201102276 六、發明說明: 【發明所屬之技術領域】 本發明係有關於-種清洗裝置,特 噴墨頭清洗裝置。 ’有關於-種 【先前技術】 當喷墨印表機Unk je“rinter)上的喷墨頭 Pnnthead)受到污染或沾附殘留墨水時,往往 =致喷墨效能的異常。—般而言,為了維㈣Μ的清 =維持喷墨正常,傳統的作法大多是利用 刮除龍上的污染物,或者是利用清潔液⑹咖叫 rtlon)來沖洗噴孔上的騎,“前述兩種方式的 潔效果有限’尤其利用到刀的方式甚至可能會造成喷 此’如何提供一種能有效清潔喷墨頭之 衣置及方法始成為一重要課題。 【發明内容】 本發明之-實施例提供—種噴墨頭清洗裝置,包括 ^狀結氣元件。前述超音 波元件設置於管狀結構内,並可發出超音波以清潔前述 贺孔’其中超音波元件與管狀結構之間形成有至少—氣 流通道。錢錢元件連接前I㈣通道,藉以在管狀 結構内形成負麼’進而將脅墨頭内之墨水由喷孔吸出。 本發明-實施例更提供一種喷墨頭清洗方法,包 201102276 括.提供-管狀結構以及-超音波元件,其中超音波元 件設置於管狀結構内,且超音波元件與管狀結構之間形 成有至少-氣流通道;使超音波元件面對於喷墨頭之至 少一喷孔;提供1氣元件連接前述氣流通道,並缺由 前述氣流通道抽出管狀結構内的空氣,藉以在管狀結構 /成負[使侍噴墨頭内的墨水自噴孔溢出並且充填 :超音波元件和噴孔之間;以及,啟動超音波元件以清 '你喷孔之阻塞物或污染物。 為使本發明之上述特點能更明顯易懂,下文特舉較 佳實施例並配合所附圖式做詳細說明。 【實施方式】 壯先閱罘1圖’本發明-實施例之喷墨頭清洗 衣用以清潔一噴墨裝置上之噴墨頭1,其主要包括 义 超曰波兀件7。需特別說明的是, =营狀結構6的上、下兩端具有開口,其中管狀結構 :置7頭1的表面3相隔—間隙,超音波元件7則是 官狀結構6内部,並且面對於喷墨頭!上之至少 藉以清潔喷孔5,其中超音波元件7和管狀 :構6之間分別形成有氣流通道S1、S2。 並可分別透過吸出孔=超音波元件7兩側, 、及出孔8而連接至一吸氣元件(未圖示 201102276 吸可氣元件可以是真空幫浦或抽氣幫浦。由第Μ、 圖可以看出,前述氣流通道8卜S2 音波元件7和管狀結構6之_$7^刀別形成於超 氣流通道sm…a 圖所示),其中 S2可為獨立或局部連通、, 外,前述氣流通m、S2也可整而〜逼;此 流通道,並玉π^立 1U連通而形成單—氣 示)。U超音波元件7周固(如第7B圖所 ’用吸=閱f2圖,在進行清潔動作時,首先係利 只7L牛抽出管狀結構6内 頭9所J孔體(如弟2圖中的箭 碩9所不),此時管狀結構6内 空教可μ皱~ a心成負壓,使得外界 田礼了~者前頭H)的方向進人管狀結構6中 蝥頭1内的墨水2會經由嘖巩5 .、, 件7和嗜η …由喷孔)遍出而充填於超音波元 嗔孔5之間。接著,超音 2作為傳導介f纟凡件7便可利用墨水 4上以使i脫」Γ 音波至喷孔5附近的污染物 不产洛,猎此可避免噴孔阻塞而導致喷墨效果 中毫4更可隨著墨水2而沿氣流通道8卜 S2 一併被吸除。 =了解的是’本發明之清衫置亦可㈣喷墨頭1 、 刀佈位置而對應地改變設計或增加其尺寸 ‘=Γ清洗多個喷孔之功能,其,前述氣 4 S2可以對稱或非對稱的方式設置於超音波 的周®此外’亦可在超音波元件7的周圍形成 201102276 或兩個以上的氣流通道以利於墨水2之吸除。 再晴參閱第3圖’當噴孔5阻塞嚴重時,亦可將管 狀、、°構6抵接於喷墨頭1的表面3上,如此可增加管狀 ’ °籌6的真空度’藉以有效地將喷墨頭1内的墨水2201102276 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a cleaning device and a special inkjet head cleaning device. 'About - Kind [Prior Art] When the inkjet head Pnnthead on the inkjet printer Unk je "rinter" is contaminated or contaminated with residual ink, it is often an abnormality in inkjet performance. - Generally speaking, In order to maintain the normality of the inkjet (four), the traditional method is mostly to scrape off the pollutants on the dragon, or to use the cleaning liquid (6) to call the rtlon) to flush the ride on the nozzle. The limited effect 'especially the way to use the knife may even cause the spray to do this. How to provide a garment and method that can effectively clean the inkjet head has become an important issue. SUMMARY OF THE INVENTION An embodiment of the present invention provides an ink jet head cleaning apparatus including a gas generating element. The aforementioned ultrasonic element is disposed in the tubular structure and is capable of emitting ultrasonic waves to clean the aforementioned hole, wherein at least a gas flow path is formed between the ultrasonic element and the tubular structure. The money element is connected to the front I (four) channel, thereby forming a negative in the tubular structure and thereby sucking the ink in the ink nozzle from the orifice. The present invention further provides an ink jet head cleaning method. The package 201102276 includes a supply-tubular structure and an ultrasonic component, wherein the ultrasonic component is disposed in the tubular structure, and at least the ultrasonic component is formed between the ultrasonic component and the tubular structure. - an air flow passage; the ultrasonic component facing the at least one orifice of the inkjet head; providing a gas element for connecting the airflow passage, and omitting the airflow passage to extract air in the tubular structure, thereby causing a negative in the tubular structure The ink in the inkjet head overflows from the orifice and fills: between the ultrasonic component and the orifice; and, the ultrasonic component is activated to clear the obstruction or contaminant of your orifice. In order to make the above-described features of the present invention more comprehensible, the following detailed description of the preferred embodiments and the accompanying drawings. [Embodiment] The ink jet head cleaning apparatus of the present invention-an embodiment is used for cleaning an ink jet head 1 on an ink jet apparatus, which mainly includes an ultrasonic wave removing member 7. It should be specially noted that the upper and lower ends of the camp-like structure 6 have openings, wherein the tubular structure: the surface 3 of the head 1 is separated by a gap, and the ultrasonic element 7 is the inside of the official structure 6, and Inkjet head! At least the upper nozzle hole 5 is cleaned, wherein the air flow passages S1, S2 are formed between the ultrasonic wave element 7 and the tubular structure 6, respectively. And can be connected to a getter element through the suction hole = both sides of the ultrasonic component 7 and the exit hole 8 (not shown, the 102102276 suction gas can be a vacuum pump or a pumping pump. It can be seen that the aforementioned air flow passage 8 and the S2 acoustic wave element 7 and the tubular structure 6 are formed in the super air flow passage sm...a, wherein S2 can be independent or partially connected, and the foregoing The gas flow m, S2 can also be consolidated and forced; this flow channel, and jade π ^ 1U connected to form a single gas display). U-ultrasonic component 7 is solid (as shown in Figure 7B), when using the suction=f2 diagram, in the cleaning operation, firstly, only 7L of cattle are taken out of the first 9 holes of the tubular structure 6 (such as the brother 2 The arrow is not 9), at this time, the hollow structure in the tubular structure 6 can be wrinkled ~ a heart into a negative pressure, so that the outside of the field gift ~ the front H) direction into the tubular structure 6 in the head 1 ink 2 will be filled between the ultrasonic element pupils 5 via the 啧 5 5 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Then, the supersonic 2 can be used as the conductive material, so that the contaminants in the vicinity of the nozzle hole 5 can be deactivated by the ink 4, so that the nozzle can be blocked and the inkjet effect can be avoided. The middle 4 is more likely to be sucked along the air flow path 8 S2 along with the ink 2. = It is understood that the 'cleansing shirt of the present invention can also (four) the ink jet head 1, the position of the knife cloth and correspondingly change the design or increase its size '= Γ cleaning a plurality of nozzle holes, the gas 4 S2 can be symmetric Or asymmetrically placed in the periphery of the ultrasonic wave. In addition, 201102276 or more than two air flow passages may be formed around the ultrasonic element 7 to facilitate the suction of the ink 2. Referring to Fig. 3 again, when the nozzle hole 5 is severely blocked, the tubular structure and the structure 6 can be abutted on the surface 3 of the ink jet head 1, so that the tubular 'degree of vacuum> can be increased to effectively Ink 2 in the inkjet head 1
吸出而特別說明的是,第3圖所示的管狀結構ό係具 有抵接部61 ’抵接於噴墨頭丨的表面3,其中抵接部 61可採用彈性材質(例如橡膠或矽膠),以使管狀結構6 和喷土頭1之間保持密合;.此外,在管狀結構6内另可 額外裝設-加熱元件H’其中加熱元件H可加熱喷孔5 附近的墨水2以增加其流動性並提升清潔效率。Specifically, the tubular structure of the tubular structure shown in FIG. 3 has an abutting portion 61 ′ abutting against the surface 3 of the ink jet head cymbal, wherein the abutting portion 61 can be made of an elastic material such as rubber or silicone. In order to maintain the tightness between the tubular structure 6 and the sprinkler head 1; in addition, an additional heating element H' may be additionally provided in the tubular structure 6 wherein the heating element H can heat the ink 2 near the orifice 5 to increase its Mobility and improved cleaning efficiency.
、接著請參_4圖,當清潔㈣完成後,喷墨頭清 洗虞置則會脫離噴墨頭i並相對於噴墨頭i移動,此時 管狀結構6與噴墨頭1的表面3所形成的氣流可迅速將 料)附近的殘墨吸除,以避免喷孔5㈣的墨^ ::二如第5圖所示,當喷墨頭1不使用時,前述管狀 二構^尚可作為密封蓋使用,以避免墨水2經由喷^ 一應了解的是,於本實施例中之超音波元件7係具有 鈿面71(如第5圖所示),苴可為— 了為—平面並且面對於喰 墨頭1。然而,前述端面71也 、、 鉍-、斗9 M疋凹面(如第0A圖 :不V或是形編爾透鏡結構(如第6B圖所示) 藉以提升超音波的聚焦與清洗能力。 201102276Next, please refer to FIG. 4, when the cleaning (4) is completed, the inkjet head cleaning device will be separated from the inkjet head i and moved relative to the inkjet head i, at this time, the tubular structure 6 and the surface 3 of the inkjet head 1 The formed airflow can quickly remove the residual ink in the vicinity of the material to avoid the ink of the nozzle hole (4). 2. As shown in Fig. 5, when the inkjet head 1 is not used, the aforementioned tubular structure can be used as The sealing cover is used to prevent the ink 2 from passing through the spray. It should be understood that the ultrasonic element 7 in the present embodiment has a kneading surface 71 (as shown in Fig. 5), and the 苴 can be - plane Face to the ink head 1. However, the aforementioned end faces 71 are also, 铋-, and hopper 9 M 疋 concave surfaces (as shown in Fig. 0A: not V or a shaped lens structure (as shown in Fig. 6B) to enhance the focusing and cleaning ability of the ultrasonic waves.
如第从,所示,通常一個噴墨頭以所需要 清潔的噴孔5僅有其中幾個,故可藉由凊潔部分噴孔5 以避免墨水的浪費;舉例而言’當僅需要清潔喷墨頭i 上之少部分噴孔5時’可設計喷墨頭清潔震置的尺寸小 到僅涵ϋ喷孔5(如第8A圖中的範圏α所示),然 而”若為了提高^頭丨的清·度,亦可設計喷墨頭清 潔裝置的尺寸並使其大到完全涵蓋噴墨顯1上的所有 喷孔:>(如第8Α圖中的範圍C2所示)。 j上所述,本發明提供一種噴墨頭清洗裝置及方 法,前述喷墨頭清洗裝置主要包括-管狀結構、一超音 波疋件以及-吸氣元件,其中透過在超音波元件旁形成 至少-氣流通道’並透過吸氣元件在管狀結構内產生適 當之負壓,可穩定地將噴墨頭内之墨水吸出,同時能使 墨水充填於超音波元件和喷孔之間。如此一來,超音波 =件便可湘墨水作為傳導介質,並透過超音波來有效 /月除喷孔上之阻塞物或污染物,接著污染物更可隨著墨 水流動而沿氣流通道一併被吸出,故不僅能大幅提升清 洗效率,同時更可避免噴孔在清洗過程中損壞。 雖然本發明以前述之較佳實施例揭露如上,然其並 非用以限定本發明。本發明所屬技術領域中具有通常知 識者,在不脫離本發明之精神和範圍内,當可做些許之 更動與潤飾。因此本發明之保護範圍當視後附之申請專 201102276 利範圍所界定者為準。 201102276 【圖式簡單說明】 第1圖表示本發明〜實施例之噴墨頭清洗裝置示 意圖; 第2圖表示本發明〜實施例之吸氣元件吸出管狀 結構内氣體之示意圖; 第3圖表示本發明〜實施例之管狀結構抵接喷墨 頭表面之示意圖;As shown in the above, usually only one of the nozzles 5 for cleaning the ink jet head is required, so that the waste of the ink can be avoided by cleaning the partial nozzle hole 5; for example, when only cleaning is required When a small number of nozzle holes 5 are formed on the ink jet head i, the size of the ink jet head cleaning device can be designed to be as small as the nozzle hole 5 (as shown in Fig. 8A), however, The clarity of the head lice can also be designed to size the inkjet head cleaning device to a size that fully covers all of the orifices on the inkjet display: > (as indicated by the range C2 in Figure 8). As described above, the present invention provides an ink jet head cleaning apparatus and method, the ink jet head cleaning apparatus mainly comprising a tubular structure, an ultrasonic wave element, and a getter element, wherein the transmission is formed at least beside the ultrasonic element. The air flow passage ' generates a suitable negative pressure in the tubular structure through the suction member, and the ink in the inkjet head can be stably sucked out, and at the same time, the ink can be filled between the ultrasonic component and the injection hole. Thus, the super Sound wave = piece of ink can be used as a conductive medium, and it is transmitted through ultrasonic waves. In addition to obstructions or contaminants on the orifice, the contaminants can be sucked out along the airflow path as the ink flows, so that not only can the cleaning efficiency be greatly improved, but also the nozzle can be prevented from being damaged during the cleaning process. While the present invention has been described above in terms of the preferred embodiments thereof, it is not intended to limit the scope of the present invention, and the invention may be practiced without departing from the spirit and scope of the invention. The scope of protection of the present invention is defined by the scope of the application of the present application. 201102276 [Simplified Schematic] FIG. 1 is a schematic view showing an ink jet head cleaning apparatus according to the present invention. 2 is a schematic view showing the gas in the tubular structure of the present invention to the suction member; FIG. 3 is a schematic view showing the tubular structure of the present invention to the surface of the ink jet head;
第4圖表示本發明〜實施例之喷墨頭清洗裝置相 對於喷墨頭移動之示意圖; ""圖表不本發明〜實施例之噴墨頭清洗裝置f 為一密封蓋之示意圖; 第6A圖表示本發明一實施例之超音波一对 面為凹面之示意圖; 第6B圖表示本發明〜 錢她幻之起音波TL件之一対 形成非涅爾透鏡結構之示意圖; 第7A圖表示本發明—每 处構門m / ,、施例之超音波元件和管乐 、,。構間形成兩個氣流通道之示意圖; 第7B圖表示本發明—實施例之氣 音波元件周圍之示意圖; 、及繞於走 第8A圖表示本發明一實施例之 寸範圍小到僅涵蓋一個啥h 一^ 宁、裝置只 皿彳固贺孔之不意圖;以及 第8B圖表示本發明一實施例之喷墨頭清^置力 201102276 _ 到涵蓋喷墨頭上所有喷孔之示意圖。 【主要元件符號說明】 喷墨頭1 墨水2 表面3 污染物4 φ 喷孔5 管狀結構6 .抵接部61 超音波元件7 端面71 吸出孔8 箭頭9、10 鲁 加熱元件Η 氣流通道SI、S2Figure 4 is a view showing the movement of the ink jet head cleaning device of the present invention to the ink jet head; "" not a schematic view of the ink jet head cleaning device f of the present invention to be a sealing cover; 6A is a schematic view showing a pair of surfaces of a supersonic wave according to an embodiment of the present invention being a concave surface; FIG. 6B is a view showing a structure of a non-nelt lens structure of one of the sound wave TL members of the present invention; FIG. 7A is a view showing the present invention; - each door m / ,, the application of ultrasonic components and wind,,. FIG. 7B is a schematic view showing the periphery of the air acoustic wave device of the present invention - an embodiment; and FIG. 8A is a view showing an embodiment of the present invention having a small range to cover only one flaw. h a ^ Ning, the device is not intended to be fixed; and FIG. 8B shows a schematic view of the ink jet head cleaning force 201102276 _ to cover all the nozzle holes on the ink jet head. [Explanation of main component symbols] Inkjet head 1 Ink 2 Surface 3 Contaminant 4 φ Nozzle 5 Tubular structure 6. Abutment 61 Ultrasonic component 7 End face 71 Suction hole 8 Arrow 9, 10 Lu heating element 气流 Air flow path SI, S2