_7832 五、新型說明: 【新型所屬之技術領域】 本創作涉及印刷網版技術之領域’特別是指一種具有複人 式張網之網版。 【先前技術】 傳統網版印刷之網版結構及製作方式,主要是在一網框 内結合有一不鏽鋼絲網布或一化纖網布(例如特多龍網、尼龍 網)’再於該網布上塗布感光乳劑,後續再依序進行感光乳劑 之乾燥、曝光、顯像等過程’便於網布上形成一具預定圖案 之介質層(未被洗掉且硬化之感光乳劑)’即完成網版的製 作。因此種大面積網布與框體接合,當網布受力後,所產生 的彈性及張力甚大,會造成介質層隨著網布變形而位移及變 形,在印刷完成後常發現有圖案變形甚至圖案附著性不佳的 情形,因此產生出不良品、浪費印刷成本等問題。 為解決此-問題’遂有-巾華關專利公告第M2彻8 號「金屬箔網版」專利,其是以電鍍金屬箔的方式,直接在 -不鏽鋼網布上成型出預定圖_介質層,取落之強度大於 感光乳劑的特性,使介質層可抵抗網布的彈性及張力問題。 但由於大面積網布仍與框體接合,網布受力時仍存有彈 性及張力過大關題,即使直接將_電镀在網布上最多可 確保網布變形時介質層不脫落,但仍無法確保介質声不隨之 3 支开滅被移位至非印刷圖案的位置;另—方面,不論傳統或 此專利’皆是在大面積不鏽鋼絲網的局部進行印刷,相當浪 費不絲鋼綵網,增加了材料成本。因此,使用單―張不鑛鋼 絲網製成網版的結構,有必要加以改良。 【新型内容】 本創作的目的’旨在改良傳統或斜專僧是將欲成型 介質層之網布接合於框體内面,網布受力後產生彈性及張力 導致圖案變形、位移的技制題。 本創作另-目的’旨在改良傳統或前述專利皆是採用單 張不鏽鋼、€_布’卻僅於局部印綱造成浪㈣本的問題。 本到作又-目的,旨在提供—種可再生使用之網版,以 解決習知網版_後其網布錢形,而無法再次使用,造成 浪費成本的問題。 本創作所提供之具有複合式細之網版,構件主要包括 體、—複合式張戦及m該複合式張網具有- π彈/·生.用布與一金屬絲網布,該高彈性網布具有一開口,利 :該接著劑可將該金屬絲網布結合於該開口,複合式張網的 邊緣結合於該框_面。所述金屬絲網布可提供成型一具有 預定圖案之介質層,供印刷用。 八 由上述可知,本創作是用—面積較大的高彈性網布結合 面積較小的金屬絲網布形成複合式網布,並利用高彈性網布 與框體接合。高彈_相料雜躲,提供了印刷時印 刷到刀的下壓空間’又因介㈣是成型在金屬絲網布上,金 屬絲網布與高彈性網布間是連結_,只會隨著高彈性網布 上下彈跳,;f會有紗框辟獅張力_,因此可確保介 質層的圖案不會變形或位移;另—方面,由於金屬絲網布不 會變形’故印刷過後的網版可以回收再利用,能節省製版成 本。又,金屬絲網布由於不需與框體接合,自然面積大小就 視欲印製圖案而定,可進一步節省材料成本。 【實施方式】 以下配合圖式及元件符號對本創作之實施方式做更詳細 的說明’俾使熟習該項技藝者在研讀本綱書後能據以實施。 請參㈣-®至第三圖’分別為本創料有複合式張網 之網版較佳實施例立齡解圖、組合圖及組合剖關。本創 作網版構件主要包括-框體丨、—複合式張網2與—接著劑3。 該框體1可為金屬框或非金屬框,其中金屬框可為鐵框 或紹框’非金屬框可為木板製成之鋪或為瓣框,考量印 刷之便’框體1-般製成矩形框。該複合式張網2包括一高 彈性網布21與-金屬絲網布22,該高彈性網布21可為特多 龍網布或彈性尼龍網布或其他具有彈性材質的網布;高彈性 網布21的形狀剪裁成可配合於框體之形狀,本實施例中為矩 形’且南彈性網布21上設有-開口 2U,該開口 211較佳位 置在向彈性網布21的中央。該金屬絲網布22可為不鏽鋼絲 網布或鍍鋅鐵絲網布或其它合金材質製成之網布,金屬絲網 布22的面積相當於所述開口 211的面積,金屬絲網布22以 該接著劑結合於3高彈性網布21的開口 211位置,高彈性網 布2丨的邊緣則可以黏著的方式結合於框體丨内面,以將複合 式張網2 111定在框體1上。其中,用來接合高雜網布21 、.’W 的接耆劑3較佳者可為熱熔膠條或UV接著 劑。使用熱熔膠條必須搭配可控溫和控制時間的相關壓合設 備’將熱熔踢條置於高彈性網布21及金屬絲網布22四周圍 的接合處再進行壓合;使用UV接著劑則可以印刷或自動點 膠機的上財切υν接著舰置在轉_布21及絲 :布22四周圍的接合處,再利用UV乾燥機達到接合目的。、 藉此,便70成本創作具有複合式張網之網版。 請參閱細圖及第四Α ®,本創作主要提供印刷者可以 於複合式張網t的所述金屬絲網布22上,形成—具有預定印 刷圖案且呈硬化之介質層4(感光乳劑未被洗掉的部分),該介 貝層4包圍者透墨孔5 ’印刷者可從透墨孔5 _顏料至载 體6(欲印刷的物品)上;但介質層4的成型方式不限,可由電 鍍方式《或討_鄕财式成魏其他可崎網版上 ^成介制的方式。例如細财所顯科介㈣4 度地成型蝴_布22上,懷4瞻職子 孔5;欲職體以行印與,將網版置於載體6表面^ 使金屬絲網布22對齊欲印刷位置,再對金屬絲網布U的範 圍施以油墨印刷,油墨會從該等透墨孔5流至载體6表面, 待油墨乾燥後,載體表面便形成有如第四A圖所示四個格子 狀之預設圖案。 ° 本創作複合式網版之複合式張網特徵在於’同時兼具了 高彈性網相雜雜缝金屬_布祕細案的精確 度。高彈性網布的彈性特性,使得在印刷上墨過程中刮刀對 張網有些微的下_動的空間’方能使所述介㈣接觸並緊 貼於載體表面’且高雜網布本相雜恢復力,使網版能 再對下-個載體進行印刷。金屬絲製成的網布由於未與框體 接合’金屬絲網布與高彈性網布間是連結關係,金屬絲網布 只姐著高雜網布上τ彈跳,分有受到框财制的張力 問題么’因此可確保印刷過程中’介質層的圖案不會變形或位 移月t提供尺寸較精密的印刷圖案另一方面也因為金屬絲 網^在印刷過程林會變形,所以網版可以重複利用,以節 省衣版成本。她於傳統網版,本創作所使㈣金屬絲網布 因無須與鋪接合,故其面積可視欲印製關案喊,能進 -步節省材料成本,提高_之競爭力。 以上所述者僅為用以解釋本創作之較佳實施例 ,並非企 回據以對本創作做任何形式上之限制,是以,凡有在相同之 ji作精神下所作有關本創作之任何料或敎,皆仍應包括 在本創作意圖保護之範疇。 M407832 【圖式簡單說明】 第一圖為本創作具有複合式張網之網版較佳實施例立體分解 圖。 第二圖為前述實施例組合圖。 第三圖為前述實施例組合剖面圖。 第四圖為表現介質層成型於金屬絲網布上之示意圖。 第四A圖為表現於載體上印製有圖案之示意圖。 【主要元件符號說明】 1. 框體 2. 複合式張網 21. 高彈性網布 211.開口 22. 金屬絲網布 3. 接著劑 4. 介質層 5. 透墨孔 6. 載體_7832 V. New description: [New technical field] This creation involves the field of printing screen technology. In particular, it refers to a screen with a complex human net. [Prior Art] The screen layout and manufacturing method of the conventional screen printing is mainly to combine a stainless steel mesh cloth or a chemical fiber mesh cloth (for example, a special network, a nylon mesh) in a frame. The sensitizing emulsion is coated thereon, followed by drying, exposing, developing, and the like of the sensitizing emulsion. [It is convenient to form a dielectric layer of a predetermined pattern on the mesh (unwashed and hardened emulsion) Production. Therefore, the large-area mesh cloth is engaged with the frame body. When the mesh cloth is stressed, the elasticity and tension generated are very large, which causes the medium layer to be displaced and deformed with the deformation of the mesh cloth. After the printing is completed, the pattern deformation is often found even In the case where the pattern adhesion is not good, problems such as defective products and wasteful printing costs are generated. In order to solve this problem, there is a patent for the "Metal Foil Screen" of the M2 Chess No. 8 in the patent publication No. 8, which is formed by electroplating a metal foil directly on a stainless steel mesh to form a predetermined pattern. The strength of the drop is greater than the characteristics of the emulsion, so that the dielectric layer can resist the elasticity and tension of the mesh. However, since the large-area mesh is still engaged with the frame, the mesh still has elasticity and excessive tension when the mesh is stressed, even if it is directly plated on the mesh to ensure that the dielectric layer does not fall off when the mesh is deformed, It is still impossible to ensure that the sound of the medium is not shifted to the position of the non-printing pattern with the 3 pieces of opening and closing; on the other hand, whether the traditional or the patent is printed on the part of the large-area stainless steel wire mesh, it is quite wasteful. Color nets increase material costs. Therefore, it is necessary to improve the structure of the screen made of a single-sheet non-mineral steel wire mesh. [New content] The purpose of this creation is to improve the traditional or oblique specialization is to bond the mesh of the dielectric layer to be bonded to the inner surface of the frame, and the technical problem of the deformation and displacement of the pattern caused by the elasticity and tension of the mesh after the force is applied. . The purpose of this creation is to improve the tradition or the aforementioned patents are all using a single piece of stainless steel, but the problem is only caused by the partial printing. The purpose of this work is to provide a reusable screen to solve the problem of wasting costs by resolving the net version of the net. The present invention provides a composite fine screen, the components mainly include a body, a composite sheet and a m. The composite sheet has a - π bomb / a raw cloth and a metal mesh cloth, the high elasticity The mesh has an opening for bonding the metal mesh cloth to the opening, and the edge of the composite web is bonded to the frame. The wire mesh cloth can provide a dielectric layer having a predetermined pattern for printing. Eight It can be seen from the above that the creation is to form a composite mesh cloth by using a large elastic mesh cloth with a large area and a small mesh cloth cloth, and to engage the frame body with a high elastic mesh cloth. The high-elastic _ phase material is hidden, providing the pressing space for printing to the knife during printing. The second (4) is formed on the metal mesh cloth, and the metal mesh cloth and the high elastic mesh cloth are connected _, only with High-elastic mesh cloth bounces up and down; f has a yarn frame lion tension _, so it can ensure that the pattern of the dielectric layer will not be deformed or displaced; otherwise, because the metal mesh cloth will not be deformed, so the screen after printing Can be recycled and reused, saving plate making costs. Moreover, since the metal mesh cloth does not need to be joined to the frame, the natural area size depends on the pattern to be printed, and the material cost can be further saved. [Embodiment] The following is a more detailed description of the implementation of the present invention in conjunction with the drawings and the component symbols, so that those skilled in the art can implement it after studying this text. Please refer to (4)-® to the third figure' for the preferred embodiment of the screen for the composite version of the screen, the combination diagram and the combination diagram. The inventive screen member mainly comprises a frame body, a composite sheet 2 and an adhesive 3. The frame 1 can be a metal frame or a non-metal frame, wherein the metal frame can be an iron frame or a frame. The non-metal frame can be made of a wooden board or a bezel, and the printed matter can be made into a frame. Into a rectangular box. The composite web 2 includes a high elastic mesh 21 and a metal mesh cloth 22, and the high elastic mesh 21 can be a Tedron mesh or an elastic nylon mesh or other mesh material having an elastic material; The shape of the mesh 21 is tailored to fit the shape of the frame. In this embodiment, the rectangle is rectangular and the south elastic mesh 21 is provided with an opening 2U which is preferably positioned in the center of the elastic mesh 21. The metal mesh cloth 22 may be a stainless steel mesh cloth or a galvanized iron mesh cloth or a mesh made of other alloy materials. The area of the metal mesh cloth 22 corresponds to the area of the opening 211, and the metal mesh cloth 22 The adhesive agent is bonded to the position of the opening 211 of the 3 high elastic mesh cloth 21, and the edge of the high elastic mesh cloth 2 is adhesively bonded to the inner surface of the frame body to fix the composite web 2 111 on the frame body 1. Among them, the bonding agent 3 for bonding the high miscellaneous mesh 21, .'W may preferably be a hot melt adhesive tape or a UV adhesive. The use of hot melt strips must be combined with control equipment for temperature control and control time. 'The hot melt strips are placed at the joint around the high elastic mesh 21 and the wire mesh cloth 22 and pressed together; using UV followed by The agent can be printed or automatically dispensed on the top of the machine and then placed on the joint around the _ cloth 21 and the wire: cloth 22, and then use the UV dryer to achieve the purpose of bonding. In this way, 70-cost creation of a composite version of the screen. Referring to the detailed drawings and the fourth Α ® , the present invention mainly provides that the printer can form a dielectric layer 4 having a predetermined printing pattern and hardening on the metal mesh cloth 22 of the composite web t (the emulsion is not The portion to be washed away, the envelope layer 4 envelops the ink permeable aperture 5 'printer can be from the ink permeable aperture 5 _ pigment to the carrier 6 (the article to be printed); however, the formation of the dielectric layer 4 is not limited It can be made by electroplating method or by _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ For example, the fine-grained office of the Department of Science and Technology (4) 4 degrees to form the butterfly _ cloth 22, Huai 4 to see the sub-hole 5; the body of the body to print and put the screen on the surface of the carrier 6 ^ align the metal mesh cloth 22 At the printing position, ink printing is applied to the range of the metal mesh cloth U, and the ink flows from the ink permeable holes 5 to the surface of the carrier 6. After the ink is dried, the surface of the carrier is formed as shown in FIG. A grid-like preset pattern. ° The composite mesh of this creative composite screen is characterized by the accuracy of the high elastic mesh phase miscellaneous metal. The elastic property of the high elastic mesh cloth makes the scraper have a slight downward-moving space for the web during the printing process, so that the medium (four) contacts and adheres to the surface of the carrier, and the high-mesh mesh phase The hybrid resilience enables the screen to print the next carrier. The mesh made of wire is not connected to the frame. The metal mesh cloth and the high elastic mesh are connected. The wire mesh cloth is only used by the sisters on the high-mesh cloth to bounce on the high-mesh cloth. What is the tension problem? Therefore, it is ensured that the pattern of the dielectric layer will not be deformed during the printing process or the displacement will provide a more precise printing pattern. On the other hand, because the wire mesh will deform during the printing process, the screen can be repeated. Use to save on the cost of clothing. In the traditional screen version, this creation makes (4) the metal mesh cloth because there is no need to join the shop, so the area can be printed and called, and it can save material cost and improve the competitiveness of _. The above is only a preferred embodiment for explaining the present creation, and is not intended to be any form of restriction on the creation of the creation, so that any material related to the creation made under the same spirit of the creation is Or, it should still be included in the scope of this creative intent. M407832 [Simple description of the drawings] The first figure is a perspective exploded view of a preferred embodiment of a screen with a composite web. The second figure is a combination of the foregoing embodiments. The third figure is a combined sectional view of the foregoing embodiment. The fourth figure is a schematic diagram showing the formation of a dielectric layer on a wire mesh cloth. Figure 4A is a schematic representation of a pattern printed on a carrier. [Description of main component symbols] 1. Frame 2. Composite net 21. High elastic mesh 211. Opening 22. Metal mesh cloth 3. Adhesive 4. Dielectric layer 5. Ink hole 6. Carrier