bottom surface of one side, facing the inside of the mouse body (10), of the moving block (30), the rotating bead (33) abuts against the surface of the filling block (22), a positioning groove (23) used for fixing the moving block (30) is formed in the surface of the filling block (22), and the rotating bead (33) is clamped in the positioning groove (23).

8. The mouse with replaceable foot pad according to claim 1, wherein: the movable block (30) is internally provided with a rotating rod (38) and a lifting rod (39) in a sliding manner, one end of the rotating rod (38) is fixedly connected with the installation piece (34), the other end of the rotating rod (38) is rotatably connected with the lifting rod (39), a connecting block (310) is arranged on the side face of the lifting rod (39), a containing hole (37) for containing the lifting rod (39) and the rotating rod (38) is arranged in the movable block (30), a spiral guide groove (313) for guiding the lifting rod (39) to rotate is arranged on the hole wall of the containing hole (37), a straight groove (312) is further formed in the hole wall of the containing hole (37) along the depth direction of the containing hole (37), one end, far away from the opening of the containing hole (37), of the straight groove (312) is communicated with the spiral guide groove (313), and the connecting block (310) is slidably arranged in the spiral guide groove (313).

9. The mouse capable of replacing the foot pad according to claim 8, wherein: the containing hole (37) is internally provided with a lifting spring (311) used for pushing the mounting piece (34) to leave the notch of the adjusting groove (20), one end of the lifting spring (311) is abutted to one end, far away from the rotating rod (38), of the lifting rod (39), and the other end of the lifting spring (311) is fixedly arranged at the bottom of the containing hole (37).

10. The mouse capable of replacing the foot pad according to claim 8, wherein: and a protruding block (316) is arranged at the position, opposite to the spiral guide groove (313), in the straight groove (312), and when the lifting rod (39) retracts into the accommodating hole (37), the connecting block (310) abuts against the protruding block (316).

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