CN108121463A - A kind of mouse - Google Patents

Abstract

The invention discloses a kind of mouses, it includes shell and bottom case, stent is equipped in shell, the bottom of stent is connected to bottom case, and stent can be slided up and down with respect to bottom case, stent is equipped with wiring board, the top of shell is equipped with button, wiring board is equipped with the first button switch, the bottom of wiring board is equipped with the second button switch, bottom case is equipped with photoelectric sensor, first through hole is offered on bottom case, when pressing shell, photoelectric sensor presses the second button switch, bottom case is equipped with transmission mechanism and rolling wheel encoding device, transmission mechanism is connected between shell and rolling wheel encoding device, the torsion that shell generates when rotating is conducted by transmission mechanism to rolling wheel encoding device, and rolling wheel encoding device is driven to rotate, to make rolling wheel encoding device that encoded signal is transmitted to wiring board.Roller structure and mesodesmic structure are provided separately by the present invention, and palm and finger is made full use of to be operated, and so as to reduce the error rate of input process, improve the ease for use of mouse.

Description

A kind of mouse

Technical field

The present invention relates to computer instruction input equipment more particularly to a kind of mouses.

Background technology

Mouse is a kind of command input device of computer, is one of basic accessory of computer.Existing mouse be Two buttons on housing are set, idler wheel is set between two buttons, button can be used for inputting click commands to computer, utilize rolling Wheel can drive the rolling wheel encoding device inside mouse to rotate, and then inputted to computer and roll instruction, while also have below idler wheel Button, key instructs in being keyed in by pressing roller.In above-mentioned mouse, between being arranged at two buttons due to idler wheel, so In use, user needs multiple fingers to operate two buttons and an idler wheel on housing respectively, cause easily to occur in operating process Instruction errors, situations such as finger manipulation is chaotic are keyed in, while each button all concentrates on case top, fails to make full use of housing Side spaces.It can be seen that the defects of existing mouse is excessively concentrated there are button, easily malfunctions, is not easy to operate.

The content of the invention

The technical problem to be solved in the present invention is, in view of the deficiencies of the prior art, provides a kind of mouse, which can Roller structure and mesodesmic structure are provided separately, palm and finger is made full use of to be operated, so as to reduce going out for input process Error rate improves the ease for use of mouse.

In order to solve the above technical problems, the present invention adopts the following technical scheme that.

A kind of mouse includes shell and bottom case, and the shell is in hollow form, and stent is equipped in the shell, described The bottom of stent is connected to bottom case, and the stent can be slided up and down with respect to bottom case, and the stent is equipped with wiring board, described The top of shell is equipped with button, and the wiring board is equipped with the first button switch, the button and first button switch pair Together, the bottom of the wiring board is equipped with the second button switch, and the bottom case is equipped with photoelectric sensor, the photoelectric sensor electricity Property be connected to wiring board, offer first through hole on the bottom case, the first through hole and the photosensitive side of the photoelectric sensor Alignment, second button switch at the top of the photoelectric sensor with aliging, when pressing the shell, the shell and stent Slide downward, the photoelectric sensor to be made to press the second button switch, the shell is connected with the holder pivots, the bottom Shell is equipped with transmission mechanism and rolling wheel encoding device, and the rolling wheel encoding device is electrically connected at wiring board, the transmission mechanism connection Between shell and rolling wheel encoding device, the torsion that the shell generates when rotating is compiled by the transmission mechanism to conduct to idler wheel Code device, and the rolling wheel encoding device is driven to rotate, to make the rolling wheel encoding device that encoded signal is transmitted to wiring board.

Preferably, the bottom of the stent is formed with multiple columns, and the bottom of the column offers jack, the bottom case On be formed with multiple pin rods, the pin rod aligns one by one with the column, and the pin rod is inserted in the jack, and the pin Bar is slidably connected with the column.

Preferably, spring is arranged on the pin rod, the spring clip is arranged between column and bottom case.

Preferably, the shell is cylindrical, and the branch is set up in the top open part of shell.

Preferably, the wiring board is fixedly connected with the stent.

Preferably, the top of the photoelectric sensor is equipped with convex block, and the convex block is abutted against with second button switch.

Preferably, the madial wall of the shell offers annular groove, and the lateral wall of the stent is embedded with multiple first Ball, first ball are arranged in the annular groove, by the cooperation of first ball and annular groove, to make Shell is stated to be connected with the holder pivots.

Preferably, the lower end of the shell is sheathed on bottom case, and between the lower end of the shell and the bottom of the bottom case There are pre-determined distance, the lateral wall of the bottom case is embedded with multiple second balls, the inside of second ball and the shell Wall abuts against.

Preferably, the transmission mechanism includes connection ring and gear, and the connection ring and the madial wall of the shell are consolidated Fixed connection, the madial wall of the connection ring are formed with teeth, and the gear is meshed with the teeth of the connection ring, the teeth Width be more than gear thickness, and the teeth can opposed gear slide up and down, the rolling wheel encoding device is horizontally placed on On bottom case, the gear is coaxially fixed with the rolling wheel encoding device, and the shell drives rolling by the connection ring and gear Turns encoder rotates.

Preferably, the bottom case is equipped with vibrating motor, and the vibrating motor is electrically connected at wiring board, and by the line Road plate control vibrating motor operating.

In mouse disclosed by the invention, the top of shell is equipped with button, and the first button switch can be pressed using button so that Mouse generates click commands, while the stent can be slided up and down with respect to bottom case, so when user's hand-held housing and pushing When, stent slide downward, while photoelectric sensor presses the second button switch therewith so that key click commands in mouse generation, Further, since shell is connected with the holder pivots, so referring to using thumb with nameless or tail shell is driven to rotate, then led to Crossing transmission mechanism drives rolling wheel encoding device to rotate so that mouse generation rolls instruction.Based on above-mentioned characteristic, the present invention realize to Computer input electric shock rolls, the instruction of middle key, while only sets button at the top of shell, real by way of palm pushing Key input in existing realizes rolling input in a manner that finger is laterally stirred, so as to which each input structure be separated, avoids each input Structure concentrates on cover top portion, effectively reduces the error rate of input process, substantially increases the ease for use of mouse, and then meets The market demand.

Description of the drawings

Fig. 1 is the stereogram of mouse.

Fig. 2 is the exploded view of middle button of mouse structure.

Fig. 3 is the partial exploded view of mouse.

Fig. 4 is the cut-away view of shell.

Fig. 5 is the exploded view one of mouse wheel structure.

Fig. 6 is the exploded view two of mouse wheel structure.

Fig. 7 is a kind of structure chart of alternative solution of transmission mechanism.

Fig. 8 is the structure chart of another alternative solution of transmission mechanism.

Specific embodiment

The present invention is described in more detail with reference to the accompanying drawings and examples.

Embodiment one

The present embodiment proposes a kind of mouse, with reference to shown in Fig. 1 to Fig. 6, includes shell 1 and bottom case 7, the shell 1 is in hollow form, is equipped with stent 2 in the shell 1, the bottom of the stent 2 is connected to bottom case 7, and the stent 2 can be opposite Bottom case 7 slides up and down, and the stent 2 is equipped with wiring board 3, and the top of the shell 1 is equipped with button 4, is set on the wiring board 3 There is the first button switch 5, the button 4 aligns with first button switch 5, and the bottom of the wiring board 3 is pressed equipped with second Button switch 6, the bottom case 7 are equipped with photoelectric sensor 8, and the photoelectric sensor 8 is electrically connected at wiring board 3, the bottom case 7 On offer first through hole 70, the first through hole 70 is alignd with the photosensitive side of the photoelectric sensor 8, and second button is opened 6 are closed to align with the top of the photoelectric sensor 8, when pressing the shell 1,2 slide downward of the shell 1 and stent, with order The photoelectric sensor 8 presses the second button switch 6, and the shell 1 is rotatablely connected with the stent 2, and the bottom case 7 is equipped with Transmission mechanism 9 and rolling wheel encoding device 11, the rolling wheel encoding device 11 are electrically connected at wiring board 3, and the transmission mechanism 9 is connected to Between shell 1 and rolling wheel encoding device 11, the torsion that the shell 1 generates when rotating is conducted by the transmission mechanism 9 to rolling Turns encoder 11.

In above-mentioned mouse, the top of shell 1 is equipped with button 4, can press the first button switch 5 using button 4 so that mouse Click commands are generated, while the stent 2 can be slided up and down with respect to bottom case 7, so when user's hand-held housing 1 and pushing When, the slide downward, while photoelectric sensor 8 presses the second button switch 6 therewith of stent 2 so that key click refers in mouse generation Further, since shell 1 is rotatablely connected with the stent 2,1 turn of shell is driven so referring to using thumb with nameless or tail for order It is dynamic, then by transmission mechanism 9 rolling wheel encoding device 11 is driven to rotate so that mouse generation rolls instruction.Based on above-mentioned characteristic, this hair It is bright to realize to computer input electric shock, roll, the instruction of middle key, while button 4 is only set at the top of shell 1, pass through palm Key input during the mode of pushing is realized realizes rolling input in a manner that finger is laterally stirred, so as to which each input structure be divided From each input structure is avoided to concentrate on the top of shell 1, the error rate of input process is effectively reduced, substantially increases mouse Ease for use, and then meet the market demand.

In the present embodiment, battery and bluetooth module can be set on the wiring board 3 so that the instruction of mouse passes through bluetooth side Formula is transmitted to computer.But in practical applications, can also be wire mouse by mouse designs.

In the present embodiment, the bottom of the stent 2 is formed with multiple columns 20, and the bottom of the column 20 offers jack 21, multiple pin rods 70 are formed on the bottom case 7, and the pin rod 70 aligns one by one with the column 20, and the pin rod 70 plugs In in the jack 21, and the pin rod 70 is slidably connected with the column 20.Further, it is arranged with bullet on the pin rod 70 Spring 71, the spring 71 are located between column 20 and bottom case 7.

As a kind of preferred embodiment, the shell 1 is cylindrical, and the stent 2 is arranged on the top open part of shell 1.Institute Wiring board 3 is stated to be fixedly connected with the stent 2.

The top of photoelectric sensor 8 described in the present embodiment is equipped with convex block 80, and the convex block 80 is opened with second button 6 are closed to abut against.

In practical application, the madial wall of the shell 1 offers annular groove 10, and the lateral wall of the stent 2 is embedded with Multiple first balls 22, first ball 22 are arranged in the annular groove 10, by first ball 22 and annular The cooperation of groove 10, the shell 1 to be made to be rotatablely connected with the stent 2.

On mesodesmic structure part, the lower end of the shell 1 is sheathed on bottom case 7, and the lower end of the shell 1 and the bottom There are pre-determined distances, the lateral wall of the bottom case 7 between the bottom of shell 7 to be embedded with multiple second balls 72, second ball 72 abut against with the madial wall of the shell 1.In said structure, one is set between the bottom of the lower end of shell 1 and the bottom case 7 Fixed distance, one effect be ensure shell 1 rotate when from stop, while for shell 1, the pushing process of stent 2 Sliding stroke, effective input of key in guarantee are provided.

In the present embodiment, the transmission mechanism 9 includes connection ring 12 and gear 13, the connection ring 12 and the shell 1 madial wall is fixedly connected, and the madial wall of the connection ring 12 is formed with teeth, the gear 13 and the tooth of the connection ring 12 Tooth is meshed, and the width of the teeth is more than the thickness of gear 13, and the teeth can opposed gear 13 slide up and down, it is described Rolling wheel encoding device 11 is horizontally placed on bottom case 7, and the gear 13 is coaxial fixed with the rolling wheel encoding device 11, the shell 1 By the connection ring 12 and gear 13 rolling wheel encoding device 11 is driven to rotate, to make the rolling wheel encoding device 11 to wiring board 3 Transmit encoded signal.

In order to generate vibrating effect while button is inputted, in the present embodiment, the bottom case 7 is equipped with vibrating motor 14, the vibrating motor 14 is electrically connected at wiring board 3, and by the wiring board 3 vibrating motor 14 is controlled to operate.

Embodiment two

In existing mouse, middle key input part is arranged at the middle of two buttons, and the lower section in idler wheel, user The elastic force ability centering key of idler wheel need to be overcome to be operated during use, so be not easy to apply pressure to idler wheel, meanwhile, Yong Huchang It needs three fingers being respectively placed on two buttons and an idler wheel, in use, because the finger at the top of mouse case is more, easily There is situation about pushing the wrong, there is no assurance that effective input of instruction, it is difficult to meet the market demand.It is asked to solve this technology Topic, the present embodiment propose a kind of mesodesmic structure for mouse, key during which is realized by way of palm pressing The input of instruction can not only improve the accuracy of instruction input, and user-friendly.

The mesodesmic structure for mouse that the present embodiment proposes, with reference to shown in Fig. 1 to Fig. 5, includes shell 1 and bottom case 7, the shell 1 is in hollow form, and stent 2 is equipped in the shell 1, and the stent 2 is equipped with wiring board 3, the top of the shell 1 Portion is equipped with button 4, and the wiring board 3 is equipped with the first button switch 5, and the button 4 aligns with first button switch 5, The bottom case 7 is equipped with photoelectric sensor 8, and the photoelectric sensor 8 is electrically connected at wiring board 3, is offered on the bottom case 7 First through hole 70, the first through hole 70 are alignd with the photosensitive side of the photoelectric sensor 8, and the bottom of the stent 2 is connected to Bottom case 7, and the stent 2 can be slided up and down with respect to bottom case 7, the bottom of the wiring board 3 is equipped with the second button switch 6, institute The top that the second button switch 6 is stated with the photoelectric sensor 8 is alignd, when pressing the shell 1, the shell 1 and stent 2 to Lower slider, the photoelectric sensor 8 to be made to press the second button switch 6, the wiring board 3 is according to the logical of the second button switch 6 Disconnected state and obtain middle button of mouse instruction.

In the above-mentioned mesodesmic structure for mouse, since stent 2 can be slided up and down with respect to bottom case 7, so when user's hand When holding shell 1 and pushing, the slide downward, while photoelectric sensor 8 presses the second button switch 6 therewith of stent 2 so that mouse Key click commands in generation, compared to existing technologies, the mesodesmic structure reduce the number of keys at the top of mouse, greatly improve The accuracy of instruction input, meanwhile, which realizes instruction input by way of palm pushing, so as to facilitating use Family carries out pressing operation, is not only convenient for user's use, also meets the market demand.

In said structure, photoelectric sensor 8 includes optoelectronic induction IC and red-light LED light source, the knot of the photoelectric sensor Structure and operation principle are identical with existing optical mouse, so repeating no more its structure and operation principle in the present embodiment.

In order to realize that stent 2 slides up and down, the bottom of the stent 2 is formed with multiple columns 20, the bottom of the column 20 End offers jack 21, multiple pin rods 70 is formed on the bottom case 7, the pin rod 70 aligns one by one with the column 20, institute It states pin rod 70 to be inserted in the jack 21, and the pin rod 70 is slidably connected with the column 20.The present embodiment preferably uses The mode of upper and lower Elastic Sliding, in particular to, be arranged with spring 71 on the pin rod 70, the spring 71 be located in column 20 with Between bottom case 7.

As a kind of preferred embodiment, the shell 1 is cylindrical, and the stent 2 is arranged on the top open part of shell 1.Institute Wiring board 3 is stated to be fixedly connected with the stent 2.

In order to effectively trigger the second button switch 6, in the present embodiment, the top of the photoelectric sensor 8 is equipped with convex block 80, The convex block 80 is abutted against with second button switch 6.

Further, the top of the button 4 is fitted with decorative panel 40.The stent 2 is in disk form.

On the structure at the top of mouse, the top of the stent 2 is protruding upward item stupefied 23, is offered on the button 4 Slit 41, the item stupefied 23 are located in the slit 41.

In the present embodiment, set on the wiring board 3 there are two the first button switch 5, the button 4 is including there are two pressings Portion 42, two press sections 42 are divided into 41 both sides of slit, and the bottom of the press section 42 is formed with briquetting, on the stent 2 It opens up there are two the second through hole 24, two briquettings are each passed through two the second through holes 24, and two briquettings are connected to respectively Two the first button switches 5.

Embodiment three

In practical application, the idler wheel of mouse is generally disposed at the centre of two buttons at the top of mouse, and instruction is rolled in input When, it is necessary to a finger jog dial, at this point, user often needs three fingers being respectively placed on two buttons and an idler wheel, During use, because the finger at the top of mouse case is more, easily there is situation about pushing the wrong, while each button all concentrates on housing Top fails to make full use of the side spaces of housing, it is difficult to meet the market demand.To solve this technical problem, the present embodiment Propose it is a kind of can laterally jog dial, the side spaces of mouse can be made full use of, while improve ease for use, to reduce operation difficult The roller structure for mouse of degree.

The roller structure for mouse that the present embodiment proposes with reference to shown in Fig. 1, Fig. 3, Fig. 5 and Fig. 6, includes outer Shell 1 and bottom case 7, the shell 1 is cylindrical, stent 2 is equipped in the shell 1, the stent 2 is equipped with wiring board 3, described The bottom of stent 2 is connected to bottom case 7, and the shell 1 is rotatablely connected with the stent 2, and transmission mechanism 9 is equipped in the shell 1 With rolling wheel encoding device 11, the rolling wheel encoding device 11 is electrically connected at wiring board 3, and the transmission mechanism 9 is connected to shell 1 and rolling Between turns encoder 11, the torsion that the shell 1 generates when rotating is conducted by the transmission mechanism 9 to rolling wheel encoding device 11, and the rolling wheel encoding device 11 is driven to rotate, to make the rolling wheel encoding device 11 that encoded signal is transmitted to wiring board 3.

In the above-mentioned roller structure for mouse, since shell 1 and the stent 2 are rotatablely connected, and transmission mechanism 9 connects Between shell 1 and rolling wheel encoding device 11, shell 1 is stirred so referring to using thumb with nameless or tail, to drive 1 turn of shell It is dynamic, then by transmission mechanism 9 rolling wheel encoding device 11 is driven to rotate, mouse generation to be made to roll instruction.Based on said structure so that Roller structure is arranged at the side of mouse, takes full advantage of the side spaces of mouse, in use, only laterally being stirred by finger outer Rolling input can be realized in shell 1, substantially increases the ease for use of mouse, while idler wheel is separated with button, avoid because of idler wheel and Button concentrates on 1 top of shell and causes operation chaotic, effectively reduces the error rate of input process, and then meets market need It asks.

In order to which shell 1 is connected with stent 2, while realize the rotation connection of the two, in the present embodiment, the shell 1 Madial wall offer annular groove 10, the lateral wall of the stent 2 is embedded with multiple first balls 22, first ball 22 It is arranged in the annular groove 10, by the cooperation of first ball 22 and annular groove 10, to make the shell 1 and institute Stent 2 is stated to be rotatablely connected.

As a kind of preferred embodiment, the lower end of the shell 1 is sheathed on bottom case 7, and the lower end of the shell 1 and the bottom There are pre-determined distances, the lateral wall of the bottom case 7 between the bottom of shell 7 to be embedded with multiple second balls 72, second ball 72 abut against with the madial wall of the shell 1.

In the present embodiment, the transmission mechanism 9 includes connection ring 12 and gear 13, the connection ring 12 and the shell 1 madial wall is fixedly connected, and the madial wall of the connection ring 12 is formed with teeth, the gear 13 and the tooth of the connection ring 12 Tooth is meshed, and 11 level of rolling wheel encoding device is fixed on bottom case 7, and the gear 13 is coaxial solid with the rolling wheel encoding device 11 Fixed, the shell 1 passes sequentially through the connection ring 12 and gear 13 and rolling wheel encoding device 11 is driven to rotate.The present embodiment is preferably adopted With gear-driven mode rolling wheel encoding device is driven to rotate, the transmission process of this driving structure is stable, reliable, it is ensured that rolls The accurate input of instruction.

As a kind of alternative solution of transmission mechanism, Fig. 7 is refer to, the transmission mechanism 9 includes connection ring 12 and tooth Wheel 13, the connection ring 12 is fixedly connected with the madial wall of the shell 1, and the madial wall of the connection ring 12 is formed with teeth, The gear 13 is meshed with the teeth of the connection ring 12, and the first bevel gear is equipped at the axle center at 13 top of gear 15, the rolling wheel encoding device 11 is fixed on vertically on bottom case 7, and the second umbrella shape tooth is fixed at the axle center of the rolling wheel encoding device 11 Wheel 16, second bevel gear 16 is meshed with the first bevel gear 15, the shell 1 pass sequentially through the connection ring 12, Gear 13, the first bevel gear 15 and the second bevel gear 16 and rolling wheel encoding device 11 is driven to rotate.

As another alternative solution of transmission mechanism, Fig. 8 is refer to, the transmission mechanism 9 includes 12 He of connection ring Gear 13,11 level of rolling wheel encoding device are fixed on the bottom of wiring board 3, are fixed at the axle center of the rolling wheel encoding device 11 Intermediate gear 17, the connection ring 12 are fixedly connected with the madial wall of the shell 1, and the madial wall of the connection ring 12 is formed with Teeth, the gear 13 are meshed with the teeth of the connection ring 12, and the intermediate gear 17 is meshed with the gear 13, institute Shell 1 is stated to pass sequentially through the connection ring 12, gear 13 and intermediate gear 17 and rolling wheel encoding device 11 is driven to rotate.

On the other structures of mouse, with reference to shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 5, the top of the shell 1 is equipped with button 4, The wiring board 3 is equipped with the first button switch 5, and the button 4 aligns with first button switch 5, set on the bottom case 7 There is photoelectric sensor 8, the photoelectric sensor 8 is electrically connected at wiring board 3, first through hole 70, institute are offered on the bottom case 7 It aligns the photosensitive side that first through hole 70 is stated with the photoelectric sensor 8.

The above is preferred embodiments of the present invention, is not intended to limit the invention, all technology models in the present invention Interior done modification, equivalent substitution or improvement etc. are enclosed, should be included in the range of of the invention protect.

Claims (10)

1. a kind of mouse, which is characterized in that include shell and bottom case, the shell is in hollow form, and branch is equipped in the shell Frame, the bottom of the stent is connected to bottom case, and the stent can be slided up and down with respect to bottom case, and the stent is equipped with circuit Plate, the top of the shell are equipped with button, and the wiring board is equipped with the first button switch, the button and first button Switch alignment, the bottom of the wiring board are equipped with the second button switch, and the bottom case is equipped with photoelectric sensor, the photoelectric transfer Sensor is electrically connected at wiring board, and first through hole, the first through hole and the photoelectric sensor are offered on the bottom case Photosensitive side alignment, second button switch at the top of the photoelectric sensor with aliging, when pressing the shell, the shell With stent slide downward, the photoelectric sensor to be made to press the second button switch, the shell is connected with the holder pivots, The bottom case is equipped with transmission mechanism and rolling wheel encoding device, and the rolling wheel encoding device is electrically connected at wiring board, the driver Structure is connected between shell and rolling wheel encoding device, the torsion that the shell generates when rotating by the transmission mechanism and conduct to Rolling wheel encoding device, and the rolling wheel encoding device is driven to rotate, to make the rolling wheel encoding device that encoded signal is transmitted to wiring board.

2. mouse as described in claim 1, which is characterized in that the bottom of the stent is formed with multiple columns, the column Bottom offer jack, multiple pin rods are formed on the bottom case, the pin rod aligns one by one with the column, the pin rod It is inserted in the jack, and the pin rod is slidably connected with the column.

3. mouse as claimed in claim 2, which is characterized in that spring is arranged on the pin rod, the spring clip is arranged on vertical Between column and bottom case.

4. mouse as described in claim 1, which is characterized in that the shell is cylindrical, and the branch is set up in the top of shell Portion's opening.

5. mouse as described in claim 1, which is characterized in that the wiring board is fixedly connected with the stent.

6. mouse as described in claim 1, which is characterized in that the top of the photoelectric sensor is equipped with convex block, the convex block It is abutted against with second button switch.

7. mouse as described in claim 1, which is characterized in that the madial wall of the shell offers annular groove, the branch The lateral wall of frame is embedded with multiple first balls, and first ball is arranged in the annular groove, by the described first rolling Pearl and the cooperation of annular groove, the shell to be made to be connected with the holder pivots.

8. mouse as claimed in claim 4, which is characterized in that the lower end of the shell is sheathed on bottom case, and the shell There are pre-determined distance between lower end and the bottom of the bottom case, the lateral wall of the bottom case is embedded with multiple second balls, described The madial wall of second ball and the shell abuts against.

9. mouse as described in claim 1, which is characterized in that the transmission mechanism includes connection ring and gear, the company The madial wall that ring is connect with the shell is fixedly connected, and the madial wall of the connection ring is formed with teeth, the gear and the company The teeth for connecing ring are meshed, and the width of the teeth is more than the thickness of gear, and the teeth can opposed gear slide up and down, The rolling wheel encoding device is horizontally placed on bottom case, and the gear is coaxially fixed with the rolling wheel encoding device, and the shell passes through The connection ring and gear and drive rolling wheel encoding device rotate.

10. mouse as described in claim 1, which is characterized in that the bottom case is equipped with vibrating motor, the vibrating motor electricity Property be connected to wiring board, and by wiring board control vibrating motor operating.