200927495 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種片材印刷物加工裝置,其係於片材 印刷物等塗佈紫外線硬化樹脂塗料並進行拋光,並且實施 糙面(matte)加工、凹凸加工等,以用於提高片材印刷物等 之保護及商品價值。 【先前技術】 先前,片材印刷物等的表面加工中,大部分使用壓製 ® 力口工或印刷積層加工’上述壓製加工係對印刷物塗佈溶劑 或者水性塗料,乾燥後,藉由熱及壓力將該印刷物貼合於 不鏽鋼鏡面板之環狀輸送帶,冷卻後將印刷物自不鏽鋼鏡 面板上義’以對印刷物進行鏡面加卫;上述印刷積層加 工係使透明或者糙面狀的膜與印刷物貼合。該兩種加工方 法中均使用溶劑或者水,&需要較大的場所與大量的熱 能,同時會引起較多環境問題。進而,已知有如下之片材' ㈣物加工方法’亦即,利用輥式塗佈機、凹板印刷塗佈 機、柔版塗佈機(flexo coater)、絲網等塗裝機,於片材印刷 物的整面或者-部分塗佈紫外線硬化樹脂塗料,對該塗佈 膜照射紫外線,而使片材印刷物的紙面具有光澤的方法。 ' 这方法中,難以獲得如壓製加工或印刷積層 加工那樣的鏡面光澤,故採用以下方法,亦即,使塗裝機 與紫外線,系射機之間變得極長,並於其間配置紅外線燈或 熱風裝置,儘量使塗裝膜的平整性(ieveHng)變得良好。由 於上述方法’對片材印刷物的塗佈膜照射紅外線和熱 6 200927495 風故片材印刷物會達高温,因此,為了防止結塊(心山叫) 係實施例如於紅外線照射之後設置冷卻裝置等對策。但即 使實施該等對策,實際上亦難以獲得鏡面光澤,且平整性 區域隻長’故有以下缺陷,亦即,紫外線硬化樹脂塗料會 "入片材印刷物’或因為使紙面達到高溫而使紙容易裂開 等。 為了解決上述問題,考慮以下方法:於進行塗佈之後 ❹立即貼口於象外線容易透過的玻璃報或膜上,照射紫外線 而使其硬化,之後將其剝離,從而形成鏡面狀態的印刷物。 例如彳日本專利特開昭5 i _558號公報、日本專利特開昭 51-542號公報、日本專利特開昭55·ΐ34673號公報、日本 專利特a日〇 57-60153號公報、日本專利特公昭51 39662號 公報、日本專利特開昭56_37398號公報中揭示之發明。因 此’本案中請人所提出中請的日本專利特開平6-344537號 公報中揭示了一種對該等先前的方法進行改良而得之片材 談 I3刷物的加工裝置。該日本專利特開平號公報中 所揭示之片材印刷物之加工方法的目的在於,即便印刷物 有多種條件,亦能將紫外線硬化樹脂塗料(uv塗料)以最佳 的塗佈條件塗佈於印刷物面而連續進行加工,其構成為如 下··透過UV塗料’以大致無氧狀態且保留被塗裝物周圍的 邊緣面的方式將被塗裝物貼合於膜上,藉由膜的張力將被 塗裝物壓至金屬輥,通過膜向uv塗料照射紫外線使其硬 化,從而使UV塗料被附於被塗裝物上,再向膜與被塗裝物 之未貼合的邊緣面之間施加外力以將被塗裝物自膜上剝 7 200927495 離’從而於被塗裝物上形成樹脂膜。 【發明内容】 上述日本專利特開平6_344537號公報中所揭示之片材 印刷物加工裝置中的環形(endless)膜是無接縫之環狀膜,該 接缝是利用⑽膜將兩端面結合而產生,標準的膜周Μ 36 Μ ’從而難以以環形帶的方式安裝於機械。而且,膜的 壽命與膜的長度成比例,因此,較理想的是膜周長較長。 ^紫外線硬化塗料,於有氧環境及無氧環境中的硬化效率有 .、、頁著不肖& 1¾自印刷物的整個端面向内側塗佈塗料, 利用膜的張力將印刷物壓至金屬輥,照射紫外線,且於大 致無氧狀態下使塗料硬化,但塗佈端面容易產生硬化不 足,故會產生塗佈部分的端面容易弄髒之問題。例如,當 使用40 之ΟΡΡ透明膜時,同一場所可使用的片數一 般為200 250次。而且,若於環狀膜上隨機地配置塗佈膜 位置則會產生以下問題:前端、後端部的污垢會呈橫條 •狀而殘留於塗佈部,若塗佈次數增加則無法使用,膜使用 次數亦成為1/4以下。 因此本發明之目的在於提供一種能夠提高環狀膜之使 用頻率的片材印刷物加工裝置。 藉此’本發明之片材印刷物加工裝置,至少具有: 供給部,係供給紙等被塗裝物; 塗裝部’係在小於被塗裝物的外徑尺寸的範圍内塗佈 束外線硬化樹脂塗料於所供給之被塗裝物的一面及由紫外 線穿透性材料所構成之環形膜的一側或兩側,而形成塗佈 8 200927495 膜; 貼合部’係具有處於既定壓力下之加壓輥及支撐該加 壓棍的金屬觀’使形成有上述塗佈膜之上述被塗裝物以及 上述環形膜通過上述加壓輥以及金屬輥之間,藉此,以保 留上述被塗裝物周圍之邊緣面的方式,進行壓接而以大致 無氧狀態進行貼合; 硬化部’係一邊藉由上述環形膜的張力將被塗裝物壓 至上述金屬輥之曲面使該被塗裝物移動,一邊透過環形膜 對紫外線硬化樹脂塗料照射紫外線以使其硬化,從而使紫 外線硬化樹脂塗料被附於上述被塗裝物上; 剝離部,對上述環形膜與被塗裝物之未貼合之邊緣面 之間施加外力,使被塗裝物自上述環形膜剝離;以及 膜送出部,使上述環形膜掛於上述貼合部之加壓輥以 及金屬輥上,並使其經由上述剝離部而旋轉; 上述片材印刷物加工裝置中,當將上述環形膜的周長 _ 又為L將配置於上述環形膜上的上述被塗裝物的片數設為 N、將自上述被塗裝物之前端至下一被塗裝物之前端為止的 長度設為P、將上述被塗裝物之沿上述環形膜之移動方向上 的寬度設為A、將上述被塗裝物與被塗裝物間的寬度設為$ 時,控制為滿足L=N.P=N(A+S),且於上述環形膜的既 定位置配置有上述塗佈膜。 故根據本發明,當將上述環形膜的周長設為L、將配置 於上述環形膜上之上述被塗裝物的片數設為N、將從上述被 塗裝物之前端至下一被塗裝物之前端為止的長度設為p、將 9 200927495 上述被塗裝物之沿上述環形膜之移動方向上的寬度設為 A、將上述被塗裝物與被塗裝物間的寬度設為s時,對上述 環形膜進行控制以使其滿足l = n.p==n(a+s),且於上述 環形膜之既定位置配置有上述塗佈膜,故塗佈膜必須配置 於環形膜之既定位置,因此’作為印刷物之被塗裝物的位 置不會產生污垢,因此可獲得穩定之產品。 【實施方式】 圖1所示之片材印刷物加工裝置1主要由以下部分構 ®成: 供給部3 ’供給紙等被塗裝物(印刷物)2 ; 塗裝部6 ’將紫外線硬化樹脂塗料(以下,稱作塗 料)5 ’以小於被塗裝物2之外徑尺寸(AxW)的方式塗佈於所 供給之被塗裝物2的一面2a ; 貼合部1 〇隔著由此塗裝部6所塗佈之uv塗料5之塗 佈膜7’以至少保留被塗裝物2之周圍的邊緣面2b的方式, Q 使該被塗裝物2通過加壓輥8及支撐該加壓輥8之金屬輥 (曲面體)9之間並進行壓接,再以大致無氧狀態進行將其貼 合於環形膜4 ; 硬化部11,以上述環形膜4之張力擠壓上述金屬輥9 曲面上的被塗裝物2,於此狀態下,對上述塗佈膜7之uv 塗料5照射紫外線使其硬化,以使上述uv塗料5被附於被 塗裝物2上; 剝離部12,對上述環形膜4與被塗裝物2之未貼合之 邊緣面2b之間施加外力,使被塗裝物2自上述環形膜4剝 200927495 、送出部13,將上述環形膜 壓輥8以及金屬輥9 :上述貼合部10之加 及 、 吏八經過上述剝離部12而旋轉;以 排出裝载部14,將經剝離且+ 2A排出離且疋成紙面加工之被塗裝物。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Concave-convex processing, etc., for improving the protection and commercial value of sheet printed materials. [Prior Art] Previously, most of the surface processing of sheet printed materials, etc., was performed by pressing a press or a laminate process. The above-mentioned press processing system applied a solvent or a water-based paint to the printed matter, and after drying, it was heated and pressed. The printed matter is attached to the endless conveyor belt of the stainless steel mirror panel, and after cooling, the printed matter is mirrored from the stainless steel mirror panel to protect the printed matter; the above-mentioned printing layering process is to make the transparent or rough film adhere to the printed matter. . Solvents or water are used in both processing methods. & Larger sites and large amounts of heat are required, which can cause more environmental problems. Further, the following sheet "(four) material processing method" is known, that is, a coating machine such as a roll coater, a gravure coater, a flexo coater, or a screen is used. A method in which the entire surface of the sheet printed material is coated with an ultraviolet curable resin coating material, and the coating film is irradiated with ultraviolet rays to impart a gloss to the paper surface of the sheet printed matter. In this method, it is difficult to obtain specular gloss such as press processing or print lamination processing, so the following method is employed, that is, the coating machine is extremely long between the ultraviolet ray and the ejector, and the infrared ray lamp is disposed therebetween. Or the hot air device, as far as possible, the flatness (ieveHng) of the coating film is good. In the above-mentioned method, the coating film of the sheet printed matter is irradiated with infrared rays and heat 6 200927495. Therefore, the sheet printed matter reaches a high temperature. Therefore, in order to prevent agglomeration (the heart is called), measures such as providing a cooling device after infrared irradiation are performed. . However, even if such countermeasures are carried out, it is actually difficult to obtain specular gloss, and the flatness area is only long, so that the following defects are obtained, that is, the ultraviolet curable resin coating will be "into the sheet printed matter" or because the paper surface is heated to a high temperature. Paper is easy to crack and so on. In order to solve the above problem, a method is considered in which a film or a film which is easily transmitted through an outer line is adhered immediately after coating, and is irradiated with ultraviolet rays to be cured, and then peeled off to form a printed matter in a mirror state. For example, Japanese Patent Laid-Open No. 5- _558, Japanese Patent Laid-Open Publication No. SHO-51-542, Japanese Patent Laid-Open Publication No. SHO 55- No. No. No. 57-60153, Japanese Patent Laid-Open No. 57-60153, Japanese Patent No. The invention disclosed in Japanese Laid-Open Patent Publication No. SHO No. Sho No. No. Sho. In the Japanese Patent Application Laid-Open No. Hei 6-344537, the entire disclosure of the present disclosure is directed to a sheet processing apparatus for improving the sheet material. The method for processing a sheet printed matter disclosed in Japanese Laid-Open Patent Publication No. is directed to the application of an ultraviolet curable resin coating (uv coating) to a printed surface under optimum coating conditions even under various conditions of the printed matter. Continuously processing is carried out by adhering the coated object to the film in a substantially anaerobic state and retaining the edge surface around the object to be coated by the UV coating, by which the tension of the film will be The coating is pressed to the metal roll, and the uv paint is irradiated with ultraviolet rays to be hardened by the film, so that the UV paint is attached to the object to be coated, and then applied between the film and the unbonded edge surface of the object to be coated. External force to peel the coated object from the film 7 200927495 to form a resin film on the object to be coated. The endless film in the sheet-printing material processing apparatus disclosed in the above-mentioned Japanese Patent Publication No. Hei 6-344537 is a seamless annular film which is produced by combining the both end faces with a film (10). The standard membrane circumference Μ 36 Μ ' makes it difficult to mount the machine in an endless belt. Moreover, the life of the film is proportional to the length of the film, and therefore, it is desirable that the film circumference is long. ^Ultraviolet hardening coating, the hardening efficiency in an aerobic environment and an oxygen-free environment is, and the coating is applied to the inner side from the entire end of the printed matter, and the printing is pressed to the metal roller by the tension of the film. Ultraviolet rays harden the coating material in a substantially anaerobic state, but the coated end face is liable to be insufficiently hardened, so that the end surface of the coated portion is likely to be soiled. For example, when using a 40-inch transparent film, the number of sheets that can be used in the same place is generally 200 250 times. Further, when the position of the coating film is randomly placed on the annular film, there is a problem in that the dirt at the front end and the rear end portion is left in the coating portion in the form of a horizontal strip, and cannot be used if the number of coatings is increased. The number of times the film is used is also 1/4 or less. SUMMARY OF THE INVENTION Accordingly, it is an object of the invention to provide a sheet printed material processing apparatus capable of increasing the frequency of use of a ring-shaped film. According to the invention, the sheet-printing material processing apparatus of the present invention has at least: a supply unit for supplying a coated object such as paper; and a coating portion for applying a bundle of external hardening within a range smaller than the outer diameter of the object to be coated. The resin coating is formed on one side or both sides of the supplied coated object and the annular film composed of the ultraviolet penetrating material to form a coating 8 200927495 film; the bonding portion 'is under a predetermined pressure The pressure roller and the metal supporting the pressure roller are configured to pass the coated object on which the coating film is formed and the annular film between the pressure roller and the metal roller, thereby preserving the coating The edge surface around the object is crimped and bonded in a substantially anaerobic state; the hardened portion is pressed onto the curved surface of the metal roller by the tension of the annular film to coat the coated surface. When the object moves, the ultraviolet curable resin paint is irradiated with ultraviolet rays through the annular film to be hardened, so that the ultraviolet curable resin paint is attached to the object to be coated; the peeling portion, the ring film and the coated film are coated An external force is applied between the unattached edge faces to peel the object to be coated from the annular film; and the film feeding portion is caused to hang the ring film on the pressure roller and the metal roller of the bonding portion, and In the sheet-like printed material processing apparatus, when the circumferential length _ of the annular film is L, the number of the objects to be coated disposed on the annular film is N, and The length from the front end of the object to the front end of the next object to be coated is P, the width of the object to be coated in the moving direction of the ring film is A, and the object to be coated is When the width between the objects to be coated is set to $, it is controlled so as to satisfy L = NP = N (A + S), and the above-mentioned coating film is disposed at a predetermined position of the above-mentioned annular film. According to the present invention, when the circumferential length of the annular film is L, the number of the objects to be coated disposed on the annular film is N, and the coating is applied from the front end to the next coating. The length from the front end of the object is set to p, the width of the above-mentioned object to be coated in 9 200927495 is set to A in the moving direction of the annular film, and the width between the object to be coated and the object to be coated is set as s. When the annular film is controlled so as to satisfy l = np == n (a + s), and the coating film is disposed at a predetermined position of the annular film, the coating film must be disposed in the annular film. The position, therefore, 'the position of the object to be printed as a printed matter does not cause dirt, so a stable product can be obtained. [Embodiment] The sheet-printing material processing apparatus 1 shown in Fig. 1 is mainly composed of: a supply unit 3' to supply a coated object (printed matter) 2 such as paper; and a coating portion 6' to apply an ultraviolet-curable resin coating material ( Hereinafter, the coating material 5' is applied to the one surface 2a of the object 2 to be coated so as to be smaller than the outer diameter (AxW) of the object 2 to be coated; the bonding portion 1 is coated by the coating portion 1 The coating film 7' of the uv paint 5 applied to the portion 6 is such that at least the edge surface 2b around the object 2 is retained, Q passes the object 2 through the pressure roller 8 and supports the pressurization. The metal roll (curved surface) 9 of the roller 8 is crimped between the metal roll (curved surface) 9 and adhered to the annular film 4 in a substantially oxygen-free state. The hardened portion 11 is pressed against the metal roll 9 by the tension of the annular film 4. In the state of the object 2 on the curved surface, the uv paint 5 of the coating film 7 is irradiated with ultraviolet rays to be cured, so that the uv paint 5 is attached to the object 2; the peeling portion 12, An external force is applied between the annular film 4 and the unattached edge surface 2b of the object 2 to be peeled off, and the object 2 is peeled off from the ring film 4 7495. The delivery unit 13 rotates the ring-shaped film press roller 8 and the metal roller 9 with the bonding portion 10, and passes through the peeling portion 12 to discharge the loading portion 14 to be peeled off and + 2A. a coated object that is discharged and processed into a paper surface
=且’上述供給部3 ’貯存由片材印刷機等所印有多色 U料等被塗裝物2,且由供紙部2q透過送紙輸送㈣ 、張地向上述塗裝部6供給紙塗裝部6與供給部3 係電性或機械地結合’以使#藉由套準裝置(吻办㈣ device)使被塗裝物2之正反兩側翻轉後,供給部3會將一 張被塗裝物2供給至塗裝部6。 一而且,上述塗裝部6係所謂的柔版塗裝機,例如圖2 所示,至少具有: 柔版輥30,於被塗裝物2之一面以上,保留其周圍之 邊緣面2b而塗佈UV塗料5 ;以及 浸潰輥(fountain r〇ll)31 以及網紋輥(anil〇x r〇u)32,用 於對該柔版報3 0均句地供給UV塗料5。 由管35供給之UV塗料5擠出至浸潰輥31以及網紋輥 32之間附著於網紋輥32上,且從網紋輥32轉印至柔版輥 30。當上述被塗裝物2通過上述柔版輥3〇和與其相接之支 承輥34(back-up roll)之間的過程中,轉印於柔版輥3〇上之 UV塗料5係以保留被塗裝物2周圍之邊緣面2b的方式塗 佈於被塗裝物2之一面2a上,從而於被塗裝物之一面2a 11 200927495 上形成塗佈膜7(參照圖2、3、4)。再者,%、”係用以防 止UV塗料5附著於其他部位之托蓋。而且,塗裝部6亦可 使用網版(screen)、凹版(gravure)等版,而代替柔版輥Μ。 ❹ ❿ 而且,上述貼合部10由處於既定遷力下之加麼輥8以 及支撐該加壓輥8的金屬輥9所構成,藉由塗裝部6形成 有塗佈膜7且經輸送帶4〇搬送之被塗裝物2,與環形膜4 一併通過加虔觀8與金屬輥9之間,藉此於環形膜4貼入 有被塗裝物2以使塗佈膜7成為無氧狀態。而且,於钱 部11,上述被塗裝物2受到被張力_施加張力之環㈣ 4的作用而被壓至上述金屬親9 ^ ^ 阳上述被塗裝物2 ㈢自環形膜4剝離,而保持著盔 於金屬輥9上移動時,藉由"線=。該狀態^ ^ m 由1外線照射機42照射紫外線, =佈膜7'UV塗料5硬化,從而環形膜4之表面形狀 轉印至上述塗佈膜7上。 衣®狀 以橡^撕金屬概9較佳為硬質鑛路製。其理由在於,, 以橡膠或鲥脂形成輥時,田 外線照射,而劣化會較快故:線二射機42、42經常的紫 粗糙’紙等被塗裝物2 U下問題:表面變得 要頻繁地更換輥,進 I的品質不穩定,從而需 對表面加工造成障礙,田連續運行而使報之溫度上升而 屬觀較為有效。進❿直此’與橡膠輕或樹脂輥相比,金 水冷Ο冷時,與橡應^ 了抑制輥之溫度之上升,當實施 另外,與金屬輥9相對或樹月曰輥相比,金屬輥亦較有效。 等具有彈力之構件, 其輥面播繞有橡膠板 其與上述金屬親9接觸之部分形成為 12 200927495 具有固定寬度的面’而非線。藉此’可使上述被塗裝物2 透過塗佈臈7貼合於上述環形膜4成為無氧狀態。 而且’上述環形膜4係將膜之兩端連接而成為環形者。 該核形膜4係架設於構成膜送出部13之加屋輥8、金屬輥 1= 觀41、剥離輥43以及輥群44而旋轉。環形膜4係 系外線穿透性材料所製成,其表面較佳為心狀者n 其膜面之狀態並不限於糙面,亦可使用透明、壓花 ❹二_)、全息圖師gram)等。由於由此所形成之塗佈膜 丰t面:成為消光狀態,故具有消除反射所引起之模糊且 亦佳、不容易留下減之效果,進而,^耐辨、 抗水性亦較強之效果。 另外’上述被塗裝物2之邊緣面2b上未塗佈uv塗料 ==如5〜1〇咖,故而,即便使被塗裝物2及環形 膜通過加壓輥8與金屬輥9之間,UV塗料5亦不會自被 形膜4之間冒出。而且,不會於有氧狀態下 ❹^露於i外線下,故而不會殘留有處於未充分硬化狀態之 塗古料5。已知一般而言,當於無氧狀態下照射紫外線時, 與以有氧狀態照射紫外線時相比,硬化速度大約快W倍。 ^述硬化部U中,貼合於環形膜4之被塗裝物2係由 =助輸送帶45支持並送至剝離部12。剝離部12係如圖5 所不,由以下部分構成: 剝離輥43 ; 管50,係沿該剝離輥43而設置;以及 多個喷嘴51,係自上述管5。伸出,喷吐方向朝向上述 13 200927495 環形膜4與被塗裝物2之未貼合的邊緣面2b之間。藉此, 從喷嘴51噴出來自連接於管5〇之氣壓源之空氣,從而將 外力施加至被塗裝物2的邊緣面2b,自上述環形膜4剝離 具有已硬化之塗佈膜7的被塗裝物2A(2+7) ^該被塗裝物 2A係藉由輔助輸送帶45集中於排出裝載部Η。 以上構成之片材印刷物加工裝置1中,上述環形膜4 係以下述方式控制:使環形膜4之全長(膜周長)L、被塗裝 物2之沿環形膜4移動方向上從被塗裝物2之前端至下一 ® 被塗裝物2之前端為止的長度(被塗裝物間距)P、環繞上述 環形膜4 一周配置於環形膜4上之被塗裝物2的片數n、被 塗裝物2之環形膜4移動方向上的長度a、以及被塗裝物2 之間隔S之間滿足以下關係:[=n . P = N(A + S)。 具體而言,於上述環形膜4之兩端面的接合處(藉由透 明PP膠帶連結),設置表示環形膜4之起點的檢測標記(紅 色或者黑色膠帶)。上述間隔s設定為大於貼合在接合處之 〇 連結膠帶的寬度D(D<S),進而,當被塗裝物2之長度A 經設定時,設定被塗裝物2之間的間隔s使L/(A+ s)成為 正整數(自然數)N。而且,被塗裝物間距p是由被塗裝物2 之長度A與間隔S所決定,故而Ν·ρ等於環形膜4之周長 L。如此般以設定間距ρ來控制各個控制要素以使被塗裝物 2貼合於環形膜4。藉此,可夾住接合處(寬度為D),以間 隔S均等地配置上述被塗裝物2,故通常可將被塗裝物2配 置於環形膜4之同一位置上,且可配置塗佈於被塗裝物2 上之塗佈膜7,故可獲得無污垢之穩定的產品。 14 200927495 另外’圖6、7中所示之片材印刷物加工裝置ia與上述 片材印刷物加工裝置丨不同之處在於,藉由塗裝部6於環 形膜4上形成塗佈膜7,之後,利用貼合部1〇將上述塗佈 膜7以保留被塗裝物2邊緣面的方式,貼合於逐一送入之 被塗裝物2。然而,該片材印刷物加工格子la中,亦以同 樣的方式控制環形膜4,藉此可夾住接合處(寬度為D),並 以間隔S均等地配置上述被塗裝物2,故通常可將被塗裝物 2配置於環形膜4的同一位置上,故可獲得無污垢之穩定的 產品。 【圖式簡單說明】 圖1為實現本發明之片材印刷物加工裝置之概略構成 圖。 圖2為表示於被塗裝物塗佈紫外線硬化樹脂塗料之狀 態的說明圖》 圖3為表示於環形膜透過紫外線硬化樹脂塗料貼合有 被塗裝物之狀態的平面說明圖。 0 圖4為表示於環形膜透過紫外線硬化樹脂塗料貼合有 被塗裝物之狀態的側面說明圖。 圖5為表示剝離部之細節之說明圖。 圖6為實現本發明之另一片材印刷物加工裝置之概略 構成圖。 圖7為表示圖6所示之片材印刷物加工裝置中於被塗 裝物塗佈紫外線硬化樹脂塗料之狀態的說明圖。 【主要元件符號說明】 15 200927495And the 'supply unit 3' stores a coated object 2 such as a multi-color U material printed on a sheet printing machine or the like, and is supplied to the coating unit 6 by the paper feed unit 2q through the paper feed conveyance (four). The paper coating unit 6 is electrically or mechanically coupled to the supply unit 3 so that the front side and the opposite side of the object 2 are reversed by the registration device (the device), and the supply unit 3 will One of the objects 2 to be coated is supplied to the painting unit 6. Further, the coating unit 6 is a so-called flexographic coating machine, for example, as shown in Fig. 2, and has at least a flexographic roller 30 coated on one or more surfaces of the object 2 to be coated with the peripheral edge surface 2b. A UV coating 5; and a dipping roller 31 and an anilox roller 32 are used to supply the UV coating 5 to the flexographic report. The UV coating material 5 supplied from the tube 35 is extruded between the dip roller 31 and the anilox roller 32 to adhere to the anilox roller 32, and is transferred from the anilox roller 32 to the flexographic roller 30. The UV coating 5 transferred onto the flexographic roller 3 is retained during the process between the above-mentioned coated object 2 passing through the above-mentioned flexographic roller 3 and the back-up roll attached thereto. The surface 2b around the object 2 is applied to one surface 2a of the object 2 to form a coating film 7 on one surface 2a 11 200927495 of the object to be coated (refer to Figs. 2, 3, and 4). ). Further, %, " is used to prevent the UV coating 5 from adhering to other parts of the cover. Moreover, the coating portion 6 may use a screen, a gravure or the like instead of the flexographic roll. Further, the bonding portion 10 is composed of a roller 8 under a predetermined relocation force and a metal roller 9 supporting the pressure roller 8, and the coating film 7 is formed by the coating portion 6 and is conveyed by the conveyor belt. 4〇 The conveyed object 2 is placed between the twisted view 8 and the metal roll 9 together with the annular film 4, whereby the coated object 2 is adhered to the annular film 4 so that the coated film 7 becomes Further, in the money portion 11, the object 2 to be coated is pressed by the tension-application tension ring (4) 4 to the metal member 9 ^ ^ Yang, the object to be coated 2 (3) from the ring film 4 Peeling, while keeping the helmet moving on the metal roller 9, by "line=. This state ^^m is irradiated with ultraviolet rays by the outer-line irradiator 42, the film 7'UV coating 5 is hardened, and the annular film 4 is The surface shape is transferred onto the above-mentioned coating film 7. The shape of the clothing is preferably a hard ore metal. The reason is that the roller is formed of rubber or rouge. When the field line is irradiated, the deterioration will be faster: the line two-shot machine 42, 42 often has a purple rough 'paper, etc. 2 2 under the problem of the object: the surface becomes frequently replaced, the quality of the I is not Stable, which requires obstacles to the surface processing, and the continuous operation of the field makes the reported temperature rise and it is more effective. In this case, compared with the rubber light or resin roller, when the gold water is cold and cold, it should be with the rubber. Inhibiting the rise of the temperature of the roller, when implemented in addition, the metal roller is also more effective than the metal roller 9 or the tree-rolling roller. The elastic member has a rubber sheet which is wound with a rubber sheet and is adjacent to the metal. The contact portion is formed as 12 200927495 having a fixed width surface ' instead of a line. Thus, the above-mentioned object 2 can be adhered to the annular film 4 through the coating crucible 7 to be in an oxygen-free state. The rib-shaped film 4 is attached to the film-feeding unit 13 and the metal roll 1 = 41, the peeling roll 43, and the roll group 44 to rotate. The membrane 4 is made of an outer thread penetrating material, and the surface thereof is preferably The state of the film surface is not limited to the rough surface, and it is also possible to use a transparent, embossed ruthenium ruthenium, or a hologram gram, etc. Since the coating film thus formed has a rich surface, it becomes a matte state. Therefore, it has the effect of eliminating the blur caused by the reflection, and is not easy to leave the effect of the reduction, and further, the effect of resistance and water resistance is strong. Further, the edge surface 2b of the above-mentioned object 2 is not coated. Uv paint == 5 to 1 ,, so even if the coated object 2 and the annular film pass between the pressure roller 8 and the metal roller 9, the UV coating 5 does not eject from the film 4 Moreover, it is not exposed to the outer line of the i in an aerobic state, so that the ancient material 5 which is not sufficiently hardened remains. It is known that, in general, when ultraviolet rays are irradiated in an oxygen-free state, the hardening speed is approximately W times faster than when ultraviolet rays are irradiated in an aerobic state. In the hardened portion U, the object 2 to be attached to the annular film 4 is supported by the =-feeding belt 45 and sent to the peeling portion 12. The peeling portion 12 is composed of a peeling roller 43 and a tube 50 disposed along the peeling roller 43 as shown in Fig. 5, and a plurality of nozzles 51 from the tube 5. Extending, the ejection direction is directed between the above-mentioned 13 200927495 annular film 4 and the unattached edge face 2b of the object 2 to be coated. Thereby, air from the air pressure source connected to the tube 5 is ejected from the nozzle 51, and an external force is applied to the edge surface 2b of the object 2 to be peeled off, and the film having the hardened coating film 7 is peeled off from the ring film 4. Coating 2A (2+7) ^ The object 2A is concentrated on the discharge loading unit by the auxiliary conveyor belt 45. In the sheet-like printed material processing apparatus 1 configured as described above, the annular film 4 is controlled such that the entire length (film circumference) L of the annular film 4 and the coated object 2 are coated from the direction in which the annular film 4 is moved. The length from the front end of the package 2 to the front end of the next coating object 2 (the distance between the objects to be coated) P, the number of the objects 2 to be coated on the annular film 4 around the annular film 4 The length a in the moving direction of the annular film 4 of the object 2 to be coated and the interval S between the objects to be coated 2 satisfy the following relationship: [=n . P = N (A + S). Specifically, at the joint of both end faces of the annular film 4 (connected by a transparent PP tape), a detection mark (red or black tape) indicating the origin of the annular film 4 is provided. The interval s is set to be larger than the width D (D<S) of the 〇 coupling tape attached to the joint, and further, when the length A of the object 2 is set, the interval s between the objects 2 is set. Let L/(A+ s) be a positive integer (natural number) N. Further, the distance p of the object to be coated is determined by the length A of the object 2 to be coated and the interval S, so that Ν·ρ is equal to the circumference L of the annular film 4. Thus, the respective control elements are controlled at a set pitch ρ so that the object 2 to be attached is bonded to the annular film 4. Thereby, the joint (the width D) can be sandwiched, and the object 2 can be disposed evenly at the interval S. Therefore, the object 2 can be disposed at the same position of the annular film 4, and can be disposed. The coating film 7 is placed on the object 2 to be coated, so that a stable product free from dirt can be obtained. 14 200927495 Further, the sheet-like printed material processing apparatus ia shown in Figs. 6 and 7 is different from the above-described sheet-printing material processing apparatus in that the coating film 7 is formed on the annular film 4 by the coating portion 6, and thereafter, The coating film 7 is attached to the object 2 to be coated one by one by the bonding portion 1 so as to retain the edge surface of the object 2 to be coated. However, in the sheet printed material processing grid la, the annular film 4 is also controlled in the same manner, whereby the joint (width D) can be sandwiched, and the object 2 can be equally disposed at intervals S, so usually The object 2 to be coated can be placed at the same position of the annular film 4, so that a stable product free from dirt can be obtained. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic configuration diagram of a sheet printing material processing apparatus embodying the present invention. 2 is an explanatory view showing a state in which the ultraviolet-curable resin coating material is applied to the object to be coated. FIG. 3 is a plan view showing a state in which the object to be coated is bonded to the ring-shaped film through the ultraviolet-curable resin coating material. [Fig. 4] Fig. 4 is a side explanatory view showing a state in which a film is bonded to an annular film through an ultraviolet curable resin paint. Fig. 5 is an explanatory view showing details of a peeling portion. Fig. 6 is a schematic block diagram showing another sheet printing apparatus for carrying out the invention. Fig. 7 is an explanatory view showing a state in which the ultraviolet curable resin coating material is applied to the object to be coated in the sheet-like printed product processing apparatus shown in Fig. 6 . [Main component symbol description] 15 200927495
1、la 片材印刷物加工裝置 2、2A 被塗裝物 2a 一面 2b 邊緣面 4 環形膜 5 紫外線硬化樹脂塗料 6 塗裝部 7 塗佈膜 8 加壓輥 9 金屬輥 10 貼合部 11 硬化部 12 剝離部 13 膜送出部 14 排出裝載部 20 供紙部 21 送紙輸送帶 30 柔版輥 31 浸潰輥 32 網紋輥 34 支承輥 35、50 管 36、37 托蓋 40 輸送帶 16 200927495 41 張力輥 42 紫外線照射機 43 剝離輥 44 輥群 45 辅助輸送帶 51 喷嘴1. la sheet printing apparatus 2, 2A coated object 2a one side 2b edge surface 4 annular film 5 ultraviolet curable resin coating 6 coating part 7 coating film 8 pressure roller 9 metal roller 10 bonding part 11 hardening part 12 peeling portion 13 film feeding portion 14 discharge loading portion 20 paper feed portion 21 paper feed conveyor 30 flexographic roller 31 impregnation roller 32 anilox roller 34 support roller 35, 50 pipe 36, 37 cover 40 conveyor belt 16 200927495 41 Tension roller 42 UV irradiator 43 Peeling roller 44 Roller group 45 Auxiliary conveyor belt 51 Nozzle
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