M364547 五、新型說明: 【新型所屬之技術領域】 本創作涉及一種觸控板之觸控基材複合機,特別是一 種配置於該複合機之模具周邊,用以針對該模具内之觸控 基材表面塗佈膠液的裝置技術。 【先前技術】 按,現有之行動電話、個人數位助理(personal Digital • Assistant ’ PDA)、掌上型電腦(Palm-Sized PC)及資訊家 _ 電(Information Appliance )等電子產品,其顯示面板(Display Panel)上大都設有觸控板(T〇ueh Panel);該顯示面板可透 過該觸控板顯示功能指示圖像及文字,使用者可利用手指 或觸控筆等導電物體,依照所顯示之圖像及文字對觸控板 表面進行觸碰,而於受觸碰位置之觸控板内部產生電壓及 電流的變化,以偵測出觸控板表面接受觸碰的位置,據以 進行輸入及操作。 上述觸控板之組成包含二觸控基材,該基材大多為玻 ♦璃或軟墊(film);其中’二觸控基材係相互結合成一體,且 一只觸控基材表面佈設有氧化錮錫(Indium Tin 〇xide, IT〇) 製成的觸控電路圖形結構,另一只觸控基材係覆蓋於該觸 •控電路圖形結構上’以保護該觸控電路圖形結構免於遭受 '直接觸碰而損毀。 且知,上述二觸控基材之結合方式,係將二觸控基材 分別擺放於-複合機之模具的上模及下模内,且二觸控基 材之間填充有黏著用之膠液,並將上模及下模移入一真空 腔室内,於真空環境下,將上模沿直線朝下模向下壓合, 3 M364547 而使二觸控基材相互貼合’據以結合及固化二觸控基材。 上述,液之填充方式,係在二觸控基材尚未貼合前,先行 利用單-注射針將膠液塗佈於其中—觸控基材的表面,而 於二觸控基材相互貼合時,可藉由膠液粘著。 佑牒Γ上述先前技射,利科—注射針對基材表面塗 法,需將該注射針在基材上方往復進行橫向及 =向移動數次,方能將膠液佈滿該基材表面,造成 塗膠效率難以提升的問題’並徒增生產時 待加以改善。 Μ上的成本,亟 【新型内容】 為克服上述先前技術中的問題,本創作之 供—種觸控基材複合機之塗膠裝置,尤Iβ 曰在抚 合機之模具旁側,並藉由沿著單-方落於複 方式,對模具内之觸控基材表面進行塗膠、=移動的 之塗膠效率,進崎低生產時間上的成本。卩提升基材 為能實現上述之目的,本創作觸控基材複合 裴置,具一可往復移動之承臂,且該承臂一 Q 塗膠 裝有膠液n其技浦徵為: Μ頂部具- 該承臂一端的底部具一器體,能接受該 觸控基材上方,且該器體底部具複數③射針,移載至一 依據該基材之橫向排列,該器體内部形成 f注射針係 容器及該等注射針,而使容器内之膠液經室,連通該 达射針注射於該基材表面,且該承臂移胁,至及該等 •向移動’而使該等注射針之膠液沿縱向=體沿該基材 表面。 ’射於該基材 M364547 藉由上述可知,本創作係座落於複合機之模具旁側, 並藉由沿著單一方向進行單一次移動的方式,對模具内之 觸控基材表面進行塗膠,據以提升基材之塗膠效率,進而 降低生產時間上的成本。 此外,本創作也包含: 所述承臂係滑設於一垂直向滑台端侧,該垂直向滑台 .係滑設於一縱向滑台頂部,且該縱向滑台係滑設於一橫向 滑台頂部,致使該承臂具有三軸向移動的能力。 • 所述容器與該腔室係利用一輸送管相連通。 所述觸控基材係位於一模具上,且該模具可固設於一 固定座頂部;或者, 該模具亦可固設於一可定格轉動之轉台頂部周邊;該 轉台四周具有觸控基材之一位置校準器及一真空固化器, 該承臂及器體係位於該位置校準器及該真空固化器之間, 且該轉台轉動而移載該觸控基材依序進入該位置校準器 内、該器體下方及該真空固化器内; φ 該轉台四周依序配置有觸控基材之一輸出入區、一位 置校準區、一塗膠區及一真空固化區,且該位置校準器係 座落於該位置校準區内,該承臂及器體係座落於該塗膠區 内,該真空固化器係座落於該真空固化區内,且該轉台移 載該模具至該輸出入區,以承載及移出該觸控基材。 * 然而,為能充分且明確揭露本創作,併予列舉較佳實 施之圖例,以詳細說明其實施方式如後述: 【實施方式】 首觀圖1所示,揭示出本創作較佳實施例的配置示意 5 M364547 圖’並配合圖2及圖3說明本創作觸控基材複合機之塗膠 裝置,具有一可往復移動之承臂i,該承臂i之一後端U 結合一滑座10’且承臂1係藉由該滑座10滑設於一垂直向 滑台2端側;該垂直向滑台2底端裝設於一承架2〇端側°, 且垂直向滑台2係藉由該承架2〇滑設於一縱向滑台 部;該縱向滑台3底部結合一底座3〇’且縱向滑台^係 由該底座30滑設於-橫向滑台4頂部,致使該承臂^具^ 三軸向移動的能力’該橫向滑台4係設於一觸控基材&合 機之加工台面50上,並座落於該複合機之一模具5ι的; 模512旁側(配合圖7所示),而使該承臂、 位於該下模512頂部之-下觸絲材92上 該模具51另具有一上模叫,樞置於該下模512旁 供旋擺至與下模512合模(配合圖14所示),且 放有-上觸控基材91,該上觸控基材91及下觸 =合有一圓筒狀容器73,内觸丄 控基材91、92用之膠液。 觸 底部=上境,本創作係在該承臂1之前端11的 展邛议置一條狀器體7 (如 07 底部結合有複數注射針74 =),且該器體7 β荨,主射針74係依據該下觸控 基材92之板向排列’且該器體7 徑 室71底面開設有複數輸出孔712,二=7 ’ _ _端’而使該腔室7_該等注射針7Γ且腔室Γ4 側開設有一輸入孔711,該容器73 至1端 孔7Π之間係連通一輪送管72。Μ與該腔室71的輪入 6 M364547 此外,該模具51可固設於上述複合機之—固定座頂部 或一可定格轉動之轉台52頂部周邊(如圖7及圖12所示); 本創作舉以該模具51固設於該轉台52頂部周邊為例,該 模具51可為複數’分別設於該轉台52頂部周邊,而使該 下模512設於該轉台52頂部周邊,並使該上模511樞置於 該下模512旁侧的轉台52頂部周邊,且該模具51之了模 512可移入及移出該等注射針74下方。 該轉台52四周依序配置有上、下觸控基材91、92之 φ 一輸出入區53、一位置校準區54、一塗膠區55及一真空 固化區56 (如圖7及圖12所示)’該位置校準區54内配置 有一位置校準器6 (配合圖13所示),該真空固化區56内 配置有一真空固化器8(配合圖14所示),該承臂1及器體 7係座落於該塗膠區55内,而位於該位置校準器6及真空 固化器8之間。 該轉台52能夠移载各模具51依序進入輸出入區53、 位置校準區54、塗膠區55及真空固化區% (如圖了、圖 12:圖13及圖14所示),並經由真空固化區弘返回輸出 該模* 51能夠於輪出入㊣53承载及移出上、下 二土材91、92,而使上、下觸控基材91、9 = 料人綠置校準116内、-體7下方 及該真空固化器8内。 有三包含:影像視覺器61 (CCD)及-具 覺器61係設“承^臂62(如® 13所示),該影像視 6!能夠接受承二承載臂62之一端部621,且影像視覺器 載# 62移載至位置校準區54内之上觸控基 7 M364547 t結Λ下觸控歸92上方;如此,於影像錢11 61移至 ^觸控基材91上方時,可供觀測該上觸控基材91的位置, 藉以調整上觸控基材91移動至上模511頂部一上模基本準 =’另於影像視覺器61移至下觸控基材92上 該下觸控基材92的位置,藉以調整下觸控基材% # 下模512頂部—下模基本準位内;該上模基本準位, 與下模512合模時,該上觸控基材91能夠與下 工土材92對齊、貼合的位置;該下 =下模W合模時,該下觸控基材92對齊上』= 、置’且該下模基本準位係為下觸控基材%表面可供 該4注射針74對準並注射膠液的位置。 該真空固化器8包含一真空罩81及一承台U (如圖 斤不),該真空罩81具一朝下方開放的腔室8ιι,且真空 罩81係滑設於該承台82端侧,並位於真空固化區56内= 1^51上方,於該上模511及下模512合模後,該真空罩 入:J下移至真空固化區56内之轉台52頂部周邊,而使該 &〜、之模具51罩設於該腔室811内,經由對腔室811内部 ^仃=真空,藉以壓合並固化模具51内之上、下觸控基材 藉由上述構件組成,可供據以實施本創作,包含下列 步驟: (1) 擺放一上觸控基材91於該輸出入區53之上模511 内(如® 12所示),並擺放一下觸控基材%於該輸出入區 53之下模512頂部。 (2) 該轉台52進行一次定格轉動(如圖12所示), 8 M364547 以移載該輸出人區53内之上、下觸控基材9ι、%進入位 置校準區54 ’令該下觸控基材92紐接受該位置校準器6 的檢測(如圖13所示),藉以調整該下觸控基材92移動至 5n頂#之下模基本準位内隨後令該上觸控基材μ 文該位置校準器6的檢測,藉以調整該 動至上模511頂部之上模基本準位内。 何1移 (3)該轉台52進行次一次定格轉動(如圖12所示 =載該位置校準區54内之上、下觸控基材%%進入 該器至( = 酬1經由橫向及縱向移載 ^向移載:=::= 注時,該容器73内之膠液會經由該輪送管8 5 处體7之腔室71内’並經由該等注射針 72 =:觸控基材92 一端表面;隨後,該承< = 使體^頂控基材92之縱向移動(如圖1G所示^ 至該下觸控基材92另一端表面;期二ΐ 4之膠液會沿著該下觸控基材92之縱向= 膠完3滿:;=材:表面。該下觸控基材心 接受該承臂ί向上方移載顿器體7可 ㈣ϋ該轉台52進行又一次定格轉動(如圖12所1 固化IF V塗膠區55内之上、下觸控基材9卜92進入^ 品56’令上模511旋擺至與下模512合模(如^二 相1重T上Γ與下模基本準位内之上、下觸控基 足,且該膠液粘合於上、下觸控基材91、92 之間, M364547 此時,令該真空罩81下移至真空固化區56内之轉台52頂 部周邊,而使該合模之模具51罩設於腔室811内,並經由 對腔室811内部進行抽真空,藉以壓合並固化模具51内之 上、下觸控基材91、92 ;隨後,令該真空罩81上移復位。 (5)該轉台52進行再一次定格轉動(如圖12所示), 以移載該真空固化區56内之上、下觸控基材91、92返回 . 輸出入區53,令上模511旋擺而開模,並取出上、下模51卜 512之間已固化結合的上、下觸控基材91、92。 I 依據上述可知,本創作係座落於該複合機之模具51旁 側,並藉由沿著單一方向進行單一次移動的方式,對模具 51頂部之觸控基材9表面進行塗膠,據以提升基材9之塗 膠效率,進而降低生產時間上的成本。 綜上所陳,僅為本創作之較佳實施例而已,並非用以 限定本創作;凡其他未脫離本創作所揭示之精神下而完成 的等效修飾或置換,均應包含於後述申請專利範圍内。 【圖式簡單說明】 _ 圖1 :揭示出本創作較佳實施例的配置示意圖。 圖2:揭示出圖1之側視圖。 圖3 :揭示出圖1之俯視圖。 圖4 :揭示出圖1之局部放大圖。 圖5 .揭不出圖2之局部放大圖。 ' 圖6:揭示出本創作之器體及注射針的剖示圖。 圖7 :揭示出圖1之一使用狀態圖。 圖8 :揭示出圖1之次一使用狀態圖。 M364547 圖9:揭示出圖2之一使用狀態圖。 圖10:揭示出圖1之另一使用狀態圖。 圖11:揭示出圖1之又一使用狀態圖。 圖12:揭示出本創作於位置校準器及真空固化器之間 設置承臂及器體的配置示意圖。 圖13 :揭示出本創作之位置校準器的配置示意圖。 圖14 :揭示出本創作之真空固化器的配置示意圖。 【主要元件符號說明】M364547 V. New description: [New technical field] The present invention relates to a touch substrate composite machine for a touch panel, in particular, a periphery of a mold disposed on the composite machine for sensing bases in the mold Device technology for coating glue on the surface of the material. [Prior Art] Press, existing mobile phone, personal digital assistant (PDA), palm-sized computer (Palm-Sized PC) and information appliance_Information (Information Appliance) and other electronic products, its display panel (Display Most of the Panels are provided with a touch panel (T〇ueh Panel); the display panel can display function indication images and text through the touch panel, and the user can use a conductive object such as a finger or a stylus, according to the displayed The image and the text touch the surface of the touchpad, and a change of voltage and current is generated inside the touchpad in the touched position to detect the position of the touchpad surface to be touched, thereby inputting and operating. The touch panel comprises two touch substrates, the substrate is mostly glass or a film; wherein the two touch substrates are integrated with each other, and a touch substrate is disposed on the surface. There is a touch circuit pattern structure made of Indium Tin 〇xide (IT〇), and another touch substrate is overlaid on the touch control circuit pattern structure to protect the touch circuit graphic structure from Suffered from being hit by a direct contact. It is also known that the two touch substrates are combined in the upper mold and the lower mold of the mold of the multi-functional machine, and the two touch substrates are filled with adhesive. The glue, and the upper mold and the lower mold are moved into a vacuum chamber, and in the vacuum environment, the upper mold is pressed down along the straight downward mold, 3 M364547 and the two touch substrates are attached to each other' And curing the two touch substrates. In the above, the filling method of the liquid is that before the two touch substrates are not attached, the single-injection needle is used to apply the glue to the surface of the touch substrate, and the two touch substrates are adhered to each other. It can be adhered by glue.牒Γ 牒Γ 牒Γ 牒Γ 牒Γ 牒Γ , , , , , 利 利 利 利 利 利 利 利 利 利 利 利 利 利 利 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射 注射The problem that makes the glueing efficiency difficult to increase' is to be improved when the production is increased.成本 的 成本 新型 新型 新型 新型 新型 新型 新型 新型 新型 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为By coating the surface of the touch substrate in the mold along the single-square, the coating efficiency of the surface of the touch substrate in the mold is reduced, and the cost of production time is low.卩 Lifting the substrate to achieve the above purpose, the present invention relates to a touch substrate composite device, which has a reciprocating arm, and the arm-Q glue is filled with glue n, and the technology is as follows: The top part has a body at the bottom of one end of the arm, which can receive the top of the touch substrate, and the bottom of the body has a plurality of 3 shots, which are transferred to a horizontal arrangement according to the substrate, and the inside of the body Forming an f-needle container and the injection needles, and causing the glue in the container to pass through the chamber, connecting the needle to the surface of the substrate, and the arm is moved to the The glue of the injection needles is placed along the surface of the substrate in the longitudinal direction. ' Shot on the substrate M364547. As can be seen from the above, the creation is located on the side of the mold of the multi-functional machine, and the surface of the touch substrate in the mold is coated by a single movement in a single direction. Glue, according to the coating efficiency of the substrate, thereby reducing the cost of production time. In addition, the present invention also includes: the arm is slidably disposed on a vertical sliding end of the sliding table, the vertical sliding platform is slidably disposed on a top of a longitudinal sliding table, and the longitudinal sliding platform is slidably disposed in a lateral sliding state The top of the table causes the arm to have the ability to move in three axial directions. • The container and the chamber are in communication with a delivery tube. The touch substrate is disposed on a mold, and the mold can be fixed on a top of a fixed seat; or the mold can be fixed on a top periphery of a turntable that can be fixedly rotated; the touch substrate is surrounded by the touch substrate a position aligner and a vacuum curing device, the arm armor system is located between the position aligner and the vacuum curing device, and the turret rotates to transfer the touch substrate into the position aligner sequentially , the bottom of the body and the vacuum curing device; φ the turntable is arranged with an input and output area, a position calibration area, a glue application area and a vacuum curing area of the touch substrate, and the position aligner Positioned in the position calibration area, the arm armor system is seated in the glue application zone, the vacuum curing device is seated in the vacuum curing zone, and the turntable transfers the mold to the output Zone to carry and remove the touch substrate. * However, in order to fully and clearly disclose the present invention, and to illustrate the preferred embodiment, the detailed description thereof will be described as follows: [Embodiment] FIG. 1 is a schematic view showing a preferred embodiment of the present invention. Configuring 5 M364547 FIG. 2 and FIG. 3 to illustrate the glue application device of the present invention, having a reciprocating arm i, one of the rear ends U of the arm i combined with a slide 10' and the arm 1 is slid on the end side of a vertical sliding table 2 by the sliding seat 10; the bottom end of the vertical sliding table 2 is mounted on the end side of a bracket 2, and the vertical sliding table 2 is slidably disposed on a longitudinal sliding table portion by the bracket 2; the bottom of the longitudinal sliding table 3 is coupled with a base 3'' and the longitudinal sliding platform is slidably disposed on the top of the transverse sliding table 4 by the base 30. The ability to cause the three-axis movement of the arm ^^ is disposed on a processing substrate 50 of a touch substrate & and is located in a mold 5 of the composite machine; The side of the mold 512 (shown in FIG. 7), and the arm, the lower mold wire 512 at the top of the lower mold 512, the mold 51 has an upper mold The pivot is placed next to the lower mold 512 for swinging to the lower mold 512 (shown in FIG. 14), and the upper touch substrate 91 is placed, and the upper touch substrate 91 and the lower touch unit are combined. The cylindrical container 73 is internally contacted with the glue for the substrate 91, 92. Touching the bottom = the upper level, the creation of the front end 11 of the arm 1 is to discuss the body 7 (such as the bottom of 07 combined with a plurality of injection needles 74 =), and the body 7 β 荨, the main shot The needle 74 is arranged according to the direction of the plate of the lower touch substrate 92, and a plurality of output holes 712 are opened on the bottom surface of the diameter chamber 71 of the body 7, and the second chamber 7___ends the chamber 7_the injection The needle 7 is provided with an input hole 711 on the side of the chamber Γ4, and a round feed tube 72 is connected between the end holes 7 of the container 73 to 1.轮 and the wheel of the chamber 71 6 M364547 In addition, the mold 51 can be fixed on the top of the fixing machine - the top of the fixed seat or a top of the rotating table 52 (as shown in Figures 7 and 12); For example, the mold 51 is fixed on the top periphery of the turntable 52. The mold 51 can be plurally disposed on the top periphery of the turntable 52, and the lower mold 512 is disposed on the top periphery of the turntable 52, and the The upper mold 511 is pivoted to the top periphery of the turntable 52 on the side of the lower mold 512, and the mold 512 of the mold 51 can be moved into and out of the injection needles 74. The turntable 52 is sequentially arranged with the upper and lower touch substrates 91, 92, an input and output area 53, a position calibration area 54, a glue application area 55 and a vacuum curing area 56 (see Figures 7 and 12). A position aligner 6 (shown in FIG. 13) is disposed in the position calibration area 54. A vacuum curing unit 8 (shown in FIG. 14) is disposed in the vacuum curing zone 56. The body 7 is seated in the glue application zone 55 and is located between the position aligner 6 and the vacuum curing device 8. The turntable 52 can transfer the molds 51 sequentially into the input/output area 53, the position calibration area 54, the glue application area 55, and the vacuum curing area % (as shown in FIG. 12, FIG. 13 and FIG. 14). The vacuum curing zone re-exports the mold * 51 to carry the positive 53 bearing and remove the upper and lower soil materials 91, 92, and the upper and lower touch substrates 91, 9 = the person green setting calibration 116, Below the body 7 and within the vacuum curing unit 8. There are three types: the image vision device 61 (CCD) and the sensor device 61 are provided with a "bearing arm 62 (shown as ® 13), the image viewing 6! can accept one end portion 621 of the carrying arm 62, and the image The visual device load # 62 is transferred to the position calibration area 54 above the touch base 7 M364547 t. The lower touch is above 92; thus, when the image money 11 61 is moved over the touch substrate 91, Observing the position of the upper touch substrate 91, thereby adjusting the upper touch substrate 91 to move to the top of the upper mold 511, and the upper mold is substantially accurate; and the image vision device 61 is moved to the lower touch substrate 92. The position of the substrate 92 is adjusted to adjust the bottom of the touch substrate % # 模 512 in the top-lower mold basic level; the upper mold is substantially in position, and when the lower mold 512 is clamped, the upper touch substrate 91 can The position of the lower touch mold base 92 is aligned with the lower touch mold base 92, and the lower touch mold base unit is aligned with the bottom touch base. The material % surface can be aligned with the injection needle 74 and the position of the glue is injected. The vacuum curing device 8 includes a vacuum cover 81 and a platform U (not shown), the vacuum cover 81 has a downward facing The chamber 8 is open, and the vacuum cover 81 is slidably disposed on the end side of the cap 82 and located in the vacuum curing zone 56 = 1^51. After the upper die 511 and the lower die 512 are closed, the vacuum is closed. Covering: J is moved down to the top periphery of the turntable 52 in the vacuum curing zone 56, and the mold 51 of the &~ is placed in the chamber 811, and the inside of the chamber 811 is vacuumed, thereby pressing The upper and lower touch substrates in the combined curing mold 51 are composed of the above components, and the present invention can be implemented according to the following steps: (1) placing a touch substrate 91 on the input and output area 53 Inside the upper mold 511 (as shown in Figure 12), the touch substrate is placed at the top of the lower mold 512 of the input and output area 53. (2) The turntable 52 performs a fixed rotation (as shown in Fig. 12). 8 M364547 to transfer the upper and lower touch substrates 9ι, % into the position calibration area 54' in the output area 53 to cause the lower touch substrate 92 to receive the position aligner 6 detection (Fig. 13) As shown, the bottom touch substrate 92 is moved to the bottom level of the 5n top surface, and then the upper touch substrate is placed on the position aligner 6 The measurement is used to adjust the movement to the basic level of the upper mold on the top of the upper mold 511. 1 shift (3) the turntable 52 performs the next fixed rotation (as shown in FIG. 12 = above and below the position calibration area 54) The touch substrate %% enters the device until (= 1 is transferred via the horizontal and vertical transfer direction: =::= Note, the glue in the container 73 will pass through the wheel to the tube 8 5 Inside the chamber 71' and through the injection needles 72 =: one end surface of the touch substrate 92; then, the support < = the longitudinal movement of the body control substrate 92 (as shown in Figure 1G) The other end surface of the lower touch substrate 92; the glue of the second layer 4 will be along the longitudinal direction of the lower touch substrate 92 = glue finished 3:; = material: surface. The lower touch substrate core receives the support arm ί and shifts the loader body 7 upwards. (4) The turntable 52 performs another fixed frame rotation (as shown in FIG. 12, the upper and lower touches are cured in the IF V glue application area 55. The substrate 9 is 92 into the product 56', so that the upper mold 511 is swung to the lower mold 512 (such as ^ two-phase 1 heavy T upper and lower mold basic level upper and lower touch base, and The glue is adhered between the upper and lower touch substrates 91, 92, M364547. At this time, the vacuum cover 81 is moved down to the top periphery of the turntable 52 in the vacuum curing zone 56, and the mold 51 is clamped. The cover is disposed in the chamber 811, and evacuates the inside of the chamber 811, thereby pressing and bonding the upper and lower touch substrates 91, 92 in the curing mold 51; then, the vacuum cover 81 is moved up and reset. 5) The turntable 52 performs another fixed-frame rotation (as shown in FIG. 12) to transfer the upper and lower touch substrates 91 and 92 in the vacuum curing zone 56 to return. The output-in area 53 is rotated to rotate the upper mold 511. The mold is opened and the upper and lower touch substrates 91 and 92 which have been solidified and bonded between the upper and lower molds 51 and 512 are taken out. I According to the above, the creation system is located in the mold 5 of the composite machine. 1 side, and by the single movement in a single direction, the surface of the touch substrate 9 on the top of the mold 51 is glued, thereby improving the coating efficiency of the substrate 9, thereby reducing the production time. The cost is merely a preferred embodiment of the present invention and is not intended to limit the present invention; any equivalent modifications or permutations that have not been made without departing from the spirit of the present invention should be included in the following description. BRIEF DESCRIPTION OF THE DRAWINGS [ BRIEF DESCRIPTION OF THE DRAWINGS] Fig. 1 is a schematic view showing the configuration of a preferred embodiment of the present invention. Fig. 2 is a side view showing Fig. 1. Fig. 3 is a plan view showing Fig. 1. Fig. 5 is a partially enlarged view of Fig. 2. Fig. 6 is a cross-sectional view showing the body and the injection needle of the present invention. Fig. 7: Fig. 7 is disclosed A state diagram is used. Figure 8: Reveals the state of use of Figure 1. M364547 Figure 9: Reveals a state of use diagram of Figure 2. Figure 10: Reveals another state of use diagram of Figure 1. Figure 11: A further use state diagram of Figure 1 is disclosed. Figure 12: Revealing the creation of the position calibration Schematic diagram of the configuration of the arm and the body between the vacuum curing device is shown in Fig. 13. Fig. 13 is a schematic view showing the configuration of the position calibrator of the present invention. Fig. 14 is a schematic view showing the configuration of the vacuum curing device of the present invention. Description]
1 承臂 10 滑座 11 前端 12 後端 2 垂直向滑台 20 承架 3 縱向滑台 30 底座 4 橫向滑台 50 台面 51 模具 511 上模 512 下模 52 轉台 53 輸出入區 54 位置校準區 11 M364547 55 塗膠區 56 真空固化區 6 位置校準器 61 影像視覺器 62 承載臂 621 端部 ' 7 器體 71 腔室 711 輸入孔 712 輸出孔 72 輸送管 73 容器 74 注射針 8 真空固化器 81 真空罩 • 811 腔室 82 承台 91 上觸控基材 92 下觸控基材1 Arm 10 Slider 11 Front end 12 Rear end 2 Vertical slide table 20 Shelf 3 Longitudinal slide table 30 Base 4 Horizontal slide table 50 Table 51 Mold 511 Upper die 512 Lower die 52 Turntable 53 Output-in area 54 Position calibration area 11 M364547 55 Glue area 56 Vacuum curing zone 6 Position calibrator 61 Image vision device 62 Carrying arm 621 End '7 Body 71 Chamber 711 Input hole 712 Output hole 72 Delivery tube 73 Container 74 Injection needle 8 Vacuum curing unit 81 Vacuum Cover • 811 chamber 82 cap 91 upper touch substrate 92 lower touch substrate