M354517 八、新型說明: 【新型所屬之技術領域】 本新型是有關於-種滾壓機具,特別是指一種觸控面 板貼合機,使其貼合平面度更佳,操作者容易調整校正, 且可以節省滾壓之作業時間。 【先前技術】 目前市面上常見的觸控面板在製造過程中,必須經過 精密的貼合及滾壓步驟’方能讓一上部觸臈(FiexiMeFiim) 與一下部基座(Glass Substrate)能平行貼合且具較佳平面 又為此,許多廠商開發出觸控面板貼合機來進行上部觸 膜(FleXible FHm)與下部基座⑹咖Substrate)的貼合及滚 =作業。但是’為了加強產品貼合平面度及節省滾壓作業 時間,並且爭取未來市場上的商品競爭優勢,過去已經有 人開發出下述設計: :場所出現的一種「龍門式壓合機」技術,其利用一 設單向壓合滾輪,再以—往復位移的平台進行往復 虔運用可以旋轉的平台配合階層設計的單向 =輪,在平台前進進行第一次麼合時,待壓合工作件 再的内側階層’但是平台隨後進行9 ◦度旋轉, 雖通過Γ向壓合滾輪的外側階層。此種習用技術M354517 VIII. New Description: [New Technology Field] This new type is related to rolling tools, especially a touch panel laminating machine, which makes the flatness better and the operator can easily adjust the correction. And can save rolling work time. [Prior Art] At present, the common touch panel on the market must undergo a precise fitting and rolling step in the manufacturing process to allow an upper touch (FiexiMeFiim) and a lower base (Glass Substrate) to be attached in parallel. In order to achieve better planarity, many manufacturers have developed a touch panel laminating machine to perform the bonding and rolling work of the upper touch film (FleXible FHm) and the lower base (6) coffee substrate. However, in order to enhance the flatness of the product and save the rolling operation time, and to strive for the competitive advantage of the products in the future market, the following design has been developed: A kind of "gantry type press machine" technology appeared in the place, By using a unidirectional pressing roller, and then using a reciprocating displacement platform, the reciprocating cymbal can be used to rotate the platform with the unidirectional = wheel of the hierarchical design. When the platform advances for the first time, the workpiece is to be pressed again. The inner stratum 'but the platform then performs a 9-degree rotation, although the outer stratum of the roller is pressed by the twist. Such a conventional technique
、j以進仃二個方向的壓人乎厭细;方a卞A 研究解決的問題:也產生了數個仍待 其一 ’上部觸膜與下部基座必須能緊密貼合且具較佳 M354517 +面度,但是此種習用技術的平台受限旋轉等大幅度運動 .料而無法精密校正平面度。將產生無法使㈣廢品,也 大幅降低生產的良率。 其―,習用技術的平台進行旋轉時,作業會形成兩個 平面大量生產加工時,平面幾何精度易改變。 其三,前述滾輪的階層設計會限制通過不同階層的待 、作件尺寸,此外’前述平台必須旋轉、定位必須以 φ 巾作為°又冲’使得製具成本及製具數量容易增加。 為了克服前述問題,本創作人不斷研究創新。思考尋 未具備更佳貼合平面度、容易調整校正’以及節省滾壓作 業時門的〜t ’進而突破以往技術的瓶頸與困難。 【新型内容】 、,本新型之目的是在提供一種觸控面板貼合機,其貼合 平面度更佳,操作者容易調整校正。 j新型之另一目的是在提供-種觸控面板貼合機,其 可以節省滾壓之作業時間及節省製具的成本。 〃 依照本新型前述目的,本新型的觸控面板貼合機包含 -^台、-平行貼合機構、—進給機構及—雙向滾壓機 "且4平行貼合機構、進給機構及雙 序設置於機台上1述平㈣合機構具有可調平行 二 =進給機構則具有χ、γ轴位移校正及2轴旋轉校 ;力•:且配合雙向滾壓機構上的二组異向滾麼的滾 輪一十,使其貼合平面度更佳、容易調整校正,且可以節 M354517 省滾壓之作業時間。 前述平行貼合機構具有一上座及一旋擺裝置,上座安 裝在該旋擺裝置的一旋軸上,並且依操作讓上座旋轉後平 行貼合進給機構上方的一下座。特別在上座及旋擺裝置之 間組裝有一調整件,上座利用一中央頂心柩頂在調整件中 央處,且在上座與調整件的二側鎖設有調整螺件,利用二 側調整螺件配合頂心讓上座進行相對調整件的傾斜調整。 刖述平行貼合機構的旋擺裝置之旋軸採用側翻或中 央平衡翻轉設計1該旋軸位於上座―側時為側翻設計, 當旋軸橫穿裝設於上座中央時為中央平衡翻轉設計;採用 中央平衡翻轉設計能加快翻轉的速度,且小扭力需求能增 加穩定度。 0 前述進給機構上則組裝有一下座、一昇降台、—^ 位移組、-γ軸位移組及_ ζ軸旋轉組;前述下座受下方 昇降台帶動向上抵頂上f且昇降台受—χ軸位移組及一 Υ軸位移組帶動,而能進行X軸向及Υ軸向的調整,使上 =下座&確實板準。另外,本創作特別在下座組裝有一 2旋轉組旋轉組包含—承接件、4位件及一微 且承接件文限在下座中央可旋轉位移預設之角度,並 朝:卜:伸一抵桿,利用定位件及微調件旋, j is in the two directions of pressing people's ruthlessness; Fang a卞A research solves the problem: also produces a number of still waiting for one 'the upper touch film and the lower base must be close fit and better M354517 + face, but the platform of this conventional technology is limited by large movements such as rotation, and the flatness cannot be precisely corrected. There will be no (four) waste products, and the production yield will be greatly reduced. It is the case that when the platform of the conventional technology is rotated, the work will form two planes in mass production processing, and the plane geometric accuracy is easy to change. Thirdly, the hierarchical design of the aforementioned rollers limits the size of the workpieces to be passed through different levels. In addition, the aforementioned platform must be rotated, and the positioning must be φ 巾 as the ° rushing, so that the cost of the manufacturing tool and the number of manufacturing tools are easily increased. In order to overcome the aforementioned problems, the creator continues to research and innovate. Thinking about finding a better fit flatness, easy adjustment and correction, and saving the ~t ’ of the rolling operation door, and breaking through the bottlenecks and difficulties of the prior art. [New content] The purpose of the present invention is to provide a touch panel laminating machine which has a better flatness and an operator's easy adjustment and correction. Another purpose of the new type is to provide a touch panel laminating machine which can save the rolling time and save the cost of the tool. According to the foregoing object of the present invention, the touch panel laminating machine of the present invention comprises - a table, a parallel bonding mechanism, a feeding mechanism and a - two-way rolling machine, and a parallel feeding mechanism and a feeding mechanism. The double sequence is set on the machine table. The flat (four) joint mechanism has adjustable parallel two = feed mechanism with χ, γ axis displacement correction and 2-axis rotary correction; force •: and two sets of different combinations on the two-way rolling mechanism Roll the roller to ten, make it fit flatness, adjust the correction easily, and save the working time of M354517 rolling. The parallel bonding mechanism has a top seat and a swinging device. The upper seat is mounted on a rotating shaft of the swinging device, and is operated to rotate the upper seat to smoothly fit the lower seat above the feeding mechanism. In particular, an adjusting member is assembled between the upper seat and the swinging device. The upper seat is at the center of the adjusting member with a central top core, and the adjusting screw is locked on the two sides of the upper seat and the adjusting member, and the adjusting screw is used by the two sides. Fit the top center to allow the upper seat to adjust the tilt of the relative adjustment member. The rotary shaft of the rotary device of the parallel fitting mechanism adopts a rollover or central balance reversal design. The rotary shaft is designed to be turned on when the upper shaft is on the side of the upper seat. When the rotary shaft is traversed in the center of the upper seat, the center balance is reversed. Design; the use of a central balance flip design can speed up the flip, and the need for small torque can increase stability. 0 The above-mentioned feeding mechanism is assembled with a lower seat, a lifting platform, a -^ displacement group, a -γ axis displacement group and a _ ζ axis rotation group; the lower seat is driven upward by the lower lifting platform and the lifting platform is subjected to - The χ axis displacement group and a Υ axis displacement group are driven, and the X axis and the Υ axis can be adjusted so that the upper=lower seat & In addition, the present invention is specially assembled in the lower seat with a 2 rotation group rotating group including - the receiving member, the 4-position member and the micro-piece and the receiving member limit is at a preset angle of the central rotation of the lower seat, and is directed toward: Using positioning parts and fine-tuning pieces
柃,而讓承接件在下# L ^ 上上可進行z軸向的旋轉微調。 刖述進給機槿的显 桿之設計。若利用馬可㈣壓缸或馬達配合導螺 動4411料輯設計時,再以導螺桿帶 昇降位移。運用馬達配合導螺桿之設計能提高 M354517 行程精密控制的效果,並且增強進給的力量。 刖述雙向滾壓機構安裝在前述進給機構的行進路徑 上’且具有二組異向滾壓的滾輪,二組滾輪分別具備進給 壓缸可相對下座進行滾壓,且二組滾輪的軸心方向角度相 父’二組滾輪的軸心相交角度可以是5度至9 〇度之間, 或採用預設角度調整進行異向滾壓。前述二組滾輪可以為 金屬材質或其他依需求設計之材質。前述二組滾輪的間距 可依照待加工物的長度與寬度配合調整。 由上述本新型敘述可知,應用本新型具有下列優點: 1. 前述平行貼合機構具有可調平行度的上座,而該進 給機構則具有X、γ軸位移校正及z軸旋轉校正的能力, 使其貼合平面度更佳、容易調整校正。 2. 前述雙向滾壓機構上的二組異向滾壓的滾輪設 計’使其節省滾壓之作業時間及貼合製具之成本。 3·前述雙向滚壓機構上的二組異向滾壓的滾輪設 汁,使其能對產品做四周做定壓力的滾壓使其能緊密貼合 且具較佳平面度。 4·採用馬達配合導螺桿之設計時,能提高行程精密控 制的效果,並且增強進給的力量。 5.平行貼合機構採用中央平衡翻轉設計時,能加快翻 轉的速度,且小扭力需求能增加穩定度。 【實施方式】 睛參照第卜2及3圖,其纷示本新型一較佳實施例 M354517 的立體組合、侧視及俯視。另第4、5圖為本新型實施例 上座之外觀透視及側視。而第6、7圖係繪示本新型實施 例進給機構的俯視及側視。 本新型觸控面板貼合機包含有一機台丨〇〇、一平行貼 合機構200、一進給機構300及一雙向滾壓機構400,並 且前述平行貼合機構200、進給機構300及雙向滾壓機構 400依序設置於機台1〇〇上。前述進給機構3〇〇安裝於一 X轴位移組330上,且進給機構300的下座310依控制配 合該平行貼合機構200的上座210旋轉貼合上部觸膜 (Flexible Flim)與下部基座(Glass Substrate),並且該進給機 構300利用X軸位移組33〇進給通過該雙向滾壓機構4〇〇 下方,利用該雙向滚壓機構400的二組異向滾壓的滾輪 410、420,前述二組滾輪410、420分別具備進給壓缸411、 421可相對該進給機構3〇〇進行滾壓。 該機台100,係供前述結構定位。 該平行貼合機構200,包含具有一上座21〇及一旋擺 裝置220,該上座210安裝在該旋擺裝置22〇的一旋轴221 上,並且該旋軸221依操作讓上座21〇旋轉後平行貼合於 該進給機構300上方的下座3 1〇。本新型另一特色是具有 可調平行度的上座210,特別在該上座21〇及旋擺裝置22〇 之間組裝有一調整件230,該上座21〇利用一中央頂心231 插頂在調整件230中央錐槽232處,且在該上座21〇與調 整件230的二側鎖設有調整螺件232,利用二側調整螺件 232配合頂心231讓上座21〇進行相對調整件23〇的傾斜 M354517 調整。柃, and let the receiving member perform the z-axis rotation fine adjustment on the lower #L^. The design of the display rod of the feed machine is described. If the Marco (4) cylinder or motor is used with the guide screw 4411 material design, the lead screw belt will be used to move up and down. The design of the motor with the lead screw can improve the precision of the M354517 stroke and enhance the power of the feed. The two-way rolling mechanism is mounted on the travel path of the aforementioned feed mechanism and has two sets of rollers that are counter-rolled. The two sets of rollers are respectively provided with a feed cylinder that can be rolled relative to the lower seat, and two sets of rollers The angle of the axis direction is the same as that of the parent group. The angle of intersection of the two groups of rollers can be between 5 degrees and 9 degrees, or the opposite angle can be adjusted by the preset angle adjustment. The two sets of rollers can be made of metal or other materials that are designed according to requirements. The spacing between the two sets of rollers can be adjusted according to the length and width of the object to be processed. It can be seen from the above description of the present invention that the application of the present invention has the following advantages: 1. The parallel bonding mechanism has an upper seat with adjustable parallelism, and the feeding mechanism has the ability of X, γ axis displacement correction and z-axis rotation correction. It makes it easier to fit the flatness and adjust the correction easily. 2. The two sets of counter-rolling rollers on the two-way rolling mechanism are designed to save the rolling time and the cost of the bonding tool. 3. The two sets of counter-rolling rollers on the two-way rolling mechanism are juiced so that they can be pressed around the product to make a tight pressure and have a good flatness. 4. When the design of the motor and the lead screw is adopted, the effect of precise control of the stroke can be improved, and the force of the feed can be enhanced. 5. When the parallel bonding mechanism adopts the central balance reversal design, it can speed up the turning, and the small torque demand can increase the stability. [Embodiment] The eye refers to Figures 2 and 3, which show a three-dimensional combination, a side view and a plan view of a preferred embodiment M354517 of the present invention. 4 and 5 are perspective and side views of the upper seat of the new embodiment. Figures 6 and 7 show the top and side views of the feed mechanism of the new embodiment. The touch panel laminating machine comprises a machine table, a parallel bonding mechanism 200, a feeding mechanism 300 and a bidirectional rolling mechanism 400, and the parallel bonding mechanism 200, the feeding mechanism 300 and the two-way The rolling mechanism 400 is sequentially disposed on the machine table 1A. The feeding mechanism 3 is mounted on an X-axis displacement group 330, and the lower seat 310 of the feeding mechanism 300 is rotated to fit the upper touch membrane (Flexible Flim) and the lower portion according to the upper seat 210 of the parallel bonding mechanism 200. a base plate (Glass Substrate), and the feed mechanism 300 feeds through the two-way rolling mechanism 4 under the X-axis displacement group 33, and the two sets of counter-rolling rollers 410 of the two-way rolling mechanism 400 are used. 420. The two sets of rollers 410 and 420 are respectively provided with feed cylinders 411 and 421 which are rollable with respect to the feeding mechanism 3〇〇. The machine 100 is positioned for the aforementioned structure. The parallel bonding mechanism 200 includes a top seat 21〇 and a swinging device 220 mounted on a rotating shaft 221 of the swinging device 22〇, and the rotating shaft 221 is operated to rotate the upper seat 21〇 The rear side is parallelly attached to the lower seat 3 1 上方 above the feeding mechanism 300. Another feature of the present invention is an upper seat 210 having an adjustable parallelism. In particular, an adjusting member 230 is assembled between the upper seat 21〇 and the swinging device 22〇. The upper seat 21〇 is inserted into the adjusting member by using a central top core 231. 230 is located at the central tapered groove 232, and the adjusting screw 232 is locked on the two sides of the upper seat 21〇 and the adjusting member 230, and the upper side 21 is matched with the top core 231 by the two-side adjusting screw 232 to perform the relative adjusting member 23〇. Tilt M354517 adjustment.
月t 該進給機構300,包含有一下座31〇、一昇降台32〇、 一 X軸位移組330、一 γ軸位移組34〇及一 z軸旋轉組 350。前述下座31〇受下方昇降台32〇帶動向上抵頂該平 行貼合機構2GG的上座21G,該昇降台32()内採用馬達配 合導螺桿帶動昇降(或利用壓缸),且昇降台32〇受該父軸 位移組330及該γ軸位移組34〇帶動,該進給機構3〇〇利 用X軸位移組330進給通過該雙向滾壓機構4〇〇下方,該 Y軸位移組340則利用滑軌341及微調轉柄342安裝在下 座310與X軸位移組33〇之間。藉由前述設計而能進行下 座310X軸向及γ軸向的調整’使上座21〇與下座3丨〇玲 確實校準。本創作特別在下I 31G組裝有一2軸旋轉、乡 350 ’該Z軸旋轉組35〇包含一承接件35ι、一定位件μ 及一微調件353,該承接件351可旋轉預設角度被限… 下座310中*,並且該承接件351朝外凸伸一抵桿354, 前述定位件352及微調件353則組裝在下座31〇,利㈣ 頂在抵桿354二側蚊位件352及微調件353⑨動及定士 該抵桿354,而讓該承接件351受該抵桿354帶動而在^ 座310上進行Z軸向的旋轉微調。 藉此’本創作的下座31〇則具# χ、γ轴位移校正石 Z軸旋轉校正的能力。再配合雙_機構400上的二, ^向滾壓的滾輪410、420設計,使其貼合平面度更佳、 各易調整校正,且可以節省滾壓之作業時間。 再。月參閱第8、9、1〇目,圖令緣示本發明另一重要 10 M354517 實施例,該平行貼合機構200的旋擺裝置220之旋軸5〇〇 採用中央平衡翻轉設計。該旋軸500橫穿裝設於該上座21〇 中央處’該旋軸利用中央平衡翻轉設計能降低上座21〇 重里產生的扭力,且能加快翻轉的速度。此外,旋軸500 的中央平衡翻轉僅需小扭力,可以増加設備運作時的穩定 度。另該上座210及旋擺裝置22〇之間同樣組裝有一調整 件,可進行傾斜調整,結構設計與之前敘述相同,在此不 多作贅述。 雖然本新型已將數較佳實施例揭露如上,然其並非用 以限定本新型,任何熟習此技藝者,在不脫離本新型之精 神和範圍内,當可作各種之更動與潤飾,因此本新型之保 護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 為讓本新型之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之詳細說明如下: 第1圖係繪示本新型實施例之立體組合示意圖。 第2圖係繪示本新型實施例之組合側視圖。 第3圖係繪示本新型實施例之組合俯視圖。 第4圖係繪示本新型實施例上座之外觀透視圖。 第5圖係繪示本新型實施例上座之外觀側面透視圖。 第6圖係繪示本新型實施例進給機構的俯視圖。 第7圖係繪示本新型實施例進給機構的側視圖。 第8圖係繪示平行貼合機構另一實施例之立體圖。 M354517 第9圖係繪示平行貼合機構另一實施例之翻轉圖。 第10圖係繪示平行貼合機構另一實施例之翻轉完成 【主要元件符號說明】 100 :機台 210 :上座 221 :旋軸 231 :頂心 300 :進給機構 320 :昇降台 340 : Y軸位移組 342 :微調轉柄 351 :承接件 353 :微調件 410 :滾輪 411 :壓缸 421 :壓缸 200 :平行貼合機構 220 :旋擺裝置 230 :調整件 232 :錐槽 310 :下座 330 : X軸位移組 341 :滑軌 350 : Z軸旋轉組 352 :定位件 354 :抵桿 400 :雙向滾壓機構 420 :滾輪 500 :旋軸 12The feed mechanism 300 includes a lower seat 31〇, a lifting table 32〇, an X-axis displacement group 330, a γ-axis displacement group 34〇, and a z-axis rotation group 350. The lower seat 31 is driven by the lower lifting platform 32 向上 to abut against the upper seat 21G of the parallel bonding mechanism 2GG. The lifting platform 32 () is driven by a motor with a lead screw to lift (or use a pressure cylinder), and the lifting platform 32 The 轴 is driven by the parent axis displacement group 330 and the γ axis displacement group 34 ,, and the feed mechanism 3 进 is fed through the two-way rolling mechanism 4 〇〇 by the X-axis displacement group 330, the Y-axis displacement group 340 Then, the slide rail 341 and the fine adjustment knob 342 are installed between the lower seat 310 and the X-axis displacement group 33A. With the aforementioned design, the adjustment of the lower 310X axial direction and the γ axial direction can be performed, so that the upper seat 21〇 and the lower seat 3 are accurately aligned. The present invention is specially assembled in the lower I 31G with a 2-axis rotation, the home 350', the Z-axis rotating group 35 〇 includes a receiving member 35 ι, a positioning member μ and a fine adjustment member 353, the receiving member 351 can be rotated by a preset angle limited... The lower seat 310 is in the middle, and the receiving member 351 protrudes outwardly from the abutting rod 354. The positioning member 352 and the fine adjustment member 353 are assembled on the lower seat 31〇, and the top (4) is placed on the two sides of the abutting rod 354 and the fine adjustment member 352 and the fine adjustment member. The 3539 moves and fixes the lever 354, and the receiving member 351 is driven by the abutting lever 354 to perform fine adjustment of the Z-axis rotation on the housing 310. By this, the lower seat of this creation has the ability to correct the Z-axis rotation of the γ and γ-axis displacement correction stones. In combination with the two on the double_mechanism 400, ^ is designed to roll the rollers 410, 420, so that the flatness is better, the adjustment is easy, and the rolling operation time can be saved. again. Referring to Figures 8, 9, and 1 of the present invention, another important embodiment of the present invention is the M M M M M M M M M M M M M M M M M M M M M M M M M M M M M The rotating shaft 500 is transversely disposed at the center of the upper seat 21'. The rotating shaft is designed to reduce the torsion generated in the upper seat 21 by the central balance turning design, and the speed of the turning can be accelerated. In addition, the central balance of the rotary shaft 500 requires only a small torque to increase the stability of the device during operation. In addition, an adjustment member is also assembled between the upper seat 210 and the swinging device 22A, and the tilt adjustment can be performed. The structural design is the same as that described above, and will not be further described herein. While the present invention has been described in its preferred embodiments, the present invention is not intended to limit the present invention, and various modifications and refinements may be made without departing from the spirit and scope of the invention. The scope of the new protection is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS In order to make the above and other objects, features, advantages and embodiments of the present invention more obvious, the detailed description of the drawings is as follows: Figure 1 shows a three-dimensional combination of the present invention. schematic diagram. Figure 2 is a side view showing the combination of the present embodiment. Figure 3 is a combined plan view of the novel embodiment. Figure 4 is a perspective view showing the appearance of the upper seat of the novel embodiment. Figure 5 is a perspective view showing the appearance of the upper seat of the novel embodiment. Figure 6 is a plan view showing the feeding mechanism of the new embodiment. Figure 7 is a side elevational view of the feed mechanism of the present embodiment. Figure 8 is a perspective view showing another embodiment of the parallel bonding mechanism. M354517 Figure 9 is a flip diagram showing another embodiment of the parallel bonding mechanism. Figure 10 is a diagram showing the reverse of another embodiment of the parallel bonding mechanism. [Main component symbol description] 100: Machine table 210: Upper seat 221: Spindle 231: Top center 300: Feed mechanism 320: Lift table 340: Y Axis displacement group 342: fine adjustment handle 351: receiving member 353: fine adjustment member 410: roller 411: pressure cylinder 421: pressure cylinder 200: parallel bonding mechanism 220: swing device 230: adjustment member 232: cone groove 310: lower seat 330 : X-axis displacement group 341 : slide rail 350 : Z-axis rotation group 352 : positioning member 354 : abutment rod 400 : two-way rolling mechanism 420 : roller 500 : rotary shaft 12