M414792 與第二架體共同形成穿孔。 各滑動件包括一接觸平面,及一設置於接觸平面上並可 供連接桿抵接的彈性緩衝片。 連接桿包括二個前後相間隔且分別呈橫向延伸的滑 槽,各滑槽具有一側向開口,各接合件包含二個前後相間隔 的滾輪,各滾輪可經由側向開口滑接於各滑槽内。 依據本新型所揭露的具有壓合機構的壓合裝置,適於壓 合一待壓工件,壓合裝置包括一機架、二壓合機構及一連動 機構。 機架包含二個左右相間隔的侧板;二壓合機構上下相間 隔且呈反向地設置於二側板上,各壓合機構包含二滑動件、 一壓輪、一連接桿、二槓桿及二驅動件。各滑動件可上下滑 動地滑接於各側板,各滑動件包括一呈縱向延伸的齒條;壓 輪可轉動地樞接於二滑動件之間,壓輪包括二個分別位於二 滑動件内侧的接合件;連接桿穿設於二滑動件之間,各接合 件接合於連接桿上;各槓桿樞接於連接桿上,各槓桿一端與 各滑動件樞接;各驅動件接合於各槓桿相反於各滑動件的另 一端並可對其施加一壓力;連動機構包含二個上下相間隔的 同步連桿,各同步連桿包括二個位於相反端的齒輪部,各齒 輪部可轉動地與各滑動件的齒條相嚙合。 藉由上述技術手段,本新型具有壓合機構的壓合裝置的 優點及功效在於,藉由壓合機構的設計,壓輪的壓輪部能均 勻地施加壓力至基材表面的預壓薄膜上,使得預壓薄犋能平 整地填覆在基材表面。 b 5 M414792 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在以 下配合參考圖式之—個較佳實施例的詳細說明中,將可清楚 的呈現。透過具體實施方式的說明,當可對本新型為達成預 定目的所採取的技術手段及功效得以更加深入且具體的了 解,然而所附圖式只是提供參考與說明之用,並非用來對本 新型加以限制。 在本新型被詳細描述之前,要注意的是,在以下的說明 内容中’類似的元件是以相同的編號來表示。 如圖1及圖2所示’是本新型具有壓合機構的壓合裝置 的一較佳實施例,該壓合裝置200適於壓合一待壓工件i, 待壓工件1包括一基材u,及二個分別貼附於基材u上、 下表面的預壓薄膜12’壓合裝置200用以將預壓薄膜12壓 合並填覆於基材11上、下表面。在本實施例中,基材U 是以一電路板為例作說明,而預壓薄膜12是以一乾膜光阻 (Dry film resist)為例作說明。壓合裝置2〇〇包括一機架2、 一對壓合機構3,及二連動機構4,其中,二對壓合機構3 是彼此前後相間隔地設置於機架2上。 如圖1、圖2、圖3及圖4所示’機架2包括二個左右 相間隔的侧板21,各對壓合機構3的兩個壓合機構3是上 下相間隔且呈反向地設置於機架2的側板21上。各壓合機 構3包含二個左右相間隔的滑動件31,及一可轉動地極接 於二滑動件31之間的壓輪32,各滑動件31包括一第一架 體310,及一可拆卸地組裝於第一架體31〇上 6 M414792 311,在本實施例中,第二架體311可透過螺鎖方式鎖固於 第一架體310上《各滑動件31還包括二個設置於第一架體 310内側的滑接部312,各滑動件31透過各滑接部312滑接 於各側板21外表面,各滑接部312可例如為一線性導軌, 藉此,各滑動件31可透過滑接部312帶動壓輪32相對於各 側板21上下滑動。 如圖2、圖3、圖4及圖5所示,各壓合機構3還包含 一連接桿33,壓輪32包括一可轉動地樞接於二滑動件31 的樞接軸320、一套設於樞接軸32〇上的壓輪部321,及二 個分別套設於樞接軸320上且位於壓輪部321左、右侧的接 合件322,壓輪32可透過接合件322接合於連接桿33上。 壓輪部321内設置有一加熱元件(圖未示),使得壓輪部321 能在一定的溫度範圍内進行預壓薄膜12(如圖1}與基材 11(如圖1)的壓合作業。在本實施例中,連接桿33橫斷面是 呈工字形狀,連接桿33包括二個前後相間隔且分別呈橫向 延伸的滑槽331,各滑槽331的左右兩端分別具有一側向開 口 330。各接合件322包含一套設並樞接於樞接轴32〇上的 軸承323,及二個分別可轉動地柩接在軸承323上且前後相 間隔的滾輪324,接合件322的各滾輪324可經由侧向開口 330滑接於各滑槽331内。較佳地,為了防止接合件322沿 著樞接軸320的軸向滑動,壓輪32還包含二個鎖固螺帽 325,各鎖固螺帽325鎖固於樞接軸320的螺紋部(圖未示) 上並抵接於各接合件322的軸承323外側,藉此,使得各接 合件322的軸承323能保持在壓輪部321外側的位置且不會 7 沿著樞接軸320的軸向滑動。 —各滑動件3!的第-架體31〇與第二架體311共同形成 穿孔313,穿孔313呈橫向延伸。連接桿33穿設於各滑 動件3丄的穿孔313,連接桿33包括二個分別凸伸出二滑動 件31的穿孔313外側的凸伸端部332。各壓合機構3還包 含二個分別設置於凸伸端部如頂端的槓桿34,各槓桿34 包括-位於外側的施力部34卜—位於施力部Μ内側的抗 力部342’及一對位於施力部341與抗力部342之間的支點 部343’在本實施例中,各支點部343呈圓柱狀並可轉動地 棍接於凸伸端部332的各植接孔333 Θ,藉此,使各槓桿 34能以支點部343為軸心相對於各凸伸端部332樞轉。 另外,各滑動件31的第一架體310上設有二個前後相 間隔的樞接孔3M,各槓桿34的抗力部⑷包含二個極接 柱344,各樞接柱344可轉動地樞接於各樞接孔Μ#内❶各 壓合機構3還包含二個驅動件35,各驅動件35為—鎖固在 各側板外側的氣壓缸,各驅動件35包括一缸體35卜及 一可受氣壓帶動而相對於缸體351上下移動的樞接頭说, 框接頭352可轉動地樞接於槓桿34&施力部341上藉此, 柩接頭352可對施力部341施加—向下的壓力或—向上的壓 力,以促使槓桿34旋轉。在本實施例中,由於各滑動件^ 的穿孔3Π上下延伸的長度u大於連接桿33上下延伸的 長度L2,因此,驅動件35促使横桿34旋轉的過程中,横 桿34的抗力部342可帶動滑動件31相對於側板21及連接 桿33上下移動。 M414792 如圖2及圖5所示,欲將壓輪32組裝於滑動件31及連 接才干33上時’由於滑動件31的第二架们11是可拆卸地组 裝於第一架體31〇上,因此,先將其中一組滑動件^的第 二架體311拆離第—架體31Ge接著,將壓輪以之接合件 322的各滾輪324對準連接桿33其中-端的側向開口 33〇, 將壓輪32沿箭頭(如圖5所示)方向朝連接桿33水平移動, 使接合件322的滾輪32q經由侧向開口 33〇穿入滑槽别The M414792 forms a perforation with the second frame. Each of the sliding members includes a contact plane, and a resilient buffer sheet disposed on the contact plane and abutting the connecting rod. The connecting rod comprises two sliding grooves which are spaced apart from each other and extend in the lateral direction. Each sliding slot has a lateral opening, and each engaging member comprises two rollers spaced apart from each other, and the rollers can be slidably connected to each sliding via the lateral opening. Inside the slot. According to the present invention, a pressing device having a pressing mechanism is suitable for pressing a workpiece to be pressed, and the pressing device comprises a frame, a second pressing mechanism and a linkage mechanism. The frame comprises two side plates spaced apart from each other; the second pressing mechanism is arranged at the upper and lower sides and oppositely disposed on the two side plates, and each pressing mechanism comprises two sliding members, a pressing wheel, a connecting rod and two levers. Two drive parts. Each sliding member is slidably slidably coupled to each of the side plates, and each sliding member includes a longitudinally extending rack; the pressing wheel is rotatably pivotally connected between the two sliding members, and the pressing wheel comprises two inner sides of the two sliding members respectively. The connecting rod is disposed between the two sliding members, and each engaging member is engaged with the connecting rod; each lever is pivotally connected to the connecting rod, and one end of each lever is pivotally connected with each sliding member; each driving member is engaged with each lever Conversely, the other end of each slider can be applied with a pressure; the linkage mechanism includes two synchronous links spaced apart from each other, and each synchronization link includes two gear portions at opposite ends, and the gear portions are rotatably and respectively The racks of the slider engage. According to the above technical means, the advantages and functions of the press-fit device with the press-fit mechanism are that, by the design of the press-fit mechanism, the pressure roller portion of the pressure roller can uniformly apply pressure to the pre-compressed film on the surface of the substrate. The pre-compacted crucible can be evenly filled on the surface of the substrate. The present invention and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the preferred embodiments. Through the description of the specific embodiments, the technical means and functions adopted by the present invention for achieving the intended purpose can be more deeply and specifically understood. However, the drawings are only for reference and explanation, and are not intended to limit the present invention. . Before the present invention is described in detail, it is to be noted that in the following description, similar elements are denoted by the same reference numerals. As shown in FIG. 1 and FIG. 2, a preferred embodiment of the present invention has a press-fitting device, which is adapted to press-fit a workpiece i to be pressed, and the workpiece 1 to be pressed comprises a substrate. And the two pre-pressing film 12' press-bonding devices 200 respectively attached to the upper and lower surfaces of the substrate u are used for pressing and filling the pre-pressed film 12 on the upper and lower surfaces of the substrate 11. In the present embodiment, the substrate U is exemplified by a circuit board, and the pre-press film 12 is exemplified by a dry film resist. The pressing device 2 includes a frame 2, a pair of pressing mechanisms 3, and two interlocking mechanisms 4, wherein the two pairs of pressing mechanisms 3 are disposed on the frame 2 at a distance from each other. As shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4, the frame 2 includes two side plates 21 spaced apart from each other, and the two pressing mechanisms 3 of the pair of pressing mechanisms 3 are vertically spaced and reversed. The ground plate is disposed on the side plate 21 of the frame 2. Each of the pressing mechanisms 3 includes two sliding members 31 spaced apart from each other, and a pressing wheel 32 rotatably connected between the two sliding members 31. Each sliding member 31 includes a first frame 310, and a The first frame body 311 is detachably assembled to the first frame body 310. In the embodiment, the second frame body 311 can be locked to the first frame body 310 by means of a screw lock. Each of the sliding members 31 is slidably coupled to the outer surface of each of the side plates 21 through the sliding portions 312 of the first frame body 310. The sliding portions 312 can be, for example, a linear guide rail. 31, the pressure roller 32 can be driven to slide up and down with respect to each of the side plates 21 through the sliding portion 312. 2, 3, 4 and 5, each pressing mechanism 3 further includes a connecting rod 33. The pressure roller portion 321 disposed on the pivot shaft 32 , and the two engaging members 322 respectively disposed on the pivot shaft 320 and located on the left and right sides of the pressure roller portion 321 , and the pressure roller 32 can be engaged through the joint member 322 On the connecting rod 33. A heating element (not shown) is disposed in the pressure wheel portion 321 so that the pressure roller portion 321 can pressurize the film 12 (such as FIG. 1) and the substrate 11 (FIG. 1) in a certain temperature range. In this embodiment, the connecting rod 33 has a cross-section in the shape of a I-shape, and the connecting rod 33 includes two sliding grooves 331 which are spaced apart from each other and extend laterally, and the left and right ends of each sliding groove 331 have one side respectively. To the opening 330. Each of the engaging members 322 includes a set of bearings 323 pivotally connected to the pivoting shaft 32, and two rollers 324 respectively rotatably coupled to the bearing 323 and spaced back and forth, the engaging member 322 Each of the rollers 324 can be slidably coupled to each of the sliding slots 331 via the lateral opening 330. Preferably, in order to prevent the engaging member 322 from sliding along the axial direction of the pivoting shaft 320, the pressure roller 32 further includes two locking nuts. 325, each of the locking nuts 325 is locked on the threaded portion (not shown) of the pivoting shaft 320 and abuts against the outer side of the bearing 323 of each of the engaging members 322, whereby the bearing 323 of each engaging member 322 can be maintained. At the position outside the pressure roller portion 321 and not 7 sliding along the axial direction of the pivot shaft 320. - the first slider 3! The frame body 31 and the second frame body 311 together form a through hole 313, and the through hole 313 extends in a lateral direction. The connecting rod 33 is disposed through the through hole 313 of each sliding member 3, and the connecting rod 33 includes two sliding members respectively protruding from the sliding member The protruding end portion 332 of the outer side of the perforation 313 of the 31. Each of the pressing mechanisms 3 further includes two levers 34 respectively disposed at the protruding end portions such as the top end, and each of the levers 34 includes a biasing portion 34 located on the outer side. The resistance portion 342' on the inner side of the force portion 及 and the pair of fulcrum portions 343' located between the urging portion 341 and the resistance portion 342 are in the present embodiment, each fulcrum portion 343 is cylindrical and rotatably clasped to the projection Each of the implanting holes 333 of the end portion 332 is configured to pivot the respective levers 34 with respect to the respective projecting end portions 332 with the fulcrum portion 343 as an axis. In addition, the first frame body 310 of each of the sliders 31 is mounted thereon. There are two pivot holes 3M spaced apart from each other, and the resistance portion (4) of each lever 34 includes two poles 344, and each pivot post 344 is rotatably pivotally connected to each of the pivot holes ❶# The mechanism 3 further includes two driving members 35, each driving member 35 is a pneumatic cylinder locked to the outside of each side plate, and each driving member 35 includes a cylinder 35B and a pivot joint that can be moved up and down relative to the cylinder 351 by the air pressure, the frame joint 352 is rotatably pivotally connected to the lever 34 & the force applying portion 341, whereby the joint 352 can be applied to the force applying portion 341 Applying a downward pressure or an upward pressure to urge the lever 34 to rotate. In the present embodiment, since the length u of the perforations 3 各 of the respective sliding members 2 is greater than the length L2 of the connecting rod 33 extending up and down, the driving During the rotation of the cross member 34 by the member 35, the resisting portion 342 of the crossbar 34 can drive the slider 31 to move up and down with respect to the side plate 21 and the connecting rod 33. M414792 As shown in FIG. 2 and FIG. 5, when the pressure roller 32 is to be assembled to the slider 31 and the connector 33, the second frame 11 of the slider 31 is detachably assembled to the first frame 31. Therefore, the second frame 311 of one of the sliding members is first detached from the first frame 31Ge, and then the rollers 324 of the pressing member 322 are aligned with the lateral opening of the connecting rod 33 at the end thereof. 33〇, the pressure roller 32 is horizontally moved toward the connecting rod 33 in the direction of the arrow (as shown in FIG. 5), so that the roller 32q of the engaging member 322 passes through the lateral opening 33 into the sliding slot.
内’且壓輪32的樞接軸32G —端㈣於另—組滑動:牛η 之第二架體311的一軸承部318内。The inner shaft ′ and the pivot shaft 32G of the pressure roller 32 are in the bearing unit 318 of the second frame 311 of the cow η.
之後,將第二架體311鎖固在第一架體310上,並使樞 接轴320另-端樞接於該第二架體311的轴承部爪後,即 完成壓輪32的組裝’此時,壓輪32的各接合件奶是門隔 位於各滑動件31内側。透過前述滑動件Μ的第二架體I 可拆卸地組裝於第一架體31〇上的設計,能方便且迅速地將 壓輪32組農於連接桿33及滑動们丨上或Then, the second frame body 311 is locked on the first frame body 310, and the other end of the pivoting shaft 320 is pivotally connected to the bearing portion claws of the second frame body 311, that is, the assembly of the pressure roller 32 is completed. At this time, each of the engaging pieces of the pressure roller 32 is located inside the respective sliders 31. The second frame body I of the sliding member 可 is detachably assembled on the first frame body 31, so that the pressure roller 32 can be easily and quickly assembled on the connecting rod 33 and the sliding member or
拆離連接桿33及滑動件31。 % WThe connecting rod 33 and the slider 31 are detached. % W
上,Π』:::連動機構4是設置於各對•合機構3 上各連動機構4包含二個上下相間隔的同步 同步連桿41包括二個位於相反端的齒輪部4U,各齒輪 4U可轉動地與各滑動件31的—設置於第—架體31〇4 齒條315相妨,齒條315呈縱向延伸1滑動件 於側板21_的過針,透利步連桿41 子 動’使得兩個左右相間隔的滑動件31能同時 且可確保兩滑動件31的移動距離相同。 並 9 如圖3圖7及圖8所示,當待壓工件κ過輸送機構 未丁)輸送至„_壓合機構3的壓輪32之間進行麼合作業 藉由各連動機構4的—連接於二個同步連桿Μ之間的 連接#(圖未不)設計,二個同步連桿4丨能同步旋轉並帶動 滑動件”相對於侧板21滑動,使得上、下壓合機構3的滑 1月b相互罪近並同時移動相同的距離。透過滑動件3丄 帶動上、下兩個壓合機構3的壓輪32直上直下地移動的設 计,使得兩壓合機構3的壓輪32能準確地對位而不會產生 錯位的情形。 田上方壓合機構3之壓輪32的壓輪部321抵壓於基材 U上表面的預壓薄膜12時,上方壓合機構3的兩個驅動件 35的樞接頭352會沿箭頭了方向施加下壓力至槓桿μ的施 力邛34卜使兩個槓桿34分別沿箭頭η、反向旋轉,兩 個槓桿34在旋轉過程中其抗力部⑷會沿箭頭W方向分 別將兩個滑動件31朝上頂推,透過連動機構4的同步連桿 41同步旋轉帶動,使得兩個左右相間隔的滑動件能同時 朝上移動相同的距離。兩滑動件爿朝上移動的過程中會同 時帶動壓輪32的樞接轴32〇上移,由於壓輪32的各接合件 322的滾輪324受到連接桿33的滑槽331限制而無法向上 移動’相當於滾輪324是受到沿箭頭!方向的力量壓迫,且 各接合件322的軸纟323受到鎖固螺帽奶的阻擔而無法沿 著樞接軸320的轴向滑移,因此,壓輪32之各接合件322 的軸承323能透過滾輪324相對於連接桿33旋轉以容許 枢接轴32G穿設於滑動件31的穿孔313部位略為向上彎折 10 M414792 變形,而位於兩個接合件322之間的壓輪部321則略為向下 彎折變形,其中,壓輪部321的中間部位向下移動的距離最 大0 由於兩滑動件31向上滑移的距離相同,因此,壓輪32 的樞接轴320左右兩端向上彎折的程度也會相同,藉此,壓 輪32的壓輪部321能均勻地施加壓力至基材n上表面的預上上:::: linkage mechanism 4 is disposed on each pair of mechanism 3, each linkage mechanism 4 includes two vertical and horizontally spaced synchronous synchronization links 41 including two gear portions 4U at opposite ends, each gear 4U can Rotatingly disposed with the sliders 31 of the first frame body 31〇4, the rack 315 is longitudinally extended 1 the needle of the slider is disposed on the side plate 21_, and the through-link link 41 is moved. The two left and right spaced sliders 31 can simultaneously and ensure that the moving distances of the two sliders 31 are the same. And as shown in FIG. 3 and FIG. 8 , when the workpiece to be pressed κ is transported to the pressure roller 32 of the pressing mechanism 3, the cooperation is performed by the interlocking mechanism 4. Connected to the connection between the two synchronous links ( (not shown), the two synchronous links 4 同步 can rotate synchronously and drive the sliding member to slide relative to the side plate 21, so that the upper and lower pressing mechanisms 3 The slip of January b is close to each other and moves the same distance at the same time. The design in which the pressure rollers 32 of the upper and lower pressing mechanisms 3 are moved straight up and down by the slider 3 , enables the pressure rollers 32 of the two press mechanisms 3 to be accurately aligned without causing a misalignment. When the pressing portion 321 of the pressing wheel 32 of the upper pressing mechanism 3 is pressed against the pre-compression film 12 on the upper surface of the substrate U, the pivot joints 352 of the two driving members 35 of the upper pressing mechanism 3 are directed in the direction of the arrow. Applying the downward pressure to the urging force 34 of the lever μ causes the two levers 34 to rotate in the opposite direction of the arrow η, respectively, and the two levers 34 respectively rotate the two sliding members 31 in the direction of the arrow W during the rotation. Pushing up, the synchronous link 41 of the linkage mechanism 4 is synchronously rotated, so that the two left and right spaced sliders can be moved upward by the same distance at the same time. During the moving of the two sliding members, the pivoting shaft 32 of the pressing wheel 32 is simultaneously moved upward, and the roller 324 of each engaging member 322 of the pressing wheel 32 is restricted by the sliding groove 331 of the connecting rod 33 and cannot move upward. 'Equivalent to the wheel 324 is subject to the arrow! The force of the direction is pressed, and the shaft 323 of each engaging member 322 is blocked by the locking nut milk and cannot slide along the axial direction of the pivot shaft 320. Therefore, the bearing 323 of each engaging member 322 of the pressing wheel 32 The roller 324 can be rotated relative to the connecting rod 33 to allow the pivoting shaft 32G to be bent through the through hole 313 of the sliding member 31 to be slightly bent upward 10 M414792, and the pressing portion 321 between the two engaging members 322 is slightly The bending deformation is downward, wherein the intermediate portion of the pressing wheel portion 321 is moved downward by a maximum distance of 0. Since the distance between the two sliding members 31 is upward, the left and right ends of the pivoting shaft 320 of the pressing wheel 32 are bent upward. The degree of the same will also be the same, whereby the pressing portion 321 of the pressure roller 32 can uniformly apply pressure to the upper surface of the substrate n.
壓薄膜12上,使預壓薄膜12能平整地填覆在基材u上表 面,避免氣泡或空隙的產生。 另一方面,當上方壓合機構3之壓輪32的壓輪部321 施壓於基材11上表面的預壓薄膜12時,下方壓合機構3 之壓輪32的壓輪部321也會同時施壓於基材丨丨下表面的 壓薄膜Π上,其作動的原理與方式皆相同。下方壓合機構 3的二個驅動件35 _接頭352會沿箭頭w方向施加上壓 力至損桿34的施力部341,使二槓桿34分別沿箭頭„卜„ 反向旋轉’二槓桿34麵轉過程中其抗力On the pressed film 12, the pre-pressed film 12 can be smoothly filled on the surface of the substrate u to prevent the generation of bubbles or voids. On the other hand, when the pressure roller portion 321 of the pressure roller 32 of the upper pressing mechanism 3 is pressed against the pre-compression film 12 on the upper surface of the substrate 11, the pressure roller portion 321 of the pressure roller 32 of the lower pressing mechanism 3 is also At the same time, the principle and method of actuation are applied to the pressed film crucible of the underlying surface of the substrate. The two driving members 35_joints 352 of the lower pressing mechanism 3 apply an upward pressure to the urging portion 341 of the damper rod 34 in the direction of the arrow w, so that the two levers 34 respectively rotate in the opposite direction of the arrow „b” Resistance during the transfer
τ方向分別將二滑動…下頂推,透過連動機構= 步連桿41时旋轉帶動,使得兩個左右相間隔的滑動件η 能同時朝上移動相同的距離。 兩滑動件3!朝下移動的過程令會同時帶動塵輪32的極 接轴320下移,由㈣輪32的各接合件322的滚輪似受 到連接桿33的滑槽331限制而無法向下移動,相#於滾輪 324疋文到沿箭頭IV方向的力量壓迫,且各接合件奶的 軸承功受到鎖固螺帽325的阻擋而無法沿著枢接轴32〇 的轴向滑移’因此’壓輪32之接合件322的轴承323能透 11 M414792 過滾輪324相對於連接桿33旋轉,以容許樞接軸32〇穿設 於滑動件31的穿孔3U部位略為向下弯折變形,而位於兩 個接合件322之間的壓輪部321則略為向上彎折變形,其 中,壓輪部321的中間部位向上移動的距離最大。由於兩滑 動件31向下滑移的距離相同,因此,壓輪32的樞接轴32〇 左右兩端向下f折的程度也會相同,藉此’壓輪32的壓輪 部321能均勻地施加壓力至基材u下表面的預壓薄膜12 上,使預壓薄膜12能平整地填覆在基材u下表面。 如圖3及圖7所示,待壓合作業完成後,上、下兩壓合 機構3的各驅動件35的樞接頭352會帶動槓桿34復位到如 圖3所示的初始位置,透過槓桿34的帶動使得滑動件31 以及壓輪32會同時復位到如圖3所示的初始位置。由於各 滑動件31的第一架體31〇具有一接觸平面316(如圖4所 示)’接觸平面316上貼附有一彈性緩衝片317(如圖4所 不)’滑動件31在復位過程中能透夠過彈性緩衝片317抵接 在連接桿33上,避免滑動件31與連接桿33產生撞擊而造 成摩擦受損的情形。 特別說明的是,雖然本實施例是以上、下兩壓合機構3 同時連動進行壓合的方式作說明’但應用時可視待壓工件1 所而壓合的面的數量作調整,例如待壓工件】只需將預壓薄 膜12壓合在基材丨丨上表面時,則壓合機構3的數量可設計 為一個’並不以本實施例中兩個壓合機構3同時連動壓合的 方式為限。另外’雖然本實施例的上、下兩壓合機構3皆設 有驅動件35 ’但在應用時,也可省略下方壓合機構3的驅 12 M414792 動件35,透過各連動機構4的二個同步連桿41,以及連接 於一個同步連桿41之間的連接桿(圖未示)帶動,使得上、 下兩壓合機構3的滑動件31能同時滑動並帶動壓輪32施壓 於基材11上、下表面的預壓薄膜12上❶再者,如圖丨所示, 由於各個壓合機構3在前後方向上不會設置有施力的結 構,因此,能縮短二對壓合機構3彼此之間的距離,以降低 壓合裝置200前後方向上的長度。 歸納上述,本實施例的壓合裝置2〇〇,藉由上、下兩壓 合機構3的設計,壓輪32的壓輪部321能均勻地施加壓力 至基材11上、下表面的預壓薄膜12上,使得預壓薄膜12 月b平整地填覆在基材u上、下表面確實能達到本新型所 S斥求之目的。 惟以上所述者,僅為本新型之較佳實施例而已,當不能 以此限定本新型實施之範圍,即大凡依本新型申請專利範圍 及新型說明内容所作之簡單的等效變化與修飾,皆仍屬本新 型專利涵蓋之範圍内。 【圖式簡單說明】 圖1是本新型具有壓合機構的壓合裝置的較佳實施例 的立體圖; 圖2是本新型具有壓合機構的壓合裝置的較佳實施例 的局部立體圖; 圖3疋本新型具有壓合機構的壓合裝置的較佳實施例 的則視不思圖,說明兩壓合機構與連動機構之間的連接關 係; 13 M414792 圖4是本新型具有壓合機構的壓合裝置的較佳實施例 的壓合機構的立體分解圖; 圖5是本新型具有壓合機構的壓合裝置的較佳實施例 的壓合機構的立體分解圖; 圖6是本新型具有壓合機構的壓合裝置的較佳實施例 的側視示意圖; 圖7是本新型具有壓合機構的壓合裝置的較佳實施例 的前視示意圖,說明上、下兩壓輪的壓輪部壓合待麼工件· 及 圖8是本新型具有壓合機構的壓合裝置的一較佳實施 例的側視示意圖。 14The τ direction pushes the two slides down, respectively, and is rotated by the linkage mechanism = the step link 41, so that the two left and right spaced sliders η can be moved upward by the same distance at the same time. The process of moving the two sliding members 3! downwards causes the pole connecting shaft 320 of the dust wheel 32 to move downward at the same time, and the rollers of the engaging members 322 of the (four) wheel 32 are restricted by the sliding groove 331 of the connecting rod 33 and cannot be lowered downward. Moving, the phase # is pressed by the roller 324 to the force in the direction of the arrow IV, and the bearing work of each engaging piece of milk is blocked by the locking nut 325 and cannot slide along the axial direction of the pivoting shaft 32〇. The bearing 323 of the engaging member 322 of the pressure roller 32 is rotatable relative to the connecting rod 33 through the 11 M414792, so as to allow the pivoting shaft 32 to be bent and slightly bent downwardly through the through hole 3U of the sliding member 31, and The pinch portion 321 located between the two engaging members 322 is slightly deformed upwardly, wherein the intermediate portion of the pinch portion 321 is moved upward by a maximum distance. Since the distance between the two sliding members 31 is the same, the degree of the left and right ends of the pivoting shaft 32 of the pressure roller 32 is also the same, so that the pressing portion 321 of the pressing wheel 32 can be evenly distributed. The pressure is applied to the pre-compressed film 12 on the lower surface of the substrate u so that the pre-pressed film 12 can be smoothly filled on the lower surface of the substrate u. As shown in FIG. 3 and FIG. 7 , after the completion of the work to be pressed, the pivot joint 352 of each of the driving members 35 of the upper and lower pressing mechanisms 3 drives the lever 34 to return to the initial position as shown in FIG. The driving of 34 causes the slider 31 and the pressure roller 32 to be simultaneously reset to the initial position as shown in FIG. Since the first frame body 31 of each sliding member 31 has a contact plane 316 (as shown in FIG. 4), a resilient buffer sheet 317 is attached to the contact plane 316 (as shown in FIG. 4). The slider 31 is in the reset process. The elastic cushioning piece 317 can be abutted against the connecting rod 33 to prevent the sliding member 31 from colliding with the connecting rod 33 to cause friction damage. In particular, although the present embodiment is a description of the manner in which the upper and lower press mechanisms 3 are simultaneously pressed together, the number of faces pressed by the workpiece 1 to be pressed may be adjusted, for example, to be pressed. The workpiece only needs to press the pre-pressed film 12 on the upper surface of the substrate, and the number of the pressing mechanism 3 can be designed as a 'not simultaneously pressing the two pressing mechanisms 3 in this embodiment. The method is limited. In addition, although both the upper and lower pressing mechanisms 3 of the present embodiment are provided with the driving member 35', in the application, the driving member 35 of the lower pressing mechanism 3 can be omitted, and the moving member 35 of each of the linking mechanisms 4 can be omitted. The synchronous connecting rod 41 and the connecting rod (not shown) connected between the synchronous connecting rods 41 are driven to enable the sliding members 31 of the upper and lower pressing mechanisms 3 to simultaneously slide and drive the pressing wheel 32 to apply pressure thereto. Further, the pre-compressed film 12 on the upper and lower surfaces of the substrate 11 is further folded, and as shown in FIG. ,, since the respective pressing mechanisms 3 are not provided with a biasing structure in the front-rear direction, the two pairs of presses can be shortened. The distance between the mechanisms 3 is relative to each other to reduce the length in the front-rear direction of the press-fit device 200. In summary, in the pressing device 2 of the present embodiment, the pressure roller portion 321 of the pressure roller 32 can uniformly apply pressure to the upper and lower surfaces of the substrate 11 by the design of the upper and lower pressing mechanisms 3 . The film 12 is pressed so that the pre-pressed film is flatly filled on the substrate u and the lower surface can achieve the purpose of the present invention. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention cannot be limited thereto, that is, the simple equivalent change and modification made by the novel patent application scope and the novel description content, All remain within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a preferred embodiment of a compression device having a compression mechanism; FIG. 2 is a partial perspective view of a preferred embodiment of a compression device having a compression mechanism; 3 较佳 The preferred embodiment of the new press-fit device with a press-fit mechanism is a view of the connection between the two press-fit mechanisms and the linkage mechanism; 13 M414792 Figure 4 is a new type of press-fit mechanism 3 is an exploded perspective view of a pressing mechanism of a preferred embodiment of a press-fit device; FIG. 5 is an exploded perspective view of a press-fit mechanism of a preferred embodiment of the press-fit device having a press-fit mechanism; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 7 is a front elevational view of a preferred embodiment of a compression device having a compression mechanism, illustrating a pressure roller of the upper and lower pressure rollers A part of the press-fitted device and FIG. 8 is a side view of a preferred embodiment of the press-fit device of the present invention having a press-fit mechanism. 14