CN207663407U - A kind of roller structure for mouse - Google Patents
A kind of roller structure for mouse Download PDFInfo
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- CN207663407U CN207663407U CN201820133492.5U CN201820133492U CN207663407U CN 207663407 U CN207663407 U CN 207663407U CN 201820133492 U CN201820133492 U CN 201820133492U CN 207663407 U CN207663407 U CN 207663407U
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- shell
- encoding device
- gear
- rolling wheel
- connection ring
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Abstract
The utility model discloses a kind of roller structures for mouse, it includes shell and bottom case, the shell is cylindrical, holder is equipped in the shell, the holder is equipped with wiring board, the bottom of the holder is connected to bottom case, the shell is connect with the holder pivots, transmission mechanism and rolling wheel encoding device are equipped in the shell, the rolling wheel encoding device is electrically connected at wiring board, the transmission mechanism is connected between shell and rolling wheel encoding device, the torsion generated when the shell rotation is conducted by the transmission mechanism to rolling wheel encoding device, and the rolling wheel encoding device is driven to rotate, to enable the rolling wheel encoding device that encoded signal is transmitted to wiring board.The utility model can lateral jog dial, the side spaces of mouse can be made full use of, while improving ease for use, reducing operation difficulty.
Description
Technical field
The utility model is related to mouse more particularly to a kind of roller structures for mouse.
Background technology
Mouse is a kind of command input device of computer, is one of basic accessory of computer.In the prior art, mouse
Idler wheel be generally disposed at the centres of two buttons at the top of mouse and need a finger jog dial when input rolls instruction,
At this point, user often needs three fingers being respectively placed on two buttons and an idler wheel, during use, because at the top of mouse case
Finger it is more, the case where easily pushing the wrong, while each button all concentrates on case top, fails the side for making full use of shell
Portion space, it is difficult to meet the market demand.
Utility model content
The technical problem to be solved by the present invention is in view of the deficiencies of the prior art, providing one kind can laterally dial
Dynamic idler wheel, the idler wheel knot for mouse that the side spaces of mouse can be made full use of, while improving ease for use, reducing operation difficulty
Structure.
In order to solve the above technical problems, the utility model adopts the following technical solution.
A kind of roller structure for mouse comprising have shell and bottom case, the shell is cylindrical, in the shell
Equipped with holder, the holder is equipped with wiring board, and the bottom of the holder is connected to bottom case, the shell and the holder pivots
Connection, the shell is interior to be equipped with transmission mechanism and rolling wheel encoding device, and the rolling wheel encoding device is electrically connected at wiring board, the biography
Motivation structure is connected between shell and rolling wheel encoding device, and the torsion that the shell generates when rotating is passed by the transmission mechanism
It is directed at rolling wheel encoding device, and the rolling wheel encoding device is driven to rotate, to enable the rolling wheel encoding device that encoded signal is transmitted to line
Road plate.
Preferably, the madial wall of the shell offers annular groove, and the lateral wall of the holder is embedded with multiple first
Ball, first ball are arranged in the annular groove, by the cooperation of first ball and annular groove, to enable
Shell is stated to connect 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 solid
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 idler wheel
Encoder level is fixed on bottom case, and the gear is coaxially fixed with the rolling wheel encoding device, and the shell passes sequentially through described
Connection ring and gear and drive rolling wheel encoding device rotate.
Preferably, the transmission mechanism includes connection ring and gear, and the connection ring and the madial wall of the shell are solid
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 gear
The first bevel gear is equipped at the axle center at top, the rolling wheel encoding device is fixed on bottom case vertically, the rolling wheel encoding device
The second bevel gear is fixed at axle center, second bevel gear is meshed with the first bevel gear, and the shell leads to successively
It crosses the connection ring, gear, the first bevel gear and the second bevel gear and rolling wheel encoding device is driven to rotate.
Preferably, the transmission mechanism includes connection ring and gear, and the rolling wheel encoding device level is fixed on wiring board
Bottom, be fixed with intermediate gear at the axle center of the rolling wheel encoding device, the connection ring and the madial wall of the shell are 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 center tooth
Wheel is meshed with the gear, and the shell passes sequentially through the connection ring, gear and intermediate gear and drives rolling wheel encoding device
Rotation.
Preferably, the top of the shell be equipped with button, the wiring board be equipped with the first button switch, the button with
The first button switch alignment, the bottom case are equipped with photoelectric sensor, and the photoelectric sensor is electrically connected at wiring board,
First through hole is offered on the bottom case, the first through hole is aligned with the photosensitive side of the photoelectric sensor.
In roller structure disclosed by the utility model for mouse, since shell is connect with the holder pivots, and pass
Motivation structure is connected between shell and rolling wheel encoding device, shell is stirred so referring to nameless or tail using thumb, to drive
Shell rotates, then drives the rotation of rolling wheel encoding device by transmission mechanism, and instruction is rolled to enable mouse generate.Based on above structure,
So that roller structure is set to the side of mouse, the side spaces of mouse are taken full advantage of, in use, only laterally being dialled by finger
Rolling input can be realized in dynamic shell, substantially increases the ease for use of mouse, while idler wheel being detached with button, avoids because of idler wheel
Cover top portion is concentrated on button and causes operation chaotic, effectively reduces the error rate of input process, and then meet market need
It asks.
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 internal structure chart 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 implementation mode
The utility model is described in more detail with reference to the accompanying drawings and examples.
Embodiment one
The present embodiment proposes a kind of roller structure for mouse, in conjunction with shown in Fig. 1, Fig. 3, Fig. 5 and Fig. 6 comprising
There are shell 1 and bottom case 7, the shell 1 is cylindrical, and holder 2 is equipped in the shell 1, and the holder 2 is equipped with wiring board 3,
The bottom of the holder 2 is connected to bottom case 7, and the shell 1 is rotatablely connected with the holder 2, and driver is equipped in the shell 1
Structure 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 shell 1
Between rolling wheel encoding device 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 enable 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 holder 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 nameless or tail using thumb, to drive 1 turn of shell
It is dynamic, then drive rolling wheel encoding device 11 to rotate by transmission mechanism 9, roll instruction to enable mouse generate.Based on above structure so that
Roller structure is set to 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 being detached 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 meet market need
It asks.
In order to which shell 1 is connected with holder 2, while realizing the rotation connection of the two, in the present embodiment, the shell 1
Madial wall offer annular groove 10, the lateral wall of the holder 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 enable the shell 1 and institute
State the rotation connection of holder 2.
The lower end of the shell 1 is sheathed on bottom case 7, and the lower end of the shell 1 and the bottom as a preferred method,
There are pre-determined distances, the lateral wall of the bottom case 7 to be embedded with multiple second balls 72, second ball between the bottom of shell 7
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 tooth of the gear 13 and 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
Rolling wheel encoding device is driven to rotate with gear-driven mode, 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 please referred 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 the 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 drive rolling wheel encoding device 11 rotate.
As another alternative solution of transmission mechanism, Fig. 8 is please referred 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.
About the other structures of mouse, in conjunction with 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 is aligned with first button switch 5, is set on the bottom case 7
There are photoelectric sensor 8, the photoelectric sensor 8 to be electrically connected at wiring board 3, first through hole 70, institute are offered on the bottom case 7
First through hole 70 is stated to be aligned with the photosensitive side of the photoelectric sensor 8.
Embodiment two
In existing mouse, middle key input part is set to 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 when 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
The case where 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, in conjunction with shown in Fig. 1 to Fig. 5 comprising have shell 1 and bottom case
7, the shell 1 is in hollow form, and holder 2 is equipped in the shell 1, and the holder 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 is aligned 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 aligned with the photosensitive side of the photoelectric sensor 8, and the bottom of the holder 2 is connected to
Bottom case 7, and the holder 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 second button switch 6 is stated to be aligned with the top of the photoelectric sensor 8, when pressing the shell 1, the shell 1 and holder 2 to
Lower slider, to enable the photoelectric sensor 8 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 holder 2 bottom case 7 can slide up and down relatively, so working as user hand
When holding shell 1 and pushing, the slide downward therewith of holder 2, while photoelectric sensor 8 presses the second button switch 6 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, to facilitating use
Family carries out pressing operation, is not only convenient for user's use, also meets the market demand.
In above 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 as existing optical mouse, so repeating no more its structure and operation principle in the present embodiment.
In order to realize that holder 2 slides up and down, the bottom of the holder 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 is aligned 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.
The shell 1 is cylindrical as a preferred method, and the holder 2 is set to the top open part of shell 1.Institute
Wiring board 3 is stated to be fixedly connected with the holder 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 holder 2 is in disk form.
About the structure at the top of mouse, the top of the holder 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 includes that 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 holder 2
Second through-hole 24 there are two opening up, 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
The present embodiment proposes a kind of mouse, in conjunction with shown in Fig. 1 to Fig. 6 comprising has shell 1 and bottom case 7, the shell
1 is in hollow form, is equipped with holder 2 in the shell 1, the bottom of the holder 2 is connected to bottom case 7, and the holder 2 can be opposite
Bottom case 7 slides up and down, and the holder 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 are the first button switch 5, the button 4 to be aligned with first button switch 5, 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 aligned with the photosensitive side of the photoelectric sensor 8, and second button is opened
6 are closed to be aligned with the top of the photoelectric sensor 8, when pressing the shell 1,2 slide downward of the shell 1 and holder, to enable
The photoelectric sensor 8 presses the second button switch 6, and the shell 1 is rotatablely connected with the holder 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 holder 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 therewith of holder 2, while photoelectric sensor 8 presses the second button switch 6 so that key click refers to during mouse generates
It enables, further, since shell 1 is rotatablely connected with the holder 2,1 turn of shell is driven so referring to nameless or tail using thumb
It is dynamic, then drive rolling wheel encoding device 11 to rotate by transmission mechanism 9 so that mouse, which generates, rolls instruction.Based on above-mentioned characteristic, this reality
It is realized to computer input electric shock, rolling, the instruction of middle key with novel, while in the top of shell 1 only setting button 4, passed through
Key input during the mode that palm pushes is realized realizes rolling input in such a way that finger is laterally stirred, to tie each input
Structure detaches, and avoids each input structure from concentrating on 1 top of shell, effectively reduces the error rate of input process, substantially increase mouse
Target ease for use, and then meet the market demand.
In the present embodiment, battery and bluetooth module can be set so that the instruction of mouse passes through bluetooth side on the wiring board 3
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 holder 2 is formed with multiple columns 20, and the bottom end of the column 20 offers jack
21, multiple pin rods 70 are formed on the bottom case 7, and the pin rod 70 is aligned 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.
The shell 1 is cylindrical as a preferred method, and the holder 2 is set to the top open part of shell 1.Institute
Wiring board 3 is stated to be fixedly connected with the holder 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 holder 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, to enable the shell 1 be rotatablely connected with the holder 2.
About 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 to be embedded with multiple second balls 72, second ball between the bottom of shell 7
72 abut against with the madial wall of the shell 1.In above structure, it is arranged one between the lower end of shell 1 and the bottom of the bottom case 7
Fixed distance, one effect be ensure shell 1 rotation when from blocking, while for shell 1, holder 2 pushing process
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 tooth of the gear 13 and 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
Rolling wheel encoding device 11 is driven to rotate by the connection ring 12 and gear 13, to enable the rolling wheel encoding device 11 to wiring board 3
Transmit encoded signal.
In order to generate vibrating effect while inputting button, 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 controls vibrating motor 14 by the wiring board 3 and operate.
The above is the utility model preferred embodiment, is not intended to limit the utility model, all in this practicality
Modification, equivalent replacement or the improvement etc. made in novel technical scope, should be included in the model that the utility model is protected
In enclosing.
Claims (7)
1. a kind of roller structure for mouse, which is characterized in that include shell and bottom case, the shell is cylindrical, institute
State and be equipped with holder in shell, the holder is equipped with wiring board, and the bottom of the holder is connected to bottom case, the shell with it is described
Holder pivots connect, and transmission mechanism and rolling wheel encoding device are equipped in the shell, and the rolling wheel encoding device is electrically connected at circuit
Plate, the transmission mechanism are connected between shell and rolling wheel encoding device, and the torsion that the shell generates when rotating passes through the biography
Motivation structure and conduct to rolling wheel encoding device, and the rolling wheel encoding device is driven to rotate, to enable the rolling wheel encoding device believe coding
Number it is transmitted to wiring board.
2. being used for the roller structure of mouse as described in claim 1, which is characterized in that the madial wall of the shell offers ring
The lateral wall of connected in star, the holder is embedded with multiple first balls, and first ball is arranged in the annular groove, by
With first ball and annular groove, to enable the shell be connect with the holder pivots.
3. being used for the roller structure of mouse as claimed in claim 2, which is characterized in that the lower end of the shell is sheathed on bottom
Shell, and there are pre-determined distance between the lower end of the shell and the bottom of the bottom case, the lateral wall of the bottom case are embedded with more
The madial wall of a second ball, second ball and the shell abuts against.
4. being used for the roller structure of mouse as described in claim 1, which is characterized in that the transmission mechanism includes connection ring
And gear, the connection ring are fixedly connected with the madial wall of the shell, the madial wall of the connection ring is formed with teeth, described
Gear is meshed with the teeth of the connection ring, and the rolling wheel encoding device level is fixed on bottom case, the gear and the rolling
Turns encoder is coaxially fixed, and the shell passes sequentially through the connection ring and gear and rolling wheel encoding device is driven to rotate.
5. being used for the roller structure of mouse as described in claim 1, which is characterized in that the transmission mechanism includes connection ring
And gear, the connection ring are fixedly connected with the madial wall of the shell, the madial wall of the connection ring is formed with teeth, described
Gear is meshed with the teeth of the connection ring, and the first bevel gear is equipped at the axle center of the gear top, and the idler wheel is compiled
Code device is fixed on bottom case vertically, and the second bevel gear, the second umbrella shape tooth are fixed at the axle center of the rolling wheel encoding device
Wheel is meshed with the first bevel gear, and the shell passes sequentially through the connection ring, gear, the first bevel gear and the second umbrella shape
Gear and drive rolling wheel encoding device rotate.
6. being used for the roller structure of mouse as described in claim 1, which is characterized in that the transmission mechanism includes connection ring
And gear, the rolling wheel encoding device level are fixed on the bottom of wiring board, centre are fixed at the axle center of the rolling wheel encoding device
Gear, the connection ring are fixedly connected with the madial wall of the shell, and the madial wall of the connection ring is formed with teeth, the tooth
Wheel is meshed with the teeth of the connection ring, and the intermediate gear is meshed with the gear, and the shell passes sequentially through described
Connection ring, gear and intermediate gear and drive rolling wheel encoding device rotate.
7. being used for the roller structure of mouse as described in claim 1, which is characterized in that the top of the shell is equipped with button,
The wiring board is equipped with the first button switch, and the button is aligned with first button switch, and the bottom case is equipped with light
Electric transducer, the photoelectric sensor are electrically connected at wiring board, and first through hole, the first through hole are offered on the bottom case
It is aligned with the photosensitive side of the photoelectric sensor.
Priority Applications (1)
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CN201820133492.5U CN207663407U (en) | 2018-01-25 | 2018-01-25 | A kind of roller structure for mouse |
Applications Claiming Priority (1)
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CN201820133492.5U CN207663407U (en) | 2018-01-25 | 2018-01-25 | A kind of roller structure for mouse |
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CN207663407U true CN207663407U (en) | 2018-07-27 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108121463A (en) * | 2018-01-29 | 2018-06-05 | 深圳市智高翔科技发展有限公司 | A kind of mouse |
TWI683242B (en) * | 2018-08-28 | 2020-01-21 | 群光電子股份有限公司 | Mouse device |
CN113093925A (en) * | 2021-04-22 | 2021-07-09 | 深圳市源隆光学科技有限公司 | Mouse encoder and mouse |
-
2018
- 2018-01-25 CN CN201820133492.5U patent/CN207663407U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108121463A (en) * | 2018-01-29 | 2018-06-05 | 深圳市智高翔科技发展有限公司 | A kind of mouse |
TWI683242B (en) * | 2018-08-28 | 2020-01-21 | 群光電子股份有限公司 | Mouse device |
CN113093925A (en) * | 2021-04-22 | 2021-07-09 | 深圳市源隆光学科技有限公司 | Mouse encoder and mouse |
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