M376785 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種液態光學膠貼合機之旋轉驅動裝 置,尤指一種可使液態光學膠貼合機之一旋轉平台平穩^ 定格轉動的旋轉驅動裝置。 【先前技術】 隨著電子產業的蓬勃發展,各式電子裝置除了功能愈 趨多樣化與複雜化之外,外型亦皆朝輕、薄、短、小之方 向發展,其中,觸控式面板以其同時具有液晶顯示與觸控 輸入兩種功能,讓使用者可藉由碰觸該面板來達到控制與 操作各類電子裝置的目的,從而減少該電子裝置所佔的體 積,並提高該電子裝置的實用性。 上述觸控式面板主要包含有二透明基板,各基板之一 側面上佈設有電極·,組裝時係先於其中一基板上塗佈光學 膠,再以另一基板對該光學膠進行加壓,使其均勻擴散並 佈滿於該二基板間,待光學膠固化後,即可使該二基板相 互固接。 其中,一種可用以組裝上述觸控式面板的方式係將該 基板設於一平台上,該平台藉一伺服馬達之驅動而轉動至 各個預定位置,以依序進行置物、對位、點膠、壓合、取 物…等加工步驟·’惟當該伺服馬達所輸出的轉速過高時, 基板上之尚未固化的光學膠容易便會因受離心力的作用而 於該基板上滑移,導致塗佈不均勻,進而造成該觸控式面 板品質上的瑕疵。 3 M376785 【新型内容】 有鑑於前述現有技術的 學膠貼合機之旋轉驅動裝置 動該液態光學膠貼合機之— 均勻地佈設於基板上的目的 足本創作提供一種液態光 ,希藉此設計達到可平穩地帶 旋轉平台轉動,以使光學膠可 係使一 置包括 了達到上述的創作目的, 設置於液態光學膠貼合機 本創作所利用的技術手段 之一機台上的旋轉驅動裝 φ π ^定座’其包括有空套筒’該套筒底端沿周緣 %繞成型有-結合部’該結合部固接於該機台頂面,且環 繞該機台所設之一通孔; -伺服馬達’其係固設於該機台底面對應通孔處,該 飼服馬達上突伸有一驅動軸,該驅動轴貫穿該機台之通孔 而突伸於該固定座之套筒中; -減速機,其係固設於該固定座之套筒中,該減速機 的底端為一輸入端,該輸入端與伺服馬達之驅動軸相接, • 減速機之頂端為一輸出端,該輸出端固接於該液態光學膠 - 貼合機之一旋轉平台的底面。 本創作的優點在於,當該伺服馬達之驅動軸帶動減速 機之輸入端轉動後,會於該減速機中產生減速的效果,而 使該減速機之輸出端平穩地帶動該旋轉平台定格轉動至各 個預定位置對該旋轉平台上所設的基板進行加工^如此一 來’便可避免基板上尚未固化的光學膠於該基板上任意滑 移,並使其均勻的佈設於該基板上,進而提升所製成之觸 控式面板的品質。 4 【實施方式】 以下配合圖式及本創作之較佳實施例,進—步闡述本 1作為達成預定創作目的所採取的技術手段。 參見第一圖所示之一液態光學膠貼合機(40),其具有 —機台(4”、一環型固定架(42)、-旋轉平台(43)及五個承 栽裝置(44),該固定架(42)為一中空環形架體並固設於該 機〇(41)上,該旋轉平台(43)設於該固定架(42)之中空架體 内邛中,該承載裝置(44)間隔環設於該旋轉平台(43)的周 緣上,並可供設置待貼合之基板(45)。 配合參見第二圖所示,本創作之旋轉驅動裝置(彳)係設 置於該機台(41)上’對應位於該固定架(42)之中,並與該 旋轉平台(43)相互組接,以帶動該旋轉平台(43)及承載裝 置(44)於機台(41)上定格轉動,該旋轉驅動裝置(彳)包括一 固定座(10)、一伺服馬達(20)以及一減速機(30),其中: 配合參見第三圖所示,固定座(10)固設於該機台(4 上,且該機台(41)於預定設置該固定座(1〇)處貫穿設有一 通孔,該固定座(10)包括有一中空套筒(11),該套筒(11)底 端沿周緣環繞成型有一結合部(1 2 ),該結合部(1 2)固接於 該機台(41)頂面,且環設該機台(41)之通孔,使該套筒(11) 與該通孔相通; 伺服馬達(20)固設於該機台(41)底面對應通孔處,其 上突伸有一驅動軸(21),該驅動軸(21)貫穿該機台(41)之通 扎而突伸於該固定座(10)之套筒(11)中; 減速機(30)設於該固定座(1〇)之套筒(11)中,其外壁面 環繞成型有一結合部(31),該減速機(3〇)之結合部(31)與固 M376785 定座(10)之套筒(11)的頂端相對固接,又,減速機(30)的底 端為一輸入端(32),該輸入端(32)與伺服馬達(20)之驅動軸 (21)相接’減速機(30)之頂端為一輸出端(33),該輸出端(33) 固接於該旋轉平台(43)底面,於本創作之較佳實施方式中, 該減速機(30)係為一球體減速機。 藉上述伺服馬達(20)透過減速機(30)帶動旋轉平台(43) 轉動的設計,當該伺服馬達(2〇)之驅動軸(21)帶動減速機 • (30)之輸入端(32)以一輸入速度轉動後,該減速機(3〇)會對 • 該輸入速度產生減速的效果,使該減速機(30)之輸出端(33) 以一較該輸入速度慢的輸出速度平穩地帶動該旋轉平台(43) 定格轉動至各個預定位置,以對該基板(45)依序進行置物、 對位、點膠、壓合、取物…等加工步驟,可避免基板(45) 上尚未固化的光學膠於該基板(45)上任意滑移,並使其均 勻的佈δ又於該基板(45)上,進而提升所製成之觸控式面板 的品質。 【圖式簡單說明】 ^ 第一圖為本創作於實施狀態之立體圖。 第二圖為本創作於實施狀態之側視圖。 第二圖為本創作與一旋轉平台之立體分解圖。 【主要元件符號說明】 (1)旋轉驅動裝置 (10)固定座 (12)結合部 (21)驅動軸 (31)結合部 (1 1)套筒 (20)伺服馬達 (30)減速機 6 M376785 (32)輸入端 (33)輸出端 (40)液態光學膠貼合機(41)機台 (42)固定架 (43)旋轉平台 (44)承載裝置 (45)基板M376785 V. New description: [New technical field] This is a kind of rotary drive device for liquid optical adhesive laminating machine, especially a kind of rotation that can make a rotating platform of liquid optical adhesive laminating machine smooth and fixed. Drive unit. [Prior Art] With the rapid development of the electronics industry, in addition to the increasingly diversified and complex functions of various electronic devices, the appearance is also moving toward light, thin, short, and small. Among them, touch panels The utility model has the functions of liquid crystal display and touch input at the same time, so that the user can control and operate various electronic devices by touching the panel, thereby reducing the volume occupied by the electronic device and improving the electronic device. The practicality of the device. The touch panel mainly includes two transparent substrates, and electrodes are disposed on one side of each of the substrates. When assembling, optical glue is applied on one of the substrates, and the optical adhesive is pressed by another substrate. The film is uniformly diffused and filled between the two substrates, and after the optical glue is cured, the two substrates can be fixed to each other. The method for assembling the touch panel is to mount the substrate on a platform. The platform is rotated by a servo motor to each predetermined position to sequentially store, align, dispense, and Processing steps such as pressing, taking, etc. · 'When the rotational speed output by the servo motor is too high, the uncured optical adhesive on the substrate is liable to slip on the substrate due to centrifugal force, resulting in coating The cloth is uneven, which in turn causes defects in the quality of the touch panel. 3 M376785 [New content] In view of the above-mentioned prior art rotary glue driving device, the liquid optical glue laminating machine is uniformly disposed on the substrate, and the present invention provides a liquid light. The design achieves a smooth rotation of the rotating platform, so that the optical glue can be arranged to include the above-mentioned creative purpose, and is arranged on the rotary drive of the machine on one of the technical means utilized in the liquid optical glue laminating machine. Φ π ^ seating 'which includes a hollow sleeve 'the bottom end of the sleeve is formed along the circumference %-bonding portion', the joint is fixed to the top surface of the machine, and a through hole is provided around the machine; a servo motor is fixed to a corresponding through hole at a bottom surface of the machine, and a driving shaft protrudes from the feeding motor, and the driving shaft protrudes through the through hole of the machine and protrudes into the sleeve of the fixing seat - a reducer, which is fixed in the sleeve of the fixed seat, the bottom end of the reducer is an input end, the input end is connected with the drive shaft of the servo motor, and the top end of the reducer is an output end , the output is fixed The liquid optical adhesive - bonded to the bottom surface of one of the rotating platform of the machine. The advantage of the present invention is that when the driving shaft of the servo motor drives the input end of the speed reducer to rotate, the deceleration effect is generated in the speed reducer, and the output end of the speed reducer smoothly moves the rotating platform to the fixed position to Each predetermined position is processed on the substrate provided on the rotating platform, so that the opaque optical glue on the substrate can be prevented from slipping on the substrate and evenly distributed on the substrate, thereby improving The quality of the touch panel made. [Embodiment] The following is a description of the preferred embodiment of the present invention and the preferred embodiment of the present invention, and further describes the technical means adopted by the present invention as a predetermined creative purpose. Refer to the liquid optical adhesive laminating machine (40) shown in the first figure, which has a machine table (4", a ring type fixing frame (42), a rotating platform (43) and five bearing devices (44). The fixing frame (42) is a hollow annular frame body and is fixed on the casing (41). The rotating platform (43) is disposed in the hollow frame of the fixing frame (42), and the supporting device (44) The spacer ring is disposed on the periphery of the rotating platform (43), and is configured to set the substrate (45) to be attached. Referring to the second figure, the rotary driving device (彳) of the present invention is disposed on The machine table (41) is correspondingly located in the fixing frame (42) and is assembled with the rotating platform (43) to drive the rotating platform (43) and the carrying device (44) on the machine table (41). The fixed driving device (10) includes a fixing base (10), a servo motor (20) and a speed reducer (30), wherein: the matching is shown in the third figure, the fixing seat (10) is fixed. It is disposed on the machine table (4), and the machine table (41) is provided with a through hole at a predetermined setting of the fixing seat (1), and the fixing base (10) includes a hollow a sleeve (11), the bottom end of the sleeve (11) is circumferentially formed with a joint portion (1 2 ), the joint portion (12) is fixed to the top surface of the machine table (41), and the machine is arranged a through hole of the table (41), the sleeve (11) is communicated with the through hole; a servo motor (20) is fixed on the bottom surface of the machine table (41) corresponding to the through hole, and a drive shaft protrudes therefrom (21) The drive shaft (21) extends through the table (41) and protrudes into the sleeve (11) of the fixed seat (10); the reducer (30) is disposed on the fixed seat (1) In the sleeve (11), the outer wall surface is formed with a joint portion (31), and the joint portion (31) of the speed reducer (3) is opposite to the top end of the sleeve (11) of the fixed M376785 seat (10). Fixedly, the bottom end of the reducer (30) is an input end (32), and the input end (32) is connected to the drive shaft (21) of the servo motor (20). The top end of the reducer (30) is An output end (33) is fixed to the bottom surface of the rotating platform (43). In a preferred embodiment of the present invention, the speed reducer (30) is a ball reducer. The motor (20) is driven by a speed reducer (30) Rotating platform (43) Rotating design, when the servo motor (2〇) drive shaft (21) drives the reducer (30) input end (32) to rotate at an input speed, the reducer (3〇) The effect of decelerating the input speed is such that the output end (33) of the reducer (30) smoothly moves the rotating platform (43) to each predetermined position at an output speed slower than the input speed. The substrate (45) is sequentially subjected to processing steps such as placing, aligning, dispensing, pressing, taking, etc., so as to avoid any slip of the uncured optical glue on the substrate (45) on the substrate (45). And making the uniform cloth δ on the substrate (45), thereby improving the quality of the touch panel produced. [Simple description of the figure] ^ The first picture is a perspective view of the creation in the implementation state. The second figure is a side view of the creation in the implementation state. The second figure is an exploded view of the creation and a rotating platform. [Description of main component symbols] (1) Rotary drive unit (10) Fixing seat (12) Jointing part (21) Drive shaft (31) Joint part (1 1) Sleeve (20) Servo motor (30) Reducer 6 M376785 (32) Input end (33) Output end (40) Liquid optical glue laminating machine (41) Machine table (42) Fixing frame (43) Rotating platform (44) Carrier device (45) Substrate