五、新型說明: 【新型所屬之技術領域】 本創作「印刷上光裝置」,主要涉及使被工作物 表面可得到一種光亮和耐磨的保護層的印刷後上 光的領域,尤特指是系實現縮短加工時間,減少 工序流程,降低損耗,增加生產效率的設計。 【先前技術】 在包裝印刷中,隨著印刷技術和設備等不斷提 向,以及商品競爭的曰趨激烈,人們對包裝印刷 品的外觀要求也越來越重視,不斷推出特異新異 的包裝方法和包裝印刷品表面的處理技術,其中 上光技術已經得到了普遍的應用,使商品包裝躍 上新的高度。上光不僅保護了印刷品,還改變了 印刷品的外貌質感與視覺效果,促進商品銷售。 在消費者對印刷品或包裝的要求越來越高的情況 下,印刷品上光已成為印刷品增值和現代商品促 銷的重要手段。 上光是在已經印刷完成的印刷品表面塗上一層 的塗料’可獲得光亮的薄膜層。上光時由於塗料 在印品表面的流平,增強了印品表面的平滑度, ϋ397904 不僅提尚了印刷品的表面光澤,而且改善了印刷 品的表面性能,增強耐磨性能和防潮能力,起到 了保護印刷圖文、美化包裝產品的作用,已廣泛 用於書籍封面加工和包裝印刷品的表面加工中。 目則已知的上光技術是必需經過多道加工流程 才能完成,如原材料輸送、印刷、裁切、上光塗 布、貼合、成品,其缺點是卜對於厚紙板、紙箱、 PVC和PET…等塑膠板不易上光塗布。2。生產工 序流程比較多,造成損耗過大。3。使用機械設備 較多,投資成本比較高。 【新型内容】 本創作主要目的在於提供一種可縮短加工時 間,減少工序流程,降低損耗,增加生產效率的「印 刷上光裝置」設計。 本創作的技術内容為:基本由輸送單元印刷 上光塗布單元、燈箱烘乾單元、uv燈箱固化乾燥 單元和堆叠單元等五大部份組成。此五單元系連 續而設,使每一道加工的手續都可接續動作,而 完成自動印刷上光之作業。 步有益效果是 工作物下吸風 與現有技術相比,本創作進一 輸送單元採用獨立馬達控制,使用 4 方式,由側擋板和前擋板控制被工作物位置的輸 送,經傳動導輪將被工作物平穩輸送至印刷上光 塗布單元。而印刷上光塗布單元採用獨立馬達控 制傳動,塗布方式採用陶瓷網紋輪和密閉氏腔式 刮刀裝置塗布於印版上,當被工作物印刷上光後, 再經吸風輪吸風裝置傳送到燈箱烘乾和燈箱固 化乾燥單元。 該IR燈粕供乾單元系採用數支燈管(IR燈為 佳)和熱風裝置進行印刷上光被工作物後的烘乾, 供乾後其輸送網帶傳送被工作物至uv燈箱固化乾 燥單元。UV燈箱固化乾燥單元系採用數支uv紫外 線燈管裝置進行UV上光被工作物塗布後的固化乾 燥,烘乾後其輸送網帶傳送被工作物至堆疊單 元。堆疊單元系採用獨立馬達控制傳動可單獨控 制輸送帶輸送速度,使用冷卻風扇對被工作物進 行散熱和氣動式齊整方式,可確保被工作物整齊 堆叠。 與現有技術相比,本創作的優點: (1) 使用環保水性原材料,達到簡易印刷上光包 裝和實現綠色環保的構想。 (2) 解決了印刷後。對於厚紙板、紙箱、pVC和 PE1T “ ·等塑膠板不易上光塗布的現象。 M397904 ⑶免除以前生產工序流程較多,造成損耗過大 的現象,增加生產的效率。 下面結合附圖和具體實施例對本創作作進一步 描述。 【實施方式】 為了更充分理解本創作的技術内容,下面結合 圖示對本創作的技術方案進一步介紹和說明。 本創作「印刷上光裝置」,如第一圖所示,基本 由輸送單幻、印刷上光塗布單it 2、燈箱供乾單 元3、UV燈箱固化乾燥單元4和堆疊單元5等五 大部份組成。此五單元系連續而設,使每一道加 工的手續都可接續動作,而完成自動上光之作業。 其中,輸送單元1包括有前擋板6、侧擋板7、 下吸風裝置8及傳動導輪9,如第二圖所示,輸送 單元採用獨立馬達控制,控制下吸風裝置8,使位 於被工作物下進行吸風方式,而側擋板7和前擋板 6則控制被工作物輸送的位置,使可順利的由傳動 導輪9平穩輸送至印刷上光塗布單元2。 如第三圖所示’印刷上光塗布單^包含氣壓 m氏刮刀裝置u、陶究網紋輪 12、印刷上光版輪18、壓力調整輪16、位於廢力 調整輪16前後方之吸風裝置15、19,及傳動導輪 6 M397904 13、14,位於吸風裝置19後方之吸風輪20。印刷 上光版輪18上設的印版π為全版掛版方式,使用 手動絞版裝置固定印版17;塗布方式採用陶瓷網 紋輪12和密閉氏腔式到刀裝置π塗布在印版17 上,首先首先使用氣壓裝置1〇將密閉氏腔氏到刀 裝置11靠在陶瓷網紋輪12上,將密閉氏腔氏刮 刀裝置11内的油墨或上光油存留在陶瓷網紋輪 12上;再經由轉印方式將油墨或上光油塗抹在印 刷上光版輪18上的樹脂版或橡皮布之印版17,而 印版17可使用橡皮布或是樹脂版來工作成全部印 刷上光或局部印刷上光。壓力調整輪丨6位於印刷 上光版輪18下方,可用於調整被工作物印刷上光 的壓力和傳送被工作物;印刷上光塗布單元2採用 獨立馬達控制傳動,經傳動導輪13、14和吸風裝 置15、19吸風的方式,將被工作物平穩輸送至印 刷上光版輪18,當被工作物經印刷上光版輪18 印刷上光後,就經吸風輪2〇將被工作物吸送到下 一個燈箱烘乾單元3進行加工。 如圖4、圖5所示,燈箱烘乾單元3,系位於上 光塗布單元2之後,設有輸送輪22、熱風裝置21, 輸送網23、吸風盤24、照射燈管25所組成,其 包含輸送及烘噪兩個結構功能,輸送網23受輸送 7 M397904 輪22之帶動,而吸風盤24位於輸送網23下方, 以將被工作物順利的依一定方向前進,而烘乾的 結構,則由熱風乾噪裝置對被工作物的表面進行 乾燥工作,烘乾後由輸送網23傳送被工作物至ϋν 燈箱固化乾燥單元4加工。而位於輸送網23上方 之照射燈管25以紅外燈(ir燈為最佳)。 UV燈箱固乾燥化單元4,設有ϋν燈箱27,於 其内置有紫外燈(UV燈)26,其烘乾的順序,乃先 由IR燈來烘乾被工作物上的油墨或上光油而ϋν 燈可對被工作物上墨油或上光油進行固化,使被 工作物上產生一層光亮和耐磨的保護層。 如圖六及圖七所示,為堆疊單元5,設有輸送 部及堆疊部,輸送部包含有輸送皮帶28 、吸風盤 33和輸送輪34,而堆疊部設有堆疊鐵板35,於輸 送皮帶28部尾端設有前擋板29、側擋板及後擋板 用於整齊堆疊物件,於前擋板29上設有風扇3〇, 可對被工作物進行冷卻,使被工作物平整的堆疊 至堆疊鐵板35上。堆疊單元5系採用獨立馬達控 制傳動,可單獨控制輸送皮帶28輸送速度,使用風 扇30對被工作物進行散熱和由前擋板29、側檔板 31及後擋板32利用氣動式方式確保工作物整齊 堆疊。 8 綜上所述,本創作「印刷上光裝置」簡化被工 作物上光的加工過程及機具,迅速的經由輸送、 上光塗布、烘乾及堆疊的動作即可完成,且結構 簡單’簡化流程及設備,降低成本及損耗,具有 省時又經濟的功效,是一極具有實用價值與經濟 效益的實用新型,因此特依法提出專利申請。 【圖式簡單說明】 第1圖:為本創作之結構示意圖。 第2圖.為本創作輸送單元之示意圖。 第3圖·為本創作上光塗布單元之示意圖。 第4圖·為本創作;I:共乾單元之上視圖。 第5圖.為本創作烘乾單元之前視圖。 第6圖:為本創作堆疊單元之上視圖。 第7圖:為本創作堆疊單元之前視圖。 【主要元件符號說明】 輸送單元 2… …上光塗布單元 燈箱烘乾單元 4·... •••UV燈箱固化乾燥單元 堆疊單元 6…· ’··則擋板 側擋板 8…. '··下吸風裝置 傳動導輪 10- •…氣壓裝置 11......密閉氏腔氏刮刀裝置 11397904 12……陶瓷網紋輪 13......傳動導輪 14......傳動導輪 15......吸風裝置 16……壓力調整輪 17……印版 18......印刷上光版輪 19......吸風裝置 20......吸風輪 21......熱風裝置 22……輸送輪 23……輸送網 24......吸風盤 25......照射燈管 26……紫外燈(UV燈) 27……UV燈箱 28……輸送皮帶 29……前擋板 30......風扇 31......側播板 32......後擋板 33......吸風盤 34......輸送輪 35......堆疊鐵板V. New description: [New technical field] The creation of "printing glazing device" mainly involves the field of post-printing glazing that provides a bright and wear-resistant protective layer on the surface of the workpiece. Designed to reduce processing time, reduce process flow, reduce losses, and increase production efficiency. [Prior Art] In packaging printing, with the continuous advancement of printing technology and equipment, and the fierce competition of commodities, people pay more and more attention to the appearance requirements of packaging printed materials, and continue to introduce new and unique packaging methods and The processing technology of the surface of packaging printed materials, in which glazing technology has been widely used, has brought the packaging of goods to a new height. Polishing not only protects the printed matter, but also changes the appearance and visual effect of the printed matter, and promotes the sale of goods. In the case of consumers' increasingly demanding prints or packaging, print glazing has become an important means of value-added print and modern goods promotion. Glazing is the application of a layer of paint on the surface of a printed print to obtain a bright film layer. When glazing, due to the leveling of the paint on the surface of the printed product, the smoothness of the surface of the printed product is enhanced. ϋ397904 not only improves the surface gloss of the printed matter, but also improves the surface properties of the printed matter, enhances the wear resistance and moisture resistance, and The role of protecting printed graphics and beautifying packaging products has been widely used in the surface processing of book cover processing and packaging prints. The known glazing technology must be completed through multiple processing processes, such as raw material conveying, printing, cutting, glazing coating, lamination, and finished products. The disadvantages are that for cardboard, cardboard, PVC and PET... Such plastic sheets are not easy to be coated with light. 2. There are many production process procedures, resulting in excessive losses. 3. More mechanical equipment is used and investment costs are higher. [New content] The main purpose of this creation is to provide a "printing glazing device" design that can shorten the processing time, reduce the process flow, reduce the loss, and increase the production efficiency. The technical content of this creation is basically composed of five parts: the glazing coating unit, the light box drying unit, the uv light box curing and drying unit and the stacking unit. The five units are continuously designed so that each processing procedure can be continued, and the automatic printing glazing operation is completed. The beneficial effect of the step is that the suction under the work is compared with the prior art, and the creation of the transport unit is controlled by an independent motor. The four-way method is used to control the conveyance of the workpiece by the side fence and the front bezel, and the transmission guide wheel will be The workpiece is smoothly conveyed to the printing glazing coating unit. The printing glazing coating unit adopts an independent motor to control the transmission, and the coating method is applied on the printing plate by using the ceramic mesh wheel and the closed cavity cavity squeegee device, and after being printed and glazed by the working object, the suction device is transmitted through the suction wheel suction device. Go to the light box to dry and the light box to cure the drying unit. The IR lamp 粕 supply unit uses a plurality of lamps (IR lamps are preferred) and a hot air device to perform printing and glazing after being dried by the work object, and after being dried, the conveyor belt conveys the work object to the uv light box to be solidified and dried. unit. The UV light box curing and drying unit uses several uv ultraviolet lamp tube devices to cure and dry the UV glazing after being coated with the workpiece. After drying, the conveyor belt transports the workpiece to the stacking unit. The stacking unit is controlled by a separate motor to control the conveying speed of the conveyor belt. The cooling fan is used to dissipate heat and pneumatically align the workpiece to ensure that the workpieces are stacked neatly. Compared with the prior art, the advantages of this creation: (1) The use of environmentally friendly water-based raw materials to achieve the concept of simple printing glazing and green environmental protection. (2) Resolved after printing. For thick cardboard, carton, pVC and PE1T “·The plastic plate is not easy to be coated with light. M397904 (3) Exempts the previous production process, resulting in excessive loss, increasing production efficiency. Below with reference to the drawings and specific examples The present invention will be further described. [Embodiment] In order to more fully understand the technical content of the present creation, the technical solution of the present creation is further introduced and explained below with reference to the drawings. The creation "printing glazing device", as shown in the first figure, It consists of five parts: conveying single illusion, printing glazing coating unit single 2, light box drying unit 3, UV light box curing drying unit 4 and stacking unit 5. The five units are continuously designed so that each processing procedure can be continued, and the automatic glazing operation is completed. The conveying unit 1 includes a front baffle 6, a side baffle 7, a lower suction device 8, and a transmission guide wheel 9. As shown in the second figure, the conveying unit is controlled by an independent motor, and the lower suction device 8 is controlled to The suction mode is performed under the work object, and the side fence 7 and the front bezel 6 control the position to be conveyed by the work object, so that the drive guide wheel 9 can be smoothly conveyed to the printing glazing coating unit 2 smoothly. As shown in the third figure, the printing glazing coating unit includes a gas pressure m scraper device u, a ceramic stencil wheel 12, a printing glazing wheel 18, a pressure adjusting wheel 16, and a suction at the front and rear of the waste force adjusting wheel 16. The wind devices 15, 19, and the transmission guide wheels 6 M397904 13, 14 are located in the suction wheel 20 behind the suction device 19. The printing plate π provided on the printing glazing wheel 18 is a full-page hanging mode, and the printing plate 17 is fixed by using a manual stenciling device; the coating method is applied to the printing plate by using the ceramic mesh wheel 12 and the closed cavity-to-knife device π. 17 First, the airtight device 1 is first used to press the closed cavity to the knife device 11 against the ceramic anilox wheel 12, and the ink or glazing oil in the sealed cavity doctor device 11 is retained in the ceramic mesh wheel 12. The ink or varnish is applied to the printing plate 17 of the resin plate or the blanket on the printing plate wheel 18 by transfer printing, and the printing plate 17 can be used to print all the printing using a blanket or a resin plate. Glossing or partial printing glazing. The pressure adjusting rim 6 is located below the printing glazing wheel 18, and can be used for adjusting the pressure of the glazing printed by the workpiece and conveying the workpiece; the printing glazing unit 2 is controlled by an independent motor, and the driving guide wheels 13 and 14 are driven. And the suction device 15, 19 absorbs the wind, and the workpiece is smoothly conveyed to the printing glazing wheel 18. When the workpiece is printed and glazed by the printing glazing wheel 18, the suction wheel 2 The workpiece is sucked to the next light box drying unit 3 for processing. As shown in FIG. 4 and FIG. 5, the light box drying unit 3 is located behind the glazing coating unit 2, and is provided with a conveying wheel 22, a hot air device 21, a conveying net 23, a suction disk 24, and an illuminating lamp tube 25. The utility model comprises two structural functions of conveying and noise-removing, the conveying net 23 is driven by the transporting 7 M397904 wheel 22, and the suction disc 24 is located below the conveying net 23, so that the workpiece can be smoothly moved in a certain direction, and dried. In the structure, the surface of the work object is dried by the hot air noise suppression device, and after drying, the work object is transported by the transport net 23 to the ϋν light box solidification drying unit 4. The illumination tube 25 located above the conveyor network 23 is an infrared lamp (ir light is preferred). The UV lamp box solid drying unit 4 is provided with a ϋν light box 27, and has a built-in ultraviolet lamp (UV lamp) 26, and the order of drying is firstly dried by an IR lamp to dry the ink or varnish on the work object. The ϋν lamp can cure the ink or varnish on the work object to create a bright and wear-resistant protective layer on the work object. As shown in FIG. 6 and FIG. 7 , the stacking unit 5 is provided with a conveying portion and a stacking portion. The conveying portion includes a conveying belt 28 , a suction tray 33 and a conveying wheel 34 , and the stacking portion is provided with a stacked iron plate 35 . The front end of the conveyor belt 28 is provided with a front baffle 29, a side baffle and a tailgate for neatly stacking objects, and a fan 3 is arranged on the front baffle 29 to cool the work object and make the work object The flat stack is stacked on the stacked iron plate 35. The stacking unit 5 adopts an independent motor to control the transmission, and can separately control the conveying speed of the conveying belt 28, use the fan 30 to dissipate the work object, and ensure the work by the front baffle 29, the side baffle 31 and the tailgate 32 by pneumatic means. The items are stacked neatly. 8 In summary, the creation of the "printing glazing device" simplifies the processing and tooling of the glazing of the work, and can be quickly completed through the operations of conveying, glazing, drying and stacking, and the structure is simple. The process and equipment, which reduce cost and loss, have the effect of saving time and economy, and are a practical new type with practical value and economic benefit. Therefore, patent application is filed according to law. [Simple description of the diagram] Figure 1: Schematic diagram of the structure of the creation. Figure 2. Schematic diagram of the original delivery unit. Fig. 3 is a schematic view of the glazing coating unit of the present invention. Figure 4 is the original creation; I: the top view of the co-drying unit. Figure 5. Front view of the creation drying unit. Figure 6: The top view of the creative stacking unit. Figure 7: Front view of the creative stacking unit. [Description of main component symbols] Conveying unit 2... glazing coating unit Light box drying unit 4·... ••• UV light box curing drying unit stacking unit 6...· '··The baffle side baffle 8....' ··Lower suction device drive guide wheel 10--...Pneumatic device 11...Closed-cavity scraper device 11397904 12...Ceramic mesh wheel 13...Drive guide wheel 14... ...drive guide 15 ... suction device 16 ... pressure adjustment wheel 17 ... printing plate 18 ... printing glazing wheel 19 ... suction device 20 ... suction wheel 21...hot air device 22...conveyor wheel 23...transport net 24...suction disc 25...irradiation tube 26... ...UV lamp (UV lamp) 27...UV lamp box 28...Conveyor belt 29...Front bezel 30...Fan 31...Side deck 32...Back gear Plate 33... suction tray 34... conveyor wheel 35... stacked iron plate