M246163 四、創作說明(Ο 【技術領域 成結構 ΐ創臂式網!機!雙向移位之網框總 種利用低成本結構,卻能在網框架盥 下方之抬版連動桿結合體之間增設雙向移位微調裝# 達成網版之Χ-Υ軸雙向移位微調功能者。 並 【先前技術】 按 >,在網版印刷機領域中已有χ_γ軸雙向移位微 能之設計,而該Χ — Υ轴雙向移位微調功能主要是針I 印刷作業中網版與印刷物間之配合需要或問題而設計 如:為杜絕印刷死角或漏印或塞孔不足之問題,, 特殊印刷之要求,或於濕膜塞孔雙向印刷或雙向抬版到 因網版製作張力不同,致由刮刀之刮印方向所產生鬥, 度拉網狀況會造成印刷物與網版印刷相對位置產生些:= 差’而無法由印刷檯面作手調移位配合等;惟,大部八' X - Υ軸雙向移位微調功能乃係設計在印刷檯面上,藉^以77之 放置在印刷檯面上之印刷物(工作物)進行χ_γ軸^敕 位微調作業,然某些網印機在印刷檯面上並不適合設立 Χ-Υ轴雙向…移位機構,如跑檯式檯面者若加設χ_γ軸雙向移 位機構,容易使整體檯面過重而不利於跑檯傳動;又或 f者於懸臂式網印機上,在支撐懸臂之橫向滑座上設立X Ϊ :多:Ϊ構者,然懸臂式網印機上之橫向滑座整體(印刷 橫向滑座上做左右滑移動作)本來就具相當荷重 ,文s検向滑座在垂直滑座上進行上下滑動時,本來就存M246163 IV. Creation instructions (0 [Technical field is the structure to create an arm-type net! Machine! The two-way shifting net frame type uses a low-cost structure, but it can be added between the lifting link assembly under the net frame bathroom. Bidirectional shift fine-tuning installation # Those who have achieved the X- and Y-axis bidirectional shift fine-tuning function of screen printing. [Previous technology] Press > In the field of screen printing presses, there has been a design of χ_γ bidirectional shift micro-energy, and The X-Z axis bidirectional shift fine-tuning function is mainly designed for the needs or problems of the cooperation between the screen and the printed matter in the printing process of needle I, such as: to prevent the problems of dead corners or missing prints or insufficient plug holes, and special printing requirements. , Or two-way printing or two-way lifting of the wet film plug hole to the screen due to the different tension of the screen, resulting in a bucket generated by the scraping direction of the doctor blade, the degree of the screen will cause the relative position of the printed matter and screen printing: = poor 'Can not be adjusted manually by the printing table. However, most of the eight.' X--axis two-way displacement fine adjustment function is designed on the printing table, using ^ 77 placed on the printing table (work Thing) Χ_γ axis ^ 敕 position fine-tuning operation, but some screen printers are not suitable for setting up X-Z axis bidirectional ... shift mechanism. For example, if a person running a tabletop is equipped with a χ_γ axis bidirectional shift mechanism, it is easy to use The overall table is too heavy to run on the platform; or if it is on a cantilever screen printer, X is set on the horizontal slide supporting the cantilever. Ϊ: Multi: Constructors, but the horizontal slide on the cantilever screen printer The whole seat (sliding left and right on the printed horizontal slide) is already quite heavy. When the slide slides up and down on the vertical slide, it is saved.
第6頁 M246163 四、創作說明(2) 在制動力不足(整體橫向滑座動量㈣㈣以⑽過大)的問題 ’故直接在橫向滑座上設立X軸移位結構,不但只令網版 具有單一 X軸調整功能,也較難控制網版移位之精密度, 無法有效達成網版移位微調功能。因此,目前市面上已知 之懸臂式網印機皆存在如何妥當設立網版χ-γ軸雙向移位 功能之問題,且習知設計在應用上亦有未盡實用之遺憾, 而本創作即針對此項需要而改良設計者。 【内容】 故本創作之主要目的乃在於提供一種懸臂式網印機可 雙向移位之網框總成結構,其係利用一方型網框架及二網 版固定桿構成一網框總成,並再利用雙向各四組呈X、Y轴 作動之線性滑軌,並藉滑座連結塊而分別與網框架及懸臂 抬版裝置結合,並分置於網框架左右兩侧邊適當位置處, 並分別藉氣缸傳動及藉微調自盛做限位調整控制,致可在 網框架與懸臂抬版裝置之間形成一種低成本結構之雙向移 位微調裝置,並達成符合印刷要求之網版X-Y軸雙向移位 微調功能者。 【實施方法】 為使本創作更加明確詳實,茲配合下列圖示將本創作 一較佳實施例結構及其技術特徵詳述如后: 請參閱第1、2、3圖所示,本創作之可雙向移位之網 框總成結構包括一方型網框架7 〇及二縱向跨設在網框架7 〇Page 6 M246163 IV. Creation instructions (2) The problem of insufficient braking force (the overall lateral slide momentum is too large) 'Therefore, the X-axis shift structure is directly set on the horizontal slide, which not only makes the screen version have a single The X-axis adjustment function also makes it difficult to control the precision of screen displacement, and it cannot effectively achieve the screen displacement fine-tuning function. Therefore, the currently known cantilever screen printers in the market all have the problem of how to properly set the screen version of the χ-γ axis bidirectional shift function, and the conventional design has not been used in practice. Unfortunately, this creation is aimed at This item needs to improve the designer. [Content] Therefore, the main purpose of this creation is to provide a cantilever screen printer with a bidirectional shifting frame assembly structure, which uses a one-sided screen frame and two screen plate fixing rods to form a screen frame assembly, and Then use four groups of four linear slide rails that act in X and Y axes, and combine with the net frame and the cantilever lifting device by the slider connection block, and place them at the appropriate positions on the left and right sides of the net frame, and The limit adjustment control is performed by cylinder drive and self-adjustment by fine adjustment, which can form a low-cost structure of a two-way shift fine-tuning device between the screen frame and the cantilever lifting device, and achieve the two-way screen XY axis that meets the printing requirements. Shift fine-tuning function. [Implementation method] In order to make this creation clearer and more detailed, the structure and technical features of a preferred embodiment of this creation are detailed below with reference to the following diagrams: Please refer to Figures 1, 2, and 3 for details of this creation. The bidirectionally shiftable net frame assembly structure includes one type of net frame 7 〇 and two longitudinal spans located on the net frame 7 〇
第7頁 M246163 四、創作說明(3) 上之網版固疋才干7 1 ’而《 —網版固定桿7 1可在網框架7 〇上左 右調整位置以夾固住網版41 ;又網框架7〇之左右邊架係與 左右懸臂6 0 1下方之抬版連動桿結合體6 〇 6連結,使^由一 懸臂抬版裝置6 1驅動以進行懸臂式抬版作業了而懸臂抬版 裝置61 —般包括一設於懸臂601中段處之抬版氣缸6 〇2及二 分置懸臂601刖後處之線性軸承603,而藉抬版氣缸6〇2及 一抬版傳動螺桿60 8,使抬版傳動框轴6〇7及其兩端之抬版 連動桿結合體606得藉抬版連動桿6〇5而進行上下昇降之抬 版作業’惟懸臂抬版裝置6 1可做其他不同結構設計,上述 結構型態並非用來限定懸臂抬版裝置。 ^ 而本創作之特徵在於 於網框架7 0與懸臂抬版裝置6 1 之間增設雙向移位微調裝置6 〇,其係利用雙向(X、γ轴) 各四組分呈X軸及Y軸作動之精密線性滑軌6丨丨(丘八组線 性滑軌611 ),並使二組γ轴向線性滑軌611與二/组χ轴線 性滑軌611成對配置,並分別結合於一滑座連結塊615之内 j外,上,再分置於網框架丨〇之左右兩側邊架上適當位置 /'各二、組、分呈X轴及¥軸作動之X/Y軸向氣缸612、 616 (共四氣缸)分別做X轴及γ軸移位 度旋鈕613、621做限位調整栌制,# +作及藉微調衷J ΒΒ 月金役制,而使夾固在二網版固定 才干7 1間之網版4 1得配合印刷作紫堂七 位$姆1I i刷作業*未而進行Χ-Υ轴雙向移 位之微調作業,以確保達到印刷品質精細 請再參閱第1、2、3圖所示,紡脓士…^ 禾有 _ w不’玆將本創作Page 7 M246163 Fourth, the creative description (3) of the screen version of the fixed screen talent 7 1 ', and "--screen plate fixing rod 7 1 can be adjusted on the screen frame 70 to the left and right to clamp the screen 41; The left and right side frames of the frame 70 are connected to the plate-moving link combination body 6 06 under the left and right cantilever 6 01, so that ^ is driven by a cantilever plate-raising device 61 to perform cantilever plate-raising operation and the cantilever plate-raising operation The device 61 generally includes a plate lifting cylinder 602 located at the middle section of the cantilever 601 and a linear bearing 603 at the rear of the two-part cantilever 601 刖, and the plate lifting cylinder 602 and a plate lifting transmission screw 60 8 are used. The plate lifting transmission frame shaft 607 and the plate lifting link combination 606 at both ends can be used for the plate lifting operation by the plate lifting link 605. However, the cantilever plate lifting device 6 1 can be used for other different purposes. Structural design. The above structural form is not used to limit the cantilever plate lifting device. ^ The characteristic of this creation is the addition of a bidirectional shift fine-tuning device 6 between the net frame 70 and the cantilever lifting device 6 1, which uses two directions (X, γ axis). Each of the four components is X-axis and Y-axis. Actuated precision linear slides 6 丨 丨 (Qiu eight groups of linear slides 611), and two sets of γ-axis linear slides 611 and two / groups of χ-axis linear slides 611 are arranged in pairs, and are respectively combined with a slide seat The inside and outside of the connecting block 615 are placed on the right and left side frames of the net frame. They are placed in appropriate positions on the left and right sides of the net frame. , 616 (a total of four cylinders) make X-axis and γ-axis shift knobs 613 and 621, respectively, to perform limit adjustment control, # + work and by fine-tuning J Β moon gold system, so that the clip is fixed on the second screen version Fixed talents 7 1 of the screen version 4 1 can cooperate with printing for the purple hall seven digits $ 1 1 i brush operation * without the fine-tuning operation of the X-Υ axis two-way shift to ensure that the printing quality is fine, please refer to section 1 again As shown in Figures 2, 2 and 3, spinning pussy ... ^ Heyou _ w 不 'would create this
之一可行之細部結構說明如后: ^ T 首先’ S型網框架70之左右兩側邊架上冑當位置處分One possible detailed structure is explained as follows: ^ T First ’The S-shaped net frame 70 is placed on the left and right side frames.
M246163 四、創作說明(4) 別結合二組Y軸線性滑軌6 11,而該二組Y轴線性滑軌6 11可 垂直擺置,又該二組Y轴線性滑執6 1 1另一侧則結合在一滑 座連結塊6 1 5内端面上;又於該網框架7 0之左右兩側邊架 上並位於滑座連結塊6 1 5前、後端之外緣處分別設置一刻 度旋鈕固定件620及一 Y軸向氣缸固定塊617,並分別配置 一Y軸向微調刻度旋鈕621及Y轴向氣缸616,則藉由該Y軸 向氣缸6 1 6驅動滑座連結塊6 1 5,可使網框架7 0相對於滑座 連結塊615產生Y轴向移位,並藉由γ轴向微調刻度旋鈕621 對網框架70之Y轴向(前/後向)移位微調做限位調整控制 再而’該滑座連結塊6 i 5之外端面之前、後端分別結 合二組X軸線性滑軌6 1 1,而該二組X軸線性滑軌6丨1可水 平擺置’又該二組X轴線性滑執6 1 1另一側則結合在左右 懸臂6 0 1下方之抬版連動桿結合體6 〇 6上,而水平擺置之二 組$軸線性滑軌611上固設一 χ轴向氣缸固定塊614,其上 並分別固,一 X軸向氣缸612及一 χ轴向微調刻度旋鈕613 、’則藉由該X軸向氣缸612驅動滑座連結塊615,可使滑座 連,塊615相對於抬版連動桿結合體6〇6產生χ轴向移位, ,,由X軸向微調刻度旋鈕613對滑座連結塊615之X軸向 (左/右向)移位微調做限位調整控制。 臂抬Ξ=3 ΐ 5之;! J 介於網框架7 °與懸 \万之拓版連動桿結合體6 0 6之間,而該滑 座連結塊615 —邊("如» 、 冰鈾11芬Y缸人C如圖中懸臂外侧)可藉二組x軸線性 ’月軌bll及X轴向翁缸m 乱缸b12作用,使滑座連結塊615相對於M246163 IV. Creation instructions (4) Do not combine two sets of Y-axis linear slides 6 11, and the two sets of Y-axis linear slides 6 11 can be placed vertically, and the two sets of Y-axis linear slides 6 1 1 another The sides are combined on the inner end surface of a slider connecting block 6 1 5; on the left and right side frames of the net frame 70 and located at the outer edges of the front and rear ends of the slider connecting block 6 1 5 respectively Degree knob fixing member 620 and a Y-axis cylinder fixing block 617, and a Y-axis fine adjustment scale knob 621 and a Y-axis cylinder 616 are respectively configured, and the slide-axis connecting block 6 is driven by the Y-axis cylinder 6 1 6 15. The Y-axis shift of the net frame 70 relative to the slider connection block 615 can be made, and the Y-axis (front / back) shift of the net frame 70 can be fine-tuned by the γ-axis fine-tuning scale knob 621. Limit adjustment control is performed, and then the two sets of X-axis linear slide rails 6 1 1 are combined with two sets of X-axis linear slide rails 6 1 1 before and after the outer end surface of the slider connecting block 6 i 5. Placement 'and the two sets of X-axis linear sliders 6 1 1 The other side is combined with the lifting linkage assembly 6 06 under the left and right cantilever 6 0 1 and the two sets of $ axis are placed horizontally An X-axis cylinder fixing block 614 is fixed on the sliding rail 611, and the X-axis cylinder 612 and an X-axis fine-tuning scale knob 613 and 'are fixed on the X-axis cylinder 612, respectively. Seat connection block 615, which can make the slide connection, block 615 relative to the lifting link combination body 606 produces χ axial displacement,, X axis fine adjustment knob 613 on the X axis of the slide connection block 615 Shift (left / right) fine adjustment for limit adjustment control. The arm lift Ξ = 3 ΐ 5 of;! J is between the net frame 7 ° and the suspension \ wanzhituo version linkage rod combination 6 0 6, and the slider link block 615 —side (" such as », ice Uranium 11 Fin Y cylinder person C can be seen outside the cantilever in the figure) can use two sets of x-axis linear lunar orbit bll and X axial Weng cylinder m chaotic cylinder b12, so that the slider connection block 615 relative to
第9頁 M246163 四、創作說明(5) =連Λ桿(结如 及γ軸向氣缸6 u #心#内側)可藉一組Υ軸線性滑軌611 產生Y軸:;6:,作並用’…架70相對於滑座連結細 結合體606產生德::架70即可相對於抬版連動桿 具有[Y轴雙向移位微調功能。㈣㈣暨其網版41 印刷:ΐ i ί:乍上述結·,可解決印刷刮印方向造成某些 I刷死角無法印刷完全之問題,或因應雙向印刷或多次 刷所造成之網版拉網誤差而須做網版移位之需求,或特殊 塞孔、擋點印刷所需之網版移位功能,藉以確保達到印刷 品質精細完美效果;又本創作可應用於懸臂式網印機上, 如第4圖所示懸臂式雙檯面網印機’或如第5圖所示懸臂式 單檯面不跑檯網印機,或如第6圖懸臂式單檯面跑檯網印 機’藉以降低成本而提昇產品競♦力。 綜上所述,本創作「懸臂式網印機可雙向移位微調之 網框總成結構」的確能藉由上述所揭露之構造,達到所預 期之功效。且本創作申請前未見於刊物亦未公開使用,誠 已符合新型專利之新穎、進步等要件。 惟,上述所揭之圖式及說明’僅為本創作之實施例而 已,非為限定本創作之實施例;大凡熟悉該項技藝之人士 ,其所依本創作之特徵範疇,所作之其它等效變化或修飾 ,皆應涵蓋在以下本案之申請專利範圍内。Page 9 M246163 Fourth, creation instructions (5) = even Λ rods (knots such as γ axis cylinder 6 u # 心 # the inner side) can generate a Y axis by a set of Υ axis linear slide 611: 6: '... The frame 70 is produced with respect to the slide link fine coupling body 606 :: The frame 70 can have a [Y-axis bidirectional shift fine-tuning function with respect to the lifting linkage. ㈣㈣ and its screen printing 41: ΐi ί: At first glance, it can solve the problem that some I brush dead corners cannot be printed completely due to the printing scratch direction, or screen printing caused by bidirectional printing or multiple brushing The error requires the screen shifting, or the screen shifting function required for special plugging holes and blocking points to ensure that the printing quality is fine and perfect. This creation can be applied to cantilever screen printing machines. Cantilever type double table screen printer as shown in Fig. 4 or cantilever type single table screen printer as shown in Fig. 5 or cantilever type single table screen printer as shown in Fig. 6 to reduce costs And improve product competitiveness. To sum up, the creation of the “frame structure of the cantilever screen printer that can be shifted and fine-tuned in both directions” can indeed achieve the expected effect through the structure disclosed above. And this creative application has not been seen in publications or publicly used before. It has already met the requirements of novelty and progress of new patents. However, the figures and descriptions disclosed above are only examples of this creation, and are not intended to limit the examples of this creation. Anyone who is familiar with the art, based on the characteristics of this creation, etc. Changes or modifications shall be covered by the scope of patent application in the following case.
第10頁 M246163 圖式簡單說明 【圖式簡單說明】 第1圖:係本創作與懸臂結合之組合示意圖。 第2圖:係本創作之部分分解示意圖。 第3圖:係本創作之細部分解示意圖。 第4圖:係本創作應用於懸臂式雙檯面之示意圖。 第5圖:係本創作應用於懸臂式單檯面不跑檯機型之示意 圖。 第6圖··係本創作應用於懸臂式單檯面跑檯機型之示意 圖0 【圖 號簡 單說 明 ] 41 網版 60 雙 向 移 位 微 調 裝 601 懸臂 602 抬 版 氣 缸 603 線性 軸承 605 抬 版 連 動 桿 606 抬版 連動 桿 結合體 607 抬 版 傳 動 框 軸 608 抬版 傳動 螺 桿 61 懸 臂 抬 版 裝 置 611 線性 滑執 612 、6 16 X/Y 轴 向 氣 613 ^ 621 X/Y 轴 向微調刻 度旋鈕 614 X軸 向氣 缸 固定塊 615 滑 座 連 結 塊 617 Y軸向氣缸固定塊 620 刻 度 旋 Μ 固 定 件 70 網框 架 71 網 版 固 定 桿Page 10 M246163 Schematic description [Schematic description] Figure 1: This is a combination of the creation and the cantilever. Figure 2: This is an exploded view of the creation. Figure 3: Detailed illustration of the creation. Figure 4: This is a schematic diagram of the cantilevered double table. Figure 5: This is a schematic diagram of the cantilever type single table without running platform model. Figure 6 ·· This drawing is a schematic diagram of the cantilever type single table running machine model 0 [Simplified description of the drawing number] 41 Screen version 60 Two-way shift fine-tuning installation 601 Cantilever 602 Lifting cylinder 603 Linear bearing 605 Lifting linkage 606 Plate lifting linkage assembly 607 Plate lifting transmission frame shaft 608 Plate lifting driving screw 61 Cantilever plate lifting device 611 Linear slide 612, 6 16 X / Y axial air 613 ^ 621 X / Y Axial fine adjustment scale knob 614 X Axial cylinder fixing block 615 Sliding block connecting block 617 Y Axial cylinder fixing block 620 Scale rotation M Fixing piece 70 Net frame 71 Screen fixing rod
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