1274668 九、發明說明: 【發明所屬之技術領域】 本發明係有關於-種微塗佈圖案列印方法及 =:重應用於呈矩陣排列圖形之圖案的微 案列。 方法及系統。 丨 【先前技術】 按工業上所需喷印之圖幸,當兩 。 水吊而有特定的型態例如喷 印在頒不益上的彩色濾光片元件 计^ ^ 丁 a有機發光平面顯示器 其所需之資料處理方式係較筒思、, 印古、土 ★•易’亚不需如—般影像的喷 P方法,需經繁雜的處理流程才可完成。 而現今工業上所需噴印之圓 ^ 丨之®案,於貫際應用時,必需 依照不同用途之圖案,以旋轉嘴 ^ ^ _ 和貝墨頭角度對應不同的圖案 角午析度’進行圖案喷印工作5在安 , 在圖木列與列間距大於喷墨 孔間距日守就必須更換噴墨頭以 、 I疚糸不同的圖案,此種方 /不僅f 咼製作成本,更需έ當 矣 H 又而、、、工吊性地對應不同用途之圖 木,更換不同喷墨解析度之喑# 由“ M H又如第8圖所示’其 中ϋ貝墨頭4 0上的噴孔間距传丨 門"主 仏小於待噴印圖案5 0列與列之 間距,此情況即使藉由旋韓喰 印,其仍存右〜1 “ 的方式進行圖案列 八 貝土 '上之〇貧孔對應不到待噴印圖案50 的列位置而導致噴印結果錯 問喊。此外,當噴墨頭之 少數噴孔故障或損壞時,即需f 、、 安^ P而更換一個新的喷墨頭進行圖 木口貝印工作,亦提高製作成本 取承更不具環保概念。 因此,如何提供一種可利用 + 夕罔古、 用冋一贺墨頭對應不同用途 之圖木’以自動調整其噴墨解 解析度,且於噴墨頭之喷孔故 18815 5 1274668 障或損壞時,能利用其它正 + 印工作之忾、、入& θ & 吊運作之賀孔繼續進行圖案喷 之U坌佈圖案列印方 — 待解之問題。 /及糸、、先,貫為此產業中亟欲 【發明内容】 在提i於以上所述f知技術之問題,本發明之主要目的俜 在美供一種微塗佈圖宰 女曰的知 頭可喑b 4^ 及系統,以令至少一噴墨 貝了貝印出呈矩陣排列圖形之圖案。 貝土 1法及ίί明之Γ二^的係在提供一種微塗佈圖案列印方 '性。…’以降低製作成本,並提高®案噴印工作的便利1274668 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a micro-coating pattern printing method and a micro-file which is applied to a pattern of a matrix-arranged pattern. Method and system.丨 [Prior Art] According to the industrial printing required map, two. The water sling has a specific type, such as the color filter component that is printed on the unimportant color. The required data processing method is the same as that of the tube, and the ancient and the earth ★ Easy 'Asia does not need to be like the image of the spray P method, it can be completed through a complicated process. In today's industry, the printing method of the circle ^ 丨 ® 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The pattern printing work 5 is in safety. In the case where the spacing between the column and the column is larger than the spacing of the ink-jet holes, it is necessary to replace the ink-jet head with a different pattern, which is not only f 咼 production cost, but also needs to be έ When 矣H is again and again, it is suitable for the different use of the wood, and the different inkjet resolution is replaced by # MH is as shown in Figure 8, where the orifice on the mussel ink head 40 The spacing is different from the column to be printed. The distance between the column and the column is less than 50 mm. Corresponding to the column position of the pattern to be printed 50, the result of the printing is wrongly called. In addition, when a small number of nozzles of the inkjet head are damaged or damaged, it is necessary to replace the nozzle with a new inkjet head to replace the inkjet head, thereby increasing the production cost and taking the environmental protection concept. Therefore, how to provide a kind of map that can be used for the different uses of the 墨 罔 罔 、 贺 贺 以 以 以 以 以 以 以 以 以 以 以 以 以 以 ' 自动 ' ' ' ' ' ' ' ' 188 188 188 188 188 188 188 188 188 188 188 188 188 At the same time, it is possible to use the other positive + printing work, the & θ & lifting operation hole to continue the pattern printing U 坌 cloth pattern printing side - the problem to be solved. / 糸 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The head can be 喑b 4^ and the system such that at least one ink jet is printed in a matrix-arranged pattern. The shellfish 1 method and the ίί明之Γ2^ are provided in a micro-coating pattern for printing. ...' to reduce production costs and improve the convenience of the printing work in the ® case
V 、去及=月之⑦二目的係在提供—種微塗佈圖案列印方 圖ΐ;1;二案列與列間距大於喷墨孔間距時’依據該 工作之^ Γ離,選取該噴墨頭上欲用以進行喷印 姑胃,*调整其噴墨解析度,不必受限於圖荦解 2度而需更換喷墨頭,以增加製作的方便性與減少製作成 列盘已砥取之該喷孔間的距離,係不必限定為該圖案之 列與列的距離的倍數關係。 本發明之第四目的係在提供一種微塗佈圖案列印方 法=系統,以於噴墨頭之喷孔故障或損壞時,能利用其它 ,正常運作之喷孔繼續進行圖案噴印工作,不僅可降低製作 成本,更具環保概念。 ^本發明之第五目的,在於提供一種彈性的模、组構成設 計,使得喷墨頭資料的排列與待列印圖案的排歹卜達成 解析度需求的-致性’並可依使用者需求彈性構增,並以 18815 6 1274668 ::間的時序落差控制,取 解決傳統喑#古、丄a、丄 1月山钱械调變控制, |法達成高精確㈣顯制需求。 為達成上揭主要及其他目的, 佈圖宰列印太、土 ^ 表月I揭路一種微塗 離,:: 該方法係依據該圖案中等列的距 外+ 貝用以進仃實印工作之喰a,日·^私 喷印工作。” 據該圖案令該喷墨頭進行 而對應上揭之微塗佈圖宰 種微涂木列印方法,本發明復揭露一 禋,佈圖案列印系統,該系統係包 制早兀,該資料庫係用以 安由 空 距離,以選取噴墨頭 依據:亥圖案中之列與列的V, go and = 7 of the purpose of the month is to provide a micro-coating pattern printing ΐ; 1; two cases and column spacing is greater than the spacing of the inkjet holes, according to the work of the separation, select the The inkjet head is used to print the abdomen, * adjust the inkjet resolution, and the inkjet head needs to be replaced without being limited to 2 degrees, so as to increase the convenience of production and reduce the production of the disk. The distance between the orifices is not necessarily limited to a multiple of the distance between the rows of the pattern and the columns. A fourth object of the present invention is to provide a micro-coating pattern printing method=system, which can continue to perform pattern printing work by using other, normally operating orifices when the nozzle of the inkjet head is broken or damaged. It can reduce production costs and be more environmentally friendly. The fifth object of the present invention is to provide an elastic mold and group design, so that the arrangement of the inkjet head data and the layout of the image to be printed can achieve the resolution requirement and can be customized according to the needs of the user. The elastic structure is increased, and the time difference control between 18815 6 1274668:: is used to solve the traditional 喑#古,丄a, 丄1 month mountain machinery control, | method to achieve high precision (four) display requirements. In order to achieve the main and other purposes of the above, the layout of the printing and the soil, the surface of the moon, the surface of the road, a micro-coating,:: The method is based on the pattern of the outer row of the outer + shell for the work of printing After a, the day ^ private printing work. According to the pattern, the inkjet head is carried out to correspond to the micro-coating method of micro-coating wood printing method, and the present invention is disclosed in a cloth pattern printing system, which is packaged early. The database is used to set the inkjet head according to the column and column in the Hai pattern.
土貝上>6人用以進仃贺印工凡A 的弟一遮罩育料以及依據該圖案疋 與圖案噴印參數,而該控制單元—34罩貝抖 資料並作相關處理,以令該資料庫中之 該控制單元俜頭作動,其中’於喷印時, 早凡係由遠貝枓庫中取出該第一遮罩資料以及 1 -这罩㈣’令該噴墨頭調整至適#噴印位置,並進行— 异程序於噴墨頭與被噴印基板在該圖案之列方向 2對運動過程中,依該對應運算程序後之結果再參照 圖木嘴印參數進行噴印工作。 相車乂方、白知技術,本發明係透過同一噴墨頭對應不同 用途之圖案,以自動調整其喷墨解析度,且於該噴墨頭之 1孔故障或損壞時,能湘其它iL常運作之噴孔繼續進行 圖木貝p工作,亚以口貫孔間的時序落差控制,替代傳統的 精密機械調變控制,以達成上述之主要及其他目的。 18815 7 1274668 【實施方式】 、&以下係藉由特定的具體實施例說明本發明之奋> 式,热習此技藝之人士可由本說明書所揭示之=方 瞭解本發明之其他優點與功效。本發明亦可藉由:地 的具體實施例加以施行或應用,本說明書“各項= 可基於不同觀點與應用,在不惊離本發明 下進= 種修飾與變更。 月竹卜進仃各 、所如V、2⑴至2⑻、3、4、5⑴至5⑻、6及7 圖所不,係為本發明微塗佈圖案列印 ;=此些圖式配合詳細說明,敘述本發二= P方法及线的較佳實施例。其中,須注意的是, 為簡化之示意圖,僅以示意方式說明本發明之:本 ^冰程、系統方塊以及實施例,於此合先敛明。 、如第1圖所示,係用以說明本發明微塗佈圖案列印方 法之基本步驟流程,該方法係用於令至少一喷墨頭可 二:矩陣排列圖形之圖案,其中,該喷墨頭上係具有複數 固貝孔。该方法首先係執行步驟S10,依據圖案中之列鱼 列的距離,選取該噴墨頭上欲用以進行噴印工作之噴孔、, 此步驟係先依據該呈矩陣排列圖形之圖案中之列與列間 的距雄’致此欲用以進行噴印工作之喷孔,請同時配合第 2U)圖所示’係用以說明本發明之實施例,該圖之喷墨頭 10係配合该圖案20之第—至三列2⑽、2G1及2G2之間 巨(此處係以第一至二列作範例說明,而前述之列與列的 距離並非舰於此處所指之第—至三列)而選取其嗔孔 8 J8815 1274668 100至104(被選取者如圖中所示之標號1〇〇、1〇2及1〇4) 以進行後續的圖案噴印工作,而其選取動作係藉由於一微 塗佈圖案列印系統(未予圖示)輪入第一遮罩(mask)資料 的方式(於後復以範例說明),令該噴墨頭丨〇之噴孔】⑽ 至104可進行噴印(如圖中所示之標號1〇〇、1〇2及1〇4) 或不噴印(如圖中所示之標號1〇1及1〇3)的動作,亦即, 藉由於一微塗佈圖案列印系統輸入第一遮罩資料的方式 可致能該喷墨頭10上欲用以進行喷印工作之噴孔1〇〇、 102及104,接著進至步驟sii。 4步騄S11 ’凋整噴墨頭至適當喷印位置,此步驟係 方:k取7G从用以進行唷印工作之喷孔後,對應該圖案將該 噴墨頭調整至適當喷印位置,更詳言之,係依據該圖案中 之列與列的距離’將該噴墨頭已選取之噴孔調整至與該圖 案中之列相對應之處,請同時配合第2(B)圖所示,係將 剛已選取噴孔100、1Π9 _ 102及104之噴墨頭1〇(如第2(A)圖 7不)’调整至與該圖案2〇中之列2〇〇、2〇ι及M2相對 怎之處’而該噴墨頭10係可旋轉,故而該喷墨頭10之喷 ΐ = 1〇2及1〇4係以旋轉—角度的方式調整至與該圖 木2〇中之列2〇0、201及202相對應之處,其中, 頭,!。之:旋轉角度的範圍之較佳實施方式係為〇:至、: 且依敎轉後被選取的啥:ΡΙ太而丨士 A L ^ m甘+ , ㈣貝孔在列方向上的間距與圖案内 传;二ΐ間Γ序落差’而此喷孔間的時序落差參數 其中一項。接著進至步驟川。於 妹―中⑷_令喷墨頭進行喷印 18815 9 1274668 係於該噴墨頭旋轉一角度以調整至與該圖案中之列相對 應之處後,依據該圖案進行噴印工作;更詳言之,其係依 據该圖案之每一列的狀態(欲進行噴印之列或完全不進行 貝印之列)藉由於該微塗佈圖案列印系統輸入第二遮罩資 料的方式(於後復以範例說明),且經由一對應運算程序 後,於贺墨頭與被喷印基板在該圖案之列方向上做相對運 動過私中,依该對應運具程序後之結果再參照圖案噴印參 _數令该贺孔進行圖案喷印工作。而該第二遮罩資料係依據 /玄圖案所欲噴印之列(如第2(A)& 2(B)圖中圖案2〇之斜 一線處)與完全不欲喷印之列(如第2(A)及2(B)圖中圖案20 之凡全空白列)作設定,且該對應運算程序係指將該第一 遮罩貧料與第二遮罩資料進行AND或〇R或nand或 運| \然,此些邏輯運算係為習知技術,故於此不復贅述。 +舉例來說,若以AND運算為例,如第2(幻圖所示之 噴孔100至104,其第一遮罩資料係為「丨,〇,丨,〇,丨」(其 鲁中的1」I用以致能欲進行育印工作之喷孔1 〇 〇、1 Q 2 及104),而對應如第2(B)圖所示之圖案20之第二遮罩資 料,係為 中的1」係指該圖案2 0所欲喷印之列,其中的「〇」係 指該圖案20完全不欲喷印之列)。接著藉由該用以致能該 贺孔1〇〇幻04之第-遮罩資料中之數值為!者(被致能 之噴孔100、1〇2及104)與該第二遮罩資料中之相對應數 =作AND運算,以進行圖案噴印工作,也就是以第一遮罩 貧料中之數值為1者相對於該第二遮罩資料作運算。因 18815 10 1274668 此,該喷墨,10之噴孔10〇幻〇4在進行嘴印工作時, 係以 二’ 1 ?’°」、「],〇,】,°,1」、「】,〇,】,°,°」及「!,〇, 〇,〇,〇- 、:人序/刀別進行區域a、b、c、d、e、f及g的噴印工作, 其中因該圖案20中有三列2〇3、204及205不進行喷印工 :乍、(分別:立於區域b、dA。,故於第二、四及六次:區域 ^及之嘴印工作進行時,該噴墨頭10之噴孔104 係不被致能’而處於「0」狀態,且於最後一次: 進行喷印工作時,因該區域§只有一歹,J 206欲進行嗔印工 :取該喷墨頭10之噴孔100;且依旋轉後被 =日士广^歹lj方向上的間距與圖案内容計算其喷孔間 :予洛i ’如第3圖所示,因為該喷墨頭1G,係旋轉- -’故賀印點P11要進行喷印時’必 於噴印後等待一段時間方可、隹> + ί ηϋ 時序落差。奴寸間方了進仃賀印’故需調整噴孔間的 ^別述依據該圖案令該喷墨頭進行喷印工作之步驟 圖安^待喷印圖案可能不似第2圖單純,為增加待喷印 性ϋ 4圖’復依據該圖案並藉由於該微塗佈 Ρ糸統輸入—圖案喷印參數,以令該喷墨頭進行喷 宰而該,圖案喷印參數係用以令該喷墨頭可依據該圖 木_的墨敎纽對應不同狀 :^時間(即為噴孔間的時序落差)、同—列上^^ 列二:欲喷印點的間距(如第4圖所示之標號h)、同一 之奴實印點區塊之欲喷印點總數(如第4圖所示之欲 18815 13 1274668 噴印點區塊i中之欲喷印點總數為四個)、同一列上之每 一欲喷印點區塊之間距(如第4圖所示之標號j)、列區 塊中之每一列的欲喷印點總數(如第4圖所示列區塊k中 的每一列欲喷印點總數為12)、多列所組成之列區塊之間 距(如第4圖所示,列區塊k與列區塊}之間距m)、該圖 案欲喷印之列區塊總數(如第4圖所示,該圖案2 0,之列 區塊總數為4個)。 此外,如第5(A)至5(E)圖所示,係用以表示本發明 •之微塗佈圖案列印方法應用於複數個喷墨頭1 〇a、1 Qb及 ‘ l〇c時,該複數個喷墨頭10a、1〇b及1〇c於喷印時之作 —動方式,其中,如第5(A)圖所示,當喷墨頭i〇a、i〇b及 1 Oc於進行喷印時,會依照前述之方法選取欲用以進行圖 案喷印工作之喷孔並調整至適當位置以進行圖案喷印工 作。而於區域B1噴印完畢後,會如第5(B)圖所示,依噴 墨頭1 Oa、1 Ob及1 〇c所致能的噴墨孔數及圖案喷印中列 籲與列之間的距離可得噴墨頭(或被噴印基板)的垂直於列 方向上的移動距離,令該喷墨頭l〇a、l〇b及l〇c移動至 區域B2繼續進行噴印。接著如第5(c)圖所示,該喷墨頭 • l〇a、10b及l〇c於噴印完區域β2後會移動至區域β3,而 ,第5(D)圖所示,該噴墨頭1〇a、1〇b及1〇c會於噴印完 區域B3後移動至區域β4進行圖案喷印工作,最後如第 5(E)圖所不,兀成整個圖案喷印工作。因此,本發明所揭 路之被塗佈圖案列印方法不僅可應用於單一喷墨頭單一 。貝印材料’更可適用於多喷墨頭多種喷印材料或多喷墨頭 12 18815 Ϊ274668 早-噴印材料,再者,藉由圖案噴印參數中所定義的數 值,復可變化出各種呈矩陣排列圖形之圖案以符入夂 途之圖案的需求。 D σ種用 、又如帛6圖所示,本發明所揭露之微塗佈圖案列印方 法更可適用於複數個噴墨頭1〇d、…及1〇f以分區的方 八進行圖案喷印卫作,其中,喷墨頭⑽係用以對於區域 5二及B11進行圖案喷印m5、頭♦則用以 ^區域B6及B9進行圖案喷印工作,喷墨頭 :=Β7及则進行圖案喷印工作,而該些喷二^ e及1 〇 f所致能的噴墨孔數及圖案喷印中列盥列 =距離及喷墨關的輯可得喷墨頭(或被噴印基板) 勺垂直於列方向上的移動輯,而此種噴印方式 :二Γί頭狀況不佳所造成之不良嘴印情況分佈於整個 安之:案太)而造成整體品質低於預設值(此預設值係 l本品質要求)。因此,由各喷墨頭負責特定 特定Li" :貧墨頭狀況不佳,則可捨棄該喷墨頭負責之 二 取其餘區域之噴印結果(部分圖案),換句話 :定巴::內區域内之噴印品質保持-定水準,故於 印=域内使用相同之喷墨頭以完成該些區域之圖案噴 列印Hi對:^,方法,本發明亦揭露一種微塗佈圖案 統3 ^美太力^目所不’係用以說明微塗佈圖案列印系 1〇,,可’其亦如上揭方法用於令至少一喷墨頭 貝壬矩陣排列圖形1(r 18815 13 1274668 上係具有複數個喷孔,而該微塗佈圖案列印系統3係包括 一資料庫30以及一控制單元31。 遺資料庫3 0係用以儲存一依據該圖案中之列與列的 距離,以選取喷墨頭上欲用以進行喷印工作之喷孔所設定 的第一遮罩資料以及依據該圖案所設定的第二遮罩資料 與圖案喷印參數。 该控制單元31係用以存取該資料庫3〇中之資料並作 _相關處理,以令該噴墨頭1〇,,作動。 其中,於進行喷印工作時,該控制單元31係由該資 料庫30中取出該第一遮罩資料以及第二遮罩資料,並進 行一對應運算程序,且依據該圖案中之列與列的距離,令 該噴墨頭10”調整至適當噴印位置,於喷墨頭與被喷印基 板在該圖案之列方向上做相對運動過程中,依該對應運算 程序後之結果再參照圖案噴印參數進行喷印工作,而此: 塗佈圖案列印系統3中所揭露之相關技術内容係如同前 鲁述微塗佈圖案列印方法,故於此不復贅述。 #由月:述及圖式的表現,可清楚的了解本發明之技術 被及其較佳實施的方式,主要係依據該圖案中之列 距離選取該噴墨頭上欲用以進行噴印工作之喷孔,、且On the Tubei>6 people used to enter the 印 印工工凡 A's brother to cover the nurturing and print parameters according to the pattern 图案 and pattern, and the control unit 3-4 贝 抖 资料 资料 资料 资料The control unit in the database is activated, wherein 'when printing, the first mask data is taken out from the far shell library and 1 - the cover (four)' adjusts the ink head to Suitable for printing position, and performing - different process in the movement process of the inkjet head and the substrate to be printed in the direction of the pattern 2, according to the result of the corresponding operation program, and then printing with reference to the parameters of the printing nozzle jobs. The invention relates to the same inkjet head corresponding to the pattern of different uses, to automatically adjust the inkjet resolution thereof, and when the one hole of the inkjet head is faulty or damaged, the other iL can be The well-operated orifice continues to work on the Tumubei p, and the sub-period control of the timing gap between the sub-holes replaces the traditional precision mechanical modulation control to achieve the above-mentioned main and other purposes. 18815 7 1274668 [Embodiment] & The following is a description of the present invention by a specific embodiment, and those skilled in the art can understand other advantages and effects of the present invention by the disclosure of the present specification. . The present invention can also be implemented or applied by the specific embodiments of the present invention. In the present specification, each item can be modified and changed without departing from the present invention based on different viewpoints and applications. For example, V, 2(1) to 2(8), 3, 4, 5(1) to 5(8), 6 and 7 are the micro-coating pattern printing of the present invention; = these drawings are combined with detailed description, and the present invention is described in the second The preferred embodiment of the method and the line. It should be noted that, in order to simplify the schematic diagram, the present invention will be described only in a schematic manner: the ice process, the system block and the embodiment, which are first and foremost. 1 is a flow chart showing the basic steps of the micro-coating pattern printing method of the present invention. The method is for making at least one ink-jet head two: a matrix pattern pattern, wherein the ink-jet head The method has a plurality of scallop holes. The method first performs step S10, and selects the nozzle holes on the inkjet head to be used for printing according to the distance of the fish columns in the pattern, and the step is based on the matrix. Arrange the lines between the columns in the pattern of the graphic For the purpose of performing the printing operation, please refer to the embodiment shown in FIG. 2U for explaining the embodiment of the present invention. The inkjet head 10 of the figure is matched with the first to third columns of the pattern 20 (10). Between 2G1 and 2G2 (here, the first to second columns are used as examples, and the distance between the above columns and columns is not the ship's first to third columns) and the pupil 8 J8815 1274668 is selected. 100 to 104 (the selected ones are shown in the figures 1〇〇, 1〇2, and 1〇4) for subsequent pattern printing work, and the selection action is due to a micro-coating pattern printing system. (not shown) the way to insert the first mask data (described later in the example), so that the nozzles of the inkjet head can be printed (10) to 104 (as shown in the figure) The actions of the labels 1〇〇, 1〇2, and 1〇4) or not (as shown in the figures 1〇1 and 1〇3), that is, by a micro-coating pattern printing The system inputs the first mask data in such a manner as to enable the nozzles 1 , 102 and 104 of the ink jet head 10 to be used for the printing operation, and then proceeds to step sii. 4 Steps 騄 S11 'Drying the inkjet head to the proper printing position, this step is: k takes 7G from the nozzle for the printing operation, and the pattern is adjusted to the appropriate printing position, more specifically According to the distance between the column and the column in the pattern, the selected nozzle of the inkjet head is adjusted to correspond to the column in the pattern, please also cooperate with the figure shown in Figure 2(B). Adjusting the inkjet head 1〇 (as in the second (A) FIG. 7) of the nozzles 100, 1Π9 _ 102 and 104 to the columns 2〇〇, 2〇ι, and M2 in the pattern 2〇 In contrast, the ink jet head 10 is rotatable, so that the squirting of the ink jet head 10 = 1 〇 2 and 1 〇 4 is adjusted in a rotational-angle manner to the column in the figure 2 2〇0, 201 and 202 correspond, where, head, !. The preferred embodiment of the range of the rotation angle is 〇: to, and: and the selected 啥: ΡΙ太和丨士 AL ^ m甘+, (4) the spacing and diagram of the shell hole in the column direction In the case, there is one of the parameters of the timing drop between the two nozzles. Then proceed to the step Sichuan. Yumei-zhong (4)_Printing the inkjet head for printing 18815 9 1274668 After the inkjet head is rotated by an angle to adjust to correspond to the column in the pattern, the printing operation is performed according to the pattern; In other words, it is based on the state of each column of the pattern (to be printed or not printed at all) by means of the micro-coating pattern printing system to input the second mask data (after the restoration) By way of example, after a corresponding operation program, the Hemo head and the substrate to be printed are relatively moved in the direction of the pattern, and the pattern is printed according to the result of the corresponding tool program. The reference number is used to make the pattern printing work. The second mask data is printed according to the desired pattern (such as the oblique line of the pattern 2 in the 2nd (A) & 2 (B) image) and the printing line is completely unsuitable ( For example, the full blank column of the pattern 20 in the 2(A) and 2(B) drawings is set, and the corresponding operation program refers to AND or 〇R of the first mask and the second mask data. Or nand or Yun | \ Ran, these logical operations are known techniques, so I will not repeat them here. + For example, if the AND operation is taken as an example, as in the second (the nozzles 100 to 104 shown in the magic image, the first mask data is "丨, 〇, 丨, 〇, 丨" (the The 1"I is used to enable the nozzles 1 〇〇, 1 Q 2 and 104) for the printing job, and the second mask data corresponding to the pattern 20 as shown in the 2 (B) figure is 1" means that the pattern 20 is to be printed, and "〇" means that the pattern 20 is completely unprintable. Then, the value in the first-mask data for enabling the hole 1 〇〇 04 04 is! (the enabled nozzles 100, 1〇2, and 104) and the corresponding number in the second mask data = AND operation to perform pattern printing work, that is, in the first mask poor material The value of one is calculated relative to the second mask data. According to 18815 10 1274668, the inkjet, 10 nozzle hole 10 〇 〇 4 in the mouth printing work, is two ' 1 ? ' ° °, "], 〇,], °, 1", "] , 〇,], °, °" and "!, 〇, 〇, 〇, 〇-,:: human order / knife to carry out the printing work of areas a, b, c, d, e, f and g, There are three rows 2, 3, 204, and 205 in the pattern 20 that do not perform the printing process: 乍, (respectively: standing in the area b, dA. Therefore, in the second, fourth and sixth times: the area ^ and the mouth printing work is carried out When the nozzle hole 104 of the ink jet head 10 is not enabled, it is in the "0" state, and at the last time: when the printing work is performed, since the area § is only one turn, J 206 is intended to perform the printing work. : taking the nozzle hole 100 of the inkjet head 10; and calculating the spacing between the nozzles according to the pitch and the content of the pattern in the direction of the rotation of the Japanese yen in the direction of the rotation: as shown in Fig. 3, because Inkjet head 1G, is rotating - - 'When the printing point P11 is to be printed, 'must wait for a period of time after printing, 隹> + ί ηϋ timing drop. 'Those need to adjust the gap between the nozzles according to the pattern to make the spray The steps of the ink head to carry out the printing work are not as simple as the second drawing, in order to increase the printing property to be printed, the image is based on the pattern and is input by the micro coating system. Printing parameters for the inkjet head to be sprayed, and the pattern printing parameters are used to make the inkjet head according to the different types of inkjets: ^ time (ie, between the nozzles) The timing drop), the same column, ^^ column 2: the spacing of the points to be printed (such as the label h shown in Figure 4), the total number of print points of the same slave printing block (such as the 4th The figure shown is 18815 13 1274668. The total number of print points in the print dot block i is four), and the distance between each block to be printed on the same column (as shown in Fig. 4) ), the total number of print points to be printed in each column of the column (as shown in Figure 4, the total number of print points in each column of the column k is 12), and the distance between the columns of the multiple columns ( As shown in Fig. 4, the distance between the column block k and the column block} is m), and the total number of blocks to be printed by the pattern (as shown in Fig. 4, the pattern is 0 0, and the total number of blocks is 4). Further, as shown in FIGS. 5(A) to 5(E), the micro coating pattern printing method for indicating the present invention is applied to a plurality of ink jet heads 1 〇a, 1 Qb, and 'l〇c When the plurality of ink-jet heads 10a, 1〇b, and 1〇c are in a printing mode, as shown in FIG. 5(A), when the ink-jet heads i〇a, i〇b When 1 Oc is used for printing, the nozzles to be used for pattern printing are selected according to the foregoing method and adjusted to the appropriate position for pattern printing. After printing in area B1, it will be as As shown in Fig. 5(B), the number of ink-jetting holes according to the ink-jet heads 1 Oa, 1 Ob and 1 〇c and the distance between the columns in the pattern printing can be obtained by the ink-jet head (or The moving distance of the printing substrate perpendicular to the column direction causes the ink jet heads l〇a, l〇b, and l〇c to move to the area B2 to continue printing. Then, as shown in Fig. 5(c), the ink jet heads l〇a, 10b, and l〇c move to the region β3 after the printing of the region β2, and as shown in Fig. 5(D), The inkjet heads 1a, 1〇b, and 1〇c will move to the area β4 after the printing of the area B3 to perform the pattern printing operation, and finally, as shown in the fifth (E) figure, the entire pattern printing work is completed. . Therefore, the coated pattern printing method disclosed in the present invention can be applied not only to a single ink jet head. The printed material 'is more suitable for multiple inkjet heads or multiple inkjet heads 12 18815 Ϊ274668 early-printing materials. Furthermore, by the values defined in the pattern printing parameters, the various changes can be changed. The matrix arranges the pattern of the pattern to meet the needs of the pattern of the way. D σ is used, and as shown in FIG. 6 , the micro-coating pattern printing method disclosed in the present invention is more applicable to a plurality of ink-jet heads 1 〇 d, ..., and 1 〇 f, which are patterned by the square of the partition. Inkjet printing, in which the inkjet head (10) is used for pattern printing m5 for the regions 5 and B11, and the head ♦ for the pattern printing of the regions B6 and B9, the inkjet head: = Β 7 and Performing the pattern printing work, and the number of ink jet holes and the number of ink jets in the pattern printing and the ink jet off in the pattern printing can be obtained (or sprayed) Printed substrate) The spoon is perpendicular to the movement in the column direction, and this type of printing method: the bad mouth condition caused by the poor condition of the second head is distributed throughout the security: the case is too) and the overall quality is lower than the preset value. (This default value is the quality requirement). Therefore, each inkjet head is responsible for a specific specific Li": poor ink head condition is not good, the inkjet head can be discarded to take the remaining area of the printing result (partial pattern), in other words: fixed bar:: The printing quality in the inner area is maintained at a constant level, so that the same ink jet head is used in the printing field to complete the pattern printing of the regions. The method also discloses a micro coating pattern. 3 ^美太力^目不不' is used to illustrate the micro-coating pattern printing system, which can also be used to make at least one inkjet head Bellows matrix arrangement pattern 1 (r 18815 13 1274668 has a plurality of nozzle holes, and the micro-coating pattern printing system 3 includes a database 30 and a control unit 31. The legacy database 30 is used for storing a column and a column according to the pattern. The first mask data set by the nozzle on the inkjet head for the printing operation and the second mask data and pattern printing parameters set according to the pattern are selected. Access the data in the database and make _ related processing to make the spray The first control unit 31 extracts the first mask data and the second mask data from the database 30, and performs a corresponding operation program, and according to the first print operation. The distance between the column and the column in the pattern is such that the inkjet head 10" is adjusted to an appropriate printing position, and the corresponding operation is performed during the relative movement of the inkjet head and the substrate to be printed in the direction of the pattern. After the program, the printing process is carried out with reference to the pattern printing parameters, and the related technical content disclosed in the coating pattern printing system 3 is like the pre-ruling micro-coating pattern printing method, so this is no longer the case. Illustrated from the following: #月: The performance of the drawing can be clearly understood, and the method of the present invention is better understood, and the ink jet head is selected for printing according to the distance in the pattern. Working orifice, and
Si:::至:當喷印位置,並依據該圖案令該噴墨頭 Γ墨頭對應不同用途之圖案,以自動調整其喷墨^斤 ·;且於一墨頭之喷孔故障或損壞時,能利用並 運作之噴孔,藉由料的方式致能其料用之纽並旋、 18815 14 1274668 调整噴墨頭至適當噴印位置繼續進行圖案噴印工 i I1,不僅 降低整體的製作成本且具環保概念,更可便利地進疒安 噴印工作。 <丁圖案 上述之實施例僅為例示性說明本發明之原理及其工 效,而非用於限制本發明。任何熟習此技藝之人士均、^力 變化。因此,本發明之權利佯„4:广例進行修飾與 利範圍所列。—應如後述之申請專 【圖式簡單說明】 第i圖係為一流程示意圖,係用以表示 圖案列印方法之基本步驟流程; K塗佈 、弟2(A)至2(B)圖係為一作動示意圖,係用以 舍明,塗佈圖案列印方法實施時的作動方式;、不 乐3圖係為一作動放大示 塗佈圖案列印方法實施時的作動糸用以表不本發明微 第4圖係為一平面示意 以 圖案列印方法可適用之圖案;*用以表不本發明微塗佈 第5(A)至5(E)圖係為一作動立 發明微塗佈圖案列印方 ,、思圖,係用以表示本 式; ”法應用於複數個噴墨頭之作動方 弟6圖係為一平面示意圖 圖案列印方法應用於複數個喷^^表不本發明微塗佈 第7圖係為—方塊示意用—種實施方式; 圖案列印系統之基本系統架構;以用及以表示本發明微塗佈 18815 15 1274668 第8圖係為一平面示意圖,係用以表示習知技術之喷 墨頭與待噴印圖案之對應關係。 【元件符號簡單說明】 S10至S12 步驟 10、10,、10”、10a、10b、10c、10d、10e、10f、40 喷墨頭 100、1〇1、102、103、104 喷孔 20、20’、50 圖案 200 、 2(Π 、 202 、 203 、 204 、 205 、 206 列 i A、b、c、d、e、f、g 區域 H 間距 I 欲喷印點區塊 J 間距 K、1 列區塊 Μ 間距 B1、Β2、Β3、Β4、Β5、Β6、Β7、Β8、Β9、BIO、Β11 區域 鲁3 微塗佈圖案列印系統 30 資料庫 31 控制單元 16 18815Si::: to: when printing position, and according to the pattern, the ink jet head ink head corresponding to the pattern of different uses, to automatically adjust the ink jet thereof; and the nozzle hole of one ink head is broken or damaged When the nozzle can be used and operated, the material can be used to rotate the material, and 18815 14 1274668 adjusts the inkjet head to the proper printing position to continue the pattern printing machine i I1, which not only reduces the overall The production cost and the concept of environmental protection make it easier to enter the printing work. The embodiment described above is merely illustrative of the principles of the invention and its utility, and is not intended to limit the invention. Anyone who is familiar with this skill will change his strength. Therefore, the present invention is not limited to the scope of the modification and the scope of interest. The application should be as described later. [Simple description of the drawing] The i-th diagram is a schematic flow diagram for indicating the pattern printing method. The basic steps of the process; K coating, brother 2 (A) to 2 (B) diagram is a schematic diagram of the action, used to illustrate, the implementation of the application of the pattern printing method; The operation when performing the printing method for the printing pattern printing method is used to indicate that the fourth drawing of the present invention is a plane to indicate the pattern applicable to the pattern printing method; * for the micro coating of the present invention. The 5th (A) to 5th (E) drawings of the cloth are used to display the micro-coating pattern of the invention, and the figure is used to represent the formula; the method is applied to the action of a plurality of ink-jet heads. 6 is a schematic diagram pattern printing method applied to a plurality of spray nozzles. The micro-coating of the present invention is not illustrated by the present invention; the basic system architecture of the pattern printing system; And to show that the micro-coating 18815 15 1274668 of the present invention is a schematic plan view. It indicates a correspondence relationship conventional technologies and to be ink-jet head of the printing pattern. [Simplified Description of Component Symbols] S10 to S12 Steps 10, 10, 10", 10a, 10b, 10c, 10d, 10e, 10f, 40 Inkjet heads 100, 1〇1, 102, 103, 104 orifices 20, 20 ', 50 pattern 200, 2 (Π, 202, 203, 204, 205, 206 columns i A, b, c, d, e, f, g region H spacing I to print dot block J spacing K, 1 column Block Μ Spacing B1, Β2, Β3, Β4, Β5, Β6, Β7, Β8, Β9, BIO, Β11 Area Lu 3 Micro-coating pattern printing system 30 Database 31 Control unit 16 18815