CN102841691A - Inductive mouse - Google Patents

Inductive mouse Download PDF

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Publication number
CN102841691A
CN102841691A CN 201110173714 CN201110173714A CN102841691A CN 102841691 A CN102841691 A CN 102841691A CN 201110173714 CN201110173714 CN 201110173714 CN 201110173714 A CN201110173714 A CN 201110173714A CN 102841691 A CN102841691 A CN 102841691A
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surface
touch
mouse
elements
working
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CN 201110173714
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Chinese (zh)
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何建明
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致伸科技股份有限公司
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Abstract

The invention discloses an induction type mouse. The induction type mouse comprises a base with a curve surface, an upper cover covering the base, multiple touch elements and a control unit, wherein the multiple touch elements are arranged on the curve surface and connected with the control unit, when the touch elements on the curve surface contact with a working surface, the control unit determines the moving direction of a cursor according to the touch element which is contacted by the working surface, and determines the displacement of the cursor according to the contact area between the touch elements and the working surface. The induction type mouse provided by the invention can work on an uneven working surface, and can reduce and relieve the feeling of fatigue of a user when the user operates the mouse by the wrist.

Description

感应式鼠标 Inductive mouse

技术领域 FIELD

[0001 ] 本发明关于一种鼠标,尤其关于一种感应式鼠标。 [0001] The present invention relates to a mouse, in particular, it relates to an induction mouse.

背景技术 Background technique

[0002] 鼠标、键盘、轨迹球以及触碰板等是目前常用的电脑输入装置。 [0002] mouse, keyboard, trackball, touchpad and the like are currently used computer input device. 其中,由于鼠标可被使用者以手掌握持而控制鼠标光标的移动,符合大多数使用者的操作习惯,因此鼠标成为最普遍的输入装置。 Wherein, because the mouse can be a user to control the movement of the palm holding the mouse cursor, in line with most of the user operation habits, so the most common mouse input device.

[0003] 请参阅图1,其为一种现有鼠标连接于电脑系统的结构示意图。 [0003] Referring to FIG. 1, which is a schematic structural diagram of an existing mouse connected to the computer system. 电脑系统2包括一电脑主机21以及一电脑屏幕22,电脑主机21分别连接于一滚轮鼠标I以及电脑屏幕22,且电脑主机21具有连接端口221,连接端口221用以连接于一滚轮鼠标I。 2 computer system includes a host computer 21 and a computer screen 22, the host computer 21 are connected to a wheel mouse I and computer screen 22, and the host computer 21 having a connection port 221, a connection port 221 for connecting to a wheel mouse I. 电脑屏幕22用·以显示一窗口221以及光标222,而滚轮鼠标I用以控制光标222以使电脑主机21执行相对应的指令。 · A computer screen 22 to display a window 221 and a cursor 222, and the wheel to control the mouse cursor 222 I so that the host computer 21 corresponding to the instruction execution. 鼠标I包括一壳体10、一左键11、一右键12以及一滚轮13。 I comprises a mouse housing 10, a left button 11, a right button 12 and a roller 13. 壳体10用以支撑一使用者的手掌P (见图2),且壳体10被使用者移动而产生位移量,使电脑主机21根据该位移量而移动电脑屏幕22中的光标222。 A housing 10 for supporting the palm of the user P (see FIG. 2), and the housing 10 is moved while the amount of displacement a user, the computer host 21 computer screen cursor is moved in accordance with the 22,222 displacement amount. 左键11以及右键12用以根据使用者的点击而输出信号以使电脑主机21执行相对应的指令,而滚轮13位于左键11与右键12之间,用以被使用者拨动而转动以输出一卷动信号,使电脑主机21执行窗口221的卷动。 11 left and right according to the user 12 clicks the output signal to cause the host computer 21 corresponding to the instruction execution, and the roller 13 is located between the left 11 and right 12 to be rotated to a user toggle output a scrolling signal to the host computer 21 performs scroll window 221.

[0004] 接下来请参阅图2,其为现有鼠标被操作的结构示意图。 [0004] Next, please refer to FIG. 2, a schematic structure of a conventional mouse are operated. 使用者操作鼠标I之前,必须将其手掌P放置于壳体10上,且其第一手指Fl放置于左键11上,而其第二手指F2放置于右键12上才得以操作鼠标I。 Before the user operates the mouse I, his palm P must be placed on the housing 10, and a first finger placed on the left 11 Fl, F2 while the second finger is placed on the right was able to operate the mouse 12 I. 而鼠标I必须被放置于一平坦的工作面上,使用者移动鼠标I才得以产生位移量,以移动电脑屏幕22中的光标222。 I and the mouse must be placed flat on a work surface, the user moves the mouse I was able to produce shift amount, to move the screen cursor 222 of the PC 22.

[0005] 根据上述可知,使用者必须以图2所示的手势握持鼠标I并且鼠标I必须被放置于平坦的工作面上才可被操作,如此手势使得使用者的手腕处于悬空的状态,经过长时间操作鼠标I之后,使用者的手腕相当容易感到疲累,甚至于损伤手腕筋肉。 [0005] According to the foregoing, the user must grip the mouse gestures I shown in Figure 2 and the mouse I must be on a flat work surface before being operated, so that the gesture of the user's wrist in a floating state, after a long operation of the mouse I, the user's wrist is quite easy to feel tired, or even damage the wrist muscles. 另外,当放置鼠标I的工作面不平坦或者其工作面的纹路不明显时,其光标222无法根据鼠标I的移动而随之移动。 Further, when the mouse is placed face I uneven or textured face thereof is not obvious, along with their cursor 222 can not be moved in accordance with movement of the mouse I. 因此,需要一种可舒缓手腕疲劳并可于不平坦工作面上运作的鼠标。 Accordingly, a wrist can relieve fatigue and to operate the mouse uneven work surface.

发明内容 SUMMARY

[0006] 本发明要解决的技术问题在于,针对现有技术存在的上述不足,提供一种可舒缓手腕疲劳的感应式鼠标。 [0006] The present invention is to solve the technical problem is that, for the above-described disadvantages of the prior art, there is provided an inductive mouse relieve wrist fatigue.

[0007] 本发明要解决的另一技术问题在于,针对现有技术存在的上述不足,提供一种可于不平坦工作面上运作的感应式鼠标。 [0007] Another technical problem of the present invention to that for the above-described disadvantages of the prior art, to provide a sensing operation of the mouse uneven work surface.

[0008] 本发明解决其技术问题所采用的技术方案是提供一种感应式鼠标,连接于一电脑系统且用以控制该电脑系统的一光标的移动,该感应式鼠标包括底座、上盖、多个触控元件以及控制单元,该底座具有一曲形表面,该曲形表面用以与一工作面接触;其中该曲形表面具有一底部;该上盖覆盖于该底座;该多个触控元件设置于该曲形表面上且环绕于该底部,用以被该工作面触压而产生相对应的触控信号;该控制单元设置于该底座内且连接于该多个触控元件,用以根据相应触控元件所产生的触控信号而决定该光标的移动方向以及 [0008] The technical solutions of the present invention to solve the technical problem is to provide an induction-type mouse, a computer system connected to and for moving a cursor control of the computer system, the sensing mouse includes a base, an upper cover, a plurality of touch elements, and a control unit, the base having a shaped surface, the curved surface for contact with a working surface; wherein the curved surface having a bottom; the upper lid cover to the base; the plurality of contact the control element is disposed in the bottom portion and around to the working surface is depressed to generate a touch signal corresponding to the curved surface; the control unit is disposed in the base and connected to the plurality of touch elements, to decide the direction of movement of the cursor in accordance with the corresponding touch signals generated by the touch element, and

位移量。 The amount of displacement.

[0009] 较佳地,该多个触控元件中的姆ー触控元件包括导电元件、感测器以及弹性元件,该导电元件设置于该底座内;该感测器叠置于该导电元件,用以被该工作面触压且与该导电兀件接触而产生一电容效应且输出相对应的该触控信号;该弹性兀件设置于该导电兀件与该感测器之间,用以提供一弾性力至该感测器,使该感测器不与该导电元件接触。 [0009] Preferably, the plurality of touch elements in the touch ー Mu element comprises a conductive member, and the elastic member sensor, the electrically conductive member disposed within the base; the sensor overlying the conductive element to the working surface is depressed and in contact with the conductive member Wu the touch signal generated by a capacitive effect and corresponds to the output; the resilient member Wu Wu disposed between the conductive member and the sensor, with Tan to provide a resistance force to the sensor so that the sensor does not contact with the conductive element.

[0010] 较佳地,该控制单元是根据应该导电元件与该感测器之间的接触面积大小而产生的该电容效应强弱而决定该光标的位移量。 [0010] Preferably, the strength of the control unit is determined according to the amount of displacement of the cursor to the capacitor effect should be the size of a contact area with the conductive member between the sensor generated.

[0011] 较佳地,该感测器是以铜箔覆盖于软性电路板(Flexible Printed Circuit, FPC)上而形成,且该铜箔于该软性电路板上形成多个铜箔接点,而该控制单元是根据该多个铜箔接点被触压的数量而判断该导电元件与该感测器之间的接触面积大小。 [0011] Preferably, the sensor is a foil covering the flexible printed circuit board (Flexible Printed Circuit, FPC) is formed on, and the copper foil plurality of contacts formed on the flexible printed circuit board, and the control unit is according to the number of the plurality of contacts foil is depressed while the size determines the contact area between the conductive element and the sensor.

[0012] 较佳地,该控制単元预设有ー闲置时间,当该曲形表面的该底部与该工作面接触,且该工作面不触压该多个触控元件的时间大于该闲置时间时,该感应式鼠标进入一睡眠模式。 [0012] Preferably, the control element preset with radiolabeling ー idle time, when the bottom surface of the curved shape in contact with the working surface and does not face the contact pressure of the plurality of touch elements longer than the idle time when the mouse induction enters a sleep mode.

[0013] 较佳地,本发明感应式鼠标还包括切换按键,该切换按键设置于该上盖上且连接于该控制単元,用以被触压而产生一切换信号至该控制単元,使该控制单元将该感应式鼠标由一光标控制模式变更为ー卷动轴控制模式或由该卷动轴控制模式变更为该光标控制模式。 [0013] Preferably, the inductive switch further comprises a mouse button of the present invention, the shift key is provided to the upper cover and connected to the control element radiolabeling to produce is depressed a switching signal to the control radiolabeling element, so that the control unit changes the induced by a mouse cursor control mode ー scrollbar for changing the control mode or the cursor control mode by the control mode of the scroll bar.

[0014] 较佳地,当该感应式鼠标进入该光标控制模式时,该控制单元根据相应触控元件所产生的触控信号而决定该光标的移动方向且根据该触控元件与该工作面的接触面积而决定该光标的位移量;而当该感应式鼠标进入该卷动轴控制模式时,该控制単元根据相应触控元件所产生的触控信号而决定该电脑系统的ー卷动轴的卷动方向且根据该触控元件与该工作面的接触面积而决定该卷动轴的位移量。 [0014] Preferably, when the sensing mouse cursor enters the control mode, the control unit determines the movement direction of the cursor in accordance with the corresponding touch signals generated by the touch device and the touch element according to the working surface the contact area is determined amount of displacement of the cursor; when the mouse enters the inductive scrollbar control mode, the control element is determined ー radiolabeling scrollbar computer system according to the touch signal generated by the respective elements of the touch scrolling direction and displacement amount is determined based on the roll shaft contact area of ​​the touch element and the face.

[0015] 较佳地,本发明感应式鼠标还包括无线信号发射器以及无线信号接收器,该无线信号发射器设置于该底座内,用以输出包含有该光标的移动方向以及位移量的一光标位移信号或包含有该卷动轴的卷动方向以及位移量的一卷动轴位移信号,而该无线信号接收器连接于该电脑系统,用以接收该光标位移信号以及该卷动轴位移信号,使该电脑系统根据该光标位移信号进行该光标的移动或根据该卷动轴位移信号进行卷动轴的卷动。 [0015] Preferably, the present invention is inductive the mouse further comprises a wireless signal transmitter and a wireless signal receiver, the radio signal transmitter disposed within the base, for moving direction and amount of displacement of the cursor output includes a or cursor displacement signal with scrolling direction and scrolling amount of displacement of the axis of the roll shaft displacement signal, and the wireless signal receiver connected to the computer system, for receiving the displacement signal and a cursor movable shaft displacement of the roll signal to the computer system moves the cursor based on the cursor displacement signal or scrolling the scrollbar of the roll shaft in accordance with the displacement signal.

[0016] 较佳地,本发明感应式鼠标还包括卷动感测元件,该卷动感测元件设置于该上盖上且连接于该控制単元,用以侦测手指于该卷动感测元件上的移动而产生ー卷动信号,使该控制単元根据该卷动信号而决定该电脑系统的ー卷动轴的卷动方向以及位移量。 [0016] Preferably, the present invention further inductive mouse passive sensing element comprises a roll, the roll passive sensing element disposed on the upper cover and connected to the control element radiolabeling for detecting a finger on the passive sensing element volume mobile ー scrolling signal generated by the control element is determined radiolabeling scrolling direction and the displacement amount ー volume of said computer system based on the shaft scrolling signal.

[0017] 较佳地,该上盖包括第一按键以及第二按键,该第一按键设置于该上盖上,用以被触压而产生一第一按键信号;该第二按键设置于该上盖上且位于该第一按键的ー侧,用以被触压而产生一第二按键信号;其中该上盖具有一平坦外形。 [0017] Preferably, the cover comprises a first key and a second key, the first key is provided to the upper cover, is depressed to generate a first key signal; the second button disposed on theー and located on the upper cover of the first side of the key, is depressed to generate a second key signal; wherein the cover has a flat shape.

[0018] 本发明感应式鼠标具有曲形表面的底座且藉由触控元件与工作面的接触与否而控制光标的移动,使得感应式鼠标于不平坦的工作面上仍可被操作。 [0018] The present invention is inductive the mouse shaped surface having a curved base and moved by the contact face with the touch element or absence of a cursor control, such induction in mouse uneven work surface can still be operated. 另外,由于感应式鼠标的底座具有曲形表面,因此使用者于操作感应式鼠标时,仅需轻微地倾斜感应式鼠标,其触控元件即可被触发而控制光标的移动。 Further, since the induced mouse having a curved base surface, so that the user at the time of induction mouse operation, only a slight tilt sensor mouse, touch-sensitive device which is triggered to control the cursor movement. 本发明感应式鼠标以不同于现有鼠标的方式被操作,可减缓使用者的手腕于操作鼠标时所产生的疲劳感。 Induction of the present invention differs from the conventional mouse in a mouse mode is operated, it can reduce fatigue to the user's wrist during operation of the mouse generated. 附图说明 BRIEF DESCRIPTION

[0019] 图I是现有鼠标连接于电脑系统的结构示意图。 [0019] FIG. I is a block diagram of a conventional computer mouse is connected to the system.

[0020] 图2是现有鼠标被操作的结构示意图。 [0020] FIG. 2 is a block diagram of a conventional mouse are operated.

[0021] 图3是本发明感应式鼠标于第一较佳实施例中连接于电脑系统的外观示意图。 [0021] FIG. 3 is a mouse according to the present invention is inductive the first preferred embodiment of the computer system connected to the appearance of FIG.

[0022] 图4是本发明感应式鼠标于第一较佳实施例中的结构仰视意图。 [0022] FIG. 4 is an induction-type mouse of the present invention to the structure of the first preferred embodiment intended bottom.

[0023] 图5是本发明感应式鼠标于第一较佳实施例中的结构侧视示意图。 [0023] FIG. 5 is a schematic side view illustrating a first preferred embodiment of the present invention is a mouse in the induction.

[0024] 图6是本发明感应式鼠标于第二较佳实施例中连接于电脑系统的外观示意图。 [0024] FIG. 6 is a mouse according to the present invention is inductive the second preferred embodiment of the computer system connected to the appearance of FIG.

[0025] 图7是本发明感应式鼠标于第二较佳实施例中的结构侧视示意图。 [0025] FIG. 7 is a schematic side view illustrating a second preferred embodiment of the present invention is a mouse in the induction. · ·

具体实施方式 detailed description

[0026] 鉴于现有鼠标的缺陷,本发明提供一种感应式鼠标。 [0026] In view of the deficiencies of the conventional mouse, the present invention provides an induction-type mouse. 请參阅图3,其为本发明感应式鼠标于第一较佳实施例中连接于电脑系统的外观不意图。 Please refer to FIG. 3, a first mouse according to the present preferred inductive appearance connected to a computer system in the embodiment are not intended invention. 图3中,电脑系统4包括ー电脑主机41以及ー电脑屏幕42,电脑主机41具有连接端ロ411,于本较佳实施例中,连接端ロ411是通用串行总线插槽。 3, 4 comprises a computer system 41 and a host computer ー ー computer screen 42, a host computer 41 having a connection end ro 411, in the preferred embodiment according to the present embodiment, the connection terminal 411 is a universal serial bus ro slot. 电脑屏幕42连接于电脑主机41,用以显示ー窗ロ421以及一光标422,而窗ロ421具有一卷动轴4211。 Computer screen 42 is connected to a host computer 41 for displaying ro ー window 421 and a cursor 422, and the window comprises a roll shaft 421 ro 4211. 而感应式鼠标3透过ー连接线30连接于电脑主机41的连接端ロ411,藉此控制光标422的移动。 3 through induced mouse ー cable 30 is connected to the host computer 41 ro connecting end 411, thereby controlling cursor movement 422. 图3显示了感应式鼠标3的ー上盖31上具有一第一按键311、一第二按键312以及ー卷动感测元件313,第一按键311设置于上盖31上,用以被触压而产生一第一按键信号,第二按键312设置于上盖31上且位于第一按键311的ー侧,用以被触压而产生一第二按键信号,而卷动感测元件313设置于上盖31上且位于上盖31的ー侧,用以侦测使用者的手指于卷动感测元件313上的移动而产生ー卷动信号,于本较佳实施例中,第一按键311为左键,且第二按键312为右键。 Figure 3 shows induction of mouse ー cover 3 has a key 311 on the first 31, a second button 312 and a volume ー passive sensing element 313, first button 311 disposed on the upper cover 31, is depressed to generating a first key signal, a second button 312 provided on the upper cover 31 and located at a first side 311 ー key, is depressed to generate a second key signal, the passive sensing element 313 and the coil is disposed on the located on the upper cover 31 and the cover 31 ー side for detecting the user's finger movement on the passive sensing element 313 volumes generated ー scrolling signal, the preferred embodiment of the present embodiment, the first button 311 to the left key, and the key 312 of the second right.

[0027] 接下来进ー步说明感应式鼠标的结构,请同时參阅图4以及图5,图4为本发明感应式鼠标于第一较佳实施例中的结构仰视不意图,而图5则为本发明感应式鼠标于第一较佳实施例中的结构侧视示意图。 [0027] Next, the configuration of the intake ー further inductive mouse, see FIGS. 4 and 5 at the same time, FIG. 4 is a bottom view of the first preferred embodiment is not intended to be examples of the configuration of the induction mouse invention, and FIG. 5 the present invention is a mouse, compared to the inductive side view of the structure of the first preferred embodiment. 感应式鼠标3除了上盖31之外更包括一底座32、一第一触控元件33、一第二触控元件34、一第三触控元件35、一第四触控元件36以及ー控制单元37。 3 except that the induction mouse further than upper cap 31 includes a base 32, a first touch member 33, a second touch member 34, a third touch element 35, element 36 and a fourth touch control ーunit 37. 底座32具有一曲形表面321,且曲形表面321用以与ー工作面T接触,而曲形表面321具有一底部3211。 Shaped base 32 having a surface 321, and a curved surface 321 for contacting with the face ー T, and 321 has a curved bottom surface 3211. 上盖31覆盖于底座32,且上盖31具有一平坦外形。 An upper cover 31 covers the base 32 and cover 31 having a flat shape. 第一触控元件33设置于曲形表面321上且位于其底部3211的第一侧,用以被工作面T触压而产生相对应的第一触控信号。 Element 33 is provided on the first touch on the curved surface 321 and located at a first side of the bottom portion 3211, by T for generating a first face contact pressure signal corresponding to the touch. 相似地第二触控兀件34设置于曲形表面321上且位于其底部3211的第二侦牝用以被工作面T触压而产生相对应的第二触控信号,第三触控元件35设置于曲形表面321上且位于其底部3211的第三侧,用以被工作面T触压而产生相对应的第三触控信号,而第四触控元件36设置于曲形表面321上且位于其底部3211的第四侧,用以被工作面T触压而产生相对应的第四触控信号。 Similarly, the second touch Wu member 34 is provided on the curved surface 321 located at the bottom and the second is used to detect T 3211 female contact pressure face to produce a second signal corresponding to the touch, the touch third element 35 is provided on the curved surface of the third side 321 and at its bottom 3211 to be press-contact face T generate a third signal corresponding to the touch, the touch and the fourth element 36 disposed on the curved surface 321 and it lies on the fourth side of the bottom portion 3211 to be press-contact face T producing a fourth signal corresponding to the touch. 亦即第一触控元件33、第二触控元件34、第三触控元件35以及第四触控元件36环绕于底部3211,如图4所示。 I.e., the first touch member 33, a second touch member 34, third member 35 and the fourth touch touch the bottom element 36 surrounded by 3211, as shown in FIG.

[0028] 图5中,控制单元37设置于底座32内且连接于第一触控元件33、第二触控元件34、第三触控元件35、第四触控元件36以及卷动感测元件313,用以根据相应触控元件所产生的触控信号而决定光标422的移动方向以及位移量,且可根据卷动信号而决定电脑系统4中显示于窗ロ421中的卷动轴4211的卷动方向以及位移量。 [0028] FIG. 5, the control unit 37 disposed in the chassis 32 and connected to the first member 33 touch, touch the second member 34, third touch element 35, element 36 and the fourth touch roll passive sensing element 313 for the touch signal generated according to the respective touch element determines the moving direction and amount of displacement of the cursor 422, and may be determined in accordance with the display system of the computer 4 to the window scrolling signal 421 ro 4211 scrollbar scrolling direction and displacement amount. 其中,当控制单元37接收到来自第一触控元件33的第一触控信号时,其光标422往电脑屏幕42的上方移动;当控制単元37接收到来自第二触控元件34的第二触控信号时,其光标422往电脑屏幕42的左方移动;当控制单元37接收到来自第三触控元件35的第三触控信号时,其光标422往电脑屏幕42的下方移动;而当控制单元37接收到来自第四触控元件36的第四触控信号吋,其光标422往电脑屏幕42的右方移动。 Wherein, when the control unit 37 receives the first signal from the first touch of the touch member 33, the cursor 422 to the top of the computer screen 42 of movement; radiolabeling when the control unit 37 receives the second element 34 from the second touch when the touch signal, which the cursor 422 to the left of the computer screen 42 of the mobile; when the control unit 37 receives the third signal from the third touch the touch member 35, the cursor 422 moves toward the bottom of the computer screen 42; and when the control unit 37 receives the fourth inch touch signal from the fourth touch member 36, the cursor 422 moves toward the right 42 of the computer screen.

[0029] 关于触控元件的结构,第一触控元件33与第二触控元件34、第三触控元件35以及第四触控元件36的结构完全相同,故以第一触控元件33为例说明,其它触控元件的运行原理以及运行情形则为同理。 [0029] The structural elements of the touch on the first touch and the second touch member 33 member 34, third member 35 and the fourth touch sensitive device 36 is exactly the same structure, so as to touch the first member 33 as an example, operation principle and the operating situation of the other elements of the touch compared to the same reason. 请继续參阅图5,第一触控元件33包括一第一导电元件331、一第一感测器332以及ー第一弾性元件333,第一导电元件331设置于底座32内,且第一感测器332叠置于第一导电兀件331,用以被工作面T触压而与第一导电兀件331接触,使第一导电元件331与第一感测器332之间产生一电容效应且输出相对应的触控信号。 Please refer to FIG. 5, a first touch conductive member 33 includes a first member 331, a first sensor 332 and a first Dan ー element 333, a first electrically conductive member 331 disposed in the chassis 32, and the first sensor 332 overlies the first conductive member 331 Wu for T contact face is pressed into contact with the first conductive Wu member 331, so that a capacitance is generated between the first conductive element 331 and the first sensor 332 effect and outputs a signal corresponding to the touch. 第一弹性元件333设置于第一导电元件331以及第一感测器332之间,用以提供一弾性力至第一感测器332,使第一感测器332不与第一导电元件331接触。 The first elastic member 333 disposed between the first electrically conductive member 331, and a first sensor 332 for providing a resistance force to the first sensor Dan 332, so that the first conductive element 332 is not a first sensor 331 contact. 连接于第一触控元件33的控制単元37根据应第一导电元件331与第一感测器332之间的接触面积大小而产生的该电容效应强弱而决定该光标的位移量,于本较佳实施例中,第一感测器332是以ー铜箔(未标不于图中)覆盖于ー软性电路板(未标示于图中)上而形成,且铜箔于软性电路板3321上形成多个铜箔接点(未标示于图中),其中多个铜箔接点之间具有微弱的电容值。 The capacitor is connected to a first touch effect element 33 radiolabeling control element 37 should be the size of the contact area between the first conductive element 331 and the first sensor 332 and the strength of the decision to generate the amount of displacement of the cursor, in the present embodiment, the first sensor 332 is ー foil (not labeled is not in the drawing) is formed in the cover ー flexible printed circuit board (not shown in the drawing) on ​​the preferred embodiment, the flexible printed circuit and a copper foil a plurality of contacts are formed of copper foil (not shown in the figures), having a capacitance value between a plurality of weak copper plate 3321 contacts. 也就是说,控制单元37根据哪ー触控元件被触发而判断光标422的移动方向,井根据导电元件与感测器之间的接触面积大小判断光标422的位移量。 That is, the control unit 37 which is triggered ー touch element determines the direction of cursor movement 422, the size of the well is determined according to the contact area between the conductive member and the displacement amount sensor 422 in accordance with the cursor.

[0030] 当操作感应式鼠标3时,使用者将其手掌(未标示于图中)放置于其平坦的上盖31上并握持感应式鼠标3,且使底座32的曲形表面321的底部3211与工作面T接触,而环绕于其底部3211的第一触控元件33、第二触控元件34、第三触控元件35以及第四触控元件36不与工作面T接触,此时感应式鼠标3仍处于一睡眠模式。 [0030] When the mouse operation of the induction 3, the user places his palm (not shown in the figure) placed in its flat upper cover 31 and the grip sensor mouse 3, and that the curved surfaces 321 of the base 32 T in contact with the bottom face 3211, and surround 33, a second touch member 34, third member 35 and the fourth touch sensitive device 36 is not in contact with the bottom of the first touch its face T element 3211, this when the mouse induction 3 is still in a sleep mode. 当使用者欲将光标422往电脑屏幕42的上方移动时,将感应式鼠标3往设置有第一按键311的一侧倾斜,使得曲形表面321上与工作面T接触的区域由其底部3211变更为第一触控元件33,亦即第一触控元件33被工作面T触压,使第一感测器332触压第一弾性元件333,且第一导电元件331与第一感测器332接触而产生电容效应,使软性电路板上的多个铜箔接点间的电容值产生变化,其中其电容效应越强,其电容值变化大小越大,且其电容值变化大小是与软性电路板上的多个铜箔接点与第一导电元件331接触的数量多寡成正比关系。 When the user wants to move the cursor 422 to the top of the computer screen 42, the inductive mouse 3 is provided with an inclined toward a side of the first key 311, so that the area on the curved surface 321 in contact with the bottom face 3211 by T the first element 33 is changed to the touch, i.e. a first touch contact element 33 is pressed T face, the first pressure sensor 332 of the first contact element 333 Tan, and the first conductive element 331 and the first sensing 332 is generated by contacting a capacitive effect, so that the plurality of capacitance values ​​between the copper foil contacts a difference flexible circuit board, wherein the stronger the capacitive effect, the greater the change in the capacitance value of the sizes, and the size of the capacitance value change is a plurality of contacts copper number is proportional to the amount of the first conductive element 331 in contact with the flexible circuit board. 连接于第一触控元件33的控制单元37则根据电容效应的强弱而决定光标422的位移量,并将该位移量以信号形式藉由连接线30传输至电脑主机41,以移动光标422。 A first member connected to the touch control unit 33 according to the strength of the capacitive effect 37 of the cursor is determined amount of displacement 422, and the displacement amount by the transmission line 30 is connected to the computer host 41 in the form of signals, to move the cursor 422 . 至于光标422于其它方向上的移动则与上述内容为同理,故不再多加说明。 As the cursor 422 moves in the other direction with the foregoing is the same token, not redundantly described herein.

[0031] 需特别说明的是,控制单元37中预设有ー闲置时间,当曲形表面321的底部3211与工作面T接触,且工作面T不触压任一触控元件的时间大于该闲置时间吋,控制单元37控制感应式鼠标3进入一睡眠模式,以节省电力。 [0031] In particular note is required, the control unit 37 is preset ー idle time, when the bottom face 3211 in contact with the curved surface of the T 321, and T face not in contact with any element of a touch pressure is greater than the time the inch idle time, the control unit 37 controls the induction mouse 3 enters a sleep mode to conserve power.

[0032] 此外,本发明更提供一第二较佳实施例,请同时參阅图6以及图7,图6为本发明感应式鼠标于第二较佳实施例中连接于电脑系统的外观示意图,而图7则为本发明感应式鼠标于第二较佳实施例中的结构侧视不意图。 [0032] Further, the present invention further provides a second preferred embodiment, please refer to FIG. 6 and FIG. 7, FIG. 6 induction in mouse of the present invention in a second preferred embodiment of a computer system connected to the Appearance of , and a side view of the structure of formula 7 of the present invention are induced in the mouse according to the second preferred embodiment is not intended. 感应式鼠标5包括ー上盖51、一底座52、一第一触控元件53、一第二触控元件54、一第三触控元件55、一第四触控元件(未标示于图中)、ー控制单兀56、一切换按键57、ー无线信号发射器58以及ー无线信号接收器59,其中上盖51包括有一第一按键511以及ー第二按键512,且第一触控元件53包括一第一导电元件531、一第一感测器532以及ー第一弹性元件533。 5 comprises induction mouse ー top cover 51, a base 52, a first touch member 53, a second touch member 54, a third touch member 55, a fourth touch element (not shown in FIG. ), Wu ー control unit 56, a switch button 57, ー wireless signal transmitter 58 and the wireless signal receiver 59 ー, wherein the upper cover 51 includes a first button 511 and second button 512 ー, and the first touch element 53 comprises a first conductive member 531, a first sensor 532 and a first elastic member 533 ー. 本较佳实施例中的上盖51、底座52、第一触控元件53、第二触控元件54、第三触控元件55以及第四触控元件的结构皆与第一较佳实施例完全相同,故不再赘述,而本较佳实施例与第一较佳实施例不同之处有ニ点,其如下所述。 The present preferred embodiment the upper cover 51, base 52, a first member 53 touch, touch the second member 54, third member 55, and the touch of the touch device structure of the fourth embodiment and the first preferred embodiment are identical, and therefore will not be repeated, but the embodiment is different from the first preferred embodiment of the present preferred embodiment has the Ni point, which follows.

[0033] 第一,感应式鼠标5的无线信号发射器58设置于底座52内,用以输出包含有光标422的移动方向以及位移量的一光标位移信号以及包含有卷动轴4211的卷动方向以及位移量的一卷动轴位移信号。 Wireless signal transmitter [0033] First, the induction of 58 mouse 5 provided in the base 52, for moving the cursor 422 in the direction and the displacement amount of the displacement of a cursor and scrolling signal 4211 with an output shaft comprises scrolling a roll direction and displacement amount of the movable shaft displacement signal. 由图6可知,无线信号接收器59插接于电脑主机41的连接端ロ411上,用以接收来自无线信号发射器58的光标位移信号以及卷动轴位移信号。 It is seen from FIG. 6, the wireless signal receiver 59 is connected to the plug end 41 of the ro host computer 411, for receiving the displacement signal and a cursor scrolling axis displacement signal from the wireless signal transmitter 58.

[0034] 第二,感应式鼠标5并未设置有卷动感测元件,其卷动轴4211的卷动是由第一触控元件53以及第三触控元件55控制,其运行原理与移动光标422的原理相同。 [0034] Second, mouse induction coil 5 is not provided with a passive sensing elements, which roll shaft 4211 is a first scroll element 53, and touch control 55 by the third touch element, which moves the cursor to the operation principle 422 of the same principle. 为了使第一触控元件53、第二触控元件54、第三触控元件55以及第四触控元件可控制光标422的移动以及卷动轴4211的卷动,感应式鼠标5的上盖51设置有切换按键57,其连接于控制单元56,用以被触压而产生一切换信号至控制单兀56,使控制单兀56将感应式鼠标5由一光标控制模式变更为一卷动轴控制模式或由卷动轴控制模式变更为光标控制模式。 In order to make the first touch member 53, a second touch member 54, third member 55 and the fourth touch sensitive device 422 can control the cursor movement and scrolling the scrollbar 4211, the upper cover 5 of the induced mouse 51 is provided with a switch button 57, which is connected to a control unit 56 for generating a press-contact switching signal to the control unit 56 Wu, Wu the control unit 56 so that the sensor 5 is changed from a mouse cursor control mode to a scrolling or the axis control mode is changed from control mode to the scroll axis cursor control mode. 顾名思义,当感应式鼠标5处于光标控制模式时,第一触控元件53、第二触控元件54、第三触控元件55以及第四触控元件的功能是用以控制光标422的移动,而当感应式鼠标5处于卷动轴控制模式时,第一触控元件53以及第三触控元件55的功能则用以控制卷动轴4211的移动。 As the name suggests, when the sensor 5 is in mouse cursor control mode, the first touch member 53, a second touch member 54, third member 55, and the touch of the touch function of the fourth element is moved to control the cursor 422, when the mouse 5 is inductive scrollbar control mode, functions of the first member 53 and the third touch touch element 55 is used to control the movement of the scrollbar 4211.

[0035] 根据上述ニ较佳实施例可知,本发明感应式鼠标具有曲形表面的底座且藉由触控元件与工作面的接触与否而控制光标的移动,使得感应式鼠标于不平坦的工作面上仍可被操作。 [0035] According to the above-described embodiment can be seen ni preferred embodiment, the present invention is an induction mouse having curved surface of the base member and moved by contact with the touch face or absence of a cursor control, such induction in mouse uneven working surface can still be operated. 另外,由于感应式鼠标的底座具有曲形表面,因此使用者于操作感应式鼠标时,仅需轻微地倾斜感应式鼠标,其触控元件即可被触发而控制光标的移动。 Further, since the induced mouse having a curved base surface, so that the user at the time of induction mouse operation, only a slight tilt sensor mouse, touch-sensitive device which is triggered to control the cursor movement. 本发明感应式鼠标以不同于现有鼠标的方式被操作,可减缓使用者的手腕于操作鼠标时所产生的疲劳感。 Induction of the present invention differs from the conventional mouse in a mouse mode is operated, it can reduce fatigue to the user's wrist during operation of the mouse generated.

[0036] 以上所述仅为本发明的较佳实施例,并非用以限定本发明的权利要求范围,因此凡其它未脱离本发明所掲示的精神下所完成的等效改变或修饰,均应包含于本发明的范围内。 [0036] The foregoing is only preferred embodiments of the present invention is not intended to define the invention claimed in the required range, so any other present invention without departing from the spirit shown kei done modifications may shall It included within the scope of the present invention.

Claims (10)

  1. 1. 一种感应式鼠标,连接于一电脑系统且用以控制该电脑系统的一光标的移动,其特征在于,该感应式鼠标包括: 底座,具有一曲形表面,该曲形表面用以与一工作面接触;其中该曲形表面具有一底部; 上盖,覆盖于该底座; 多个触控元件,设置于该曲形表面上且环绕于该底部,用以被该工作面触压而产生相对应的触控信号;以及控制单元,设置于该底座内且连接于该多个触控元件,用以根据相应触控元件所产生的触控信号而决定该光标的移动方向以及位移量。 An induction-type mouse, a computer system connected to and for moving a cursor control of the computer system, wherein the sensing mouse comprising: a base having a shaped surface, the curved surface for contacting a working surface; wherein the curved surface having a bottom portion; upper cover covering the base; a plurality of touch elements, and disposed at the bottom portion surrounded by the curved surface, is depressed to the face and generate a corresponding touch signal; and a control unit disposed in the base and connected to the plurality of touch elements for the cursor moving direction is determined based on the touch signals corresponding to the touch is generated and the displacement element the amount.
  2. 2.如权利要求I所述的感应式鼠标,其特征在于,该多个触控元件中的每一触控元件包括: 导电元件,设置于该底座内; 感测器,叠置于该导电元件,用以被该工作面触压且与该导电元件接触而产生一电容效应且输出相对应的该触控信号;以及弹性元件,设置于该导电元件与该感测器之间,用以提供一弹性力至该感测器,使该感测器不与该导电元件接触。 2. Induction of formula I according to claim mouse, wherein each of the plurality of touch-sensitive device touch element comprises: a conductive member disposed within the base; sensor, overlying the conductive element to the working surface is depressed and in contact with the conductive element and the touch signal to generate a capacitive effect and corresponding output; and an elastic member disposed between the conductive element and the sensor, for providing an elastic force to the sensor so that the sensor does not contact with the conductive element.
  3. 3.如权利要求2所述的感应式鼠标,其特征在于,该控制单元是根据应该导电元件与该感测器之间的接触面积大小而产生的该电容效应强弱而决定该光标的位移量。 The induction of the mouse as claimed in claim 2, wherein the control unit is in accordance with the strength of the capacitive effect should be the size of a contact area with the conductive element between the sensor and the resulting displacement of the cursor is determined the amount.
  4. 4.如权利要求3所述的感应式鼠标,其特征在于,该感测器是以铜箔覆盖于软性电路板上而形成,且该铜箔于该软性电路板上形成多个铜箔接点,而该控制单元是根据该多个铜箔接点被触压的数量而判断该导电元件与该感测器之间的接触面积大小。 The induction of the mouse as claimed in claim 3, wherein the sensor is a foil covering the flexible circuit board is formed, and the plurality of copper foil is formed on the flexible printed circuit board the contact foil, which is the control unit according to the number of the plurality of contacts foil is depressed while the size determines the contact area between the conductive element and the sensor.
  5. 5.如权利要求I所述的感应式鼠标,其特征在于,该控制单元预设有一闲置时间,当该曲形表面的该底部与该工作面接触,且该工作面不触压该多个触控元件的时间大于该闲置时间时,该感应式鼠标进入一睡眠模式。 The induction of the mouse I as claimed in claim, wherein the control unit is preset with a idle time, when the bottom surface of the curved shape in contact with the face, and the face not in contact with the plurality of pressure when the touch time is greater than the idle time element, the sensing mouse enters a sleep mode.
  6. 6.如权利要求I所述的感应式鼠标,其特征在于,还包括切换按键,该切换按键设置于该上盖上且连接于该控制单元,用以被触压而产生一切换信号至该控制单元,使该控制单元将该感应式鼠标由一光标控制模式变更为一卷动轴控制模式或由该卷动轴控制模式变更为该光标控制1吴式。 6. The induction of formula I according to claim mouse, characterized by further comprising a switch button, the shift key is provided to the upper cover and connected to the control unit for generating a is depressed to the switching signal the control unit, that the control unit changes the induced by a mouse cursor control mode to a scrolling control mode or the shaft changed from the scrollbar control mode for controlling a cursor Wu.
  7. 7.如权利要求6所述的感应式鼠标,其特征在于,当该感应式鼠标进入该光标控制模式时,该控制单元根据相应触控元件所产生的触控信号而决定该光标的移动方向且根据该触控元件与该工作面的接触面积而决定该光标的位移量;而当该感应式鼠标进入该卷动轴控制模式时,该控制单元根据相应触控元件所产生的触控信号而决定该电脑系统的一卷动轴的卷动方向且根据该触控元件与该工作面的接触面积而决定该卷动轴的位移量。 7. The induction mouse according to claim 6, wherein, when the sensing mouse cursor enters the control mode, the control unit determines the movement direction of the cursor in accordance with the corresponding touch signals generated by the touch element is determined and the amount of displacement of the cursor and the contact area of ​​the touch member based on the face; when the mouse enters the inductive scrollbar control mode, the control unit is generated according to the corresponding touch signal of the touch element determined in the rolling direction of the roll shaft and the computer system determines the amount of displacement of the roll shaft according to the touch area of ​​contact with the face member.
  8. 8.如权利要求7所述的感应式鼠标,其特征在于,还包括无线信号发射器以及无线信号接收器,该无线信号发射器设置于该底座内,用以输出包含有该光标的移动方向以及位移量的一光标位移信号或包含有该卷动轴的卷动方向以及位移量的一卷动轴位移信号,而该无线信号接收器连接于该电脑系统,用以接收该光标位移信号以及该卷动轴位移信号,使该电脑系统根据该光标位移信号进行该光标的移动或根据该卷动轴位移信号进行卷动轴的卷动。 8. The induction mouse according to claim 7, characterized in that, further comprising a wireless signal transmitter and a wireless signal receiver, the radio signal transmitter disposed within the base, the direction for moving the cursor with the output of and a displacement amount or a displacement signal with a cursor scrolling direction and scrolling amount of displacement of the axis of the roll shaft displacement signal, and the wireless signal receiver connected to the computer system, for receiving the displacement signal and the cursor the scrollbar displacement signal, so that the computer system moves the cursor based on the cursor displacement signal roll or shaft movable scroll according to the scrolling axis displacement signal.
  9. 9.如权利要求I所述的感应式鼠标,其特征在于,还包括卷动感测元件,该卷动感测元件设置于该上盖上且连接于该控制单元,用以侦测手指于该卷动感测元件上的移动而产生一卷动信号,使该控制单元根据该卷动信号而决定该电脑系统的一卷动轴的卷动方向以及位移量。 9. The induction of formula I according to claim mouse, characterized by further comprising a passive sensing element volume, the volume to the passive sensing element is disposed on the cover and connected to the control unit, for detecting a finger on the roll movement of the passive sensing element generates a scrolling signal, the control unit determines that the scrolling direction and the displacement amount of the roll shaft of the computer system based on the scrolling signal.
  10. 10.如权利要求I所述的感应式鼠标,其特征在于,该上盖包括: 第一按键,设置于该上盖上,用以被触压而产生一第一按键信号;以及第二按键,设置于该上盖上且位于该第一按键的一侧,用以被触压而产生一第二按键信号;其中该上盖具有一平坦外形。 10. The induction of formula I according to claim mouse, wherein the upper cover comprises: a first button disposed on the upper cover, is depressed to generate a first key signal; and a second key , disposed on the cover and located on the first side of the key, is depressed to generate a second key signal; wherein the cover has a flat shape.
CN 201110173714 2011-06-24 2011-06-24 Inductive mouse CN102841691A (en)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6115028A (en) * 1996-08-22 2000-09-05 Silicon Graphics, Inc. Three dimensional input system using tilt
US20050017950A1 (en) * 2003-06-25 2005-01-27 Yutaka Nomura Input pointer and input device
US20050057530A1 (en) * 1999-11-05 2005-03-17 Microsoft Corporation Method and apparatus for computer input using six degrees of freedom
US20050078085A1 (en) * 2001-09-07 2005-04-14 Microsoft Corporation Data input device power management including beacon state

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6115028A (en) * 1996-08-22 2000-09-05 Silicon Graphics, Inc. Three dimensional input system using tilt
US20050057530A1 (en) * 1999-11-05 2005-03-17 Microsoft Corporation Method and apparatus for computer input using six degrees of freedom
US20050078085A1 (en) * 2001-09-07 2005-04-14 Microsoft Corporation Data input device power management including beacon state
US20050017950A1 (en) * 2003-06-25 2005-01-27 Yutaka Nomura Input pointer and input device

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