M377646 五、新型說明: 【新型所屬之技術領域】 本創作是關於-_示11 ’特別是關於—種觸控與按鍵功能 結合的顯示器。 【先前技術】 近年來,傳統的陰極射線管顯示器(即俗稱的CRT顯示器) 參已漸漸地被液晶顯示器所取代,主原因在於液晶顯示器所釋放 出的輕射量遠遠小於CRT顯示器,另外,液晶顯示器在:幾年的 製造成本已有顯著地降低,這也是液晶顯示輯漸成為電視或電 腦螢幕市場之主流的原因。 一般來說,液晶顯示器都會安裝有多個控制用的機械式按鍵 或旋鈕。請參閱圖1,圖!所繪示為習知顯示器的外觀示意圖。如 圖1所示’傳統的液晶顯示器1包括有多個按鍵U,使用者可藉 _ _壓該按鍵11而設定絲晶顯示H丨的顏色控制、解析度調 •整、畫面大小控制、灰階值調整、螢幕電源開關、喇σ八音量控制、 明亮度控制或對比度調整。 然而,該按鍵11的使用會導致機械與電氣間設計難度的提 升’且較會增加其故障率或不良率的機會;還有,液晶顯示器i 正面的外觀設計必須遷就該些按鍵n,該些按鍵u組裝所額外增 加的工時及成本也不易降低。因此,如何使液晶顯示器1不需靠 按鍵11而能達到原有顏色、解析度、灰階值、明亮、對比...等的 M377646 調整控制功能,是本領域具有通常知識者努力的目標。 【新型内容】 本創作主要目的在簡化顯示器的設計難度,降低其故障率哎 不良率的機會,並節省組裝的工時及成本。 為了達成上述目的,本創作提供一種觸控與按鍵功能結合的 顯示器,其包括有—觸控模組、—_控難組、—顯示模組及 —影像縮放控制H(Sealai·)。其中’該觸控模_以感測接觸的墨 力I化進而偵測接觸點的位置及移動轨跡,並將偵測到的一座 標訊號與—軸訊赌A。該购控麵_哺㈣分析計算 X座才;rd虎與δ亥移動訊號,且產生一具有按鍵功能的控制指令以 及顯示5亥控制指令的控制畫面。該顯示模組用以顯示該控制晝 面。該影像縮放控制器接受該驅動控制模組的控制指+,藉以驅 動°亥顯—。藉此,制者可透職具有按鍵功能的控制指令 與控制畫面來控制該顯示器的所有功能。 如上所述觸控與按鍵功能結合的顯示器,其中,該控制畫面 為螢幕選單(On-Screen Display,OSD)。 、如上所述觸控與按鍵功能結合的顯示器,其中,該控制指令 為顏色控制指令、解析度調整指令、畫面大小控制指令、灰階值 。正私7、螢幕電源開關指令、。刺σ八音量控制指令、明亮度控制 指令或對比度調整指令。 汝上所述觸控與按鍵功能結合的顯示器,其中,該觸控模組 M377646 更包括有-感測單元及-A/D㈣H,該感測單相以感測並輸 出-類比的訊號’ t亥A/D控制器用以將該類比的訊號轉為數位的 訊號。 如上所述觸控與按鍵功能結合的顯示器,其中,該顯示器可 與-電腦系統的中央處理n(Centrai PlOeessing Unit,cpu)連接, 使該中央處理H接受該驅動㈣模_控制指令,藉以驅動該影 像縮放控制器。 / 如上所述觸控與按鍵魏結合的顯示器,其中,軸示模組 更包括有-背光模組及—液晶面板,該背賴組提供背光源給該 液晶面板。 為了達成上述目的,本創作提供另一種觸控與按鍵功能結合 的顯示器,其包括有—難模組、—驅動控麵組及—顯示模組。 其中’該觸控模組用以感測接觸的壓力變化,進而偵測接觸點的 位置及移動軌跡,並將_到的—麟訊號與―移動訊號輸出。 »亥驅動控他_以接收並分析計算難標訊號與該移動訊號, 且產生-具有按鍵功能的控織令以及—顯示該控制指令的控制 晝面°該顯示模_以顯示該控制畫面。鋪示ϋ可與-電腦系 統的中央處理H(Centl_al PlOeessing Unit,CPU)連接,使該中央處 理器接受該驅動控麵_控儲令,㈣驅_顯示模組;藉 此’使用者可透過該具有按鍵功能的㈣指令與控制畫面來控制 該顯示器的所有功能。 猎此,本創作觸控與按鍵功能結合的顯示器可以降低機械與 «/7646 電氣間的設計難度,減少顯示器的故障率或不良率,還可降低顯 示器的組裝工時及成本。 為使熟悉該項技藝人士瞭解本創作之目的、特徵及功效,兹 藉由下述具體實施例,並配合所附之圖式,對本創作詳加說明如 後。 【實施方式】 請參閱圖2A,圖2A所繪示為本創作顯示器的外觀示意圖。 如圖2A所示,該顯示器2不設置有按鍵,因此可以節省空間,讓 。亥顯不為2可以針對美觀性來設計其外樞,而無需考量按鍵的配 置。為了達到此一簡化的目的,本創作的顯示器2仍需在其結構 與裟置上作一因應的設計。請參閱圖2B,圖2B所繪示為本創作 顯示器的第一實施例之功能方塊圖。如圖2B所示,該顯示器2包 括有一觸控模、组22、一驅動控制模組23、一顯示模組25及一影 像縮放控制器(SCalar)24。其中,該觸控模、组22用以感測接觸的愿 力變化,進而偵測接觸點的位置及移動轨跡,並將偵測到的一座 標訊號與-移動訊號輸出。該驅動控制模组23用以接收並分析計 算該座標喊無義碱,且產生1有按鍵魏的控制指令 以及顯不该控制指令的控制畫面。該影像縮放控制器24接受該 驅動控制模組23的控制指令,藉以驅動該顯示模組25。該顯示模 組25用以顯示該控制畫面。在此,該顯示模組25係由一背光模 組251及-液晶面板252户斤組成,該背光模組251用以提供背光 M377646 源給該液晶面板252 ’使該液晶面板252可以呈現該控制晝面。該 控制晝面為營幕選單(On-Screen Display,OSD)。該控制指令可為 顏色控制指令、解析度調整指令、晝面大小控制指令、灰階值調 ^曰々、螢幕電源開關指令、°刺°八音量控制指令、明亮度控制指 令或對比度調整指令...等。此外,請同時參關2C,該觸控模組 22係由一感測單元221及一 A/D控制器222所組成,該感測單元 221用以感測並輸出一類比的訊號,該A/D控制器222用以將該 類比的訊賴為數位的職,再輸&至娜動控糖組力分析計 异。藉此,使用者可透過該具有按鍵功能的控制指令與控制畫面 來控制該顯示器2的所有功能,而無需傳統顯示器的按鍵設置。 接下來本創作觸控與按鍵功能結合的顯示器還可與電腦系 統互相搭配。請參_ 3,圖3所繪示為本創作顯示器的第二實施 例之功能方塊圖。如圖3所*,本創制,轉控繼組%及影像 縮放控㈣34還可與m统9的中央處理器咖㈣ iwssingUnit ’ CPU)91連接,使該中央處理器91接受該驅動控 麵組33的控制指令’ II以驅_影像微控㈣%。其中,該 觸控模組32的感測原理、輸出訊號與圖2B的實施例相同;該顯 示模組35接受該影像縮放控制器34的驅動流程、該背光模組351 與液晶面板352工作的原理亦與圖2B的實施例相同。藉此,本實 施例可利贱電齡統9的中央處理器%處理運算較複雜的功 能,增加本創作在運用上的彈性。 還有-實施例,請參_ 4,圖4所繪示為本創作顯示器的第 二實施例之功能方塊圖。如圖4所示,鋪示器包括有一觸控模 '"K 42驅動控制拉組43及—顯示模組45,該顯示模組45包括 有-背光模組451及—液晶面板松,該驅動控制模組43可產生 -具有按鍵功能的控制指令以及—顯示該控織令的控制晝面。 其中,該驅動控制模組43及該顯示模組45還與-電腦系統9的 中央處理ϋ 91連接’使該巾央處職%接钱㈣控制模組^ 的控制指令’収!_該顯示模組45。藉此,使用者可透過該具 有按鍵功能的控糖令與㈣t面來控繼齡器的所有功能, 而無需傳統顯示器的按鍵設置。 ‘上所述’本創作觸控與按鍵功能結合的顯示器可以利用該 觸控板組、,鶴控纏組及鞠示模組的魏,搭配影像縮放控 制器或電腦系統的中央處理器之應用,而將傳統機械式按鍵之設 置省略。藉此’可以降低機械與電氣間的設計難度,減少顯示器 的故障率或不良率’還可降低顯示器的絲工時及成本。° 雖然本創作已以㈣實施_露如上,越所揭露的且體實 施例並非肋限定本創作,任何齡此技藝者,在不脫離本創作 之精神和範_,當可作各種之更動與_,其所作之更動與潤 =皆屬於本創作H本創作之賴範圍#視_之申請專利 範圍所界定者為準。 【圖式簡單說明】 圖1所繪示為習知顯示器的外觀示意圖。 圖2A所繪示為本創作 匕、貝不為的外觀示意圖。 圖2B所、·曰不為本創作顯示器的第-實施例之功能方麵。 ® %所_為本__減組之功能方塊圖。 圖3所繪示為本創作顯示H的第二實施例之功能方塊圖。 圖4所繪不為本創作顯示器的第三實施例之功能方塊圖。 【主要元件符號說明】 <習知> 1 :液晶顯示器 11 :按鍵 <本創作> 2 :顯示器 22、32、42 :觸控模組 221 .感測單元 222 : A/〇控制器 23 ' 33 ' 43 :驅動控制模組 24 ' 34 :影像縮放控制器 25 ' 35 ' 45 :顯示模組 251、 351、451 :背光模組 252、 352、452 :液晶面板 9:電腦系統 91 :中央處理器M377646 V. New description: [New technical field] This creation is about - _ 11 ', especially about the combination of touch and button functions. [Prior Art] In recent years, the conventional cathode ray tube display (commonly known as CRT display) has gradually been replaced by a liquid crystal display. The main reason is that the amount of light emitted by the liquid crystal display is much smaller than that of the CRT display. LCD monitors: The manufacturing cost of several years has been significantly reduced, which is why LCD monitors are becoming the mainstream in the TV or computer screen market. In general, the LCD monitor is equipped with a number of mechanical buttons or knobs for control. Please refer to Figure 1, Figure! It is shown as a schematic view of the appearance of a conventional display. As shown in FIG. 1 'the conventional liquid crystal display 1 includes a plurality of buttons U, the user can press the button 11 to set the color control of the silk crystal display H丨, the resolution adjustment, the screen size control, the gray Step adjustment, screen power switch, arbitrarily eight volume control, brightness control or contrast adjustment. However, the use of the button 11 may result in an increase in the difficulty of design between the mechanical and electrical components, and may increase the chance of failure rate or defective rate; and the design of the front surface of the liquid crystal display i must accommodate the buttons n, The additional man-hours and costs associated with button u assembly are also not easily reduced. Therefore, how to make the liquid crystal display 1 to achieve the M377646 adjustment control function of the original color, resolution, grayscale value, brightness, contrast, etc. without relying on the button 11 is an objective of those skilled in the art. [New Content] The main purpose of this creation is to simplify the design of the display, reduce the chance of failure rate, poor defect rate, and save the labor and cost of assembly. In order to achieve the above object, the present invention provides a display combining touch and button functions, including a touch module, a - control group, a display module, and an image zoom control H (Sealai). The 'touch mode' is used to sense the position of the contact point and the movement trajectory, and to detect the detected signal mark and the axis. The purchase control surface_feeding (four) analyzes and calculates the X seat; the rd tiger and the δ hai mobile signal, and generates a control command with a button function and a control screen for displaying the 5 hai control command. The display module is used to display the control surface. The image zoom controller accepts the control finger + of the drive control module to drive the display. Thereby, the controller can control all functions of the display by controlling the control commands and control screens having the button functions. The touch control combined with the button function as described above, wherein the control screen is an On-Screen Display (OSD). The display combined with the touch function as described above, wherein the control command is a color control command, a resolution adjustment command, a screen size control command, and a grayscale value. Positive and private 7, screen power switch command,. A sigma eight volume control command, a brightness control command, or a contrast adjustment command. In combination with the touch and button functions, the touch module M377646 further includes a sensing unit and an A/D (four) H, which senses a single phase to sense and output an analog signal. The Hai A/D controller is used to convert the analog signal into a digital signal. The display combined with the touch function as described above, wherein the display can be connected to a central processing n (Centrai PlOeessing Unit, cpu) of the computer system, so that the central processing H accepts the driving (four) mode_control command, thereby driving The image zoom controller. The display of the combination of the touch and the button is as described above, wherein the axis display module further comprises a backlight module and a liquid crystal panel, and the backlighting group provides a backlight to the liquid crystal panel. In order to achieve the above object, the present invention provides another display combining touch and button functions, including a difficult module, a drive control panel and a display module. The touch module is used to sense the pressure change of the contact, thereby detecting the position and movement trajectory of the contact point, and outputting the _to-link signal and the mobile signal. »Hai drive control _ to receive and analyze the hard-to-mark signal and the mobile signal, and generate - a control command with a button function and - display the control command to display the control screen. The device can be connected to the central processing unit (CPU) of the computer system, so that the central processing unit can accept the driving control surface, the storage module, and the (four) drive-display module; The (four) command and control screen with button functions controls all functions of the display. Hunting, this combination of touch and button functions can reduce the design difficulty between the mechanical and «/7646 electrical, reduce the failure rate or defect rate of the display, and reduce the assembly time and cost of the display. In order to familiarize the person skilled in the art with the purpose, features and effects of the present invention, the present invention will be described in detail by the following specific embodiments and with the accompanying drawings. [Embodiment] Please refer to FIG. 2A, which is a schematic diagram of the appearance of the creation display. As shown in FIG. 2A, the display 2 is not provided with a button, so space can be saved. Hai Xian is not 2 can design its external hinge for aesthetics, without having to consider the configuration of the buttons. In order to achieve this simplification, the display 2 of the present invention still needs to be designed in accordance with its structure and arrangement. Referring to FIG. 2B, FIG. 2B is a functional block diagram of a first embodiment of the present invention. As shown in FIG. 2B, the display 2 includes a touch mode, a group 22, a drive control module 23, a display module 25, and an image zoom controller (SCalar) 24. The touch mode and the group 22 are used to sense the change of the contact force, thereby detecting the position and the movement track of the contact point, and outputting the detected one of the signal signals and the - mobile signal. The drive control module 23 is configured to receive and analyze the calculated non-sense base, and generate a control command having a button and a control screen displaying the control command. The image zoom controller 24 receives the control command from the drive control module 23 to drive the display module 25. The display module 25 is used to display the control screen. The display module 25 is composed of a backlight module 251 and a liquid crystal panel 252. The backlight module 251 is used to provide a backlight M377646 to the liquid crystal panel 252 ′ so that the liquid crystal panel 252 can present the control. Picture. The control panel is the On-Screen Display (OSD). The control command can be a color control command, a resolution adjustment command, a face size control command, a grayscale value adjustment, a screen power switch command, a thorn eight volume control command, a brightness control command, or a contrast adjustment command. ..Wait. In addition, the touch module 22 is composed of a sensing unit 221 and an A/D controller 222. The sensing unit 221 is configured to sense and output an analog signal. The /D controller 222 is used to count the analogy of the analogy, and then to the & Thereby, the user can control all functions of the display 2 through the control command and control screen with the button function without the button setting of the conventional display. Next, the display combined with the touch function and the button function can be matched with the computer system. Please refer to FIG. 3, which is a functional block diagram of a second embodiment of the present creation display. As shown in FIG. 3, the creation, the transfer control group % and the image zoom control (4) 34 can also be connected to the central processor (4) iwssing unit 'CPU) 91 of the m system 9, so that the central processor 91 accepts the drive control group. 33 control instructions 'II to drive_image micro control (four)%. The sensing principle and the output signal of the touch module 32 are the same as those of the embodiment of FIG. 2B. The display module 35 receives the driving process of the image scaling controller 34, and the backlight module 351 and the liquid crystal panel 352 operate. The principle is also the same as the embodiment of Fig. 2B. Therefore, the embodiment can benefit the central processing unit of the electric age system 9 to handle more complicated functions, and increase the flexibility of the present application. In another embodiment, please refer to FIG. 4, which is a functional block diagram of a second embodiment of the creation display. As shown in FIG. 4, the display device includes a touch control module < K 42 drive control pull group 43 and a display module 45. The display module 45 includes a backlight module 451 and a liquid crystal panel loose. The drive control module 43 can generate a control command having a button function and a control face displaying the control command. The drive control module 43 and the display module 45 are also connected to the central processing unit 91 of the computer system 9 to make the control unit of the towel receive the money (4) the control command of the control module ^ Module 45. Thereby, the user can control all the functions of the relay device through the sugar control command with the button function and the (4) t-plane, without the button setting of the conventional display. The above-mentioned display of the combination of the touch and button functions can be utilized by the touch panel group, the crane control group and the display module Wei, the image scaling controller or the central processing unit of the computer system. The setting of the conventional mechanical button is omitted. This can reduce the design difficulty between mechanical and electrical, reduce the failure rate or poor rate of the display, and can also reduce the wirework time and cost of the display. ° Although this creation has been implemented in (4) _ above, the more exposed and the physical embodiment is not limited to the creation of this creation, any age-old artist, without any departure from the spirit and scope of this creation, can be made into various changes and _ The changes and simplifications made by them are all within the scope of this creation. The scope of the patent application is subject to the definition of patent scope. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the appearance of a conventional display. FIG. 2A is a schematic view showing the appearance of the creation of the present invention. 2B is not a functional aspect of the first embodiment of the creation display. ® % _ is the functional block diagram of the __ reduction group. FIG. 3 is a functional block diagram showing a second embodiment of the creation display H. FIG. 4 is a functional block diagram of a third embodiment of the creation display. [Explanation of main component symbols] <General knowledge> 1: Liquid crystal display 11: Button <This creation> 2: Display 22, 32, 42: Touch module 221. Sensing unit 222: A/〇 controller 23 ' 33 ' 43 : drive control module 24 ' 34 : image zoom controller 25 ' 35 ' 45 : display module 251, 351, 451: backlight module 252, 352, 452: liquid crystal panel 9: computer system 91: CPU