1270472 九、發明說明: 【發明所屬之技術領域】 本發明涉及一種喷頭維護裝置,特別係一種用於製造彩色濾光片之噴 墨裝置之噴頭維護裝置。 、 【先前技術】 由於液晶顯示器(Liquid Crystal Display,LCD)為非主動發光之元件,必 /頁透過内部之%光源提供光源,搭配驅動1C與液晶控制形成黑、白兩色之^ 灰階顯示,再透過彩色濾光片(Color Filter)之紅(R)、綠(G)、藍(B)三種顏色 層提供色相,形成彩色顯示畫面,因此彩色濾光片為液晶顯^器&色化之 關鍵零組件。 喷墨方法為使用-喷墨裝置將含有RGB顏色層之墨水同時喷射於一玻 璃基板上之黑故_,脉舰财後_絲上形絲&之娜顏色 層圖案。使时墨方法麟-挪成RGB顏色層,使得製備触大量簡化, 成本大幅降低。故,喷墨方法具有製程簡化、環保、節省原料之諸多優點。 上述之喷墨裝置具有複數喷頭,各喷頭具有一墨水室及—喷嘴, 室用以暫時儲存量之墨水,噴嘴與墨水室相連。藉由—外部壓力^ 水從墨水錄射倾以基板上之概料區_。祕基板上之每: 像素區域之容積紐米級,若墨水殘留於噴嘴上,麟留之墨水合 水=之噴出’如此’便較難控制墨水下次之喷出量,難以保證“色層 之=勻度。另,喷頭於待機狀態時,噴頭中之墨水會揮發,乾燥之合 堵塞^導致縣不能順利噴出。因此,喷頭之清潔及維護顯得尤為土重‘ 有鑑於此,提供-種能狗清潔噴頭之維護裝置實為必要。 【發明内容】 以下將以實施例說明一種噴頭維護裝置。 一種喷頭維護裝置,其包括_渣砵 _ . ^ 及-與其相連之第4動部組包括—清洗基座 用以控制清洗基座轉動之解基座包括複數喷液孔,該第—驅動部 相較於先前技術,所述之噴頭維護裝置所包括之清洗模組可以即時清 1270472 •除喷頭上殘留之墨水,保證喷頭正常運作。 【實施方式】 响一併參考第一圖、第二圖及第三圖,本發明之噴頭維護裝置第一實 , 施例包括一清洗模組100,其包括一清洗基座110,及一與清洗基座110相連 之第一驅動部120,該清洗基座U0上包括複數噴液孔lu,該第一驅動部12〇 用以控制清洗基座110轉動之動作,喷液孔111喷出之溶劑用來清洗喷頭上之 複數噴嘴。 ' 上述清洗基座110包括··一第一凹槽112,複數環形擋壁113設置於該第一 凹槽112内,該複數環形擋壁113分別圍成一固液凹槽115,複數噴液孔m • 設置於該固液凹槽115底部,該複數環形擋壁113分別具有出液口1131;複數 出液孔114設置於該第一凹槽112底部,該出液孔114與清洗基座11〇之底面連 通’清洗噴頭所產生之廢液經出液孔114排出清洗基座11〇之外。 於本實施例中,將複數噴液孔111分成三組分別設置於三個固液凹槽 115底部,該三個固液凹槽115下方即清洗基座11〇中分別有一中空管道116, 固液凹槽115底部之複數噴液孔Hi皆與該中空管道116連通,與該中空管道 116下方即清洗基座110底面設置一進液口 117,溶劑從該進液口 m進入中空 管道116中,再由喷液口m噴出。需要清洗之喷頭移動到上方,噴液孔m 能夠喷出溶劑對喷頭進行清洗,將喷頭上殘留之墨水清除掉,環形擋壁113 φ 可以防止喷射到喷頭上之溶劑向周圍飛濺,清洗喷頭所產生之溶劑會滯留 於固液凹槽115底部,然後經由出液口 1131流入第一凹槽112,再經出液孔114 排出清洗基座110之外,該出液口 1131底部固液凹槽115—側高於第一凹槽 112一側’便於清洗喷頭所產生之溶劑流入第一凹槽112,該出液孔114之孔 壁與第一凹槽112相連之一側高於孔壁内側,便於清洗噴頭所產生之溶劑排 出。 上述第一驅動部120包括:一第一驅動裝置121,例如馬達;一與該第一 驅動裝置121相連之第一轉軸1211,第一驅動裝置121可以驅動第一轉軸 1211轉動並控制其轉動速度與轉動距離;一第一底座123 ; —與該第一底座 123相連之第一底座轉軸1231,該第一轉軸1211轉動可以通過第一傳動帶 122來帶動該第一底座轉軸;[231轉動,第一底座轉軸1231所轉動之角度與第 7 1270472 故’第—驅動裝置121可以通過對第控制 來控制第-底座轉軸1231 相對[底座轉軸1231設置之第一緩衝座 124 ’利用複數彈簧連接該第一緩衝座12樓清洗基座ιι〇,該第一底座轉轴 動第-緩衝座似轉動,當清洗基座職到料衝擊時,與清洗基 ^110相連之第-緩衝座124可以敝衝擊之能量,以防止嘴頭因碰撞而受 才貝0 請參考第四圖,本發明之噴頭維護裝置進一步包括一擦拭模組獅。該 擦拭模組200包括-承載板21G,及—與承載板2_連之第二驅動部⑽, “承載板210上具有第一凹槽211,該第二驅動部22〇用以控制擦拭布a4 φ 於該第二凹槽211上方移動之動作。 上述第二驅動部220包括:-第二鷄裝置221,例如馬達;一盥第二驅 動裝置221滅4二娜222,在此,設置料二触222相配合之從 動轉軸2222,帛二熱222通過顧布224帶動雖熟2222觸,第二驅 動裝置221可以驅動弟一轉轴222轉動並控制其轉動速度與轉動距離;一與 第一轉軸222相配合之從動轉軸223,擦拭布224纏繞於從動轉軸223上,擦 拭布224之一端經過上述承載板21〇上之第二凹槽211上方與第二轉軸222相 連’在此,第二轉轴222通過轉動使得擦拭布224於第二凹槽211上方移動, 已經經過第二凹槽211上方之擦拭布224再纏繞於該第二轉軸222上。擦拭布 鲁 224於第二凹槽211上方所移動之距離由第二驅動裝置221來控制。 值得注意的是,第二轉軸222與從動轉軸223應當設計為可快速拆卸結 構,便於更換擦拭布224。 上述擦拭布224選用質地柔軟之無塵布。 上述承載板210選用鐵弗龍材料製作。 於從動轉轴2222上連接一編碼器2221,該編碼器2221紀錄從動轉軸 2222之轉動速度與轉動距離,從而測得擦拭布224所移動之距離,所得數據 可以傳輸到第二驅動裝置221,實現第二驅動裝置221對第二轉軸222的控制 進而控制擦拭布224之移動速度與距離。 於擦拭布224之下方設置一光傳感器225,當擦拭布224使用完畢時,該 光傳感器225可以發出一訊號,便於更換擦拭布224。 8 1270472 對品要擦拭之噴頭進行擦拭使通過下述過程完成的,首先將需要捧拭 •之,移動到承載板21〇上方即第二凹槽211上方,再將喷頭向第二凹槽211 底部方向移動,於第二凹槽211底部上方i定距離之位置上將喷頭停曰留一 。預定時間,在預定時_,第二轉軸222與從動轉軸223相配合並通過第二 f轴222的轉動使第二凹槽211上方之擦拭布224緊貼承載板21〇,同時增大 擦拭布224的絲張力,賊布録面張力緊时頭賴其進^清 ,,該預歧離要小料二凹槽211之深度,_定_可雜具體情況而 疋’以能夠將喷頭上多餘之墨水或其他異物除去即可。 凊一併參考第五圖與第六圖,本發明之噴頭維護裝置進一步包括一封 •罩模組300,其包括一封罩基座310及一與該封罩基座310相連之第三驅動部 =〇,該封罩基座310包括兩個設置於封罩基座31〇上之第三凹槽314,三個 =封孔312及兩個單孔311,該三個密封孔312平行設置,且兩個第三凹槽314 分別設置於兩個相鄰密封孔312之間,該兩個單孔311分別設置於兩個曰第三 凹槽314底部,每一個密封孔312上設置有一密封孔圈3122,單孔3ιι上, 有單孔密封圈3112。 ^又 單孔密封圈3112與密封孔圈3122用彈性良好之橡膠製作。 於本實施例中,三個密封孔312分別對應三個喷頭,喷頭上具有併列排 佈之複數喷嘴。噴頭在待機狀態時,將喷頭移動到密封孔312之上方,準確 定位後將喷嘴置入密封孔312内,設置於密封孔312内之密封孔圈3122緊密 地包裹噴嘴邊緣,此時,喷頭之出液口即喷嘴則置於密封孔圈3122下方之 密封孔312内。 該密封孔312外接一控制閥,該控制閥用來控制密封孔312内之氣壓, 從而使得該密封孔312内具有負壓,密封孔圈3122所包裹之喷嘴内之阻塞物 於負壓的作用下被吸出。 所述單孔311設置於該第三凹槽314底部,該單孔311外接一控制閥,該 控制閥用來控制單孔311内之氣壓,從而使得該單孔311内具有負壓,當^ 要清理單一噴嘴之阻塞物時,喷頭會沿著第三凹槽314之與密封孔312^^ 之延伸方向移動,將所需處理之喷嘴移動到單孔311之上方,隨後將噴嘴伸 入單孔311内,單孔密封圈3112可以利用自身良好的彈性將置入其内之噴嘴 9 1270472 邊緣緊密地包裹,同時喷頭之喷液口即喷嘴則置於單孔密封圈迎下方之 單孔311内’喷嘴内之阻塞物於負壓作用下被吸出。於第三凹槽314底部設 置複數排液孔313,該排液孔313與封罩基座310之底面連通| -槽糊之液體經由排液孔灣出封罩基細之外。^ ^心一^ 上述第三驅動部320包括··一第三驅動裝置321,例如馬達;一盥第三驅 動裝置321相連之第三轉轴3211,第三驅動裝置321可以驅動第三轉轴32ΐι 轉動並控制其轉動速度與轉動距離;一第二底座323 ; 一與該第二底座323 j連之第二底鋪軸3231,娜王娜迎猶可輯過第二_帶322來 帶動該第二底座轉軸3231轉動,第二底座轉軸3231轉動所轉動之角度斑第 •三轉軸3211相對應,故,第三驅動裝置321可以通過對第三轉軸3211的控制 來控制第一底座轉軸3231 , —相對第二底座轉軸3231設置之第二緩衝座 324,利用複數彈簧連接該第二緩衝座似與封罩基座31〇,該第二底座轉轴 3231帶動第二緩魅324轉動,#封罩基座細受到外界衝擊時,盘封罩基 座310相連之第二緩衝座324可以吸收衝擊之能量,以防止喷顧碰撞而受 損。 ,請參閱第七®,本發日讀聯護裝置之第二實施例包括:―第一基板 4〇〇,-清洗模組1〇〇 ; 一擦麵組2〇〇,其中,該清洗模組ι〇〇與擦拭模組 200为別叹置於該第一基板4〇〇’上。喷頭可以通過該喷頭維護裝置同時完成 清洗與擦拭之動作。 ® 請參閱第八圖,本發明喷頭維護裝置之第三實施例包括:一第二基板 400” ; 一清洗模組100 ; —封罩模組3〇〇,其中,該清洗模組1〇〇與封罩模组 300分別設置於該第二基板彻,,上,頭可以通過該噴頭維護裝置完成清洗 之動作,同時在待機狀態下,喷頭中之墨水不易揮發,保證喷頭能夠順利 喷出墨水。 综上所述’本發明符合發明專利要件,爰依法提出專利申請。惟,以 上所述者僅為本發明之較佳實施方式,本發明之範圍並不以上述實施方式 ^牛凡热本案技藝之人士,在援依本案發明精神所作之等效修飾或 變化,皆應包含於以下之申請專利範圍内。 一 【圖式簡單說明】 1270472 圖係f發明噴頭維護裝置第一實施例之清洗模組之立體示意圖。 圖係第一圖中所示清洗模組之清洗基座之立體示意圖。 ,二圖係第二圖中清洗基座沿m-πι線之立體剖視圖。 ,四圖係本發明噴頭維護裝置第—實施例之擦拭模組之立體示意圖。 =五圖係本务日月噴頭維護裝置第一實施例之封罩模組之立體示意圖。 =六圖係第五圖帽示解模組之鮮基座之立體示意圖。 =七圖係本發明喷頭維護裝置第二實施例之立體示意圖。1270472 IX. Description of the Invention: The present invention relates to a nozzle maintenance device, and more particularly to a nozzle maintenance device for an inkjet device for manufacturing a color filter. [Prior Art] Since the liquid crystal display (LCD) is a component that is not actively emitting light, the page must be provided with a light source through the internal % light source, and the 1C and liquid crystal control can be used to form a black and white color gray scale display. Then, through the color filter, the red (R), green (G), and blue (B) color layers provide a hue to form a color display, so the color filter is a liquid crystal display & color Key components of the process. The ink jet method is a black color layer pattern in which an ink containing an RGB color layer is simultaneously ejected onto a glass substrate using an ink jet apparatus. The time-in-the-film method is moved into an RGB color layer, which makes the preparation touch a large number of simplifications, and the cost is greatly reduced. Therefore, the inkjet method has many advantages such as simplified process, environmental protection, and material saving. The above ink jet device has a plurality of nozzles, each of which has an ink chamber and a nozzle for temporarily storing a quantity of ink, and the nozzle is connected to the ink chamber. By the external pressure ^ water, the ink is projected from the ink to the area on the substrate. Each of the secret substrates: the volume of the pixel area, the neometer level, if the ink remains on the nozzle, the ink left in the ink is squirting = so it is difficult to control the amount of ink to be ejected next time, it is difficult to ensure the color layer In addition, when the nozzle is in the standby state, the ink in the nozzle will volatilize, and the dryness will be blocked. As a result, the county cannot be ejected smoothly. Therefore, the cleaning and maintenance of the nozzle is particularly important. - A maintenance device for a dog cleaning nozzle is necessary. [Explanation] A nozzle maintenance device will be described below by way of an embodiment. A nozzle maintenance device includes a _ slag _. ^ and - a fourth movement connected thereto The cleaning unit includes a plurality of liquid discharging holes for controlling the rotation of the cleaning base, and the cleaning unit included in the nozzle maintenance device can be cleared immediately compared with the prior art. 1270472 • In addition to the ink remaining on the nozzle, the nozzle is normally operated. [Embodiment] Referring to the first, second and third figures, the nozzle maintenance device of the present invention is first implemented, and the embodiment includes a The cleaning module 100 includes a cleaning base 110 and a first driving portion 120 connected to the cleaning base 110. The cleaning base U0 includes a plurality of liquid discharging holes lu, and the first driving portion 12 is used for Controlling the rotation of the cleaning base 110, the solvent sprayed by the liquid discharge hole 111 is used to clean the plurality of nozzles on the spray head. The cleaning base 110 includes a first recess 112, and the plurality of annular retaining walls 113 are disposed thereon. In the first recess 112, the plurality of annular retaining walls 113 respectively define a solid liquid recess 115, and a plurality of liquid jet holes m are disposed at the bottom of the solid liquid recess 115, and the plurality of annular retaining walls 113 respectively have a liquid outlet 1131; a plurality of liquid outlet holes 114 are disposed at the bottom of the first groove 112, and the liquid outlet holes 114 communicate with the bottom surface of the cleaning base 11'. The waste liquid generated by the cleaning nozzles is discharged to the cleaning base 11 through the liquid outlet holes 114. In the present embodiment, the plurality of liquid ejecting holes 111 are respectively divided into three groups respectively disposed at the bottoms of the three solid liquid recesses 115, and a hollow duct is respectively disposed under the three solid liquid recesses 115, that is, the cleaning base 11 116, the plurality of liquid ejection holes Hi at the bottom of the solid liquid groove 115 are connected to the hollow pipe 116 A liquid inlet 117 is disposed below the hollow pipe 116, that is, the bottom surface of the cleaning base 110, and the solvent enters the hollow pipe 116 from the liquid inlet m, and is ejected from the liquid injection port m. The nozzle to be cleaned is moved to the upper side, and sprayed. The liquid hole m can spray the solvent to clean the nozzle, and the residual ink on the nozzle is removed. The annular barrier 113 φ can prevent the solvent sprayed onto the nozzle from splashing around, and the solvent generated by the cleaning nozzle will stay in the solid. The bottom of the liquid groove 115 is then flowed into the first groove 112 through the liquid outlet 1131, and then discharged out of the cleaning base 110 through the liquid outlet 114. The liquid-solid groove 115 of the liquid outlet 1131 is higher than the first side. The side of the groove 112 is convenient for the solvent generated by the cleaning nozzle to flow into the first groove 112. The side of the hole wall of the liquid outlet hole 114 is connected to the inner side of the hole wall to facilitate the cleaning nozzle. The solvent is discharged. The first driving unit 120 includes a first driving device 121, such as a motor, and a first rotating shaft 1211 connected to the first driving device 121. The first driving device 121 can drive the first rotating shaft 1211 to rotate and control the rotating speed thereof. a first base 123; a first base shaft 1231 connected to the first base 123, the first shaft 1211 is rotated to drive the first base shaft through the first belt 122; [231 rotation, The angle at which the base shaft 1231 rotates is the same as that of the seventh 1270472. The first drive unit 121 can control the first base shaft 1231 by the first control. [The first buffer seat 124 of the base shaft 1231 is connected by a plurality of springs. A buffer base 12th floor cleaning base ιι〇, the first base pivoting shaft-buffering seat rotates, and when the cleaning base is impacted by the material, the first cushioning seat 124 connected to the cleaning base 110 can be shocked The energy to prevent the mouth from being affected by the collision. Please refer to the fourth figure. The nozzle maintenance device of the present invention further includes a wiping module lion. The wiping module 200 includes a carrier plate 21G, and a second driving portion (10) connected to the carrier plate 2, "the carrier plate 210 has a first recess 211, and the second driving portion 22 is used to control the wiping cloth. The action of a4 φ moving over the second groove 211. The second driving part 220 includes: a second chicken device 221, such as a motor; and a second driving device 221, a 4 nd 222, where the material is placed The second contact 222 cooperates with the driven shaft 2222, and the second heat 222 is driven by the Gubu 224. Although the 2222 is touched, the second driving device 221 can drive the rotation of the shaft 222 and control the rotational speed and the rotational distance; A rotating shaft 223 is coupled to the driven rotating shaft 223, and the wiping cloth 224 is wound on the driven rotating shaft 223, and one end of the wiping cloth 224 is connected to the second rotating shaft 222 via the second recess 211 on the carrying plate 21〇. The second rotating shaft 222 is moved to move the wiping cloth 224 over the second recess 211, and the wiping cloth 224 that has passed over the second recess 211 is re-wound on the second rotating shaft 222. The wiping 224 is second. The distance moved above the groove 211 is driven by the second driving device 221 It should be noted that the second rotating shaft 222 and the driven rotating shaft 223 should be designed as a quick-disassembling structure for the replacement of the wiping cloth 224. The wiping cloth 224 is made of a soft cloth with a soft texture. Material is produced. An encoder 2221 is connected to the driven shaft 2222. The encoder 2221 records the rotational speed and the rotational distance of the driven shaft 2222, thereby measuring the distance moved by the wiping cloth 224, and the obtained data can be transmitted to the second. The driving device 221 realizes the control of the second rotating shaft 222 by the second driving device 221 to control the moving speed and distance of the wiping cloth 224. A light sensor 225 is disposed under the wiping cloth 224, and when the wiping cloth 224 is used, the light is provided. The sensor 225 can emit a signal for easy replacement of the wiper cloth 224. 8 1270472 Wiping the nozzle to be wiped is accomplished by the following process, which first needs to be swiped, and moved to the top of the carrier plate 21, ie, the second concave Above the groove 211, the nozzle is moved toward the bottom of the second groove 211, and the nozzle is stopped at a position above the bottom of the second groove 211. a predetermined time, at a predetermined time _, the second rotating shaft 222 cooperates with the driven rotating shaft 223 and the rotation of the second f-axis 222 causes the wiping cloth 224 above the second recess 211 to abut against the carrier plate 21 〇 The tension of the large wiping cloth 224, the tension of the thief cloth recording surface is tight when it is pressed, and the pre-distance is different from the depth of the small groove 211, and the _ can be mixed with the specific situation. The excess ink or other foreign matter on the nozzle can be removed. Referring to FIG. 5 and FIG. 6 together, the nozzle maintenance device of the present invention further includes a cover module 300 including a cover base 310 and a cover. a third driving portion 〇 connected to the enclosure base 310, the enclosure base 310 includes two third recesses 314 disposed on the enclosure base 31, three = sealing holes 312 and two a single hole 311, the three sealing holes 312 are arranged in parallel, and two third grooves 314 are respectively disposed between two adjacent sealing holes 312, and the two single holes 311 are respectively disposed in the two third grooves. At the bottom of the 314, a sealing hole 3122 is disposed in each of the sealing holes 312, and a single hole 3112 is provided with a single hole sealing ring 3112. ^ The single-hole sealing ring 3112 and the sealing eyelet 3122 are made of a rubber having good elasticity. In the present embodiment, the three sealing holes 312 respectively correspond to three nozzles, and the nozzles have a plurality of nozzles arranged side by side. When the nozzle is in the standby state, the nozzle is moved above the sealing hole 312. After the positioning is accurately positioned, the nozzle is placed in the sealing hole 312, and the sealing ring 3122 disposed in the sealing hole 312 tightly wraps the edge of the nozzle. The nozzle of the head, that is, the nozzle, is placed in the sealing hole 312 below the sealing eyelet 3122. The sealing hole 312 is externally connected with a control valve for controlling the air pressure in the sealing hole 312, so that the sealing hole 312 has a negative pressure, and the sealing object in the nozzle wrapped by the sealing ring 3122 acts on the negative pressure. It is sucked out. The single hole 311 is disposed at the bottom of the third groove 314. The single hole 311 is externally connected with a control valve. The control valve is used to control the air pressure in the single hole 311, so that the single hole 311 has a negative pressure. When the obstruction of the single nozzle is to be cleaned, the nozzle moves along the extending direction of the third recess 314 and the sealing hole 312, and the nozzle to be processed is moved above the single hole 311, and then the nozzle is inserted. In the single hole 311, the single hole sealing ring 3112 can tightly wrap the edge of the nozzle 9 1270472 placed therein by using its own good elasticity, and the nozzle of the nozzle is placed under the single hole sealing ring. The obstruction in the nozzle 311 is sucked out under the action of a negative pressure. A plurality of liquid discharge holes 313 are disposed at the bottom of the third recess 314, and the liquid discharge holes 313 communicate with the bottom surface of the cover base 310. - The liquid of the groove paste is thinned out through the liquid discharge hole. ^^心一^ The third driving unit 320 includes a third driving device 321, such as a motor; a third rotating shaft 321 connected to the third driving device 321, the third rotating device 321 can drive the third rotating shaft 32ΐι rotates and controls its rotation speed and rotation distance; a second base 323; a second bottom shaft 3231 connected to the second base 323 j, Na Wangna can still edit the second _ belt 322 to drive the The second base rotating shaft 3231 rotates, and the angular rotation of the second base rotating shaft 3231 corresponds to the third rotating shaft 3211. Therefore, the third driving device 321 can control the first rotating shaft 3231 by controlling the third rotating shaft 3211. - a second buffer seat 324 disposed opposite to the second base rotating shaft 3231, the second buffer seat is connected to the cover base 31 by a plurality of springs, and the second base rotating shaft 3231 drives the second slow-motion 324 to rotate, #封封When the cover base is slightly impacted by the outside, the second buffer seat 324 connected to the disk enclosure base 310 can absorb the energy of the impact to prevent the collision from being damaged. For the seventh embodiment, the second embodiment of the present invention includes: a first substrate 4A, a cleaning module 1A, and a cleaning surface group 2, wherein the cleaning module The group 擦拭 and the wiping module 200 are placed on the first substrate 4'. The nozzle can perform cleaning and wiping operations simultaneously through the nozzle maintenance device. ® Referring to FIG. 8 , a third embodiment of the nozzle maintenance device of the present invention includes: a second substrate 400 ”; a cleaning module 100; a sealing module 3 〇〇, wherein the cleaning module 1 〇 The 〇 and the capping module 300 are respectively disposed on the second substrate, and the head can be cleaned by the nozzle maintenance device, and in the standby state, the ink in the nozzle is not volatile, ensuring that the nozzle can be smoothly Injecting the ink. In summary, the present invention meets the requirements of the invention patent, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not in the above embodiment. The equivalent modifications or changes made by the person in charge of the skill of this case in the spirit of the invention shall be included in the scope of the following patent application. [1] Simple description of the drawings 1270472 Figure f Invented the first implementation of the nozzle maintenance device 3D is a schematic view of a cleaning module of the cleaning module shown in the first figure. Fig. 2 is a perspective sectional view of the cleaning base along the m-πι line in the second figure. 4 is a three-dimensional schematic diagram of the wiping module of the first embodiment of the nozzle maintenance device of the present invention. The five-figure diagram is a three-dimensional diagram of the enclosure module of the first embodiment of the daily sun nozzle maintenance device. A five-dimensional schematic diagram of a fresh base of the five-chart cap illustrating the module. The seven-figure is a perspective view of the second embodiment of the nozzle maintenance device of the present invention.
【主要元件符號說明】 清洗模1 且 100 清洗基座 110 第一驅動装置 121 第一底座轉輛 1231 第一底座 123 第—緩衝座 124 環形擒壁 113 噴液孔 111 中空管道 116 第二驅動部 220 光傳感器 225 第二凹槽 211 編碼器 2221 擦栻模la 200 第二驅動裝置 221 封罩基座 310 密封孔 312 密封孔圈 3122 第三轉軸 3211[Description of main component symbols] Cleaning die 1 and 100 Cleaning pedestal 110 First driving device 121 First base rotating device 1231 First base 123 First cushioning seat 124 annular damming wall 113 Liquid discharging hole 111 Hollow pipe 116 Second driving portion 220 light sensor 225 second groove 211 encoder 2221 cleaning die la 200 second driving device 221 sealing base 310 sealing hole 312 sealing hole ring 3122 third rotating shaft 3211
八圖係本發明喷頭維護裝置第三實施例之立體示意圖。 噴液孔 111 弟一驅動部 120 第一凹槽 112 第一轉軸 1211 第一傳動帶 122 出液孔 114 出液口 1131 固液凹槽 115 承載板 210 擦拭布 224 從動轉車由 223, 2222 苐一轉車由 222 封罩模組 300 第三驅動部 320 單孔 311 單孔密封圈 3112 苐二驅動裝置 321 第二底座 323 棑液孔 313 11 1270472 第二傳動帶 322 第二底座轉轴 3231 第二緩衝座 324 第三凹槽 314 第一基板 400’ 第二基板 400” 12Figure 8 is a perspective view of a third embodiment of the nozzle maintenance device of the present invention. Spray hole 111 first drive part 120 first groove 112 first rotating shaft 1211 first transmission belt 122 liquid outlet 114 liquid outlet 1131 solid liquid groove 115 carrier plate 210 wiping cloth 224 driven transfer by 223, 2222 Transfer by 222 Enclosure Module 300 Third Drive 320 Single Hole 311 Single Hole Seal 3112 2 Drive Unit 321 Second Base 323 Throttle Hole 313 11 1270472 Second Drive Belt 322 Second Base Rotary Shaft 3231 Second Buffer Seat 324 third groove 314 first substrate 400' second substrate 400" 12