201107139 六、發明說明: 【發明所屬之技術領域】 本發明係有關一種複層疊合板壓貼機的對位裝置,尤指一種 使壓貼機上的工件可作水平面的X-Y轴向之位移微調及/或在水平 面上的旋轉角度微調之對位裝置。 【先前技術】 如所知者,一般觸控面板或液晶面板都是由二層或二層以上 的功能薄層疊置膠合而成;目前這種複層疊合板之對接膠合加工 方式,大多利用將欲貼合加工的二板件分別固持於上方工台及下 方工台上,再使二工台迎面對合,並施加適度之壓合力,使二板 件藉由在彼此表面上所預設的黏膠,以及二工作台間的對合壓力 而膠合成一體;惟在前述加工過程中,二板件係分別被固持在上 方工台及下方工台上’然後再使彼此上下對合,但反復運作過程 中’有些板件的固持位置難免會發生偏差,這結果將導致面板的 組合不良或壓站加工失敗。 【發明内容】 有鑑於此,本發明的主要是提供一種複層疊合板壓貼機的對 位裝置’其使舰機台上的工件之—可作水平面的χ γ轴向之位 移微調及/或在水平面上的旋轉角度微調,使欲慶貼加工的上、下 方件彼此位置對正,達精準的堡貼組合加工之目的以及提升 產品良率β 為了達到上述目的’本發明所提供的複層疊合板麼貼機的對 201107139 位裝置’其具有一對可翻轉後對向蓋合的上、下方工台,在該上 方工台可固持一欲壓貼板件,該下方工台可固持另一欲壓貼板 件,且該下方工台可對固持在上、下方工台之間的欲壓貼板件提 供壓力使彼此貼合成一體,而在於該下方工台具一組對位裝置, 其包含·一基座,一導板,係設置在前述基座的上方,於該導板 上设有複數貫穿板餿的導孔;第一轴向的位移調控元件具一固 定在該導板底面的位移導座,且該位移導座底部設有導槽恰可套 置在固設於該基座上表面的第一轴向導軌,該位移導座還樞接一 組固定在該基座上的位移驅動元件;一對平行設置在第二軸向的 位移調控單元,該等第二軸向位移調控單元均各具一固定在該導 板底面的位移導座,且該位移導座底部設有導槽恰可套置在固設 於該基座上表面的第二轴向導執,該位移導座還樞接一組固定在 該基座上雜移驅動元件;以及-魅單元,其I料設有板件 固持機構,且該工作面的底部具-固設在前述基座上的頂壓驅動 讀’以及設有複數垂直向下的導柱恰可與前述導板上的導孔作 精密配合;藉第一軸向位移調控單元以及該對平行設置的第二軸 向位移調控單元來對該導_水平面位置作χ·γ㈣之位移微調 及旋轉角度_ ’使該_單元上的工件被轉至所欲的位置及 擺置角度’俾利進行精準的壓貼組合加工。 制是,祕各⑽·元件驗移购元剌係選自於由 伺服馬達或步進馬達驅動_桿傳動機構或雕傳動機構等,但 實施的範圍不以前述位移驅動元件為限。 201107139 特別是,前述壓貼單元的頂壓驅動元件係選自於油壓缸、氣 壓缸、螺桿或蝎桿傳動機構等,但實施的範圍不以前述元件為限。 特別是’還包含在前述基座上植設有若干支頂柱用以輔助稽 持該導板。 特別是,該等支頂柱在頂端部位設有滾珠座結構,使該導板 可在水平面各向的位移自如。 此將於下文中進一步闡明本發明的其他功能及技術特徵,熟 _ 習本技術者熟讀文中的說明後即可據以實現本發明。 【實施方式】 如后附各圖所示係本發明的較佳實施例,該複層疊合板的加 壓貼合裝置主要包含一對可翻轉後對向蓋合的上、下方工台,其 中’該上方工台1在側邊設有一組固設在機台9上的翻轉機構3, 而該翻轉機構受一伺服馬達34驅動可作大約180。的翻轉運作。 該上方工台1具一罩體12,於該罩體上設有排氣孔且該排氣孔由 •排氣管連通至一真空幫浦(未顯示於圖面);罩體12内密封地嵌設 一承壓板15,且在該承壓板上設有通氣道151,並沿該通氣道設 有複數貫穿到底表面的吸孔152,使該承壓板15的工作面上均佈 有複數吸孔152 ;另,在該承壓板15的工作面上平貼覆設一層規 格約在200目/釐米左右的網板I?,利用該網板上的極細網目使各 及孔152的吸力得以平均分配在該網板π的網面上,以便可穩固 地吸附所欲固持的板狀工件;此外,該承壓板12還接設有一組加 熱器18’可藉由熱傳導作用對吸附固持在該網板17上的工件提供 201107139 加熱,讓卫件上_膠形成熱融狀態,俾利後續之壓接膠合加工 效果。 該下方工台2包含-基座21、-位置調整單元22以及一壓 貼單元,其中’在該基座21底部設有螺桿頂升機構2u及氣壓缸 212,該螺桿頂升機構211藉一伺服馬達(未顯示於圖面)驅動螺桿 旋轉以便調整該基座21 _置高度,並對稱絲在該基座底 面的氣壓缸212以提供一辅助的支撐力量。 該位置調整單元22係被安裝在前述基座21的上方,其具有 導板223 X轴向位移調控機構X、一對平行設置在γ軸向 的位移調控機構yl、y2以及若干支頂柱226 ;其中,該導板奶 於中央處設有鏤” 223卜且在四邊肖分別設有貫穿的導孔 2232;而在該基座與導板之間還設有該位移調控機構X、” 使該導板223可移動自如地在水平面之χ_γ轴向位移以及調整旋 轉角度’該X轴向位移難機構\具有―固定在該導板底面的位 移導座224卜該位移導座底部設有導槽恰可套置在固設於該基座 上表面的X轴向導執2242,且該位移導座還樞接一組固定在該基 座上的螺桿傳動树2243,該螺桿傳動元件的螺桿係轴接於一词 服馬達(未顯示於圖面)而驅動運作;而該對Y轴向位移調控機構 yl、y2被平行地設置在該導板223底面二側邊緣,該等位移調控 機構yi、y2與前述X轴向位移調控機構χ具有雷同的構造,亦即 該等位移調控機構丫卜y2均具有-固定在該導板底®的位移導座 2251,該位移導座底部設有導槽恰可套置在固設於該基座上表面 201107139 的Y軸向導軌2252,且該位移導_樞接'㈣定在該基座上的 螺桿傳動树2253,麵㈣動树_製補.伺服馬達 (未顯示於_而驅動運作;另,該等支頂柱226被植設在前述基 座上用以撐持該導板,而該等支頂柱226的頂端具有滚珠座結構 226Α,因此可使該導板223在水平面位移自如。 -該壓貼單元具一頂壓板23卜一下基板说卩及一頂壓驅動 兀件235 ;其中’該下基板232和頂壓板231之組成與前述上方工 •台的罩體12和承壓板15的組合構造約略相同,,亦即,在該頂壓 板231上叹有若干通氣道2312,並沿該通氣道設有複數貫穿到該 頂壓板上表面的吸孔2313,以及在該頂壓板231社表面平貼覆 設-層具極細網目的網板2314,並且該頂壓板231内側還接設有 —組加熱器23!5 ;該下基板232則是與該頂壓板231密合固設成 -體,且於下基板232上設有-排氣孔以連接一排氣管至真空幫 浦(未顯示於圖面);另在該下基板232底面的四邊角附近各設一垂 #直向下延伸的導柱期,令該等導柱之安裝位i恰與前述導板Μ 上的導孔您相對應’且該等導柱具有與前述導孔之間呈精密配 合的外徑;而本實施例中該頂壓驅動元件235係選用一氣壓缸, 使其氣缸麵設械絲座21 _央雜,峨㈣絲桿則延伸 通過前述導板的中央鎮空部222並連結於該下基板232的底面中 央部位》 依前述構件組成之加壓貼合裝置,於運作時,先將欲壓合工 件W1 W2刀別置放到上、下方工台的承堡板15與頂屋板加 201107139 上,藉由真二幫浦啟動運作以將工件W1、W2分別吸附固持在該 承壓板15與頂壓板231的工作面上,且同時地令該上下方工台 的加熱器18、2315開始加熱,使該等工件上的黏膠保持在約呈熱 融狀態,然後該上方工台1藉由該翻轉機構3之驅動作約18〇。之 翻轉而迎面相對地蓋合至該下方工台2的上方,在—般正常的情 況下,前述上、下方工台所固持的工件W2之位置將是相互 對正的,因此當該上、下方工台!相互蓋合後該加壓頂升元件故 的氣壓缸即開始向上推頂,使該下基板232連同該頂壓板以 及工件W2上升位移’並藉由該下基板四邊角的導柱攻$與該位 置調整單元上的導孔2232之精魏合導引,使該頂壓板231垂直 向上位移並頂堡至該上方工台的承壓板15上,據此準確對位的將 該上、下方工件W卜W2密接壓合;在前述堡貼製程後,該等上、 下方工台的加熱H18、2315停止加熱,且时地該真空幫浦開始 釋放氣壓’使該完成貼合的工件由該承 15與頂難231上被 釋放而便⑽,辟上打台1藉由該_機構3之驅動而翻轉 復歸原位’該頂壓驅動疋件235的氣壓缸使該下基板说及頂壓 板231下降回復原位,經由前述操作步驟即可簡易而快速地完成 疊合板之膠接壓合加工程序。 然而,當前述上、下方工台蓋合後其所固持的工件%卜W2 位置或擺置角度有所偏差時,則可利用該位置調整單元22加以校 ;置及角度’例如調校X軸向位置時,該X軸向位移調控機構 X的運作如下:簡桿傳動耕2243 _桿受舰馬達驅動旋轉 201107139 使該位移導座2241順沿著#向導__,啊也使與之 固結成一體的導板223隨之位移到設定的位置;同理,調校Y轴 向位置的運作方式雜上述_,亦即使騎平行設置在γ轴向 的位移調控機糾、y2以相同方向而且同步地等量位移使導板 223被位移到Y軸向的設定位置;又,當欲調校工件的擺置角度 時,則可使該對平行設置在Υ軸向的位移調控機構…^彼此以 相反方向位移,藉此使導板223被扭轉到所欲的設定角度;而當 馨該導板223被調校至正確的位置後,藉由該導板#導柱助與該 單it上的導柱2232之精歸動配合的料,即可連動地使被 吸附固持在該頂壓單元上的工件W2被位移至校定置;综上 可知’利用該位置調整單;^22可簡便、快速而且準確地調設該下 方供台上的工件W2在X-Y轴向的位置以及擺置角度,因此具備 精確地調校件組合之效能,可提升產品良率及促進生產品質。 另,前述發明實施例亦可利用該基座21底部之螺桿頂升機構 • 211及氣壓缸212將整體下方工台2的調整到適當的位置高度,以 縮短該壓貼單元之頂壓板231施力作動的位移行程,以增進壓合 的加工速率及精準度。 本發明並非侷限於以上所述形式’很明顯參考上述說明後, 能有更多技術均等性的改良與變彳匕,這例如是:為了增進調整對 位的準確性及對位操作的簡易性,該位置調整單元22乃可搭配設 置一組光學式影像檢測系統或是影像放大系統,而此等變更或加 設元件係屬熟習該技術範疇者所易於思及的改設,且其均達成與 201107139 前述實施例同一或類似的效能,故應與本發明前揭技術屬實質相 同;所以’凡有在相同的創作精神下所作有關本實用新型的任何 修飾或變更,皆仍應包括在本發明意圖保護的範疇。 【圖式簡單說明】 第一圖係本發明之上、 下工台的側面部份剖示;以及 第二圖係本發明之上、 下工台的側面部份剖示,顯示工件已經被 壓貼組合的狀態。 【主要元件符號說明】 上方工台1 罩體12 承壓板15 通氣道151 吸孔152 網板17 加熱器18 下方工台2 基座21 螺桿頂升機構211 氣壓缸212 位置調整單元22 導板223 鏤空部2231 導孔2232 位移導座2241 X軸向導軌2242 螺桿傳動元件2243 位移導座2251 Y轴向導軌2252 螺桿傳動元件2253 i頂柱⑽ 滾珠座結構226A 頂壓板231 氣道2312 吸孔2313 網板2314 加熱器2315 201107139201107139 VI. Description of the Invention: [Technical Field] The present invention relates to a aligning device for a laminated laminated press, and more particularly to a XY axial displacement fine adjustment of a workpiece on a press machine that can be used as a horizontal plane / or alignment device that fine-tunes the angle of rotation in the horizontal plane. [Prior Art] As is known, the general touch panel or the liquid crystal panel is formed by laminating two or more layers of functional thin layers; at present, the multi-layer bonding processing method of the multi-layer laminated board is mostly utilized. The two plates processed together are respectively fixed on the upper workbench and the lower workbench, and then the second workbench is faced with the fit, and a moderate pressing force is applied, so that the two plates are preset on the surfaces of each other. Adhesive, and the bonding pressure between the two worktables are glued together; however, in the foregoing processing, the two plates are respectively held on the upper workbench and the lower workbench, and then the upper and lower sides are respectively joined, but During the repeated operation, some of the holding positions of the plates will inevitably be deviated, which will result in poor combination of the panels or failure of the press station processing. SUMMARY OF THE INVENTION In view of the above, the present invention mainly provides a aligning device for a multi-layer laminate press machine, which enables fine-tuning of the χ axial displacement of a workpiece on a ship platform. The fine adjustment of the rotation angle on the horizontal surface enables the upper and lower parts of the processing to be aligned to be aligned with each other, to achieve the purpose of precise fort-bonding processing and to improve the product yield β. In order to achieve the above object, the cascading provided by the present invention The 201107139 device of the plywood machine has a pair of upper and lower worktables that can be turned over and oppositely facing, and the upper workbench can hold a plate to be pressed, and the lower workbench can hold another To press the plate member, and the lower table can provide pressure to the pressing plate members held between the upper and lower work platforms to be integrated with each other, and the lower table has a pair of alignment devices, a pedestal, a guiding plate is disposed above the pedestal, and a plurality of guiding holes penetrating through the sill are disposed on the guiding plate; the first axial displacement regulating component is fixed on the bottom surface of the guiding plate Displacement guide, and this bit A guide groove is disposed on the bottom of the guide seat to be sleeved on the first axial guide fixed to the upper surface of the base, and the displacement guide is also pivotally connected to a set of displacement driving components fixed on the base; a displacement control unit disposed in the second axial direction, each of the second axial displacement control units has a displacement guide fixed to a bottom surface of the guide plate, and a guide groove is disposed on the bottom of the displacement guide seat a second axis fixed on the upper surface of the base, the displacement guide is also pivotally connected to a group of miscellaneous driving components fixed on the base; and a charm unit, wherein the I material is provided with a plate holding mechanism And the bottom of the working surface has a top-pressure driving read 'fixed on the base and a plurality of vertical downward guiding posts are precisely matched with the guiding holes on the guiding plate; To the displacement control unit and the pair of parallel second axial displacement control units, the displacement of the guide water level position is χ·γ (4) and the rotation angle _ ' causes the workpiece on the _ unit to be rotated to the desired position And the placement angle 'for the precision of the pressure combination process. The system is selected from the following: (10) The component inspection and purchase unit is selected from a servo motor or a stepping motor to drive the rod transmission mechanism or the engraving transmission mechanism, but the range of implementation is not limited to the aforementioned displacement driving element. 201107139 In particular, the pressing drive element of the pressing unit is selected from a hydraulic cylinder, a pneumatic cylinder, a screw or a mast transmission mechanism, etc., but the scope of implementation is not limited to the foregoing components. In particular, the invention also includes a plurality of apex columns implanted on the pedestal to assist in the inspection of the guide plates. In particular, the top pillars are provided with a ball seat structure at the top end portion so that the guide plates can be displaced in all directions in the horizontal plane. Other functional and technical features of the present invention will be further clarified below, and the present invention can be implemented by those skilled in the art. [Embodiment] As shown in the accompanying drawings, a preferred embodiment of the present invention, the pressure laminating device of the multi-layer laminate mainly comprises a pair of upper and lower work stations which are reversible and oppositely facing, wherein The upper stage 1 is provided with a set of turning mechanisms 3 fixed to the machine table 9 at the side, and the turning mechanism is driven by a servo motor 34 to be approximately 180. The flipping operation. The upper work platform 1 has a cover body 12, and a vent hole is arranged on the cover body, and the vent hole is connected to a vacuum pump (not shown in the drawing) by the exhaust pipe; the inside of the cover body 12 is sealed A pressure receiving plate 15 is embedded therein, and an air passage 151 is disposed on the pressure receiving plate, and a plurality of suction holes 152 penetrating through the bottom surface are disposed along the air passage, so that the working surface of the pressure receiving plate 15 is evenly distributed. There is a plurality of suction holes 152. Further, a stencil I? having a size of about 200 mesh/cm is placed on the working surface of the pressure receiving plate 15, and the holes 152 are made by the extremely fine mesh on the stencil. The suction force is evenly distributed on the mesh surface of the stencil π so as to stably adsorb the plate-like workpiece to be held; in addition, the pressure receiving plate 12 is further connected with a set of heaters 18' which can be thermally conductively The workpiece that is adsorbed and held on the stencil 17 provides 201107139 heating, so that the _ glue on the garnish is formed into a hot melt state, and the subsequent crimping and gluing processing effect is utilized. The lower stage 2 includes a base 21, a position adjusting unit 22, and a pressing unit, wherein 'the bottom of the base 21 is provided with a screw jacking mechanism 2u and a pneumatic cylinder 212, and the screw jacking mechanism 211 borrows one A servo motor (not shown) drives the screw to rotate to adjust the height of the base 21 and the symmetrical wire is placed on the pneumatic cylinder 212 at the bottom of the base to provide an auxiliary support force. The position adjusting unit 22 is mounted above the base 21, and has a guide plate 223 X axial displacement regulating mechanism X, a pair of displacement regulating mechanisms yl, y2 disposed in parallel in the γ axial direction, and a plurality of top posts 226 Wherein, the guide plate milk is provided with a 镂"223b at the center and a through hole 2232 is provided in each of the four sides, and the displacement regulating mechanism X is further disposed between the base and the guide plate," The guide plate 223 is movably freely χ γ axial displacement and adjusts the rotation angle in the horizontal plane. The X-axis displacement difficulty mechanism has a displacement guide 224 fixed to the bottom surface of the guide plate, and a guide is arranged at the bottom of the displacement guide. The slot can be sleeved on the X-axis guide 2242 fixed on the upper surface of the base, and the displacement guide is also pivotally connected to a set of screw drive trees 2243 fixed on the base, the screw of the screw transmission component The shaft is connected to a motor (not shown) for driving operation; and the pair of Y-axis displacement regulating mechanisms yl, y2 are disposed in parallel on the two side edges of the bottom surface of the guide plate 223, and the displacement regulating mechanism Yi and y2 have the same structure as the aforementioned X-axis displacement control mechanism The displacement control mechanism y y2 has a displacement guide 2251 fixed to the bottom of the guide plate, and a guide groove is disposed on the bottom of the displacement guide to be fixed on the upper surface of the base 201107139 Y-axis guide rail 2252, and the displacement guide _ pivoting '(four) screw drive tree 2253 fixed on the base, surface (four) moving tree _ make up. servo motor (not shown in _ drive operation; The top pillars 226 are implanted on the base for supporting the guide plates, and the top ends of the top pillars 226 have a ball seat structure 226Α, so that the guide plates 223 can be displaced in a horizontal plane. The attaching unit has a top platen 23 and a top pressing drive member 235; wherein the combination of the lower substrate 232 and the top pressing plate 231 and the cover 12 and the bearing plate 15 of the foregoing upper table The structure is approximately the same, that is, a plurality of air passages 2312 are slanted on the top pressing plate 231, and a plurality of suction holes 2313 penetrating through the surface of the top pressing plate are disposed along the air passage, and the surface of the top pressing plate 231 is flat. Laminating-layering stencil 2314 with very fine mesh, and the inside of the top pressing plate 231 is also connected a group heater 23!5; the lower substrate 232 is fixedly attached to the top platen 231, and is provided with a vent hole on the lower substrate 232 to connect an exhaust pipe to the vacuum pump ( Not shown in the drawing); another guide column period extending downwardly from the four corners of the bottom surface of the lower substrate 232 is provided, so that the mounting position of the guiding columns is exactly the same as that on the guiding plate Μ The holes correspond to each other and the guide columns have an outer diameter that is precisely matched with the guide holes. In the embodiment, the pressure driving member 235 is a pneumatic cylinder, and the cylinder surface is provided with a wire holder 21 _ _ _ _, 峨 (4) screw extends through the central hollow portion 222 of the guide plate and is connected to the central portion of the bottom surface of the lower substrate 232 Pressing the workpiece W1 W2 knife is placed on the upper and lower working platform of the baodan board 15 and the top roof board plus 201107139, and the workpieces W1 and W2 are respectively adsorbed and held on the bearing plate 15 by the operation of the true two pumps. And the working surface of the top platen 231, and at the same time, the heaters 18, 2315 of the upper and lower stages start heating, so that the Glue on the workpiece was maintained at about hot melt state, and then the upper work station 1 by the driving of the turning mechanism 3 for about 18〇. Turning over and facing up to the top of the lower work table 2, in the normal case, the positions of the workpieces W2 held by the upper and lower work stations will be aligned with each other, so when the upper and lower sides are Workbench! After the mutual capping, the pneumatic cylinder of the pressurizing jacking element starts to push up, so that the lower substrate 232 rises along with the top pressing plate and the workpiece W2, and the position is struck by the guiding column of the lower substrate. The guiding hole 2232 of the adjusting unit is guided by the fine guide, so that the top pressing plate 231 is vertically displaced upward and is placed on the bearing plate 15 of the upper working table, and the upper and lower workpieces W are accurately aligned accordingly. Bu W2 is tightly pressed; after the above-mentioned fort-laying process, the heating of the upper and lower stations H18, 2315 stops heating, and the vacuum pump starts to release the air pressure to make the finished workpiece conform to the bearing 15 And the top difficulty 231 is released (10), and the punching table 1 is turned over by the driving of the _ mechanism 3, and the pneumatic cylinder of the pressing device 235 lowers the lower substrate and the top pressing plate 231. By returning to the original position, the bonding and pressing process of the laminated board can be completed simply and quickly through the foregoing steps. However, when the position of the workpiece or the position of the W2 held by the upper and lower stages is different, the position adjustment unit 22 can be used to adjust the position and the angle 'for example, the X axis is adjusted. In the position, the X-axis displacement control mechanism X operates as follows: the simple drive transmission 2243 _ rod is driven by the ship motor rotation 201107139 so that the displacement guide 2241 follows the #guide__, ah also consolidates with The integrated guide plate 223 is then displaced to the set position; similarly, the operation mode of adjusting the Y-axis position is mixed with the above-mentioned _, even if the displacement control machine is set in parallel in the γ-axis, the y2 is in the same direction and synchronized. The equal displacement causes the guide plate 223 to be displaced to the set position of the Y-axis; in addition, when the angle of the workpiece is to be adjusted, the pair of displacement control mechanisms arranged in parallel in the axial direction can be Displace in the opposite direction, thereby causing the guide plate 223 to be twisted to a desired set angle; and when the guide plate 223 is adjusted to the correct position, the guide plate is used to assist the single-it The material of the guide column 2232 is responsive to the material, so that it can be adsorbed in conjunction The workpiece W2 held on the pressing unit is displaced to the calibration position; in summary, the position adjustment sheet can be used to easily, quickly and accurately adjust the workpiece W2 on the lower table in the XY axial direction. The position and the angle of placement make it possible to precisely adjust the combination of components to improve product yield and promote production quality. In addition, the foregoing embodiment of the invention can also adjust the overall lower stage 2 to an appropriate position height by using the screw jacking mechanism 211 and the pneumatic cylinder 212 at the bottom of the base 21 to shorten the pressing plate 231 of the pressing unit. Forced displacement stroke to increase the processing speed and accuracy of the press fit. The present invention is not limited to the above-described forms. It is apparent that with reference to the above description, there can be more improvements and variations in technical equivalence, for example, in order to improve the accuracy of alignment adjustment and the ease of alignment operation. The position adjusting unit 22 can be configured to be provided with a set of optical image detecting systems or image magnifying systems, and such changes or additions are those that are easily understood by those skilled in the art, and all of which are achieved. The same or similar performance as the previous embodiment of 201107139 should be substantially the same as the prior art of the present invention; therefore, any modifications or changes relating to the present invention made under the same creative spirit should still be included in the present invention. The scope of the invention is intended to be protected. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a side view of the upper and lower stages of the present invention; and the second drawing is a side view of the upper and lower stages of the present invention, showing that the workpiece has been pressed The status of the combination. [Main component symbol description] Upper workbench 1 Cover 12 Pressure plate 15 Air passage 151 Suction hole 152 Stencil 17 Heater 18 Lower work station 2 Base 21 Screw jacking mechanism 211 Pneumatic cylinder 212 Position adjusting unit 22 Guide plate 223 hollow part 2231 guide hole 2232 displacement guide 2241 X axial guide 2242 screw drive element 2243 displacement guide 2251 Y axial guide 2252 screw drive element 2253 i top column (10) ball seat structure 226A top pressure plate 231 air passage 2312 suction hole 2313 net Board 2314 heater 2315 201107139
下基板232 導柱2325 頂壓驅動元件235 翻轉機構3 伺服馬達34 機台9Lower substrate 232 Guide post 2325 Pressing drive element 235 Turning mechanism 3 Servo motor 34 Machine 9
工件W卜W2 X轴向位移調控機構X Y軸向位移調控機構yl、y2 11Work piece W W2 X axial displacement control mechanism X Y axial displacement control mechanism yl, y2 11