TWI461971B - Pressure-sensitive cursor control device - Google Patents
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- TWI461971B TWI461971B TW101110882A TW101110882A TWI461971B TW I461971 B TWI461971 B TW I461971B TW 101110882 A TW101110882 A TW 101110882A TW 101110882 A TW101110882 A TW 101110882A TW I461971 B TWI461971 B TW I461971B
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Description
本發明係關於一種指標控制裝置,特別是一種感壓指標控制裝置。The invention relates to an index control device, in particular to a pressure sensitive index control device.
一般常見之計算機裝置例如筆記型電腦、桌上型電腦或是個人數位助理裝置等,常採用滑鼠或是觸控面板作為控制指標(cursor,亦稱為游標)的控制裝置。其中觸控面板常搭配觸控筆來控制指標,也可供使用者以手寫方式輸入文字資料或是圖形資料。由於使用者能以一般書寫筆的方式來使用,因此觸控面板以及觸控筆在操作上的舒適度及靈活性均優於傳統滑鼠。Commonly used computer devices such as notebook computers, desktop computers, or personal digital assistant devices often use a mouse or a touch panel as a control device for a cursor (also known as a cursor). The touch panel is often used with a stylus to control the indicator, and the user can also input text data or graphic data by handwriting. Since the user can use the general writing pen, the touch panel and the stylus are superior in comfort and flexibility to the conventional mouse.
也有業者開發出不需配合觸控面板便能使用的觸控筆,這種觸控筆可發光並使用桌面或是其他物體的表面作為反射面,再接收反射光進行定位。但是欲接收的反射光容易受到環境光(ambient light,又稱為周圍光)的干擾;不同反射面所具有的不同反光係數也會大幅影響到觸控筆的效能。Some manufacturers have developed a stylus that can be used without a touch panel. The stylus can illuminate and use the surface of a desktop or other object as a reflective surface, and then receive reflected light for positioning. However, the reflected light to be received is easily interfered by ambient light (also known as ambient light); the different reflective coefficients of different reflective surfaces can greatly affect the performance of the stylus.
此外,傳統的觸控筆無法辨識出使用者所施加的筆觸壓力。雖然能讓使用者進行手寫輸入,但是並無法達到如毛筆或畫筆的觸感。於繪圖應用中,也無法讓使用者藉由改變筆觸壓力而達到改變線條粗細的效果。In addition, the conventional stylus cannot recognize the stroke pressure applied by the user. Although it allows the user to perform handwriting input, it does not reach the feel of a brush or a brush. In the drawing application, it is also impossible for the user to change the thickness of the line by changing the stroke pressure.
為了解決上述傳統觸控筆具有易受環境干擾而失準且無法辨識筆壓的問題,提出一種感壓指標控制裝置。感壓指標控制裝置包括一本體部以及一彈性接觸部。彈性接觸部從本體部的一端延伸而出,且彈性接觸部包括一容置槽以及配置於容置槽內的一距離感測單元。當彈性接觸部受力時產生形變,距離感測單元感測彈性接觸部的形變,並據以輸出一壓力感測訊號。In order to solve the problem that the above-mentioned conventional stylus pen is susceptible to environmental interference and is incapable of recognizing the pen pressure, a pressure sensitive index control device is proposed. The pressure sensitive index control device includes a body portion and an elastic contact portion. The elastic contact portion extends from one end of the body portion, and the elastic contact portion includes a receiving groove and a distance sensing unit disposed in the receiving groove. The deformation occurs when the elastic contact portion is stressed, and the distance sensing unit senses the deformation of the elastic contact portion, and accordingly outputs a pressure sensing signal.
根據一實施範例,本體部可具有接觸於彈性接觸部的一接觸面。容置槽可具有與接觸面相對的一第一面,並具有環繞第一面且介於接觸面和第一面之間的一彈性壁;接觸面、第一面以及彈性壁形成容置槽中的一容置空間。當彈性接觸部受力時,第一面或彈性壁產生形變。而距離感測單元配置於接觸面且朝向第一面,以感測距離感測單元到第一面之間的一感測距離,並依據感測距離輸出壓力感測訊號;其中感測距離因第一面或彈性壁的形變而產生變化。其中壓力感測訊號可以是一電壓訊號,且電壓訊號的強度與感測距離的長度成反比。According to an embodiment, the body portion may have a contact surface that contacts the resilient contact portion. The accommodating groove may have a first surface opposite to the contact surface, and has an elastic wall surrounding the first surface and between the contact surface and the first surface; the contact surface, the first surface and the elastic wall form the accommodating groove One of the accommodation spaces. When the elastic contact portion is stressed, the first face or the elastic wall is deformed. The distance sensing unit is disposed on the contact surface and faces the first surface to sense a sensing distance between the distance sensing unit and the first surface, and outputs a pressure sensing signal according to the sensing distance; wherein the sensing distance is The deformation of the first side or the elastic wall changes. The pressure sensing signal can be a voltage signal, and the intensity of the voltage signal is inversely proportional to the length of the sensing distance.
距離感測單元可以是一紅外線收發器、一霍爾感測器(hall sensor)、一雷射收發器或是一超音波收發器。而本案實施範例中的距離感測單元將以紅外線收發器為例子來進行說明。紅外線收發器可包括一紅外線發射器以及一影像接收器。紅外線發射器用以朝向第一面發出一紅外線;影像接收器則與紅外線發射器成對,並用以接收被第一面反射的紅外線。The distance sensing unit can be an infrared transceiver, a hall sensor, a laser transceiver or an ultrasonic transceiver. The distance sensing unit in the embodiment of the present invention will be described by taking an infrared transceiver as an example. The infrared transceiver can include an infrared emitter and an image receiver. The infrared emitter emits an infrared ray toward the first side; the image receiver is paired with the infrared ray emitter and receives infrared light reflected by the first surface.
根據一實施範例,感壓指標控制裝置另可包括一微控制單元(micro control unit,MCU)以及一傳輸單元。MCU可電性連接於距離感測單元,接收壓力感測訊號,並將壓力感測訊號轉換成一輸出訊號。傳輸單元可電性連接於MCU,並以無線或有線的方式將輸出訊號傳出。According to an embodiment, the pressure sensitive index control device may further include a micro control unit (MCU) and a transmission unit. The MCU can be electrically connected to the distance sensing unit, receive the pressure sensing signal, and convert the pressure sensing signal into an output signal. The transmission unit can be electrically connected to the MCU and transmit the output signal wirelessly or by wire.
其中微控制單元可包括一類比數位轉換器(A/D converter),以接收壓力感測訊號,並將壓力感測訊號轉換成輸出訊號。且微控制單元可透過一內部整合電路匯流排(Inter-Integrated Circuit bus,I2C bus)將輸出訊號傳送給傳輸單元。The micro control unit may include an analog/digital converter (A/D converter) for receiving the pressure sensing signal and converting the pressure sensing signal into an output signal. And the micro control unit can transmit the output signal to the transmission unit through an Inter-Integrated Circuit Bus (I2C bus).
根據一實施範例,感壓指標控制裝置另可包括一電池以及一充電線路。電池可連接於微控制單元,以提供電力給微控制單元。充電線路可電性連接於電池,以將電池充電。According to an embodiment, the pressure sensitive index control device may further include a battery and a charging line. The battery can be connected to the micro control unit to provide power to the micro control unit. The charging line can be electrically connected to the battery to charge the battery.
本體部可以是一中空筆桿,且微控制單元、傳輸單元、電池以及充電線路可都配置於中空筆桿之中。而彈性接觸部的材質可以是導電橡膠或導電泡棉。The body portion may be a hollow pen holder, and the micro control unit, the transmission unit, the battery, and the charging line may all be disposed in the hollow pen holder. The material of the elastic contact portion may be conductive rubber or conductive foam.
綜上所述,感壓指標控制裝置能進行指標控制,並偵測彈性接觸部的形變而據以輸出代表筆壓強度的壓力感測訊號。且距離感測單元以及作為反射面的第一面都被配置於容置槽內,因此感測筆壓的效能不會被外界的環境光或溼度等因素所影響。In summary, the pressure sensitive index control device can perform index control and detect the deformation of the elastic contact portion to output a pressure sensing signal representative of the pen pressure strength. Moreover, the distance sensing unit and the first surface as the reflecting surface are disposed in the receiving groove, so the performance of sensing the pen pressure is not affected by external ambient light or humidity.
以下在實施方式中詳細敘述本發明之詳細特徵以及優點,其內容足以使任何熟習相關技藝者了解本發明之技術內容並據以實施,且根據本說明書所揭露之內容、申請專利範圍及圖式,任何熟習相關技藝者可輕易地理解本發明相關之目的及優點。The detailed features and advantages of the present invention are set forth in the Detailed Description of the Detailed Description of the <RTIgt; </ RTI> <RTIgt; </ RTI> </ RTI> </ RTI> <RTIgt; The objects and advantages associated with the present invention can be readily understood by those skilled in the art.
本發明提供一種感壓指標控制裝置,能配合一觸控面板對一計算機裝置的一指標(cursor,亦稱為游標)進行指標控制。請參照「第1圖」,其係為一實施範例之感壓指標控制裝置之示意圖。The invention provides a pressure sensitive index control device, which can cooperate with a touch panel to perform index control on a cursor (also called a cursor) of a computer device. Please refer to "FIG. 1", which is a schematic diagram of a pressure sensitive index control device of an embodiment.
感壓指標控制裝置包括一本體部20以及一彈性接觸部30,其中彈性接觸部30從本體部20的一端延伸而出。使用者可令感壓指標控制裝置的彈性接觸部30抵靠於觸控面板40的表面並在表面移動,以進行指標控制。The pressure sensitive index control device includes a body portion 20 and an elastic contact portion 30, wherein the elastic contact portion 30 extends from one end of the body portion 20. The user can make the elastic contact portion 30 of the pressure sensitive index control device abut against the surface of the touch panel 40 and move on the surface to perform index control.
舉例而言,觸控面板40可以是電容式觸控面板,而感壓指標控制裝置可以是電容式觸控面板的觸控筆。本體部20可以是一中空筆桿,彈性接觸部30則可以以黏著、嵌合或卡扣等方式與本體部20結合;但本體部20與彈性接觸部30也可以是一體成形。彈性接觸部30的材質可以是導電橡膠或導電泡棉,以使電容式觸控面板利用會導電的彈性接觸部30產生微小的電流並據以進行定位。For example, the touch panel 40 can be a capacitive touch panel, and the pressure sensitive index control device can be a stylus of a capacitive touch panel. The body portion 20 can be a hollow pen holder, and the elastic contact portion 30 can be bonded to the body portion 20 by adhesion, fitting or snapping; however, the body portion 20 and the elastic contact portion 30 can also be integrally formed. The material of the elastic contact portion 30 may be conductive rubber or conductive foam, so that the capacitive touch panel generates a small current by using the conductive elastic contact portion 30 and is accordingly positioned.
彈性接觸部30包括一容置槽32以及一距離感測單元34,其中距離感測單元34配置於容置槽32內。使用者將彈性接觸部30抵靠於觸控面板40的表面時,彈性接觸部30會受力並產生形變。而當彈性接觸部30中的容置槽32因受力產生形變時,距離感測單元34感測彈性接觸部30的形變,並據以輸出一壓力感測訊號。The elastic contact portion 30 includes a receiving groove 32 and a distance sensing unit 34 , wherein the distance sensing unit 34 is disposed in the receiving groove 32 . When the user abuts the elastic contact portion 30 against the surface of the touch panel 40, the elastic contact portion 30 is stressed and deformed. When the accommodating groove 32 in the elastic contact portion 30 is deformed by the force, the distance sensing unit 34 senses the deformation of the elastic contact portion 30 and outputs a pressure sensing signal accordingly.
觸控面板40可以是筆記型電腦(notebook computer)、平板電腦(tablet computer)、手機或相機等計算機裝置60的觸控螢幕,如「第2A圖」所示。觸控面板40也可以是手寫板或是繪圖板等與計算機裝置60外接的輸入周邊裝置,如「第2B圖」所示。觸控面板40能夠感測感壓指標控制裝置的座標,並以無線或有線的方式傳送給計算機裝置60。The touch panel 40 can be a touch screen of a computer device 60 such as a notebook computer, a tablet computer, a mobile phone or a camera, as shown in FIG. 2A. The touch panel 40 may be an input peripheral device that is externally connected to the computer device 60, such as a tablet or a tablet, as shown in FIG. 2B. The touch panel 40 is capable of sensing the coordinates of the pressure sensitive index control device and transmitting it to the computer device 60 in a wireless or wired manner.
接著請參照「第3A圖」、「第3B圖」以及「第4圖」,其分別為一實施範例之彈性接觸部之示意圖、彈性接觸部之受力示意圖,以及距離感測單元之示意圖。Next, please refer to "3A", "3B" and "4", which are respectively a schematic view of an elastic contact portion of an embodiment, a force diagram of the elastic contact portion, and a schematic diagram of the distance sensing unit.
容置槽32可以是立方體形或圓柱形,但並不限於此。本體部20可具有接觸於彈性接觸部30的一接觸面21。容置槽32的可具有與接觸面21相對的一第一面322,容置槽32並可具有環繞第一面322且介於接觸面21與第一面322之間的一彈性壁324。接觸面21、第一面322以及彈性壁324形成容置槽32中的一容置空間。距離感測單元34配置於接觸面21且朝向第一面322,以感測距離感測單元34到第一面322之間的一感測距離。The accommodating groove 32 may be a cubic shape or a cylindrical shape, but is not limited thereto. The body portion 20 can have a contact surface 21 that contacts the resilient contact portion 30. The accommodating groove 32 may have a first surface 322 opposite to the contact surface 21 , and the accommodating groove 32 may have a resilient wall 324 surrounding the first surface 322 and between the contact surface 21 and the first surface 322 . The contact surface 21 , the first surface 322 , and the elastic wall 324 form an accommodating space in the accommodating groove 32 . The distance sensing unit 34 is disposed on the contact surface 21 and faces the first surface 322 to sense a sensing distance between the distance sensing unit 34 and the first surface 322 .
根據一實施範例,本體部20可包括一擋板22,配置於本體部20與彈性接觸部30之間。彈性接觸部30在與接觸面21接觸的平面形成容置槽32的一開口,開口可被擋板22覆蓋。而距離感測單元34可以配置在擋板22的接觸面21上,且朝向第一面322。According to an embodiment, the body portion 20 can include a baffle 22 disposed between the body portion 20 and the resilient contact portion 30. The elastic contact portion 30 forms an opening of the accommodating groove 32 in a plane in contact with the contact surface 21, and the opening can be covered by the shutter 22. The distance sensing unit 34 can be disposed on the contact surface 21 of the baffle 22 and facing the first surface 322.
距離感測單元34可以是一紅外線收發器、一霍爾感測器(hall sensor)、一雷射收發器或是一超音波收發器。The distance sensing unit 34 can be an infrared transceiver, a hall sensor, a laser transceiver or an ultrasonic transceiver.
當距離感測單元34是紅外線收發器時,紅外線收發器(距離感測單元34)可包括一紅外線發射器342以及一影像接收器344。紅外線發射器342與影像接收器344成對。紅外線發射器342與影像接收器344可以都配置於接觸面21上,且容置於容置槽32的容置空間之中。紅外線發射器342例如可以是一發光二極體(light emitting diode,LED)。紅外線發射器342可朝向第一面322發出一紅外線,而紅外線會被第一面322所反射。影像接收器344則可接收被第一面322反射的紅外線,再據以計算得到距離感測單元34到第一面322之間的感測距離。When the distance sensing unit 34 is an infrared transceiver, the infrared transceiver (distance sensing unit 34) may include an infrared emitter 342 and an image receiver 344. The infrared emitter 342 is paired with the image receiver 344. The infrared emitter 342 and the image receiver 344 can both be disposed on the contact surface 21 and accommodated in the accommodating space of the accommodating groove 32. The infrared emitter 342 can be, for example, a light emitting diode (LED). The infrared emitter 342 can emit an infrared ray toward the first face 322, and the infrared ray is reflected by the first face 322. The image receiver 344 can receive the infrared light reflected by the first surface 322, and then calculate the sensing distance between the distance sensing unit 34 and the first surface 322.
類似地,亦可將雷射發射器、超音波發射器或是霍爾感測器設置於接觸面21上,並將雷射接收器、超音波接收器或是磁鐵設置於第一面322;也可將雷射發射器、超音波發射器或是霍爾感測器設置於上第一面322,並將雷射接收器、超音波接收器或是磁鐵設置於接觸面21;以計算得到距離感測單元34到第一面322之間的感測距離。Similarly, the laser emitter, the ultrasonic transmitter or the Hall sensor can be disposed on the contact surface 21, and the laser receiver, the ultrasonic receiver or the magnet is disposed on the first surface 322; A laser emitter, an ultrasonic transmitter or a Hall sensor may be disposed on the upper first surface 322, and a laser receiver, an ultrasonic receiver or a magnet may be disposed on the contact surface 21; The sensing distance between the sensing unit 34 and the first face 322.
根據一實施範例,壓力感測訊號可以是一電壓訊號。而影像接收器344計算得到感測距離後,依據感測距離輸出電壓訊號Vout 作為壓力感測訊號。且輸出的電壓訊號Vout 會隨著感測距離的不同而改變。如照「第5圖」所示的距離-電壓關係曲線50,在特定區間之內電壓訊號的強度可以與感測距離的長度成反比。According to an embodiment, the pressure sensing signal can be a voltage signal. After the image receiver 344 calculates the sensing distance, the voltage signal V out is output as the pressure sensing signal according to the sensing distance. And the output voltage signal V out will change with the sensing distance. As shown in the distance-voltage relationship curve 50 shown in Fig. 5, the intensity of the voltage signal within a certain interval may be inversely proportional to the length of the sensing distance.
當彈性接觸部30抵靠於觸控面板40而受力時,彈性接觸部30會在本體部20的擋板22與觸控面板40之間被擠壓,如「第3B圖」所示。第一面322或彈性壁324可能受到來自上方以及下方的外力擠壓而產生形變。依據使用者握持本體部20的方式以及使用者的書寫習慣,彈性接觸部30也可能受到具有水平分量的外力並產生形變,進而使得第一面322或彈性壁324也產生形變。由於第一面322或彈性壁324的形變會使得距離感測單元34到第一面322之間的距離改變,因此距離感測單元34能夠藉由感測距離的改變而查知形變以及形變的大小,並依據感測距離輸出壓力感測訊號。When the elastic contact portion 30 is pressed against the touch panel 40, the elastic contact portion 30 is pressed between the shutter 22 of the main body portion 20 and the touch panel 40, as shown in FIG. 3B. The first face 322 or the elastic wall 324 may be deformed by an external force from above and below. Depending on the manner in which the user holds the body portion 20 and the writing habits of the user, the elastic contact portion 30 may also be subjected to an external force having a horizontal component and deformed, thereby causing the first face 322 or the elastic wall 324 to also deform. Since the deformation of the first face 322 or the elastic wall 324 causes the distance between the distance sensing unit 34 and the first face 322 to change, the distance sensing unit 34 can detect the deformation and the deformation by sensing the change of the distance. Size, and output pressure sensing signal according to the sensing distance.
例如當彈性接觸部30未受力時(如「第3A圖」),距離感測單元34感測到的感測距離D1為容置槽32的原始深度。但是當彈性接觸部30因壓力向內部擠壓而使得彈性壁324變形時(如「第3B圖」),容置槽32的深度變淺。因此彈性接觸部30受力時的感測距離D2小於未受力時的感測距離D1。彈性接觸部30受到的外力越大,產生的形變越大,偵測距離也越短,而輸出的電壓訊號的電壓值越大。For example, when the elastic contact portion 30 is not stressed (such as "3A"), the sensing distance D1 sensed by the distance sensing unit 34 is the original depth of the accommodating groove 32. However, when the elastic contact portion 30 is pressed by the pressure to deform the elastic wall 324 (for example, "Fig. 3B"), the depth of the accommodating groove 32 becomes shallow. Therefore, the sensing distance D2 when the elastic contact portion 30 is stressed is smaller than the sensing distance D1 when the elastic contact portion 30 is not subjected to force. The larger the external force received by the elastic contact portion 30, the larger the deformation, the shorter the detection distance, and the larger the voltage value of the output voltage signal.
由於距離感測單元34的所有元件(例如紅外線發射器342、影像接收器344)與作為反射面的第一面322都被包裝於容置空間之中,因此偵測形變程度時不會受到環境光(ambient light)或是具有不同反光係數的反光面所干擾。Since all the components of the distance sensing unit 34 (for example, the infrared emitter 342 and the image receiver 344) and the first surface 322 as the reflecting surface are packaged in the accommodating space, the degree of deformation is not affected by the environment. Ambient light or interference with reflective surfaces with different reflection coefficients.
除了本體部20以及彈性接觸部30之外,感壓指標控制裝置令可具有一微控制單元(micro control unit,MCU)、一傳輸單元、一電池或是一充電線路。且當本體部20是中空筆桿時,MCU、傳輸單元、電池或是充電線路都可被配置於中空筆桿之中。請參照「第6圖」,其係為一實施範例之感壓指標控制裝置之方塊圖。In addition to the body portion 20 and the resilient contact portion 30, the pressure sensitive index control device can have a micro control unit (MCU), a transmission unit, a battery, or a charging line. And when the body portion 20 is a hollow pen holder, the MCU, the transmission unit, the battery or the charging line can be disposed in the hollow pen holder. Please refer to "Fig. 6", which is a block diagram of a pressure sensitive index control device of an embodiment.
MCU 24可電性連接於距離感測單元34。MCU 24可接收壓力感測訊號,並將壓力感測訊號轉換成一輸出訊號。其中輸出訊號可代表彈性接觸部30形變的程度,間接代表使用者施力於感壓指標控制裝置10的程度。且MCU 24可包括一類比數位轉換器(A/D converter)242,並利用類比數位轉換器242接收壓力感測訊號,再將壓力感測訊號轉換成輸出訊號。The MCU 24 can be electrically connected to the distance sensing unit 34. The MCU 24 can receive the pressure sensing signal and convert the pressure sensing signal into an output signal. The output signal may represent the degree of deformation of the elastic contact portion 30, and indirectly represents the extent to which the user applies force to the pressure sensitive index control device 10. The MCU 24 can include an analog-to-digital converter (A/D converter) 242 and receive the pressure sensing signal by the analog digital converter 242, and then convert the pressure sensing signal into an output signal.
傳輸單元25可電性連接於MCU 24,更詳細地說,MCU 24可透過一內部整合電路匯流排(Inter-Integrated Circuit bus,I2C bus)244將輸出訊號傳送給傳輸單元25。傳輸單元25收到輸出訊號後,可將其包裝成封包(package),再以無線或有線的方式將輸出訊號傳出去給計算機裝置60。The transmission unit 25 can be electrically connected to the MCU 24. In more detail, the MCU 24 can transmit the output signal to the transmission unit 25 through an Inter-Integrated Circuit Bus (I2C bus) 244. After receiving the output signal, the transmission unit 25 can package it into a package and then transmit the output signal to the computer device 60 in a wireless or wired manner.
計算機裝置60可包括一驅動程式62、一作業系統64以及至少一應用程式66。驅動程式62可以是針對感壓指標控制裝置10,以接收輸出訊號。但驅動程式62也可以同時針對感壓指標控制裝置10以及觸控面板40。換句話說,傳輸單元25可以直接將輸出訊號傳給計算機裝置60;也可以先將輸出訊號傳給觸控面板40,再由觸控面板40輸出訊號傳給計算機裝置60。觸控面板40能感測感壓指標控制裝置10的座標,並統合座標的數據以及從傳輸單元25接收的輸出訊號,再將座標的數據以及輸出訊號傳送給計算機裝置60。The computer device 60 can include a driver program 62, an operating system 64, and at least one application program 66. The driver 62 may be for the pressure sensitive index control device 10 to receive an output signal. However, the driver 62 can also control the device 10 and the touch panel 40 for the pressure sensitive index. In other words, the transmission unit 25 can directly transmit the output signal to the computer device 60. The output signal can be transmitted to the touch panel 40, and then the output signal from the touch panel 40 is transmitted to the computer device 60. The touch panel 40 can sense the coordinates of the pressure sensitive index control device 10, integrate the coordinate data and the output signal received from the transmission unit 25, and transmit the coordinate data and the output signal to the computer device 60.
而計算機裝置60的作業系統64透過驅動程式62接收到座標的數據或輸出訊號之後,可以據以控制指標的移動或點擊等操作。作業系統64亦可將座標的數據或輸出訊號傳給應用程式66,以依據應用程式66對於各種指標操作的定義作出反應。舉例而言,應用程式66可以是一繪圖軟體,並依據輸出訊號得知筆壓大小,而產生類似畫筆或毛筆的書寫效果。After the operating system 64 of the computer device 60 receives the data of the coordinates or the output signal through the driver 62, the operation of controlling the movement or clicking of the index can be controlled. The operating system 64 can also pass the coordinates or output signals of the coordinates to the application 66 to react to the definition of the various index operations by the application 66. For example, the application 66 can be a drawing software, and the size of the pen pressure is obtained according to the output signal, and the writing effect like a brush or a brush is generated.
感壓指標控制裝置10的電池26可連接於MCU 24,以提供電力給MCU 24。充電線路27則可電性連接於電池26,以將電池26充電。充電線路27可以以有線或無線的方式獲得電力,並提供給電池26。The battery 26 of the pressure sensitive index control device 10 can be coupled to the MCU 24 to provide power to the MCU 24. The charging line 27 can be electrically connected to the battery 26 to charge the battery 26. The charging line 27 can obtain power in a wired or wireless manner and supply it to the battery 26.
根據一實施範例,觸控面板40可以是電阻式觸控面板,而感壓指標控制裝置10可以是電阻式觸控面板的觸控筆。感壓指標控制裝置10可另包括一筆尖部,且彈性接觸部30配置於本體部20與筆尖部之間。筆尖部的硬度較高,並可在接觸電阻式觸控面板時將電阻式觸控面板表層的兩導電層壓在一起,以使電阻式觸控面板利用據以進行定位。當使用者將感壓指標控制裝置10抵壓於觸控面板40的表面時,彈性接觸部30會在本體部20以及筆尖部之間產生形變;因此距離感測單元34能感測彈性接觸部30的形變,並據以輸出壓力感測訊號。According to an embodiment, the touch panel 40 can be a resistive touch panel, and the pressure sensitive index control device 10 can be a stylus of a resistive touch panel. The pressure sensitive index control device 10 may further include a pen point, and the elastic contact portion 30 is disposed between the body portion 20 and the pen tip portion. The hardness of the nib portion is relatively high, and the two conductive layers of the surface of the resistive touch panel can be laminated together when the resistive touch panel is touched, so that the resistive touch panel can be used for positioning. When the user presses the pressure sensitive index control device 10 against the surface of the touch panel 40, the elastic contact portion 30 deforms between the body portion 20 and the nib portion; therefore, the distance sensing unit 34 can sense the elastic contact portion. 30 deformation, and according to the output pressure sensing signal.
綜上所述,感壓指標控制裝置能配合觸控板進行指標控制。感壓指標控制裝置並能藉由感測彈性接觸部的形變來得知本身的受力程度,而輸出代表筆壓強度的壓力感測訊號,再輸出給計算機裝置。如此一來,使用者能夠書寫出具有粗細差異的線條,應用程式也可依據筆壓強弱來模擬毛筆禍或是彩筆等不同筆觸。且由於距離感測單元以及作為反射面的第一面都被配置於不受環境光或外界溼度影響的容置槽內,因此感測的效能十分穩定,而不會被外界影響。In summary, the pressure sensitive index control device can be used with the touch panel for index control. The pressure sensitive index control device can sense the degree of stress itself by sensing the deformation of the elastic contact portion, and output a pressure sensing signal representing the writing pressure strength, and output it to the computer device. In this way, the user can write lines with different thickness and difference, and the application can simulate different strokes such as a brushwork or a colored pencil according to the strength of the pen pressure. Moreover, since the distance sensing unit and the first surface as the reflecting surface are disposed in the receiving grooves that are not affected by ambient light or external humidity, the sensing performance is very stable without being affected by the outside world.
以上較佳具體實施範例之詳述,是希望藉此更加清楚描述本發明之特徵與精神,並非以上述揭露的較佳具體實施範例對本發明之範疇加以限制。相反地,其目的是希望將各種改變及具相等性的安排涵蓋於本發明所欲申請之專利範圍的範疇內。The above detailed description of the preferred embodiments of the present invention is intended to provide a further understanding of the scope of the invention. On the contrary, the intention is to cover various modifications and equivalent arrangements within the scope of the invention as claimed.
10...感壓指標控制裝置10. . . Pressure sensor control device
20...本體部20. . . Body part
21...接觸面twenty one. . . Contact surfaces
22...擋板twenty two. . . Baffle
24...微控制單元twenty four. . . Micro control unit
242...類比數位轉換器242. . . Analog digital converter
244...內部整合電路匯流排244. . . Internal integrated circuit bus
25...傳輸單元25. . . Transmission unit
26...電池26. . . battery
27...充電線路27. . . Charging line
30...彈性接觸部30. . . Elastic contact
32...容置槽32. . . Locating slot
322...第一面322. . . First side
324...彈性壁324. . . Elastic wall
34...距離感測單元34. . . Distance sensing unit
342...紅外線發射器342. . . Infrared emitter
344‧‧‧影像接收器344‧‧‧Image Receiver
40‧‧‧觸控面板40‧‧‧ touch panel
50‧‧‧距離-電壓關係曲線50‧‧‧ Distance-voltage curve
60‧‧‧計算機裝置60‧‧‧Computer equipment
62‧‧‧驅動程式62‧‧‧Driver
64‧‧‧作業系統64‧‧‧Operating system
66‧‧‧應用程式66‧‧‧Application
第1圖係為一實施範例之感壓指標控制裝置之示意圖。Fig. 1 is a schematic diagram of a pressure sensitive index control device of an embodiment.
第2A圖係為一實施範例之觸控面板之示意圖。FIG. 2A is a schematic diagram of a touch panel of an embodiment.
第2B圖係為一實施範例之觸控面板之示意圖。FIG. 2B is a schematic diagram of a touch panel of an embodiment.
第3A圖係為一實施範例之彈性接觸部之示意圖。Fig. 3A is a schematic view of an elastic contact portion of an embodiment.
第3B圖係為一實施範例之彈性接觸部之受力示意圖。Figure 3B is a schematic view of the force of the elastic contact portion of an embodiment.
第4圖係為一實施範例之距離感測單元之示意圖。Figure 4 is a schematic diagram of a distance sensing unit of an embodiment.
第5圖係為一實施範例之距離-電壓關係示意圖。Figure 5 is a schematic diagram of the distance-voltage relationship of an embodiment.
第6圖係為一實施範例之感壓指標控制裝置之方塊圖。Figure 6 is a block diagram of a pressure sensitive index control device of an embodiment.
20...本體部20. . . Body part
30...彈性接觸部30. . . Elastic contact
32...容置槽32. . . Locating slot
34...距離感測單元34. . . Distance sensing unit
40...觸控面板40. . . Touch panel
Claims (10)
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TW101110882A TWI461971B (en) | 2012-03-28 | 2012-03-28 | Pressure-sensitive cursor control device |
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TW101110882A TWI461971B (en) | 2012-03-28 | 2012-03-28 | Pressure-sensitive cursor control device |
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TWI461971B true TWI461971B (en) | 2014-11-21 |
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TWI549034B (en) * | 2015-02-17 | 2016-09-11 | 佳世達科技股份有限公司 | Electronic device |
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TWI509474B (en) * | 2014-05-01 | 2015-11-21 | Quanta Comp Inc | Stylus |
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US5565632A (en) * | 1995-02-20 | 1996-10-15 | Wacom Co., Ltd. | Pressure sensitive stylus pen |
US6727439B2 (en) * | 2002-01-28 | 2004-04-27 | Aiptek International Inc. | Pressure sensitive pen |
TWM350750U (en) * | 2008-10-03 | 2009-02-11 | Inventec Appliances Corp | Electric pen |
TW201131434A (en) * | 2010-01-08 | 2011-09-16 | Integrated Digital Tech Inc | Stylus and touch input system |
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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US5565632A (en) * | 1995-02-20 | 1996-10-15 | Wacom Co., Ltd. | Pressure sensitive stylus pen |
US6727439B2 (en) * | 2002-01-28 | 2004-04-27 | Aiptek International Inc. | Pressure sensitive pen |
TWM350750U (en) * | 2008-10-03 | 2009-02-11 | Inventec Appliances Corp | Electric pen |
TW201131434A (en) * | 2010-01-08 | 2011-09-16 | Integrated Digital Tech Inc | Stylus and touch input system |
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Publication number | Priority date | Publication date | Assignee | Title |
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TWI549034B (en) * | 2015-02-17 | 2016-09-11 | 佳世達科技股份有限公司 | Electronic device |
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