200923728 九、發明說明: 【發明所屬之技術領域】 位移系f於一種位移感測裝置。特別係關於藉由可作實體 位移之載板,使游標移動至預定位置之位移感測裝置。 【先前技藝】 性盘腦已_越#及的情況之下’為了發揮其高機動 因特性,筆記型電腦的訴求會著重於輕薄短小。也 上㈣腸酬設計上均較桌 窗己型電版並無指向裝置(polntlng device) ’但隨著視 展’並且為了雜難以攜帶的桌上型滑鼠,各種裝配 畆if生电腦的指向裝置漸漸衍生而出,例如軌跡球(trackball)、 =、内建滑鼠(pop up mGUse)以及筆㈣)等。其中又以載板為目 :二及率最高且最具實用性的指向裝置。載板為一塊設置於鍵盤 g的平板’可以感應使用者在平板上的移動以指揮游標(_〇Γ)移 ,參閱圖一A與圖一B,圖一A係繪示設置有載板模組之習 -:°己型電細的外觀視圖,圖一 B係繪示圖一 A中之載板模組的 =意圖。如圖一 A與圖一 B所示,筆記型電腦i具有殼體'⑽。 筆e己,電腦1中具有觸控板模組12,觸控板模組12並包含有設 置於殼體10上之觸控板120與觸控板基座122。觸控板120具有 可觸控以供電路感應之感應區1200,另有用以定位觸控板12〇之 觸控板基座122。觸控板基座122於相應觸控板120之邊框處設 ^卡合部1220。藉此,觸控板12〇在卡合至觸控板基座ι22時係 疋位。觸控板120能電性連結至筆記型電腦1,使用者可藉由手 200923728 指在觸控板i2〇的表面移動來控制顯示營幕M上游標的移動。 梦而1 ^ f者欲藉由f知的載板來控制游標在顯示螢幕上的 ίϊΆ^、、、法利用手指在觸控板表面滑動—次就移動到預定 Si 5 ^用者往往需要在載板上滑動好幾次才能完成。 載的位移"^藉由改魏板的錄度來做調整, -逛疋,,、、/、準地利用習知的载板使游標移動到想要的位置。 由摔=作在於提供—種位移感測裝置,其係藉 η了 编反,使顯示螢幕上之游標移動至預定位 到預定要手指在其上滑動數次才能將游標移動 【發明内容】 以 ㈣丨^據本發明之—較佳賊實施例之位移❹樣置,a係用 已=Λ又體(housing)、一支架、一載板 組。該殼體上形成一開口並定義一第 二^ =杈 至少-第-卡合部。該支架係藉由該至少二U支5具有 少-第-限制部以沿該第一方向滑動。該f以配-該至 。另外,該支架具有至少-沿該第二方向形; =載J具有至少-第二關部。賴㈣#由該 抛合該至少—第二卡合部以沿該第二方 4 -限制 設置於該殼體内。其中,當該載板相 f感測 細接鈕A成、、a,丨&一 T豕"又體移動時,該感測模 至,該第-方向形成之第-限制; 合該至 向。另外,該支架具有至少-沿該第二方方 該盤柘且古$小—黎-mi,丨*rr . 风之第一卡合部。 第。該感測模組係 制該游標於該顯示螢幕上之移動。 _藉此,即可控 因此,根據本發明之位移感測裝置,可蕤1 移之载板,使顯示螢幕上之游標移動至預定‘置體位 載板需要手指在其上滑紐次才能將游標移動 200923728200923728 IX. Description of the invention: [Technical field to which the invention pertains] The displacement system f is a displacement sensing device. In particular, it relates to a displacement sensing device that moves a cursor to a predetermined position by a carrier that can be physically displaced. [Previous Skills] Sexually-disciplined brains have been used in the context of _Vietnam. In order to achieve its high maneuverability characteristics, the appeal of notebook computers will focus on lightness and shortness. Also on (4) Intestines are designed to have a pointing device (polntlng device) than the table-and-window type of electronic version, but with the desktop model for the miscellaneous and difficult to carry, various types of assembly Devices are gradually emerging, such as trackball, =, pop up mGUse, and pen (4). Among them, the carrier board is the second: the highest and most practical pointing device. The carrier board is a flat plate disposed on the keyboard g. It can sense the movement of the user on the tablet to command the cursor (_〇Γ) to move. Referring to FIG. 1A and FIG. 1B, FIG. 1A shows the set carrier mode. The group's habits:: ° is the appearance of the electric form, Figure 1 B shows the intention of the carrier module in Figure A. As shown in FIG. 1A and FIG. 1B, the notebook computer i has a housing '(10). The touch panel module 12 is included in the computer 1. The touch panel module 12 includes a touch panel 120 and a touchpad base 122 disposed on the housing 10. The touch panel 120 has a sensing area 1200 that can be touched for sensing by the circuit, and a touch panel base 122 for positioning the touch panel 12A. The touchpad base 122 is provided with a latching portion 1220 at a frame of the corresponding touchpad 120. Thereby, the touch panel 12 is clamped when it is engaged to the touchpad base ι22. The touch panel 120 can be electrically connected to the notebook computer 1. The user can control the movement of the upstream target of the camp screen M by moving the surface of the touch panel i2〇 by hand 200923728. Dreams and 1 ^ f wants to control the cursor on the display screen by means of the known carrier board, and the method uses the finger to slide on the surface of the touchpad - it moves to the predetermined Si 5 ^ Slide the board several times to complete. The displacement of the load is adjusted by changing the position of the Wei board. - 疋,,,, /, and use the conventional carrier board to move the cursor to the desired position. The sliding-sending device provides a displacement sensing device that moves the cursor on the display screen to a predetermined position until the predetermined finger is swiped thereon for several times to move the cursor. (4) According to the present invention, the displacement of the preferred thief embodiment is set, and the a system is used, a housing, a carrier, and a carrier. An opening is formed in the housing and defines a second ^ 杈 at least - a first engaging portion. The bracket is slid in the first direction by the at least two U-branch 5 having a small-first restricting portion. The f is matched with - to. Additionally, the bracket has at least - shaped along the second direction; = carrier J has at least - a second portion. Lai (four) # is thrown by the at least - the second engaging portion is disposed within the housing along the second side 4 -. Wherein, when the carrier phase f senses the thin button A, a, 丨&-T豕" and the body moves, the sensing mode reaches, the first direction forms a first-limit; To the end. In addition, the bracket has at least - along the second side of the disk and the ancient $ small - Li-mi, 丨 * rr. First. The sensing module controls the movement of the cursor on the display screen. Therefore, according to the displacement sensing device of the present invention, the carrier plate can be moved to move the cursor on the display screen to a predetermined position. The carrier plate needs to be swiped on the finger to be able to slide the button. Cursor movement 200923728
式得點與精神可以藉由以下的發明詳述及所附圖 【實施方式】 、則驻在提供—種位移感測裝置。本發明之位移感The point and spirit of the present invention can be explained by the following detailed description of the invention and the accompanying drawings. [Embodiment] A displacement sensing device is provided. Displacement of the present invention
:ίί實體位移之載板,使顯示螢幕上之游標 处置ΐ解決習知的載板需要手指在其上滑動數次才 1動至預定位置的問題。以下將詳述本發明之較佳具體 猎刀解說本發明之特徵、精神、優點以及實施上的 明#閱圖一,圖二係繪示設置有本發明之位移感測裝置 之筆s己型電腦2的外觀視圖。如圖二所示,根據本發明之一較佳 具體貝_之位佩測裝置20 ’其係肋控制顯示於—顯示螢幕 22上之一游標220。 夸 请參閱圖二Α與圖三丑’圖三八係緣示根據本發明之一較佳 具體實施例之位移感測裝置20的上部外觀視圖,圖三B係緣示 圖二A中之位移感測裝置20的下部外觀視圖。如圖三A食圖三 B所示,該位移感測裝置20包含—殼體2〇〇、一支架2〇2—^ 板204以及一感測模組206。 如圖二A所示,該殼體200上形成一開口 2〇〇〇並定義一第 一方向A1。如圖二B所示’該殼體2〇〇内在該開口 2〇〇〇之周圍 具有至少一沿該第一方向A1形成之第一限制部2〇〇2。 如圖三B所示,該支架202具有至少一第一_^合部2020。該 支架202係藉由該至少一第·一-^合部2020配合該至少一第一限 制部2002以沿該第一方向八1滑動。該支架2〇2上定義一第二方 200923728: ί ̄ The physical displacement of the carrier, so that the cursor on the display screen is disposed. The conventional carrier board is required to slide the finger several times to move to the predetermined position. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the features, spirits, advantages, and implementations of the present invention will be described in detail. FIG. 2 is a diagram showing a pen-type type provided with the displacement sensing device of the present invention. Appearance view of the computer 2. As shown in Fig. 2, in accordance with one of the preferred embodiments of the present invention, the rib control device 20' is displayed on the display screen 22 as a cursor 220. Referring to FIG. 2A and FIG. 3D, FIG. 3 is a top view of the displacement sensing device 20 according to a preferred embodiment of the present invention, and FIG. 3B shows the displacement in FIG. A lower appearance view of the sensing device 20. As shown in FIG. 3A, the displacement sensing device 20 includes a housing 2〇〇, a bracket 2〇2-plate 204, and a sensing module 206. As shown in Fig. 2A, an opening 2 is formed in the casing 200 and defines a first direction A1. As shown in Fig. 2B, the casing 2 has at least one first restricting portion 2〇〇2 formed along the first direction A1 around the opening 2?. As shown in FIG. 3B, the bracket 202 has at least one first portion 2020. The bracket 202 is slid in the first direction by the at least one first limiting portion 2002 by the at least one first-and-forward portion 2020. A second party is defined on the bracket 2〇2 200923728
向A2。另外’該支架202具有至少一沿該第二方向A2形成之第 二卡合部2022。 V 於一具體實施例中,該第一方向A1可與該第二方向A2互 相垂直。 同樣示於圖三B ’該載板204具有至少一第二限制部2〇4〇。 該載板204係藉由該至少一第二限制部2040配合該至少一第二 卡合部2022以沿該第二方向A2滑動。 於一具體實施例中,該至少一第一限制部2002與該至少一 第二限制部2040皆可為溝槽。藉此,該支架202即可藉由第一 卡合部2020配合s亥设體200之溝槽以沿該第一方向A1滑動。同 樣地,該載板204即可藉由溝槽配合該支架202之第二卡合部 2022以沿該第二方向A2滑動。 口 於另一具體實施例中,該至少一第一限制部2002與該至少 一第二限制部2040皆可為滑軌。藉此,該支架202即可藉由第 一-^合部2020配合該殼體200之滑軌以沿該第一方向A1滑動。 同樣地’該載板204即可藉由滑軌配合該支架202之第二卡合部 2022以沿該第二方向A2滑動。 此外,於一具體實施例中,該載板上可具有至少一按鍵 2042,用以供使用者對電腦執行命令,例如點選電腦物件。 同樣示於圖三B,該感測模組206係設置於該殼體200内。 當該載板相對該殼體200移動時,該感測模組206係藉由感測該 載板204與該殼體200之間之一實體位移D1。藉此,使用者即 可藉由所感測到之該實體位移D1來控制該游標220於該顯示榮 幕22上之移動。 一 請參閱圖三C ’圖三C係繪示圖三A中之位移感測裝置20 200923728 的側視圖。如圖二p _ Α 口— C所不,於一具體實施例中,該感測模組206 楚一二二第—感測單元206〇與一第二感測單元2062,該 2060係固定於該殼體200内,該第二感測單元 莫兮杳疋於該载板204之—底面,當該第二感測單元2〇62隨 在lH〇4相對該第一感測單元2060移動時,該感測模組206 係感獅載板2〇4與該殼體間之該實體位移m。To A2. Further, the bracket 202 has at least one second engaging portion 2022 formed along the second direction A2. V In a specific embodiment, the first direction A1 may be perpendicular to the second direction A2. Also shown in Figure 3B', the carrier 204 has at least one second restriction 2〇4〇. The carrier 204 is slid in the second direction A2 by the at least one second limiting portion 2040 engaging the at least one second engaging portion 2022. In one embodiment, the at least one first limiting portion 2002 and the at least one second limiting portion 2040 can each be a trench. Thereby, the bracket 202 can be slid along the first direction A1 by the first engaging portion 2020 engaging the groove of the s-shaped body 200. Similarly, the carrier 204 can be slid along the second direction A2 by the second engaging portion 2022 of the bracket 202. In another embodiment, the at least one first limiting portion 2002 and the at least one second limiting portion 2040 can be slide rails. Thereby, the bracket 202 can be slid along the sliding rail of the casing 200 by the first coupling portion 2020 to slide along the first direction A1. Similarly, the carrier 204 can be slid along the second direction A2 by the sliding rail engaging the second engaging portion 2022 of the bracket 202. In addition, in a specific embodiment, the carrier board can have at least one button 2042 for the user to execute commands on the computer, such as clicking on a computer object. Also shown in FIG. 3B, the sensing module 206 is disposed in the housing 200. When the carrier moves relative to the housing 200, the sensing module 206 senses a physical displacement D1 between the carrier 204 and the housing 200. Thereby, the user can control the movement of the cursor 220 on the display screen 22 by sensing the physical displacement D1. Please refer to FIG. 3C'. FIG. 3C is a side view of the displacement sensing device 20200923728 in FIG. As shown in FIG. 2, the sensor module 206 is configured to be coupled to a second sensing unit 2062, and the 2060 system is fixed to the second sensing unit 206. In the housing 200, the second sensing unit is adjacent to the bottom surface of the carrier 204, and when the second sensing unit 2〇62 is moved relative to the first sensing unit 2060. The sensing module 206 is the physical displacement m between the lion carrier board 2〇4 and the housing.
你爲圖四,圖四係纷示利用本發明之位移感測裝置20操 示 22上之游標220的示意圖。如圖四所示,於一具體 實知例中,销σ 2_之雜係相似於麵示螢幕22,並且該 開口 20(H)之尺寸相對該顯示螢幕a之尺寸具有一比例。 並且^於此具體實施例中,該感測模組2〇6係根據該實體位 移D1與该比例所產生之一虛擬位移说,藉以控制該游標22〇於 該顯示螢幕22上之移動。 舉例而言,若該開口 2000相對於該顯示螢幕22之該比例為 十分之一倍,則當使用者移動該載板之該實體位移D1為丨公分 時,該顯示螢幕22上之該游標220即相對地產生該虛擬位移 D210公分。_藉此,使用者即可藉由移動該載板以操控該游標22〇 移動至該顯示螢幕22上任何想要的位置。 另外,在移動該載板204時,為了確保該開口 2〇〇〇始終位 於該載板204的上方,於一具體實施例中,該開口 2〇〇〇之尺寸 係小於該載板之尺寸。藉此,即可避免該載板204無法完全覆蓋 於該開口 2000下的問題。 於一具體實施例中,該感測模組206可以是一電容式感測模 組。於此實施例中,該第一感測單元2060可以是一移動板,該 第二感測單元2062可以是一固定板。該電容式感測模組可以感 測該第一感測單元2060在該第二感測單元2062上移動的面積所 造成的電容改變。藉此,即可得知該第一感測單元2060相對該 9 200923728 第二感測單元2062的位移量。亦即,該載板撕的相 200的位移量即可得知。 H又體 於一另具體實施例中,該感測模組2〇6可以是—電阻 杈組。於此實施例中,為了感測該载板2〇4的位移量,2雷 3施加’已知電壓。接著’可以藉由測量電阻的輪出電壓屯 * =移量與輸出電壓成正比,該載板綱實際的位移量即可 此獲仔。 曰 於另一具體實施例中,該感測模組2〇6可以是_ f 模組。於此日實施例中,該第—感測單元施。與J第】 f 兩組電磁線圈。#兩組電磁線81產生相對移^時,兩 j圈的電磁雜㈣變。藉此,即可得知 ; 殼體200的位移量 邳對於该 於另一具體實施例中,該感測模組2〇6可以是— Ϊ ί = T可以是—光發射/接收單元,該第二^單 兀_可#-畫有格線的板子。藉由該光發射/接^^ 板子做相對移動,該光發射/接收單元即可 /、忒 該殼體200的位移量。 ^載板204相對於 相較於先前技藝,根據本發明之位移感 =本:ΐ位裝置’其開口之形狀係相似於 _卞狀,並且该開口之尺寸相對該顯示螢 3 例。措此,使用者只需移動本發明之裁板—次 ς有—比 上之游標移動至顯示$幕上任意位置而盈 卩 =載板需要手指在其上_數次才能將由標移 望能更加清楚描逑本 藉由以上較佳具體實施例之詳述,係希 200923728 =之特徵與精神’而並非以上述所揭露的較—且 本發明之齡加以限制。相反地,其目的是希望能 及具相等性的安排於本發明所欲申請之專利範圍的範嘴内。 200923728 【圖式簡單說明j 圖一 A係纟會示設置有載板模組之習知筆記型電腦的外觀視 圖。 圖一 B係緣示圖一 A中之載板模組的示意圖。 圖二係緣示設置有本發明之位移感測裝置之筆記型電腦的外 觀視圖。 f 圖二A係緣示根據本發明之一較佳具體實施例之位移感測梦 置的上部外觀視圖。 ^ 圖三B係緣示圖三A中之位移感測裝置的下部外觀視圖。 圖二C鱗示圖三A中之位移感測裝置的侧視圖。 圖 標的示意圖 =緣示利用本發明之位減職作顯錢幕上之游 【主要元件符號說明】 1、2:筆記型電腦 12 :觸控板模組 1200 :感應區 1220 :卡合部 20 :位移感測裝置 10、200 :殼體 120 :觸控板 122 :觸控板基座 14、22 :顯示螢幕 2000 :開口 2002 :第一限制部 2020 :第一·"^合部 202 :支架 2022 .第二卡合部 12 200923728 204 : 2042 2060 220 : A2 : D2 : 載板 2040 :第二限制部 :按鍵 :第一感測單元 游標 第二方向 虛擬位移 206 :感測模組 2062 :第二感測單元 A1 :第一方向 D1 :實體位移 134 is a schematic view of the cursor 220 on the display 22 of the displacement sensing device 20 of the present invention. As shown in FIG. 4, in a specific example, the pin σ 2_ is similar to the facet screen 22, and the size of the opening 20 (H) has a ratio with respect to the size of the display screen a. And in the specific embodiment, the sensing module 2〇6 controls the movement of the cursor 22 on the display screen 22 according to the virtual displacement of the physical displacement D1 and the ratio. For example, if the ratio of the opening 2000 to the display screen 22 is one tenth of a tenth, the cursor on the display screen 22 when the user moves the physical displacement D1 of the carrier to 丨 cm. 220, that is, the virtual displacement D 210 cm is relatively generated. By this, the user can move the slider 22 to any desired position on the display screen 22 by moving the carrier. In addition, when the carrier 204 is moved, in order to ensure that the opening 2 is always above the carrier 204, in one embodiment, the size of the opening 2 is smaller than the size of the carrier. Thereby, the problem that the carrier 204 cannot completely cover the opening 2000 can be avoided. In one embodiment, the sensing module 206 can be a capacitive sensing module. In this embodiment, the first sensing unit 2060 can be a moving board, and the second sensing unit 2062 can be a fixed board. The capacitive sensing module can sense a change in capacitance caused by an area of the first sensing unit 2060 moving on the second sensing unit 2062. Thereby, the displacement amount of the first sensing unit 2060 relative to the 9 200923728 second sensing unit 2062 can be known. That is, the amount of displacement of the phase 200 torn by the carrier is known. In a further embodiment, the sensing module 2〇6 can be a resistor group. In this embodiment, in order to sense the displacement amount of the carrier 2〇4, 2 ray 3 is applied with a known voltage. Then, by measuring the turn-off voltage of the resistor 屯 * = the shift is proportional to the output voltage, the actual displacement of the carrier can be obtained. In another embodiment, the sensing module 2〇6 can be an _f module. In this embodiment, the first sensing unit is applied. With J § f two sets of electromagnetic coils. #Two sets of electromagnetic lines 81 produce relative shifts, two j-turn electromagnetic hybrids (four) change. Therefore, it can be known that the displacement amount of the housing 200 is 该 ί ί ί ̄ ̄ ̄ ̄ ̄ ί ί ί ί ί The second ^ 兀 _ _ # - draw a board with a grid. By the relative movement of the light emitting/receiving board, the light emitting/receiving unit can /, the displacement amount of the housing 200. The carrier plate 204 has a displacement feeling according to the present invention as compared with the prior art. The present invention has a shape similar to that of the opening device, and the size of the opening is relative to the display. In this way, the user only needs to move the cutting board of the present invention - the second time there is - the cursor moves to display any position on the screen and the surplus = the carrier board needs the finger on it _ several times to be able to move from the target It is to be understood that the detailed description of the preferred embodiments of the present invention is intended to be <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; On the contrary, the purpose is to have an equivalent arrangement within the scope of the patent application to which the present invention is intended. 200923728 [Simple description of the diagram j Figure 1 A system will show the appearance of a conventional notebook computer with a carrier module. Figure 1 is a schematic view of the carrier module in Figure A. Fig. 2 is a perspective view showing the notebook computer provided with the displacement sensing device of the present invention. Figure 2A is an upper elevational view of a displacement sensing dream in accordance with a preferred embodiment of the present invention. ^ Figure 3B is a bottom view of the displacement sensing device of Figure 3A. Figure 2C is a side view of the displacement sensing device of Figure 3A. Schematic diagram of the icon = the use of the position of the present invention to reduce the role of the screen on the screen [main component symbol description] 1, 2: notebook computer 12: touch panel module 1200: sensing area 1220: the engagement part 20 : Displacement sensing device 10, 200: housing 120: touch panel 122: touchpad base 14, 22: display screen 2000: opening 2002: first restricting portion 2020: first · " ^ part 202: Bracket 2022. Second engaging portion 12 200923728 204 : 2042 2060 220 : A2 : D2 : Carrier 2040 : Second limiting portion: Button: First sensing unit cursor Second direction virtual displacement 206 : Sensing module 2062 : Second sensing unit A1: first direction D1: physical displacement 13