200927509 六、發明說明: 【發明所屬之技術領域】 本發明係有關使用於柔版印刷等之樹脂凸版及其製造方法。 【先前技術】 自以往’在印刷用凸部之表面形成有多數個微小凸部的樹脂 凸版,使用於柔版印刷方法等各種之凸版印刷。並且近年來,人 們也經常以柔版印刷方法,在用於彩色液晶電視之TFT基板或彩 色濾光片基板上形成配向膜或絕緣膜。然而,彩色液晶電視逐年 不斷大型化,今日由於製造出使用8世代基板玻璃的彩色液晶電 ^ 視,故也有使樹脂凸版大型化的必要。 例如,因應4世代基板玻璃之樹脂凸版為8〇〇mm(縱 寬)xl050mm(橫寬)左右的大小,因應5世代基板玻璃之樹脂凸版 為1150mmxl500mm左右的大小;此種程度之大小的樹脂凸版能 以既有之設備製造。然而,因應8世代基板玻璃之樹脂凸版,則 必須使用2500mmx300〇mm左右之大小的樹脂凸版;由於此種大 小的樹知凸版無法以既有之設備製造,故必須將設備大型化,製 造成本將提高。因此,人們思考藉由將因應4世代、5世代或4 世代〜7世代基板玻璃之樹脂凸版製造複數個,並接合該等樹脂凸 G 版,以特別製造出可因應8世代基板玻璃之大小的樹脂凸版。 因此作為瓦楞紙印刷等之印刷領域所使用的大型樹脂凸版 之版連接方法,有人提出如圖16〜圖19所示的方法。此方法中, 首先如圖16所示,在應接合之2片印刷版31的接合面31&間留 出些微之間隙的狀態下,將該二印刷版31呈相對狀配置,並於該 刷i 31之接合面31a _形成的溝槽32之底面貼附黏著 膠π 33 l再於該二接合面31a塗布接著材(未圖示);接著如圖17 所示於亥溝槽32充填液體狀之感光性樹脂34,再如圖a所示, ^液體狀之感絲翻旨34充填部的頂祕雜轉帶35 ;於此狀 所示,以紫外線燈36使液體狀之感光性樹脂料硬 、"-黏著膠帶33、35剝離’而得到大型之樹脂凸版(例如, 200927509 參照專利文獻1)。 【專利文獻1】曰本特開平9-274310號公報 【發明内容】 發明所欲解決之課顳 ❹ 〇 然而,上述版連接方法中,將應接合之2片印刷版31在其接 合面31a間留出些微之間隙而呈相對狀配置,由於僅在熊 接合二印刷版31,故無法將該二印刷版31正確地對位,g 樹脂凸版的尺寸精度及位置精度雜。社,所得狀樹脂凸版 的表面無補強用之構件,於印刷時,樹脂凸版之凸紋部與待印刷 體之待印刷部二者的壓接應力變大,該凸紋部將於短時 本發明係有鑒於此種情況而設計,其目的為:提 凸版及其製造方法,尺梢度及健良好1騎刷 之印刷面經過長時間也不致受損等。 解決諜顳之丰殿 為達成上述目的’本發明之第〗要旨為:提供—種平板狀之 樹脂凸版,被捲繞安裝在滾筒狀之印版輥筒之外周面以供印刷 ^ ’包含印刷用凸部’且由複數之分割體所構成;各分割體係輿 接鄰之分割體的端關接合而連結,且於既定之分割體,在該印 刷用凸部之平板區以外的區域形成樹脂製的凸部,而在該凸^ 頂部形成有凹部以緩和凸部形成樹脂於重合收縮時的龜曲;又, 種概凸版之製造紐,其韻為:賴紐個下述(a)之 刀/體、與下述(Β)讀位_板’並瓶定分繼及與其接鄰之 =割體,在使二分割體之印刷用凸部朝上的狀態下,留出既定間 隔而載置於對位用薄板上時’將該對侧薄板之記號與二分 加以對位;接著驗體狀之光硬化性細旨注人該間^並 外線照射酸其硬化,將複數個分割體―體化後,使對值 用薄板從該一體化之複數個分割體脫離。 (Α)分割體,其中樹脂製的凸部形成於印糊凸部之平板區以外 200927509 =縮===部之頂部形成有用以緩和凸部形成樹脂 (B)對位用薄板,形成有對位用之記號。 發明之皇悬 ❹ 即i於本發明之樹脂凸版中,構成樹脂凸版之複數個分割 占由於在既定之分割體的凸部形成有凹部以緩和其凸部形 重合收縮時的_,因此於製造時,藉由利用該凹部作 的記號,在接合既定之分難及與其接鄰之分割體時, 疋之分割體及與其接鄰之分割體正確地對位而接合。因 之樹脂凸版,賴係接合複數個分割體所構成,仍 々77割體間之位置偏離,得到良好的尺寸精度及位置精 二於各該分割體之凸部形成時,因其凸部形成樹脂重合 ^生的各分割體之翹曲’能㈣以緩和該凸部形成樹脂重 ί 的凹部吸收而緩和。另—方面,依本發明之樹脂 伽由造$法、可製造具有上述良好效果的樹脂凸版。又,本 ,並無須為形成該凹部而特別設置「凸部」,可依使用者等 之’、’利用為緩和印刷時之撞擊所形成的凸部(虛設墊)。 ❹ 2,本發明之樹脂凸版中,以在内側凸部之外周面及該凹部 間留出間隙之狀態’從該凹部之底面突起設有内侧凸 L i'l隙係用以緩和凸部形成樹脂於重合收縮時之麵曲。此時, 吏該m卩助側凸部之間所形成賴鮮化,可使油墨不堆 、"亥間隙’並藉由加大設定該凹部之外形尺寸而容易進行對位。 【實施方式】 宜鱼曼盟之ί佳形_ 接著,說明為實施本發明之最佳形態。但本發明並不限於此 實施形態。 圖1顯了本發明的樹脂凸版之一實施形態。圖中,1為凸版本 體’由帶有彈性之光硬化性樹脂材料製的透明平板狀體la、與接 200927509 合於該平板狀體la背面的透明基膜lb所構成(參照圖2)。又, 凸版本體1中,如圖2所示’透明之補強用薄板2隔著黏著二 圖不)接合於該基膜lb之背面,該凸版本體丨及補強用薄板2 成的透明疊層體則構成上述樹脂凸版。此樹脂凸版被捲 滾筒狀之印版輥筒(未圖示)的外周面而使用,供印刷之用。隹 該凸版本體1分割成複數個(本實施形態中為4個),各該 ,3二6之端面3a、4a、4b、5a、5b、6a彼此以光硬化性樹脂材料 製的透明之帶狀連結部13a〜13c加以連結。 科 ❹ 更詳細說明之,該凸版本體丨中,在其平板狀體 突起設有複數個平板狀凸部U及複數條凸條(凸部)12所構^的印 =凸部Π、12。於各該平板狀凸部„,於其表面(亦即頂面 成有用以在基板(未圖示)形成配向膜等之多數個微小凸部 I) ’藉此於各該平板狀凸部U之表面形成有平板區。該種平板狀 凸,1於此實施形態下,從平面看來大致呈四角形,在平板= la之表面形成6個(呈左右兩列並排,兩列各前後配置3個)。 ❹ ΛΑ也ί ’各該凸條12係為緩和因印刷時對絲抵接、推壓所造成 ^衝擊,作為緩衝部用岭起設置於該平板區料之區域的虛設 使用者等,要求,以所希望之形狀形成於使用者等所希望 平ϋ 1各該卩凸條12頂面的高度’為了抵接該基板而與各該 卩刷面(突起設置於各平板狀凸部11之表面的多 部之表面[塗布有印刷用油墨之面]所形成的面)大致ί 刖Jr:。又,各該凸條12之頂面也由於抵制基板而進行印 之頂面及該平板區,形成抵接到基板的印刷區。 該凸條12之頂面所圍繞的部分成為印刷區。該 in Λ實施形態下,藉由沿各該平板狀凸部u之外周面 直,狀配置’並適當連結,藉此形成3字形、四角形之框狀等。 側之ϊ 版本體1之4個分割體3〜6,由被定位於右•外 左· 被定位於右•内侧之第2分割體4、被定位於 成.第I八宝iL分割體5、被定位於左•外側之第4分割體6所構 成’第1刀割體3之左側端面3a及第2分割體4之右側端面4a 200927509 以右侧帶狀連結部13a連合; 13c連合。又,於第i分^體•^右面⑪以左側帶狀連結部 U ;於第2分割體4之表面之表f ’$侧,部突起設有凸條 及圍繞該等平板狀凸部u的凸右侧之3個平板狀凸部H 起設有左側之3個平板狀凸部^^表面,突 ❹ 後列之凸條12a、12b中,,前列及最 =4 :圖4所示,由形成於該凸以第:上二; 及該内侧凸邱〗4h从田r b所構成’该凹部14a内周面 ο 相同置: 邻π 了首^谓起e又有角柱狀之凸部15作為對位用;且該凸 i號圖形ΐ有十字形的凹部16a所構成之對位用的第2 不)。各戎凸部15之頂面的高度無須與各該平板狀凸部11之^刷 200927509 面形成相同高度,但於此實施形態中,係與該印刷面形成相同高 度。此種記號14、16於製作各分割體3〜6時,在形成印刷用凸 部11、12及各凸部15之際以蝕刻加工等同時形成。 此種樹脂凸版可如下製造。亦即首先,準備本身表面為透明 之保護膜(未圖示)所覆蓋的第1〜第4分割體3〜6、與透明之第1 〜第3對位用遮罩(對位用薄板)7〜9。又,第i〜第4分割體3〜6 用以往公知的方法(未圖示)製作。例如,於玻璃板上放置負片,接 著在該負片上將液體狀之光硬化性樹脂塗布到一定厚度,'再於該 液體狀之光硬化性樹脂的表面放置基膜lb,於此狀態下,通過^ ❹ 膜1b進行紫外線等之光照射後,通過負片進行紫i線等之光曰^ 射,而製作(具有印刷用凸部u、12、凸部15及凸 …、 〜第4分割體3〜6。 ’乐 又,第1對位用遮罩7用於第1及第2分割體3、4 =圖6卿,纽定錄靖狀凸版賴i之4個 7) 置對應於該第2記號16之十字形的記號7a(參4 ),第2一對位用遮罩8用於第2及第3分割體4、5 ; 二置)第第1記號14之十字=== ❹ r ’形成有對應於該第2記號16之十字形的記號7a(= 接著,如圖〗0及圖11所示,於載 ::古的既定位置,載置各對位用遮C (=0 :未圖示)之 3 i上以使該印刷用凸部11、12朝ft能ίί該對位 體3〜6,再—邊移動各分 ,上之狀態裁置各分割 J【位用記㉚7a、8a與“割體3〜6 2d用遮罩7〜9 5b、如間形成前後呈一直 之鳊面允、知、牝、&、 僅顯示形成於第2及第3分良中的严曰=(參照圖.12。圖12中, 刀口J體4、5之間的間隙19)。 200927509 於iff Γ對各該間隙19注入透明之液體狀的光硬化性樹 Ϊ )。接著進行紫外線等之光照射,使液體狀的光硬 化性樹月曰20硬化。織,將以此硬化作業大致—體化之4個分割 ,3〜6(以下稱「暫時固定體」)從載置板18之了頁面及各對位用遮 =7〜9 =離後’在該暫時固定體之背面壓合丨片補翻薄板2。 ΐίϊ!·可,由光硬化性樹脂材料製之凸版本體1及補強用薄板2 所構成的樹脂凸版。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin relief used for flexographic printing or the like and a method of manufacturing the same. [Prior Art] Conventionally, a resin relief which has a plurality of minute projections formed on the surface of a printing projection is used for various relief printing such as a flexographic printing method. Further, in recent years, an alignment film or an insulating film is often formed on a TFT substrate or a color filter substrate for a color liquid crystal television by a flexographic printing method. However, color LCD TVs have been increasing in size year by year. Today, color liquid crystals using 8th generation substrate glass have been produced, and therefore it is necessary to increase the size of the resin relief. For example, the resin relief of the 4th generation substrate glass is about 8 mm (width) x l050 mm (width), and the resin relief of the 5th generation substrate glass is about 1150 mm x 500 mm; the resin relief of this degree Can be manufactured with existing equipment. However, in order to respond to the resin relief of the 8th generation substrate glass, it is necessary to use a resin relief of about 2500mm x 300〇mm; since the size of the tree can not be manufactured by existing equipment, it is necessary to enlarge the equipment and the manufacturing cost will be improve. Therefore, it is considered that by manufacturing a plurality of resin reliefs corresponding to the 4th, 5th or 4th to 7th generation substrate glass, and joining the resin convex G plates, it is possible to specifically manufacture the size of the 8th generation substrate glass. Resin letterpress. Therefore, as a method of connecting a large resin relief plate used in the printing field such as corrugated printing, a method as shown in Figs. 16 to 19 has been proposed. In this method, first, as shown in FIG. 16, in a state where a slight gap is left between the joint faces 31 & of the two printing plates 31 to be joined, the two printing plates 31 are disposed in a relative shape, and the brush is placed on the brush. The bottom surface of the groove 31 formed by the joint surface 31a of the i 31 is adhered with an adhesive π 33 l and then the second bonding surface 31a is coated with a bonding material (not shown); then, as shown in FIG. 17 , the liquid is filled in the trench 32. As shown in Fig. a, the liquid photosensitive resin 34 is turned into a liquid-like photosensitive resin by the ultraviolet lamp 36 as shown in Fig. a. The material is hard, and the adhesive tapes 33 and 35 are peeled off to obtain a large resin relief (for example, 200927509 refers to Patent Document 1). [Patent Document 1] JP-A-H09-274310 SUMMARY OF THE INVENTION PROBLEMS TO BE SOLVED BY THE INVENTION However, in the above-described plate joining method, two printing plates 31 to be joined are interposed between their joint faces 31a. The gaps are arranged in a relatively small gap, and since the second printing plate 31 is only bonded to the bear, the two printing plates 31 cannot be correctly aligned, and the dimensional accuracy and positional accuracy of the g resin relief are complicated. The surface of the obtained resin relief plate has no reinforcing member, and the pressure of the embossed portion of the resin relief and the portion to be printed of the body to be printed becomes large at the time of printing, and the ridge portion is to be short-time. The invention has been devised in view of such a situation, and the object thereof is to provide a relief plate and a method for manufacturing the same, and the print surface of the ruler and the wearer is not damaged for a long time. In order to achieve the above object, the purpose of the present invention is to provide a flat resin-like relief plate which is wound and mounted on a peripheral surface of a roll-shaped plate cylinder for printing. The convex portion ′ is composed of a plurality of divided bodies; each of the divided systems is connected to the end of the adjacent divided body and joined, and a resin is formed in a region other than the flat plate region of the printing convex portion in a predetermined divided body. The convex portion is formed, and a concave portion is formed on the top of the convex portion to alleviate the tortuous curvature when the convex portion forms resin in the coincidence and contraction; and the manufacturing of the general relief plate has the rhyme: Lai New has the following (a) The knife/body and the following (Β) reading position_plate' are bottled separately and adjacent to the = cutting body, leaving the predetermined interval in the state in which the printing projections of the two divided bodies face upward. When placed on the alignment sheet, 'the mark of the opposite side sheet is aligned with the two points; then the photo-hardening property of the inspection body is carefully applied to the room and the external line is irradiated with acid to harden it, and the plurality of divisions are combined. After the structuring, the value sheet is detached from the integrated plurality of divided bodies. (Α) a divided body in which a convex portion made of a resin is formed on the top of the flat plate portion of the printing paste convex portion, and a thin plate for aligning the convex portion forming resin (B) is formed to form a convex portion. The mark used by the bit. In the resin relief of the present invention, the plurality of divisions constituting the resin relief are occupied by the fact that the concave portion is formed in the convex portion of the predetermined divided body to alleviate the contraction and contraction of the convex portion. At the time of the use of the mark made by the concave portion, when the predetermined segment is joined to the adjacent segment, the segmented body and the segmented body adjacent thereto are correctly aligned and joined. Because the resin relief plate is formed by laminating a plurality of divided bodies, the positional deviation between the cutting bodies is still obtained, and good dimensional accuracy and positional precision are obtained. When the convex portions of the respective divided bodies are formed, the convex portions are formed. The warpage of the respective divided bodies of the resin overlap can be alleviated by absorbing the concave portion of the resin portion of the convex portion. On the other hand, according to the resin of the present invention, a resin relief having the above-described good effects can be produced. Further, in the present invention, it is not necessary to provide a "protrusion portion" for forming the concave portion, and a convex portion (dummy pad) formed by the impact of printing can be used by the user or the like. ❹ 2, in the resin relief of the present invention, a state in which a gap is left between the outer peripheral surface of the inner convex portion and the concave portion, and an inner convex L i'l gap is formed from the bottom surface of the concave portion to alleviate the formation of the convex portion. The surface curvature of the resin when it is overlapped and shrunk. At this time, the formation of the m-assisted side convex portion is increased, and the ink can be prevented from being piled up and the "sea gap" can be easily set by increasing the size of the concave portion. [Embodiment] The preferred form of the present invention is described below. However, the present invention is not limited to this embodiment. Fig. 1 shows an embodiment of the resin relief of the present invention. In the figure, reference numeral 1 denotes a convex version body', which is composed of a transparent plate-shaped body la made of an elastic photocurable resin material, and a transparent base film 1b which is joined to the back surface of the flat body 1a (see Fig. 2). Further, in the convex version 1, as shown in FIG. 2, the "transparent reinforcing sheet 2 is bonded to the back surface of the base film 1b, and the transparent laminate of the convex sheet and the reinforcing sheet 2 is bonded to the back surface of the base film 1b. Then, the above resin relief is formed. This resin relief is used for printing on the outer peripheral surface of a roll cylinder (not shown). The convex version 1 is divided into a plurality of (four in the present embodiment), and each of the end faces 3a, 4a, 4b, 5a, 5b, and 6a of the 3 and 6 is a transparent belt made of a photocurable resin material. The connecting portions 13a to 13c are connected. More specifically, in the convex version, a plurality of flat convex portions U and a plurality of convex ridges (protrusions) 12 are formed on the flat body projections. Each of the flat convex portions „ is formed on the surface (that is, the top surface is formed to form a plurality of minute convex portions I) such as an alignment film on a substrate (not shown), thereby forming the flat convex portions U The flat surface is formed on the surface of the flat plate. In this embodiment, the shape is substantially quadrangular in plan view, and six surfaces are formed on the surface of the flat plate = la (the left and right rows are arranged side by side, and the two columns are arranged side by side. ❹ ΛΑ ί ' 各 各 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚 虚It is required that the desired shape is formed on the flat surface of the user or the like. The height "the top surface of each of the ridges 12" is abutting against the substrate and the squeegee surface (the protrusion is provided on each of the flat convex portions). The surface of the surface of the surface of 11 (the surface formed by the surface coated with the printing ink) is substantially 刖Jr: Further, the top surface of each of the ridges 12 is also printed on the top surface of the substrate by the resisting substrate. a flat area forming a printing area abutting the substrate. A portion surrounded by the top surface of the ridge 12 is printed In the in embodiment, the outer peripheral surface of each of the flat convex portions u is arranged in a straight shape and is appropriately connected to form a three-shaped or square-shaped frame shape. The four divided bodies 3 to 6 are positioned on the right side and the outer left side. The second divided body 4 positioned on the right side and the inner side is positioned in the first. The first eight treasure iL divided body 5 is positioned on the left side and the outer side. The fourth divided body 6 constitutes 'the left end surface 3a of the first cutting body 3 and the right end surface 4a 200927509 of the second divided body 4 are joined together by the right side band-shaped connecting portion 13a; 13c is joined together. The right side 11 is a left side belt-shaped connecting portion U; on the surface f'$ side of the surface of the second divided body 4, the protruding portion is provided with a ridge and three convex right sides surrounding the flat convex portion u The flat convex portion H is provided with three flat convex portions on the left side, and the convex strips 12a and 12b in the rear row are protruded, and the front row and the most = 4 are as shown in Fig. 4, and are formed in the convex portion. : the upper two; and the inner convex 〗 4h from the field rb 'the inner peripheral surface of the recess 14a ο the same: adjacent π first ^ said e and angular columnar convex portion 15 for alignment; and Convex The figure i has a second shape for the alignment of the concave portion 16a having a cross shape. The height of the top surface of each of the convex portions 15 does not need to be the same height as the surface of the flat portion of the flat protrusion 11200927509. However, in this embodiment, the printing surface is formed to have the same height. Such marks 14 and 16 are etched when the printing projections 11 and 12 and the convex portions 15 are formed when the respective divided bodies 3 to 6 are formed. The resin relief can be produced at the same time. The resin relief can be produced as follows: First, the first to fourth divided bodies 3 to 6 covered with a protective film (not shown) having a transparent surface, and the first to the transparent one are prepared. The third alignment mask (the alignment sheet) 7 to 9. Further, the i-th to fourth divided bodies 3 to 6 are produced by a conventionally known method (not shown). For example, a negative film is placed on a glass plate, and then a liquid photocurable resin is applied to the negative film to a certain thickness, and the base film 1b is placed on the surface of the liquid photocurable resin. After the light is irradiated with ultraviolet light or the like by the film 1b, the film is produced by photolithography such as a violet i-ray by a negative film (having printing convex portions u, 12, convex portions 15 and convex portions, and ~ fourth divided body). 3~6. 'Le again, the first alignment mask 7 is used for the 1st and 2nd divisions 3, 4 = Fig. 6 Qing, the New Zealand recorded the convex relief version of the 4th 7) The cross of the second symbol 16 is marked 7a (reference 4), the second pair of masks 8 is used for the second and third divided bodies 4, 5; the second is placed with the cross of the first symbol 14 === ❹ r ' is formed with a symbol 7a corresponding to the cross shape of the second symbol 16 (= Next, as shown in FIG. 0 and FIG. 11 , at the predetermined position of the ancient:: =0: not shown) 3 i is such that the printing convex portions 11, 12 are moved toward the ft to the aligning bodies 3 to 6, and then the respective points are moved, and the upper portion is cut to the respective divided J positions. Use notes 307a, 8a and "cutting body 3~6 2d cover Covers 7 to 9 5b, such as 鳊 允 、 允 允 允 允 允 允 允 允 允 允 允 ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( The gap between the J-shaped bodies 4 and 5 is 19). In the case of iff Γ, a transparent liquid-like photocurable tree is injected into each of the gaps 19. Then, light irradiation such as ultraviolet rays is applied to obtain liquid photocurability. The tree 曰 20 is hardened. Weaving, the four hardening operations are roughly divided into three parts, and the 3 to 6 (hereinafter referred to as "temporary fixed body") is used from the page of the mounting plate 18 and the alignment is used = 7 ~9 = away from the back of the temporary fixed body by pressing the cymbal sheet to fill the sheet 2. Ϊ́ίϊ!· A resin relief made of a convex version 1 and a reinforcing sheet 2 made of a photocurable resin material.
如上述製造所得到之樹脂凸版,在以印刷用凸部η為外側之 狀態下,使用接著材或固定構件被捲繞安裝於滾筒狀之印版報筒 的外周,在8世代等大型基板玻璃上進行各種之印刷。 如上所述,該實施形態中,可使用對位用遮罩7〜9將各該分 割體3〜6正確地對位,提高所得到之樹脂凸版的尺寸精度及位置 ,度。而且’於製作各該分碰3〜6時,對構成其等之液體狀的 光硬化性齡進行料料之光歸以使之硬化時,目該光硬化 性樹脂重合收縮所產生的各分觀3〜6之翹曲係能以記號14之 間隙、記號16之凹部16a吸收而緩和。而且,由於在凸版本體i 之背面疊層有補強用薄板2,故強度更加提高。The resin relief plate produced as described above is wound around the outer circumference of a cylinder-shaped plate cylinder by using a bonding material or a fixing member in a state in which the printing convex portion η is outside, and is used for a large-sized substrate glass such as 8th generation. Perform various printing on it. As described above, in this embodiment, each of the divided bodies 3 to 6 can be accurately aligned by the alignment masks 7 to 9, and the dimensional accuracy and position of the obtained resin relief can be improved. In addition, when the light of the light-hardening age constituting the liquid is aged to be hardened by the production of each of the three-to-one collisions, the light-curing resin is contracted and contracted. The warp of 3 to 6 can be alleviated by the absorption of the mark 14 and the recess 16a of the mark 16. Further, since the reinforcing sheet 2 is laminated on the back surface of the convex version i, the strength is further improved.
士作為該液體狀之光硬化性樹脂,只要是以往公知的光硬化性 任—種皆可使用;例如可使用在不飽和㈣樹脂等添加光 敏劑或熱穩定劑等之光硬化性樹脂。又,作為基膜lb,只要是以 往^知的膜,任一種膜皆可,例如可使用聚酯膜。又,作為補強 用薄,2,只要是以往公知的薄板,任一種薄板皆可,例如可使用 聚對笨二甲酸乙二酯(PET,polyethylene terephthalate)。 該凸版本體1中,其厚度氏(參照圖13)(未形成平板狀凸部u 之部分的厚度)設定於1.G〜2.Gmm之範圍内;平板狀凸部u及凸 條12之厚度H2設定於〇.6〜〇.8mm之範圍内。又,該基膜lb之 厚度設定於0.10〜〇.35mm之範圍内。又,第1記號14之十字形 的凹部14a之寬度參照圖4)設定於0.005〜l.〇mm之範圍内,^ 長^ 從中央交叉部延伸之4條溝槽的長度)設定於〇 〇5〜1〇_ 之範圍内’深度設定於5〜3〇μιη之範圍内。又,第1記號14之内 200927509 侧凸。卩14b的寬度L3設定於0.05〜1.0mm之範圍内,長度l4(從 ^央交叉部延伸之4條凸條的長度)設定於丨〜1〇111111之範圍内, 高度設定於10〜30μηι之範圍内。又,第2記號16之十字形的凹 部16a之寬度設定於0 005〜l.〇mm之範圍内,長度(從中央交叉部 延伸之4條溝槽的長度)設定於之範圍内,深度設定於5 〜30μιη之範圍内。 、 圖^14顯示本發明之樹脂凸版的另一實施形態。此實施形態 中,於该凸版本體1之平板狀體la的表面未突起設有凸條12。因 此,第2及第3分割體4、5中,於其前緣部及後緣部(亦即非印刷 區)’在脫離各該分割體4、5之端面4b、5a(第2分割體4之左侧 端面4b、第3分割體5之右侧端面53)相同距離的位置,突起設有 角柱狀之凸部15作為對位用;且該凸部15頂面形成有十字形的 I部16a所構成之對位用的第2記號16(參照圖5)。除此以外之部 分與上述實施形態相同,相同部份標註相同符號。此實施形態中, 也與上述實施形態具有相同之作用•效果。 圖15顯示本發明之樹脂凸版的又另一實施形態。此實施形態 中,該樹脂凸版由第2及第3分割體4、5所構成。因此,於該凸 版本體1之平板狀體la的表面,未突起設置角柱狀之突部15。除 此以外之部分與圖1〜圖13所示之實施形態相同,相同部份標註 ❹ 相同符说。此實施形態中,也與圖1〜圖13所示之實施形態i有 相同之作用·效果。 八 以下,試舉實施例,更具體說明本發明。 圖1〜圖13所示之樹脂凸版中,其整體之大小為23〇〇mm(左 右寬)x274〇mm(前後寬),第!及第4分割體3、6之大小各為 23〇0mmxl40mm,第2及第3分割體4、5之大小各為 230〇mmxl23〇mm。又,該凸版本體丨之厚度Ηι(未形成平板狀凸 部11之部分的厚度)為1.6mm,平板狀凸部u及凸條12之厚度 %為0.75mm,而基膜lb之厚度為〇.2mm。 又,第2及第3分割體4、5之凸條中,最前列及最後列 200927509 的凸條12a、12b,形成於從該二分割體4、5之前端面及後端面偏 内側80mm的位置;第丨〜第4分割體3〜6之凸部15,形成於從 各該分割體3〜6之前端面及後端面偏内側6mm的位置。又,第j 記號14形成於從中央帶狀連結部丨3b,向左右脫離5〇mm的位置; 左右之第2 §己號16形成於從右侧帶狀連結部i3a及左侧帶狀連結 部13c向左右脫離4〇mm的位置。 口 >又’第1記號14之凹部14a的寬度為〇.〇3mm,長度L2(從中 央交叉部延伸之4條溝槽的長度)為2.5mm,深度為Ι5μιη ;内侧 凸部14b的寬度L3為〇.lmm,長度L4從中央交又部延伸之4條 凸部的長度)為2.5mm,高度為15μιηβ又,第2記號16之凹部16a 的寬度為0_lmm,長度(從中央交叉部延伸之4條溝槽的長 2.5mm ’ 深度為 Ι5μιη。 又,各該實施形態中,記號Μ、16形成十字形,但並不限於 此,也可形成圓形或四角形等各種形狀。又,並不限於8世代基 板玻璃用,亦可應用於5〜7世代或8世代以上之基板玻璃。土 ❹ J 1〜圖13及圖15所示之實施形態中,於該凸版本體1 Γ起对凸條12作為虛設墊;未突起設有虛設墊時,則如 圖14所示,突起設置凸部15作為對位用即可。又,也可 之分割體4、5狄設置凸條12作為虛設墊(參照圖15)。 【圖式簡單說明】 系顯示本發明之樹脂凸版之—實施形態的俯視圖 圖2係該樹脂凸版的剖面圖。 圖3係該樹脂凸版之主要部的俯視剖面圖。 圖4係第1記號的說明圖。 圖5係第2記號的說明圖。 圖6係第1對位用遮罩的說明圖。 於第卜請位用遮罩之_的說明圖。 圖8係第2對位用遮罩的說明圖。口 圖9係形成於第2對位用遮罩之記號的說明圖。 12 200927509 圖10係該樹脂凸版之製造方法的說明圖。 圖U係該樹脂凸版之製造方法的說明圖。 圖U係該樹脂凸版之製造方法的說明圖。 圖13係該樹脂凸版之製造方法的說明圖。 圖14係顯示本發明之樹脂凸版之另一實施形態的俯視圖。 圖Η係顯示本發明之樹脂凸版之再另一實施形態的俯視圖。 圖16係顯示習知例之柔版印刷版之版連接方法的說明圖。 圖17係顯示習知例之柔版印刷版之版連接方法的說明圖。 圖W係顯示習知例之柔版印刷版之版連接方法的說明圖。 圖19係顯示習知例之柔版印刷版之版連接方法的說明圖。 【主要元件符號說明】 1〜凸版本體 la〜平板狀體 比〜基膜 2〜補強用薄板 3〜第1分割體 6a〜端面 3a、4a、4b、5a、5b、 4〜第2分割體 5〜第3分割體 6〜第4分割體 7〜第1對位用遮罩 7a〜對位用記號 8〜第2對位用遮罩 8a〜對位用記號 9〜第3對位用遮罩 ίΓΐϊί凸部(印刷用凸部) 12〜凸條(印刷用凸部 12a〜最前列之凸條 12b〜最後列之凸條 13 200927509 13a〜右侧帶狀連結部 13b〜中央帶狀連結部 13c〜左側帶狀連結部 14〜第1記號 14a〜凹部 14b〜内側凸部 15〜凸部 16〜第2記號 16a〜凹部 17〜凸條 ❿ 18〜載置板 19〜間隙 20〜光硬化性樹脂 31〜印刷版 31a〜接合面 32〜溝槽 33〜黏著膠帶 34〜感光性樹脂 35〜黏著膠帶 ^ 36〜紫外線燈 氏〜凸版本體之厚度(未形成平板狀凸部之部分) H2〜平板狀凸部及凸條之厚度 〜凹部14a之寬度 L2〜凹部14a之長度 L3〜内侧凸部14b之寬度 L4〜内侧凸部14b之長度 14As the liquid photocurable resin, any of the conventionally known photocurable properties can be used. For example, a photocurable resin such as a photo-sensitive agent or a heat stabilizer added to an unsaturated (tetra) resin can be used. Further, as the base film 1b, any film may be used as the film, and for example, a polyester film may be used. Further, as the reinforcing thin film, 2, any conventional thin plate may be used, and any thin plate may be used. For example, polyethylene terephthalate (PET) may be used. In the convex version 1, the thickness (see FIG. 13) (the thickness of the portion where the flat convex portion u is not formed) is set in the range of 1.G to 2. Gmm; the flat convex portion u and the convex strip 12 are The thickness H2 is set within a range of 〇.6 to 〇.8 mm. Further, the thickness of the base film lb is set in the range of 0.10 to 〇.35 mm. Further, the width of the cross-shaped concave portion 14a of the first symbol 14 is set in the range of 0.005 to 1. 〇mm with reference to Fig. 4), and the length of the four grooves extending from the central intersection portion is set to 〇〇 The depth in the range of 5 to 1 〇 _ is set within the range of 5 to 3 〇 μιη. Also, within the first mark 14, 200927509 is convex. The width L3 of the crucible 14b is set in the range of 0.05 to 1.0 mm, and the length l4 (the length of the four ribs extending from the central intersection) is set within the range of 丨~1〇111111, and the height is set at 10~30μηι Within the scope. Further, the width of the cross-shaped recessed portion 16a of the second symbol 16 is set within a range of 0 005 to 1. 〇mm, and the length (the length of four grooves extending from the central intersection portion) is set within the range, and the depth is set. Within the range of 5 to 30 μιη. Fig. 14 shows another embodiment of the resin relief of the present invention. In this embodiment, the ridges 12 are not protruded from the surface of the flat body la of the convex version 1. Therefore, in the second and third divided bodies 4 and 5, the front end portion and the rear edge portion (that is, the non-printing region)' are separated from the end faces 4b and 5a of the respective divided bodies 4 and 5 (the second divided body) 4 at the same distance from the left end surface 4b of the third divided body 5 and the right end surface 53 of the third divided body 5, the protrusion is provided with a convex portion 15 having a columnar shape as a positioning; and the top surface of the convex portion 15 is formed with a cross I The second symbol 16 for alignment of the portion 16a (see Fig. 5). The other portions are the same as those in the above embodiment, and the same portions are denoted by the same reference numerals. This embodiment also has the same functions and effects as those of the above embodiment. Fig. 15 shows still another embodiment of the resin relief of the present invention. In this embodiment, the resin relief is composed of the second and third divided bodies 4 and 5. Therefore, on the surface of the flat body la of the convex version 1, the prism-shaped projections 15 are not protruded. The other parts are the same as those of the embodiment shown in Figs. 1 to 13, and the same parts are denoted by the same character. Also in this embodiment, the same effects and effects as those of the embodiment i shown in Figs. 1 to 13 are obtained. Hereinafter, the present invention will be described more specifically by way of examples. In the resin relief shown in Figs. 1 to 13, the overall size is 23 〇〇 mm (left and right width) x 274 〇 mm (front and rear width), the first! The size of each of the fourth divided bodies 3 and 6 is 23 〇 0 mm x 40 mm, and the sizes of the second and third divided bodies 4 and 5 are each 230 mm mm 13 23 mm. Further, the thickness of the convex version body Ηι (the thickness of the portion where the flat convex portion 11 is not formed) is 1.6 mm, the thickness % of the flat convex portion u and the ridge 12 is 0.75 mm, and the thickness of the base film lb is 〇 .2mm. Further, among the ridges of the second and third divided bodies 4 and 5, the ridges 12a and 12b of the forefront and the last column 200927509 are formed at positions 80 mm from the front end surface and the rear end surface of the two divided bodies 4 and 5 The convex portion 15 of the second to fourth divided bodies 3 to 6 is formed at a position 6 mm from the front end surface and the rear end surface of each of the divided bodies 3 to 6. Further, the jth mark 14 is formed at a position separated from the center band-shaped connecting portion 丨3b by 5 mm in the left and right direction; the left and right second § number 16 are formed in the band-like connecting portion i3a from the right side and the left side band connecting The portion 13c is separated from the left and right by a position of 4 mm. The width of the recess 14a of the first symbol 14 is 〇.〇3 mm, the length L2 (the length of the four grooves extending from the central intersection) is 2.5 mm, the depth is Ι5 μm, and the width of the inner convex portion 14b. L3 is 〇.lmm, length L4 is 4 mm from the central intersection and the length of the four protrusions is 2.5 mm, the height is 15 μm β, and the width of the recess 16a of the second symbol 16 is 0_1 mm, and the length (extending from the central intersection) The length of the four grooves is 2.5 mm', and the depth is Ι5 μm. Further, in each of the embodiments, the marks Μ and 16 are formed in a cross shape, but the shape is not limited thereto, and various shapes such as a circular shape or a quadrangular shape may be formed. It is not limited to the 8th generation substrate glass, and can also be applied to the substrate glass of 5 to 7 generations or 8 generations or more. In the embodiment shown in the soil J 1 to 13 and FIG. 15, the convex version 1 is lifted and convex. The strip 12 is used as a dummy pad; when the dummy pad is not protruded, as shown in FIG. 14, the protrusion is provided with the convex portion 15 as a positioning. Alternatively, the divided body 4, 5 may be provided with the ridge 12 as a dummy. Pad (refer to Fig. 15). [Simple description of the drawing] shows the implementation of the resin relief of the present invention 2 is a cross-sectional view of the resin relief. Fig. 3 is a cross-sectional view of a main portion of the resin relief. Fig. 4 is an explanatory view of the first symbol. Fig. 5 is an explanatory view of the second symbol. Explanation of the mask for the first alignment. Explanation of the mask for the second position. Fig. 8 is an explanatory diagram of the mask for the second alignment. The mouth diagram 9 is formed for the second alignment. Fig. 10 is an explanatory view showing a method of manufacturing the resin relief. Fig. U is an explanatory view showing a method of manufacturing the resin relief. Fig. U is an explanatory view of a method of manufacturing the resin relief. Figure 14 is a plan view showing another embodiment of the resin relief of the present invention. Fig. 14 is a plan view showing still another embodiment of the resin relief of the present invention. Fig. 17 is an explanatory view showing a connection method of a flexographic printing plate of a conventional example. Fig. 17 is a view showing a flexographic printing plate of a conventional example. Description of the version connection method. Fig. 19 shows a conventional example Explanation of the connection method of the printing plate version. [Description of main component symbols] 1 to convex version body la to flat body ratio to base film 2 to reinforcing thin plate 3 to first divided body 6a to end faces 3a, 4a, 4b, 5a, 5b, 4 to 2nd split body 5 to 3rd split body 6 to 4th split body 7 to 1st alignment mask 7a to alignment mark 8 to 2nd alignment mask 8a to alignment Mask 9 to 3rd alignment mask ίΓΐϊί convex portion (printing convex portion) 12 to convex strip (printing convex portion 12a to frontmost convex strip 12b to last column convex strip 13 200927509 13a to right side belt The connecting portion 13b to the central band connecting portion 13c to the left side band connecting portion 14 to the first symbol 14a to the concave portion 14b to the inner convex portion 15 to the convex portion 16 to the second mark 16a to the concave portion 17 to the convex strip 18 to The plate 19 to the gap 20 to the photocurable resin 31 to the printing plate 31a to the bonding surface 32 to the groove 33 to the adhesive tape 34 to the photosensitive resin 35 to the adhesive tape 36 to the thickness of the UV lamp to the convex version (not formed) Part of the flat convex portion) H2 to the thickness of the flat convex portion and the convex strip - the width L2 of the concave portion 14a to the length of the concave portion 14a Degree L3 to the width of the inner convex portion 14b L4 to the length of the inner convex portion 14b 14