CN109782891B

CN109782891B - Mouse with key feedback mechanism

Info

Publication number: CN109782891B
Application number: CN201711104530.0A
Authority: CN
Inventors: 蔡泳铭; 吴俊哲; 周以德; 陈仲渊
Original assignee: Primax Electronics Ltd
Current assignee: Primax Electronics Ltd
Priority date: 2017-11-10
Filing date: 2017-11-10
Publication date: 2022-05-03
Anticipated expiration: 2037-11-10
Also published as: CN109782891A

Abstract

The invention provides a mouse with a key feedback mechanism, which comprises a mouse body and a key module, wherein the mouse body is provided with a mouse input end and a mouse output end; the mouse body is provided with an upper shell, a lower shell and a hollow cylinder; the key module comprises a key, a key sensing element, an elastic element, a suction element and a cantilever element. The key sensing element is arranged in the accommodating space and is electrically connected with the mouse body; the elastic element is arranged in the hollow cylinder and is positioned below the key, and the key is abutted against the elastic element; the suction element is arranged on the upper shell; the cantilever part is provided with a connecting section and a free section, the connecting section penetrates through the hollow cylinder to be connected with the elastic element, and the free section is arranged below the attraction element; thereby achieving the effect of increasing the sound feedback and the tactile feedback.

Description

Mouse with key feedback mechanism

Technical Field

The invention relates to a mouse with a key feedback mechanism.

Background

During the process of editing a computer file, a button of a mouse is usually pressed to click or open an electronic file of the file to be edited, or after the electronic file of the file is opened, a button of the mouse is pressed to click a content to be edited in the electronic file, or during computer drawing, a button of the mouse is pressed to click a drawing or draw a drawing.

The existing mouse mainly comprises a mouse body, a roller module and a key module; the roller module and the key module are respectively arranged on the mouse body; the key module comprises a pair of keys, a pair of springs and a pair of key sensing elements, wherein the springs are arranged below the keys, the keys are connected with the key sensing elements, and therefore the keys are pressed to trigger the key sensing elements, so that the key sensing elements generate a key signal, and meanwhile, the springs positioned below the keys are also compressed downwards by the keys; then, after the force applied to press the key is removed, the key is rebounded to the non-pressed position by the restoring force of the spring.

However, when a user edits an electronic document or performs computer graphics, the user often cannot accurately sense whether the button has rebounded to an un-pressed position after the button is pressed and whether the next click action can be performed, so that a feedback mechanism of the mouse button needs to be added to increase the use hand feeling when the user operates the mouse.

Disclosure of Invention

The invention mainly aims to provide a mouse with a key feedback mechanism.

In a preferred embodiment, the present invention provides a mouse with a key feedback mechanism, comprising a mouse body and a key module; the mouse body is provided with an upper shell, a lower shell and at least one hollow cylinder, the upper shell corresponds to the lower shell cover, an accommodating space is formed between the upper shell and the lower shell, and the hollow cylinder extends out from the upper shell to the accommodating space; the key module comprises at least one key, at least one key sensing element, at least one elastic element, at least one suction element and at least one cantilever piece; the key is covered outside the upper shell correspondingly, and is provided with a pressure lever and a pressing part; the key sensing element is arranged in the accommodating space and is electrically connected with the mouse body, and the pressing rod is connected with the key sensing element; the elastic element is arranged in the hollow cylinder and is arranged below the pressing part, and the pressing part is abutted against one end part of the elastic element, which is adjacent to the upper shell; the suction element is arranged on the upper shell; one side of the cantilever part is provided with a connecting section and the other side is provided with a free section, the connecting section passes through the hollow cylinder to be connected with the elastic element, the free section is correspondingly arranged below the attraction element, and the free section can be attracted by the attraction element to move towards the attraction element; therefore, the effect of increasing sound feedback and touch feedback is achieved, and the use hand feeling of a user is increased.

Preferably, the upper housing is provided with an opening communicating with the inside of the hollow cylinder at a position above the hollow cylinder, one side of the elastic element adjacent to the upper housing is a pressed end, the pressed end can penetrate out of the upper housing from the opening, and the pressed end is correspondingly abutted to the pressed end; preferably, a groove is formed on a side wall surface of the hollow cylinder, the groove is communicated with the inside of the hollow cylinder, the connecting section passes through the groove and is connected with the elastic element, the connecting section can move along the groove, and the connecting section is adjacent to the pressed end; preferably, the cutting groove is positioned at one side of the hollow cylinder adjacent to the key and is communicated with the opening; thereby prolonging the service life of the mouse.

Preferably, the mouse body further includes at least a hollow column extending from the upper housing toward the accommodating space, the attraction element is mounted in the hollow column and mounted on the upper housing, the free section is located below the bottom of the hollow column, and the free section can move toward the bottom of the hollow column by attraction of the attraction element; preferably, the bottom of the hollow column is provided with a notch, and when the free section is attracted by the attraction element, the free section can pass through the notch and abut against the bottom of the attraction element; preferably, a supporting portion is formed on an inner wall surface of the hollow column, the suction element is disposed on the supporting portion, a limiting space is formed between a bottom of the suction element and a bottom of the hollow column, a long groove communicated with an inner space of the hollow column is formed on one side of the hollow column, the free section penetrates into the hollow column by penetrating through the long groove and is located in the limiting space, and the free section can move along the long groove.

Preferably, the key module further comprises at least one adjusting member, the adjusting member comprises a screw element and a supporting member, the supporting member is installed in the hollow cylinder and located below the elastic element and used for supporting the elastic element, and the screw element sequentially penetrates through the lower shell and the bottom of the hollow cylinder to be connected with the supporting member; therefore, the corresponding feedback sound or feedback touch feeling can be adjusted according to different requirements.

Preferably, the adjusting member further comprises a screw hole provided in the lower housing and a through hole provided in the bottom of the hollow cylinder, the screw hole is communicated with the through hole, the screw connection element has a head and a threaded rod extending from the head, the threaded rod is sequentially connected with the screw hole and the through hole from the bottom of the lower housing in a screw connection manner to connect the supporting member; preferably, the adjusting member further comprises a hollow sleeve and a groove formed in the lower housing, the groove is located below the hollow cylinder, the hollow sleeve is installed in the groove, the screw hole is formed in the lower housing by being formed in the hollow sleeve, and the threaded rod penetrates through the hollow sleeve and is in threaded connection with the screw hole; preferably, the adjusting member further comprises a receiving slot provided in the lower housing, and the head is received in the receiving slot.

Preferably, the groove is located on one side of the lower shell adjacent to the hollow cylinder, the accommodating groove is located on one side of the lower shell far away from the hollow cylinder, and the accommodating groove is communicated with the screw hole; preferably, the adjusting member further includes a through hole provided in the lower housing and through which the threaded rod passes, the through hole being located between the groove and the accommodating groove, the groove and the accommodating groove being communicated with each other through the through hole; preferably, the supporting member has a supporting plate, one side of the supporting plate is connected to the top end of the threaded rod and the other side is connected to the elastic element; preferably, a groove is formed on a side of the supporting plate adjacent to the elastic element, and the bottom of the elastic element is mounted in the groove.

Preferably, the free section is an element made of a metal element, and the attraction element is an electromagnet; preferably, the button module further comprises a control unit, the control unit is installed in the accommodating space and electrically connected to the mouse body, and the control unit is electrically connected to the attraction element; preferably, the free section is an element made of a metal element, and the attracting element is a permanent magnet; preferably, the elastic element is a spring.

The mouse with the key feedback mechanism has the beneficial effects that through the design of the elastic element, the attraction element and the cantilever part, the sound feedback and the touch feedback can be realized when the key module of the mouse is used, so that the use hand feeling of a user is improved.

Drawings

FIG. 1 is a partial cross-sectional view of a mouse with a key feedback mechanism according to a first embodiment of the present invention.

FIG. 2 is a partial cross-sectional view of a mouse with a key feedback mechanism according to a second embodiment of the present invention.

FIG. 3 is a partial cross-sectional view of a mouse with a key feedback mechanism according to a third embodiment of the present invention.

FIG. 4 is a partial cross-sectional view of a mouse with a button feedback mechanism according to a fourth embodiment of the present invention.

FIG. 5 is a diagram of a fifth embodiment of a mouse with a key feedback mechanism according to the present invention.

FIG. 6 is a partial cross-sectional view of a fifth embodiment of the mouse with a button feedback mechanism according to the present invention.

The reference numbers are as follows:

10 mouse body

11 upper shell

111 opening

12 lower shell

13 hollow cylinder

131 groove

132 perforation

14 hollow column

141 gap

142 supporting part

143 long groove

144 spacing distance

15 roller module

16 circuit board

17 accommodating space

20 key module

21 push button

211 compression bar

212 pressing part

22 key sensing element

23 elastic element

231 compression end

24 suction element

25 cantilever part

251 connection segment

252 free segment

26 control unit

27 adjustment member

271 screw element

2711 head

2712 threaded rod

272 support member

2722 supporting plate

2723 concave groove

273 groove

274 penetrating the hole

275 trough

276 hollow sleeve

277 screw hole

30 space of interval

Detailed Description

Please refer to fig. 1, which is a partial cross-sectional view of a mouse with a key feedback mechanism according to a first embodiment of the present invention; the mouse with the key feedback mechanism comprises a mouse body 10 and a key module 20.

The mouse body 10 has an upper shell 11, a lower shell 12, a pair of hollow cylinders 13, a pair of hollow columns 14, a roller module 15 and a circuit board 16; the upper shell 11 corresponds to the cover of the lower shell 12, and an accommodating space 17 is formed between the upper shell 11 and the lower shell 12; each hollow cylinder 13 and each hollow column 14 extend from the upper shell 11 to the accommodating space 17; each upper shell 11 is provided with an opening 111 at a position above the corresponding hollow cylinder 13, and each opening 111 is communicated with the inside of the corresponding hollow cylinder 13; a sectional groove 131 is formed in the side wall surface of each hollow cylinder 13, each sectional groove 131 is respectively communicated with the inside of the corresponding hollow cylinder 13, each sectional groove 131 is respectively positioned on one side of the corresponding hollow cylinder 13 adjacent to the key 21, and each sectional groove 131 is communicated with the corresponding opening 111; the bottom of each hollow column 14 is opened with a notch 141.

The circuit board 16 is installed in the accommodating space 17 and fixed on the lower case 12, the roller module 15 is installed in the accommodating space 17, and a part of the outer surface of the roller module 15 penetrates through the upper case 11 and is exposed outside the mouse body 10.

The key module 20 includes a pair of keys 21, a pair of key sensing elements 22, a pair of elastic elements 23, a pair of attracting elements 24, and a pair of cantilever members 25; the keys 21 are covered on the outer part of the upper shell 11 correspondingly, each key 21 is provided with a press rod 211 and a press part 212, and each press rod 211 is positioned between the corresponding hollow cylinder 13 and the hollow column 14; each key sensing element 22 is installed in the accommodating space 17 and electrically connected to the circuit board 16, each key sensing element 22 is disposed corresponding to each pressing rod 211, each pressing rod 211 penetrates through the upper shell 11, so that the free end of each pressing rod 211 is connected to the corresponding key sensing element 22 in the accommodating space 17, and each key sensing element 22 is a key sensor.

Each elastic element 23 is respectively installed in the hollow tube 13, each elastic element 23 is respectively located below the pressing portion 212 of the corresponding key 21, one side of each elastic element 23 adjacent to the upper shell 11 is a pressed end 231, each pressed end 231 can penetrate out of each opening 111 of the upper shell 11 and is exposed outside the upper shell 11, the pressing portions 212 of each key 21 respectively abut against the pressed ends 231 of the corresponding elastic elements 23, so that the pressed ends 231 of each elastic element 23 can be pressed by the corresponding pressing portions 212; each elastic element 23 is a spring.

Each attracting element 24 is installed inside the corresponding hollow column 14, each attracting element 24 is installed on the upper case 11 by being installed inside the corresponding hollow column 14, and each attracting element 24 is a permanent magnet.

One side of each cantilever part 25 is provided with a connecting section 251, the other side of each cantilever part 25 is provided with a free section 252, each connecting section 251 passes through the corresponding sectional groove 131 of the hollow cylinder 13, and the connecting elastic element 23 is adjacent to one side of the pressed end 241, and each connecting section 251 can move along the corresponding sectional groove 131; each free section 252 is positioned below the bottom of the corresponding hollow column 14, and each free section 252 is attracted by the attraction element 24 installed in the corresponding hollow column 14, so that each free section 252 can move towards the bottom of the corresponding hollow column 14; when the corresponding suction element 24 is received by each free segment 252, each free segment 252 can pass through the notch 141 of the corresponding hollow column 14, so that each free segment 252 can be abutted against the bottom of the suction element 24 arranged in the corresponding hollow column 14; each of the free sections 252 is a metal element, or each of the free sections 252 is a metal element made of a metal material containing a magnetic substance such as iron, cobalt, or nickel.

When the touch key is used, when a user presses one of the keys 21 with a finger to move the pressed key 21 downward, the pressing rod 211 and the pressing part 212 of the key 21 move downward along with the key 21, so that the pressing rod 211 presses the key sensing element 15, and the key sensing element 15 generates a key signal; furthermore, the pressing portion 212 presses the pressed end 231 of the elastic element 23, so that the elastic element 23 is pressed in a direction away from the upper housing 11, and further drives the corresponding cantilever 25 to move in a direction away from the upper housing 11, so that the free section 252 of the cantilever 25 moves away from the bottom of the suction element 24, and moves in a direction away from the suction element 24; when the user removes the finger of the user pressing the key 21 and the force applied on the pressed key 21 disappears, the resilient force generated by the elastic element 23 will make the key 21 move upward and move back to the original state without being pressed, and at the same time, the elastic element 23 will drive the cantilever 25 to move upward, and the attraction element 24 can attract the free section 252 of the cantilever 25 to move toward the attraction element 24 at the same time, until the free section 252 passes through the notch 141 of the hollow column 14 and abuts against the bottom of the attraction element 24, and at this time, the free section 252 will generate a feedback sound when touching the attraction element 24; furthermore, since the free segment 252 is attracted by the attraction element 24, the moving speed of the free segment 251 towards the attraction element 24 is increased, and when the free segment 251 touches the attraction element 24, the haptic feedback is generated, so that the effects of generating sound feedback and haptic feedback can be achieved, and the use hand feeling of the user can be increased.

Furthermore, elastic elements with different lengths can be replaced in each hollow cylinder 13, so that the pressing stroke of each key 21 can be adjusted, and the effect of adjusting the stroke of each key is achieved; in addition, the elastic elements 23 with different elastic coefficients can be replaced in the hollow cylinders 13, so as to adjust the pressing force of the different buttons 21, thereby achieving the effect of adjusting the force of the buttons 21 and adjusting the use hand feeling.

In addition, the elastic element 23 is arranged in the hollow cylinder 13 and the suction element 24 is arranged in the hollow column 14, so that the elastic element 23 or the suction element 24 can be conveniently assembled or disassembled in the process of assembling or disassembling the mouse, the effect of easily and conveniently assembling or disassembling the mouse is achieved, and the effects of facilitating maintenance and prolonging the service life of the mouse are achieved.

Please refer to fig. 2, which is a partial cross-sectional view of a mouse with a key feedback mechanism according to a second embodiment of the present invention; the main difference from the previous embodiment is that the free section 252 of the cantilever 25 can be designed not to directly contact the attraction element 24 when the key 21 is not pressed, i.e. the free section 252 and the attraction element 24 or the bottom of the hollow column 14 have a space 30; when the user presses the key 21 and removes the finger from the key 21, the free section 252 is also driven upward by the resilience of the elastic element 23, at the same time, the free section 252 is attracted by the attraction element 24 and moves toward the attraction element 24, but, since the free section 252 and the attraction member 24 or the bottom of the hollow column 14 have the spacing space 30, when the elastic member 23 rebounds the key 21 to the original state, it will only move to a position near the bottom of the suction element 24 or the bottom of the hollow column 14 at the free section 252, since the free section 252 does not directly touch the bottom of the suction member 24 or the bottom of the hollow column 14, therefore, feedback sound is not generated, but the button 21 generates resilient hand feeling, and touch feedback can be generated, therefore, the effect of reducing noise and having tactile feedback is achieved, and the device can be used in occasions requiring silence.

Please refer to fig. 3, which is a partial cross-sectional view of a mouse with a key feedback mechanism according to a third embodiment of the present invention; the main difference from the foregoing embodiment is that a supporting portion 142 is formed on the inner wall surface of each hollow column 14, and one side of each hollow column 14 is opened with a long groove 143 communicating with the inner space of the hollow column 14; each attraction element 24 is respectively arranged on the corresponding support part 142, so that each support part 142 can support the corresponding attraction element 24, and a limit space 144 is formed between the bottom of the attraction element 24 and the bottom of the hollow column 14; the free sections 252 of each cantilever member 25 can penetrate into the hollow column 14 through the corresponding long slots 143, and each free section 252 can move along the corresponding long slots 143, so that each free section 252 is located in the corresponding limiting space 144, and each free section 252 can only move in the corresponding limiting space 144; therefore, when the key 21 is pressed, the elastic element 23 drives the cantilever 25 to move downward, so that the free section 252 moves in a direction away from the attraction element 24, at this time, the free section 252 does not move downward when touching the bottom of the hollow column 14, and after the force is applied to the key 21, the free section 252 approaches the attraction element 24 due to the resilience of the elastic element 23 and the attraction of the attraction element 24, and finally touches the bottom of the attraction element 24, thereby generating a movement limiting effect on the free section 252 through the design of the supporting portion 142.

In addition, each connecting segment 251 can move along the corresponding cutting groove 131 and each driven segment 252 can move along the corresponding long groove 143, so that each cantilever part 25 can keep linear movement without deviation when moving, the service life of each elastic element 23 and each cantilever part 25 can be prolonged, the pressing stroke tolerance of each key 21 can be reduced, and the key stroke of each key 21 can achieve more accurate effect.

Please refer to fig. 4, which is a partial cross-sectional view of a mouse with a button feedback mechanism according to a fourth embodiment of the present invention, the difference between the embodiments is that the attraction element 24 is an electromagnet; the key module 20 further includes a control unit 26, the control unit 26 is installed in the accommodating space 17 of the mouse body 10, and the control unit 26 is disposed on the circuit board 16 and electrically connected to the circuit board 16; the control unit 26 is a microcontroller.

Each attraction element 24 can be driven by the control unit 26 to generate a magnetic field, so that each attraction element 24 generates a magnetic attraction force on the free section 252 of the corresponding cantilever part 25, and each free section 252 can be attracted by the corresponding attraction element 24; after the user removes the force applied to the key 21, the free sections 252 can be attracted by the corresponding attraction element 24 and move towards the attraction element 24, so that the free sections 252 touch the corresponding attraction element 24 or the position adjacent to the attraction element 24.

Therefore, the magnetic field of each attraction element 24 can be adjusted by the control unit 26, so that each attraction element 24 can generate different magnetic attraction forces on the corresponding free section 252, the moving speed of each free section 252 towards the corresponding attraction element is changed, and each section 252 generates different touch force and different touch sounds on the corresponding attraction element 24, so that different effects of tactile feedback and sound feedback can be achieved by adjusting the magnetic field of each attraction element 24 by using the control unit 26.

Please refer to fig. 5 and fig. 6, which are schematic diagrams and partial cross-sectional views of a fifth embodiment of the mouse with a key feedback mechanism according to the present invention, and the key module 20 further includes a pair of adjusting members 27, each adjusting member 27 includes a screw element 271, a supporting member 272, a groove 273, a through hole 274, a receiving groove 275, a hollow sleeve 276 and a screw hole 277; each threaded element 271 has a head 2711 and a threaded shaft 2712 extending from the head 2711.

Each support 272 is installed in the corresponding hollow cylinder 13 and located below the elastic element 23, so as to support the corresponding elastic element 23; each supporting member 272 has a supporting plate 2722, each supporting plate 2722 is connected to and supports a corresponding elastic element 23, one side of each supporting plate 2722 adjacent to a corresponding elastic element 23 is provided with a pair of grooves 2723, and the bottom of each elastic element 23 is installed in the corresponding groove 2723; the bottom of each hollow cylinder 13 is formed with a through hole 132.

Each concave groove 273, each through hole 274 and each containing groove 275 are respectively arranged on the lower shell 12, each concave groove 273 is positioned below the corresponding hollow cylinder 13, each through hole 274 is respectively communicated with the corresponding concave groove 273 and containing groove 275, and each through hole 274 is positioned between the corresponding concave groove 273 and containing groove 275; each through hole 274 is used for the corresponding threaded rod 2712 to pass through.

Each hollow sleeve 276 is arranged in the corresponding groove 273, and each screw hole 277 is arranged in the corresponding hollow sleeve 276; each concave groove 273 is located at one side of the lower casing 12 adjacent to the corresponding hollow cylinder 13, each receiving groove 275 is located at one side of the lower casing 12 away from the corresponding hollow cylinder 13, and each receiving groove 275 is communicated with the corresponding screw hole 277.

The head 2711 of each screw element 271 is received in the corresponding slot 275, the threaded rod 2712 of each screw element 271 is sequentially threaded through the corresponding through hole 274 and the screw hole 277 of the corresponding hollow sleeve 276, and finally the top end of each threaded rod 2712 is threaded through the through hole 132 of the hollow barrel 13 and connected with each support plate 2722.

When in use, the head 2711 of one of the screw elements 271 is rotated to drive the threaded rod 2712 to rotate, so that the threaded rod 2712 pushes the corresponding support 272 to move in a direction away from the bottom of the corresponding hollow cylinder 13, and the support 272 pushes the corresponding elastic element 23 in a direction towards the upper shell 11, thereby shortening the distance between the corresponding key 21 and the support plate 2722, and compressing the elastic element 23 to shorten the height of the elastic element 23; furthermore, the head of one of the screw elements 271 can be rotated reversely to move the threaded rod 2712 in a direction away from the upper housing 11, so as to drive the corresponding support 272 to move in a direction away from the upper housing 11, thereby increasing the distance between the corresponding key 21 and the support plate 2722, so that the elastic element 23 can be released in a sufficient space to increase the height of the elastic element 23; therefore, the height of the elastic element 23 is adjusted by rotating the screw element 271, and the tightness of the elastic element 23 is further adjusted, so that the effect of adjusting the pressing stroke of the key 21 is achieved, and the function of adjusting the force of the key 23 can also be achieved, so that the feedback sound or feedback touch can be adjusted according to different requirements, and the effect of conveniently adjusting the use hand feeling is achieved.

As can be seen from the above description, firstly, by the design of the elastic element 23, the attraction element 24 and the cantilever 25, the sound feedback and the tactile feedback can be obtained when the button module 20 of the mouse is used, so as to increase the use feel of the user; secondly, the connecting section 251 can move along the corresponding sectional groove 131 and the free section 252 can move along the long groove 143, so as to reduce the pressing stroke tolerance of each key 24, and enable the key stroke of each key 21 to achieve more accurate effect; third, the design of the adjusting member 27 is to adjust the tightness of the elastic element 23 to achieve the effect of adjusting the pressing stroke of the button 21 and the function of adjusting the force of the button 21, so as to adjust the feedback sound or feedback touch according to different requirements.

The above description is only a preferred embodiment of the present invention and should not be taken as limiting the claims, so that other equivalent changes and modifications without departing from the spirit of the present invention are intended to be included in the claims.

Claims

1. A mouse with a key feedback mechanism comprises:

the mouse comprises a mouse body and a mouse body, wherein the mouse body is provided with an upper shell, a lower shell and at least one hollow cylinder, the upper shell corresponds to the lower shell cover, an accommodating space is formed between the upper shell and the lower shell, and the hollow cylinder extends out from the upper shell towards the accommodating space; and

a key module, comprising:

at least one key, which is covered outside the upper shell correspondingly to the cover and is provided with a pressure bar and a pressing part;

at least one key sensing element which is arranged in the accommodating space and is electrically connected with the mouse body, and the pressing rod is connected with the key sensing element;

at least one elastic element which is arranged in the hollow cylinder and is arranged below the pressing part, and the pressing part is abutted against one end part of the elastic element adjacent to the upper shell;

at least one suction element mounted to the upper housing; and

at least one cantilever part, one side of which is provided with a connecting section and the other side is provided with a free section, the connecting section and the free section are positioned on the same horizontal plane, the connecting section passes through the hollow cylinder to be connected with the elastic element, the free section is correspondingly arranged below the attraction element, and the free section can be attracted by the attraction element to move towards the attraction element and abut against the bottom of the attraction element;

the upper shell is provided with an opening communicated with the inside of the hollow cylinder at a position above the hollow cylinder, one side of the elastic element, which is adjacent to the upper shell, is a pressed end, the pressed end can penetrate out of the upper shell from the opening, the pressed end is correspondingly abutted against the pressed end, a side wall surface of the hollow cylinder is provided with a cutting groove, the cutting groove is communicated with the inside of the hollow cylinder, the connecting section penetrates through the cutting groove to be connected with the elastic element, the connecting section can move along the cutting groove, and the connecting section is adjacent to the pressed end.

2. The mouse with the button feedback mechanism as claimed in claim 1, wherein the slot is located on a side of the hollow cylinder adjacent to the button and communicates with the opening.

3. The mouse with the feedback mechanism according to claim 1, wherein the mouse body further comprises at least one hollow pillar extending from the upper housing toward the receiving space, the attraction element is mounted in the hollow pillar and mounted in the upper housing, the free section is located below the bottom of the hollow pillar, and the free section can move toward the bottom of the hollow pillar by attraction of the attraction element.

4. The mouse with the button feedback mechanism as claimed in claim 3, wherein a notch is formed at a bottom of the hollow cylinder, and when the free section is received by the attraction element, the free section can pass through the notch to abut against the bottom of the attraction element.

5. The mouse with the key feedback mechanism as claimed in claim 3, wherein a supporting portion is formed on an inner wall surface of the hollow pillar, the suction element is disposed on the supporting portion, a spacing distance is formed between a bottom of the suction element and a bottom of the hollow pillar, a long groove communicated with an inner space of the hollow pillar is formed at one side of the hollow pillar, the free section penetrates into the hollow pillar by passing through the long groove and is located in the spacing distance, and the free section can move along the long groove.

6. The mouse with the button feedback mechanism as claimed in claim 1, wherein the button module further comprises at least one adjusting member, the adjusting member comprises a screw element and a supporting member, the supporting member is installed in the hollow cylinder and located below the elastic element for supporting the elastic element, and the screw element sequentially passes through the lower housing and the bottom of the hollow cylinder to connect to the supporting member.

7. The mouse with the feedback mechanism according to claim 6, wherein the adjusting member further comprises a screw hole formed in the lower housing and a through hole formed in the bottom of the hollow cylinder, the screw member has a head and a threaded rod extending from the head, and the threaded rod is sequentially screwed into the screw hole and threaded through the through hole from the bottom of the lower housing to connect to the supporting member.

8. The mouse with the feedback mechanism according to claim 7, wherein the adjusting member further comprises a hollow sleeve and a groove formed in the lower housing, the groove is located below the hollow cylinder, the hollow sleeve is installed in the groove, the screw hole is formed in the lower housing by being formed in the hollow sleeve, and the threaded rod is threaded through the hollow sleeve and is screwed into the screw hole.

9. The mouse with the button feedback mechanism as claimed in claim 8, wherein the adjusting member further comprises a receiving slot formed in the lower housing, the head being received in the receiving slot.

10. The mouse with the key feedback mechanism as claimed in claim 9, wherein the recess is located at a side of the lower housing adjacent to the hollow cylinder, the receiving groove is located at a side of the lower housing away from the hollow cylinder, and the receiving groove is connected to the screw hole.

11. The mouse with the feedback mechanism according to claim 10, wherein the adjusting member further comprises a through hole formed in the lower housing and through which the threaded rod passes, the through hole being located between the recess and the receiving groove, and the recess and the receiving groove are communicated with each other through the through hole.

12. The mouse with feedback mechanism according to claim 6, wherein the supporting member has a supporting plate connected to the top of the threaded rod at one side and connected to the elastic member at the other side.

13. The mouse with the key feedback mechanism as claimed in claim 12, wherein a groove is formed on a side of the supporting plate adjacent to the elastic member, and a bottom of the elastic member is mounted in the groove.

14. The mouse with the button feedback mechanism as claimed in claim 1, wherein the free segment is a metal component, and the attracting component is an electromagnet.

15. The mouse with the button feedback mechanism as claimed in claim 14, wherein the button module further comprises a control unit, the control unit is installed in the accommodating space and electrically connected to the mouse body, and the control unit is electrically connected to the attraction element.

16. The mouse with the keystroke feedback mechanism of claim 1 wherein the free section is a metal component and the attracting component is a permanent magnet.

17. The mouse with the button feedback mechanism as claimed in claim 1, wherein the elastic element is a spring.