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TW201223776A - Printing apparatus with halftone strain detection and the halftone thereof - Google Patents

Printing apparatus with halftone strain detection and the halftone thereof Download PDF

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Publication number
TW201223776A
TW201223776A TW099143056A TW99143056A TW201223776A TW 201223776 A TW201223776 A TW 201223776A TW 099143056 A TW099143056 A TW 099143056A TW 99143056 A TW99143056 A TW 99143056A TW 201223776 A TW201223776 A TW 201223776A
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TW
Taiwan
Prior art keywords
printing
screen
sensing
tension
halftone
Prior art date
Application number
TW099143056A
Other languages
Chinese (zh)
Inventor
Koung-Ming Yeh
Chien-Ming Tseng
Original Assignee
Metal Ind Res & Dev Ct
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Publication date
Application filed by Metal Ind Res & Dev Ct filed Critical Metal Ind Res & Dev Ct
Priority to TW099143056A priority Critical patent/TW201223776A/en
Priority to CN2011102048815A priority patent/CN102529318A/en
Publication of TW201223776A publication Critical patent/TW201223776A/en

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Abstract

A printing apparatus with halftone strain detection is disclosed. The printing apparatus comprises a platform, a halftone and a printing squeegee. The platform has a placement face. The halftone has a printing face, a pressing face, a printing zone and at least one sensor. The printing face faces the placement face of the platform. The pressing face is opposite to the printing face. The printing zone communicates with the printing face and the pressing face. The sensor is located outside of the printing zone. The printing squeegee faces the pressing face of the halftone so that the printing squeegee is allowed to press the halftone and to move in a printing direction. Thus, the sensor can detect the strain of the halftone in real time during printing of the halftone in order for a user to determine whether the halftone should be replaced by a new one.

Description

201223776 六、發明說明: 【發明所屬之技術領域】 晉及ίΓ糊Γ—種具有職張力相雜之印刷裝 置及…魏’尤其是-種於網版印刷作業過 、 感測網版張力之印刷裝置及其網版。 ,可即時 【先前技術】 由於網版印刷具有喊雖與耐藥㈣特性 多種承印㈣上進行印刷,例如:_、_品、破璃於 陶竞或印㈣路之基板等,係已叙助於民纽 業。然而,在套色印刷過財,由於網版張力不均 刮刀之下壓相定,可能造成套色不準確、油墨沉積不Ζ 間接耐印力低或產生網版局部紐#_,影 f。一般而言,針對上述問題,藉由感測網版張;,可: 為調整印鬚刀辭贿之下壓力或更騎酿之 使印刷厚度達成高羽度之要求。因此,存在有下列 種習知感測網版張力方法。 或 第-種習知感測網版張力方法為一離線 式,其係於印刷裝置之網版未進行印刷作業而間置H 人力將-張力計依序放置於該網版之數個位置,以感測該 網版之數她置的張力。惟,財㈣將力計以手動/ 方式放置於_版,因此,_過域耗人時成本高,且 ,無法排除—般人力作業常伴隨的怠惰及精密度低等問 題。再者,此方法無法㈣感寧卩刷時之峨張力,作 調整或更換該網版所需資訊。 201223776 第二種習知感測網版張力方法為一線上間接感測方 式’其係如美國專利公告第5052291號「Screen printing method comprising printing pressure regulation」發明專利 案’請參閱第1圖所示’其係揭示一種可感測網版張力之 習知印刷裝置9 ’該習知印刷裝置9設一印刷平台91,該 印刷平台91的四角落處設有四組壓力感測器92,該習知 印刷裝置9另具有一網版93及一印刷刮刀94,該網版93 位於該印刷平台91及該印刷刮刀94間。 當進行網版印刷前或進行網版印刷後,該印刷刮刀94 下壓該網版93,而壓抵該網版93及該壓.力感測器92,該 印刷刮刀94下壓力與該網版93張力相消之合力可由該壓 力感測器92感測而得,藉由該壓力感測器92之感測值及 該印刷到刀94之下壓力值,計算該壓力感測器92位置之 網版93張力。 惟,習知印刷裝置9係偵測該印刷刮刀94下壓力與 该網版93張力之合力,乃間接取得該網版93張力的資訊, 所取得之網版93張力與該網版93之實際張力間之誤差值 大;再者’該習知印刷t置9僅能偵測設有該壓力感測器 92處之網版93張力,若密集設置該壓力感測器%,亦無 法同時得知細版93其触置线力。0此,此方法無法 同日年感測該網版9 3任何位置之張力,提供調整或更換該網 版93之資訊稍嫌不足;若密集設置該壓力感測器,則 具有提高設置成本之問題。 或者,如中華民國專利公告第M342278號「壓力補償 式之刮刀她」新型專利案,請閱第2圖所示,其係揭示 201223776 一種可調整網版張力之習知印刷裝置8,該習知印刷裝置8 設一荷重單元81、一壓力感測器82、一印刷刮刀83及一 網版8 4,該荷重單元8丨係設置該壓力感測器8 2並連接該 印刷刮刀83 ’使該印刷刮刀83朝向該網版84。 當該荷重單元81向下壓,並使該印刷刮刀83抵接於 該網版8 4時,該印刷刮刀8 3下壓力與該網版8 4張力相消 之合力,係可由該印刷刮刀83處之壓力感測器82感測而 得,藉由該壓力感測器82之感測值及該印刷刮刀83之下 壓力值,汁异該壓力感測器82位置之網版84張力。 惟,此方法係監測該印刷刮刀83處之壓力,以供間 接偵測該網版84之張力。因此,該網版84之張力經由非 網版84之結構傳遞至該壓力感測器η,該間接感測的誤 差值顯然亦大於直接感測該網版84之張力的誤差值。 基於上述原因,有必要進一步改良上述習知印刷裝 置。 【發明内容】 本發明之目的乃改良上述缺點,以提供一種具有網版 張力感测功旎之印刷裝置及其網版,以即時感測網版張力。 本發明之另一目的,係提供一種具有網版張力感測功 月b之印刷裝置及其網版,以同時感測網版任何位置張力。 ^本發明之再一目的,係提供一種具有網版張力感測功 能之印刷裝置及其網版,以直接感測網版張力。 一種具有網版張力感測功能之印刷裝置,係包含:一 平台,係設一置物面;一網版,係設一印刷面、一壓抵面、 201223776 :印刷區域及至少—感測件,該印刷面係朝向該平台之置 • f面’賴抵面係相對於該印刷面,辨_域係連通該 卩刷面及該壓抵面,該感測件料於該印刷區域外,及一 =刀’ _向_版之舰面,以供壓抵軸版接觸於該 待印刷物並沿一印刷方向移動。 本發明之網版’係包含:―印刷面,係形成於該網版 之-表面,-壓抵面,係相對於該印刷面;一印刷區域, #連通該印刷面及該壓抵面;及至少-感測件,係設於該 鎌 印刷區域外。 藉此,當進行網版印刷日夺,該感測件可即時感測該網 版之張力,以供使用者作為更換該網版之參考。 【實施方式】 *為讓本發日狀上述及其他目的、特徵及優點能更明顯 易懂,下文特舉本發明之較佳實施例,並配合所附圖式, 作詳細說明如下: φ 本發明以下所述之「印刷方向」係網版印刷之印刷刮 刀移動方向,係熟悉該技藝者可以理解。 明參閱第3及4圖所示,其係本發明具有網版張力感 W功能之印财置之第—實施例。其巾,本發明具有網版 張力感測功能之印刷裝置係包含一平台1、一網版2及— 刮刀3,該平台1係供放置一待印刷物4,該網版2係位於 §亥平台1及該刮刀3之間,且該網版2具有感測其張力之 功能。藉此,當進行網版印刷時,該刮刀3沿係一印刷方 向D壓抵該網版2,使印刷墨水(printing Ink)印刷於該 201223776 可即時感測其張力,供使用者作為 待印刷物4,該網版2 更換該網版2之參考。 版2及該 該平台1係設有-置物面u,其係朝向該網 刮刀3,供放置該待印刷物4。 …職2係由習知祕網版印刷之網體製成,該網版 W-印刷面2卜-壓抵面22、—印刷區域23及至少 -感測件24,該印刷面21係形成於_版2之一表面, 該印刷面21係躺該平台丨之置物φ n,供該網版2接 觸該待印· 4。抵面22仙對於該印刷面21形成 該網版2之另一表面,該壓抵面22係朝向該刮刀3,供該 "冯版2接觸δ亥刮刀3。該印刷區域23係連通該印刷面21 及该壓抵面22,以供印刷油墨由該壓抵面22經由該印刷 區域23滲透至該印刷面21,該印刷區域23之形狀及範圍 係可視使用需求而調整。在本實施例中,該印刷區域23 之形狀為矩形。 該感測件24係可偵測物體形變量之元件,例如:應 變規(Strain Gauge)或薄膜式應變感知器。在此實施例中, 該感測件24為一薄膜式應變感知器。該感測件24係設於 該印刷區域23外,該感測件24係可視使用需求設於該印 刷面21或/及該壓抵面22。在此實施例中,該感測件24 係設於該印刷面21。其中,該感測件24之設置數量係可 视需求,設置一個或數個感測件24鄰近該印刷區域23邊 緣,或以數個感測件24沿該印刷方向D設置於鄰近該印 刷區域23之相對二邊緣。該感測件24係供感測該網版2 之張力,且該感測件24設有導線輸出對應之電性變化值’ 201223776 例如电阻值、電壓值或電流值。藉此,當進行網版印刷 時,該感測件24可直接即時感測該網版2之形變量,該形 變量之值越大代表該網版2之張力越大,反之亦然。 睛參閱第3及5圖所示,該刮刀3係如習用之印刷刮 刀(Printing Squeegee),其係朝向該網版2之壓抵面22及 忒平台1之置物面11,該刮刀3係可移動而壓抵該網版2 之壓抵面22,並沿該印刷方向d移動,使該網版2之印刷 面21接觸於該待印刷物4。 • 請參閱第5及6圖所示,其係本發明具有網版張力感 測功能之印刷裝置之使用情形示意圖。欲進行印刷時,係 先將印刷油墨置於該網版2之壓抵面22,該刮刀3麗抵該 網版2之塵抵面22,使該網版2變形並使該印刷面21接 觸該待印刷物4 ’該刮刀3沿該印刷方向d移動,將印刷 油墨由該壓抵面22擠入該網版2之印刷區域23,並渗透 至該印刷面21 ’使印刷油墨印置於該待印刷物4。 ¥ 5亥刮刀3向下猛抵該網版2時’.該感測件24即可 Φ 檢出其所在位置之網版2形變量,若以二個感測件24a及 24b分別鄰設於該印刷區域23之相對二側邊緣,且該刮刀 3之二端係可分別經過此二感測件24a及24b上方(依圖 '面而言)’則由此二感測件24a及24b之感測值,可得知該 •刮刀3二端之網版2張力是否相同,供使用者評估該刮刀 3之二端是否平衡,作為調整該刮刀3之參考。 清再参閱弟6圖所不’為使該網版2任何位置之形變 量均可被感測,可沿該印刷方向D設置數組感测件24a及 24b,在此實施例中,該感測單元24a及24b係分別設於該 201223776 印刷區域23之二邊緣延伸線(L1及L3)及該印刷區域23 之中心延伸線(⑵,其中,該二邊緣延伸線⑴及⑶ 及該中心延伸線(L2)係平行於綱刀3。再者,由於該 感測件24係直接貼言曼於該網版2,當該刮刀3下壓該網版 2時,該感測件24係隨該網版2而變形,可降低_版2 之形變量經由其他結構,間接傳遞至該制件24所造成的 誤差。 凊再參閱第5、6及7圖所示,若該刮刀3之二端係 已平衡’則當該刮刀3下壓於該印刷區域23之邊緣:伸線 L1時’位於該邊緣延伸線L1之感測件24的感測值最大, 位於該中心延伸線L2之感測件24的感測值次之,位於該 邊緣延伸線L3之感測件24的感測值最小。同理,請閱第 8、9及10圖所示,當該到刀3下壓於該印刷區域μ之中 心延,線L2時’位於該中心延伸線L2之感測件24的感 測值最大,位於該邊緣延伸線u及L3之感測件Μ的感 測值次之。請閱第1卜12及13圖所示,當該刮刀3下壓 於該印刷區域23之邊緣延伸線L3時,各位置之感測值亦 可依此類推,在此不再贅述。 因此,該網版2之形變位置及各該感測件24間之距 離係與各該_件24 _值成反比,且制版2任何位置 之形變程度與各該感測件24感測值成正比。該刮刀3下壓 該網版2所造成之形變量,可藉㈣於該網版2不同位^ 之感測件24的感測值’取得該網版2各位置之張力值 情形I。 請閱第14圖所示,為設定一預設張力值及顯示該感 —10 — 201223776 調整或更換該網〜 ▼科月弟貫施例遇可另設—介面模 該感測件24之導線。該介賴組5係包含—^連接於 放大器52、處理器53、一輸入器54及 =51、- 橋51係電性連接於感測件24之導線 55 ’該電 所輸出之訊號;—放大器52係電性連接;件24201223776 VI. Description of the invention: [Technical field of invention] Jin and Γ Γ Γ 种 种 种 种 种 种 种 种 种 种 种 种 具有 具有 具有 具有 具有 具有 具有 具有 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏Device and its screen version. , can be immediately [previous technology] because screen printing has shouting and resistance (four) characteristics of a variety of printing (four) on the printing, such as: _, _ products, broken glass in Tao Jing or India (four) road substrate, etc. Yumin New Industry. However, in the case of color printing, because the tension of the screen is uneven, the pressure is determined by the blade, which may result in inaccurate color registration, ink deposition, indirect printing resistance, or partial screen printing. Generally speaking, in response to the above problem, by sensing the screen version, it is possible to: to adjust the pressure under the bribe of the squeegee or to make the printing thickness to achieve a high feather requirement. Therefore, there are the following conventional sensing screen tension methods. Or the first conventional sensing screen tension method is an off-line type, which is performed on the screen of the printing device without performing a printing operation, and the H-manpower-tension meter is sequentially placed in several positions of the screen. To sense the tension she placed on the screen. However, Cai (4) puts the force meter in the manual version, so the cost of the _ over-the-counter is high, and the problem of sluggishness and low precision often associated with manual work cannot be ruled out. Moreover, this method cannot (4) feel the tension during brushing, and adjust or replace the information required for the screen. 201223776 The second conventional sensing screen tension method is an indirect line sensing method. The following is a method of "Screen printing method including printing pressure regulation" in the US Patent Publication No. 5052291. Please refer to FIG. It discloses a conventional printing device 9 that can sense the tension of the screen. The conventional printing device 9 is provided with a printing platform 91. Four sets of pressure sensors 92 are provided at four corners of the printing platform 91. The printing unit 9 further has a screen 93 and a printing blade 94 which is located between the printing platform 91 and the printing blade 94. Before the screen printing or the screen printing, the printing blade 94 presses the screen 93, and presses against the screen 93 and the pressure sensor 92, the printing blade 94 presses the pressure and the net The resultant force of the version 93 tension cancellation can be sensed by the pressure sensor 92, and the position of the pressure sensor 92 is calculated by the sensed value of the pressure sensor 92 and the pressure value printed under the knife 94. The screen version 93 tension. However, the conventional printing device 9 detects the resultant force of the pressing force of the printing blade 94 and the tension of the screen 93, and indirectly obtains the information of the tension of the screen 93, and the obtained tension of the screen 93 and the actual version of the screen 93 The error value between the tensions is large; in addition, the conventional printing t-setting 9 can only detect the tension of the screen 93 provided at the pressure sensor 92. If the pressure sensor is densely set, it cannot be obtained at the same time. The fine version 93 has a touch line force. 0, this method can not sense the tension of any position of the screen 9 3 in the same day, and the information for adjusting or replacing the screen 93 is slightly insufficient; if the pressure sensor is densely arranged, the problem of increasing the installation cost is increased. . Or, as in the Republic of China Patent Bulletin No. M342278, "Pressure-Resistant Scraper Her" new patent case, as shown in Figure 2, which reveals 201223776 a conventional printing device 8 that can adjust the tension of the screen, the conventional knowledge The printing device 8 is provided with a load cell 81, a pressure sensor 82, a printing blade 83 and a screen plate 84. The load cell 8 is provided with the pressure sensor 8 2 and connected to the printing blade 83'. The printing blade 83 faces the screen 84. When the load unit 81 is pressed down and the printing blade 83 abuts against the screen 84, the resultant force of the downward pressure of the printing blade 83 and the tension of the screen 84 can be obtained by the printing blade 83. The pressure sensor 82 is sensed by the sensed value of the pressure sensor 82 and the pressure value under the printing blade 83, and the screen 84 tension of the pressure sensor 82 is different. However, this method monitors the pressure at the printing blade 83 for indirect detection of the tension of the screen 84. Therefore, the tension of the screen 84 is transmitted to the pressure sensor η via the structure of the non-screen 84, and the error of the indirect sensing is obviously greater than the error value directly sensing the tension of the screen 84. For the above reasons, it is necessary to further improve the above-described conventional printing apparatus. SUMMARY OF THE INVENTION An object of the present invention is to improve the above disadvantages to provide a printing apparatus having a screen tension sensing function and a screen thereof for instantly sensing screen tension. Another object of the present invention is to provide a printing apparatus having a screen tension sensing power b and a screen thereof for simultaneously sensing tension at any position of the screen. A further object of the present invention is to provide a printing apparatus having screen tension sensing function and a screen thereof for directly sensing screen tension. A printing device with screen tension sensing function comprises: a platform, which is provided with a storage surface; a screen version, which is provided with a printing surface, a pressing surface, 201223776: a printing area and at least a sensing component, The printing surface is oriented toward the platform, and the sensing surface is connected to the printing surface, and the sensing element is outside the printing area, and A = knife's _ version of the ship's surface for pressing against the axis to contact the object to be printed and moving in a printing direction. The screen of the present invention comprises: a printing surface formed on the surface of the screen, a pressing surface, relative to the printing surface, a printing area, # communicating the printing surface and the pressing surface; And at least the sensing member is disposed outside the printing area of the crucible. Thereby, when the screen printing is performed, the sensing member can instantly sense the tension of the screen for the user to use as a reference for replacing the screen. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The above and other objects, features and advantages of the present invention will become more apparent and understood. The "printing direction" described below is a printing blade moving direction for screen printing, which is familiar to those skilled in the art. Referring to Figures 3 and 4, it is a first embodiment of the present invention having a screen tension sensation W function. The printing device having the screen tension sensing function of the present invention comprises a platform 1, a screen 2 and a scraper 3, wherein the platform 1 is for placing a to-be-printed object 4, and the screen 2 is located at the platform 1 and the scraper 3, and the screen 2 has a function of sensing its tension. Thereby, when screen printing is performed, the doctor blade 3 is pressed against the screen 2 in a printing direction D, so that printing ink (printing Ink) is printed on the 201223776, and the tension can be sensed immediately for the user to use as a to-be-printed object. 4. This screen version 2 replaces the reference of the screen version 2. The plate 2 and the platform 1 are provided with a storage surface u facing the web scraper 3 for placing the object 4 to be printed. The job 2 is made of a net body printed by a conventional screen, which has a W-printing surface 2 - a pressing surface 22, a printing area 23 and at least a sensing member 24, and the printing surface 21 is formed. On one surface of the _ plate 2, the printing surface 21 is placed on the 丨 n of the platform 供, for the screen 2 to contact the to-be-printed 4. The facing surface 22 is formed on the printing surface 21 to form the other surface of the screen 2, and the pressing surface 22 faces the blade 3 for the von plate 2 to contact the δ-hai blade 3. The printing area 23 communicates with the printing surface 21 and the pressing surface 22 for the printing ink to penetrate from the pressing surface 22 to the printing surface 21 via the printing area 23, and the shape and range of the printing area 23 can be visually used. Adjusted for demand. In the present embodiment, the printing area 23 has a rectangular shape. The sensing member 24 is a component that can detect an object shape variable, such as a strain gauge or a film strain sensor. In this embodiment, the sensing member 24 is a thin film strain sensor. The sensing member 24 is disposed outside the printing area 23, and the sensing member 24 is disposed on the printing surface 21 or/and the pressing surface 22 according to the use requirement. In this embodiment, the sensing member 24 is disposed on the printing surface 21. The number of the sensing members 24 is set as needed, and one or several sensing members 24 are disposed adjacent to the edge of the printing region 23, or a plurality of sensing members 24 are disposed adjacent to the printing region along the printing direction D. 23 relative to the two edges. The sensing member 24 is configured to sense the tension of the screen 2, and the sensing member 24 is provided with a corresponding electrical change value of the wire output '201223776, such as a resistance value, a voltage value or a current value. Thereby, when screen printing is performed, the sensing member 24 can directly sense the shape variable of the screen 2, and the larger the value of the variable, the greater the tension of the screen 2, and vice versa. Referring to Figures 3 and 5, the scraper 3 is a conventional printing blade (Printing Squeegee) which faces the pressing surface 22 of the screen 2 and the storage surface 11 of the crucible 1, which can be used. The pressing surface 22 of the screen 2 is moved and moved in the printing direction d, so that the printing surface 21 of the screen 2 is in contact with the object 4 to be printed. • Refer to Figures 5 and 6 for a schematic view of the use of the printing apparatus having the screen tension sensing function of the present invention. When printing is to be performed, the printing ink is first placed on the pressing surface 22 of the screen 2, and the blade 3 is brought against the dust abutting surface 22 of the screen 2 to deform the screen 2 and contact the printing surface 21. The workpiece 4' is moved along the printing direction d, and the printing ink is squeezed from the pressing surface 22 into the printing area 23 of the screen 2, and penetrates to the printing surface 21' to place the printing ink on the printing To be printed 4. ¥5Hai scraper 3 slams down to the screen 2'. The sensor 24 can detect the position of the screen 2 shape variable, if the two sensing parts 24a and 24b are adjacent to each other The two opposite ends of the printing area 23, and the two ends of the blade 3 can pass over the two sensing members 24a and 24b (in terms of the 'surface'), and thus the two sensing members 24a and 24b The sensed value can be used to know whether the tension of the screen 2 at both ends of the scraper 3 is the same, and the user can evaluate whether the two ends of the scraper 3 are balanced as a reference for adjusting the scraper 3. Further, in order to make the shape variable of any position of the screen 2 can be sensed, the array sensing members 24a and 24b can be disposed along the printing direction D. In this embodiment, the feeling is The measuring units 24a and 24b are respectively disposed on two edge extension lines (L1 and L3) of the 201223776 printing area 23 and a central extension line ((2) of the printing area 23, wherein the two edge extension lines (1) and (3) and the center extension The line (L2) is parallel to the main knife 3. Further, since the sensing member 24 is directly attached to the screen 2, when the blade 3 presses the screen 2, the sensing member 24 is attached. The screen 2 is deformed to reduce the error caused by the variable of the _ version 2 being transmitted to the workpiece 24 indirectly through other structures. 凊 Referring to Figures 5, 6 and 7, if the blade 3 is The end system has been balanced'. When the blade 3 is pressed down to the edge of the printing area 23: when the line L1 is stretched, the sensing value of the sensing member 24 located on the edge extending line L1 is the largest, and the feeling is located at the center extending line L2. The sensing value of the measuring member 24 is second, and the sensing value of the sensing member 24 located at the edge extension line L3 is the smallest. For the same reason, please refer to the figures 8 , 9 and 10 It is shown that when the knives 3 are pressed down to the center of the printing area μ, the sensing value of the sensing member 24 located at the center extending line L2 is the largest at the line L2, and the sensing is located at the edge extending lines u and L3. The sensing value of the piece is next. As shown in Figures 1 and 12, when the blade 3 is pressed against the edge extension line L3 of the printing area 23, the sensing value of each position can be deduced by analogy. Therefore, the deformation position of the screen 2 and the distance between the sensing members 24 are inversely proportional to the value of each of the sheets, and the degree of deformation and the sense of any position of the plate making 2 The sensed value of the measuring piece 24 is proportional to the deformation of the screen 2 caused by the scraper 3, and the screen can be obtained by (4) the sensing value of the sensing member 24 of the different positions of the screen 2 The tension value of each position is case I. Please refer to Figure 14 for setting a preset tension value and displaying the sense. 10 - 201223776 Adjusting or replacing the network ~ ▼ 科月弟常法例 can be set separately - interface The wire of the sensing member 24 is molded. The group 5 includes - connected to the amplifier 52, the processor 53, an input 54 and = 51, and the bridge 51 is electrically connected. Conductor 24 of the sensing element 55 'of the electrical output signal; - 52 lines electrically connected to the amplifier; 24

放之輸出訊號進行類比放大;該處理器“電: 連,於該放大H 52,將該放大器52之輸出訊號】 ^號,並與該預設張力值做比較或執行其他使用者所需之 處理,該輸人H 54係電性連接於該處理器w,供 預設張力值,·該輸出器55係電性連接於該處理器^ς 出S玄感測數值及相關設定結果。 別 在此實施例中,該電橋51為一氧 + (wh_t_、),_物機橋不转之 輸出^ A小电壓值,以精確測量該感測件24所輪出之電阻 值;該放大器52為—類比訊號放大H ;該處理器53為一 微處理器或—可程式邏輯控制器;該輸入器54為一鍵盤或 -觸控螢幕;該輪出Ε 55為—螢幕或為形成該輪 觸控螢幕。 清參閱第15圖所示’在進行網版印刷過程中,為避 免《亥感測件24脫離該網版2,而影響該網版2張力感測之 準,度可將邊感測件24係設於該網版2之印刷面21與 抵面2之間’形成本發明具有網版張力㈣功能之印 刷哀置之第—貫施例。藉此,在即時感測該網版2之張力 時’該感測件24不會脫離該網版2,而影響該網版2之張 —11 — 201223776 力感測準確度。 本發明具有網版張力感測功能之印㈣置,係以該感 測件2 4即時檢出該網版2所有位置之形變量,供使用者於 網版印刷線上作業時,評估該網版2之張力是否符合所需 條件之參考。因此,具有即時感測該網版2張力之功效。 本發明具有網版張力感測功能之印刷裝置,係藉由設 於該網版2不同位置之感測件24的感測值,同時感^亥^ 刀3下壓該網版2所造成之形變量。因此,具有同時感測 該網版2任何位置張力,以取得該網版2之張力值分 形之功效。 本發明具有網版張力感測功能之印刷裝置,係藉由該 感測件24直接設於該網版2,當該到刀3下壓該網版2時, 該感測件24係隨該網版2而形變。因此,具有直接感測該 網版2之張力,以降低該網版2之形變量傳遞誤差之功效γ 雖然本發明已利用上述較佳實施例揭示,然其並非用 以限定本發明,任何熟習此技藝者在不脫離本發明之精神 和範圍之内,相對上述實施例進行各種更動與修改仍^本 發明所保護之技術範疇,因此本發明之保護範圍當視後附 之申請專利範圍所界定者為準。 【圖式簡單說明】 弟1圖:第一種習知印刷裝置的侧面圖。 第2圖:第二種習知印刷裝置的侧面圖。 第3圖:本發明具有網版張力感測功能之印刷袭置第— —12 — 201223776 實施例之組合側視圖。 第4圖.本發明具有網版張力感測功能之印刷裴置 實施例之組合上視圖。 、 ~ 第5圖.本發明具有網版張力感測功能之印刷裝置第一 實施例之第一種使用情形的組合侧視圖。 第6圖:本發明具有網版張力感測功能之印刷坡置第一 實施例之第一種使用情形的組合上視圖。 第7圖·本發明具有網版張力感測功能之印刷裝置第一 實施例之第一種使用情形的感測值示意圖。 第8圖·本發明具有網版張力感測功能之印刷骏置第一 實施例之第二種使用情形的組合侧視圖。 第9圖.本發明具有網版張力感測功能之印刷裳置第一 實施例之第二種使用情形的組合上視圖。 第10圖.本發明具有網版張力感測功能之印刷裳置第 一實施例之第二種使用情形的感測值示意圖。 第11圖:本發明具有網版張力感測功能之印刷裝置第 一實施例之第三種使用情形的組合侧視圖。 第12圖:本發明具有網版張力感測功能之印刷|置第 一實施例之第三種使用情形的組合上視圖。 第13圖:本發明具有網版張力感測功能之印刷裴置第 一實施例之第三種使用情形的感測值示意圖。 第14圖:本發明具有網版張力感測功能之印刷裴置μ 一實施例與介面模組之連線示意圖。 弟 第15圖:本發明具有網版張力感測功能之印刷骏置 二實施例之網版立體圖。 —13 — 201223776 【主要元件符號說明】 〔本發明〕 1 平台 11 置物面 2 網版 21 印刷面 22 壓抵面 23 印刷區域 24 感測件 24a 感測件 24b 感測件 3 刮刀 4 待印刷物 5 介面模組 51 電橋 52 放大器 53 處理器 54 輸入器 55 輸出器 D 印刷方向 L1 邊緣延伸線 L2 中心延伸線 L3 邊緣延伸線 〔習知〕 9 習知印刷裝置 91 印刷平台 92 壓力感測器 93 網版 94 印刷到刀 8 習知印刷裝置 81 荷重單元 82 壓力感測器 83 印刷刮刀 84 網版The output signal is analog-like amplified; the processor "electrically: connected, the amplification signal H 52, the output signal of the amplifier 52] ^ number, and compared with the preset tension value or perform other users' needs The input H 54 is electrically connected to the processor w for a preset tension value, and the output 55 is electrically connected to the processor to detect the S-sensing value and related setting results. In this embodiment, the bridge 51 is an oxygen + (wh_t_,), _ the machine bridge does not rotate the output ^ A small voltage value to accurately measure the resistance value of the sensing member 24; 52 is - analog signal amplification H; the processor 53 is a microprocessor or - programmable logic controller; the input device 54 is a keyboard or - touch screen; the wheel is 55 - for the screen or for forming Wheel touch screen. See Figure 15 for the following figure. In the process of screen printing, in order to avoid the impact of the screen sensor 2 from the screen 2, the degree of tension sensing of the screen 2 will be affected. The edge sensing member 24 is disposed between the printing surface 21 and the abutting surface 2 of the screen 2 to form the screen tension (four) work of the present invention. The printing method of the sorrow can be used. Thus, when the tension of the screen 2 is sensed in real time, the sensing member 24 does not leave the screen 2, and the sheet 2 of the screen 2 is affected. — 201223776 Force Sensing Accuracy. The invention has the printing (four) setting of the screen tension sensing function, and the sensing member 24 4 instantly detects the shape variables of all positions of the screen 2 for the user to print on the screen. When working online, it is evaluated whether the tension of the screen 2 meets the requirements of the required conditions. Therefore, it has the effect of instantly sensing the tension of the screen 2. The printing device with the screen tension sensing function of the present invention is designed The sensing value of the sensing member 24 at different positions of the screen 2, and simultaneously sensing the shape variable caused by pressing the screen 2 by the knife 3. Therefore, it is possible to simultaneously sense the tension of any position of the screen 2, The printing device having the screen tension sensing function is provided directly on the screen 2 by the sensing member 24, and the In the case of the screen 2, the sensing member 24 is deformed along with the screen 2. Therefore, the screen is directly sensed. Tension, in order to reduce the effect of the variable transmission error of the screen 2, although the present invention has been disclosed by the above-described preferred embodiments, it is not intended to limit the invention, and those skilled in the art can Within the scope of the invention, various modifications and changes to the above-described embodiments are still within the technical scope of the present invention. Therefore, the scope of the present invention is defined by the scope of the appended claims. 1 is a side view of the first conventional printing device. Fig. 2 is a side view of a second conventional printing device. Fig. 3: The printing device having the screen tension sensing function of the present invention - 12 - 201223776 Side view of a combination of embodiments. Fig. 4 is a top view of a combination of embodiments of a printing apparatus having a screen tension sensing function of the present invention. Fig. 5 is a combined side view of the first use case of the first embodiment of the printing apparatus having the screen tension sensing function of the present invention. Fig. 6 is a combination top view of the first use case of the first embodiment of the printing slope having the screen tension sensing function of the present invention. Fig. 7 is a schematic view showing the sensed value of the first use case of the first embodiment of the printing apparatus having the screen tension sensing function of the present invention. Fig. 8 is a side view showing the combination of the second use case of the first embodiment of the present invention having a screen tension sensing function. Fig. 9. A combination top view of a second use case of the first embodiment of the present invention having a screen tension sensing function. Fig. 10 is a schematic view showing the sensing values of the second use case of the first embodiment of the present invention having a screen tension sensing function. Fig. 11 is a side view showing the combination of the third use case of the first embodiment of the printing apparatus having the screen tension sensing function of the present invention. Fig. 12 is a view showing a combination of the third use case of the first embodiment of the printing with the screen tension sensing function of the present invention. Fig. 13 is a view showing the sensed values of the third use case of the first embodiment of the printing apparatus having the screen tension sensing function of the present invention. Fig. 14 is a schematic view showing the connection between the embodiment and the interface module of the printing device having the screen tension sensing function of the present invention. Figure 15: The present invention has a screen tension sensing function of the printing device. —13 — 201223776 [Description of main component symbols] [Invention] 1 Platform 11 Storage surface 2 Screen 21 Printing surface 22 Pressing surface 23 Printing area 24 Sensing member 24a Sensing member 24b Sensing member 3 Scraper 4 To be printed 5 Interface Module 51 Bridge 52 Amplifier 53 Processor 54 Input 55 Output D Print Direction L1 Edge Extension Line L2 Center Extension Line L3 Edge Extension Line [Practical] 9 Conventional Printing Device 91 Printing Platform 92 Pressure Sensor 93 Screen 94 Printing to knife 8 Conventional printing device 81 Load unit 82 Pressure sensor 83 Printing blade 84 Screen

Claims (1)

201223776 七、申請專利範圍: 1、 -種具有網版張力感測功能之印刷裝置,係包含: 一平台,係設一置物面; ’、周版’係设一印刷面、一壓抵面、.一印刷區域及至少 /感’則件’該印刷面係朝向該平台之置物面,該壓抵面 係相對於該印刷面,該印刷區域係連通該印刷面及該壓 抵面該感測件係設於該印刷區域外丨及 刮刀,係朝向該網版之壓抵面,以供壓抵該網版並沿 一印刷方向移動。 2、 依申請專利範_丨項所述之具有網版張力量測功能 之印刷裝置,其中另包含—介面模組,其係設—電橋電 性連接於該感測件,一放大器電性連接於該電橋,一處 理盗電性連接於該放大器,一輸入器及一輸出器電性連 接於該處理器。 3、 依申請專利範圍第1或2項所述之具有網版張力感測功 能之印刷裝置,其中該感測件係設於該印刷面、該壓抵 面或該印刷面與該壓抵面之間。 一 4、 依申請專利範圍第項所述之具有網版張力感測功 能之印刷裝置,其中該至少-感測件係鄰近該印刷區 邊緣設置。 5、依辛請專利範園第4項所述之具有網版張力感測功能 之印刷裝置,其中該至少-感測件係設數個,該數個感 測件係沿該印刷方向設置於鄰近該印刷區 邊緣。 相對一 —15 — 201223776 6、 一種網版,係包含: 一印刷面’係形成於該網版之一表面; 一壓抵面’係相對於該印刷面; 一印刷區域’係連通該印刷面及該壓抵面;及 至少一感測件,係設於該印刷區域外。 7、 依申請專利範圍第6項所述之網版’其中該至少一感測 件係鄰近該印刷區域邊緣設置。 8、 依申請專利範圍第6項所述之網版,其中該至少一感測 件係設數個,該數個感測件係沿該印刷方向設置於鄰近 該印刷區域之相對二邊緣。 依申請專利範圍第6項所述之網版,其中該感測件係設 1〇於該印刷面、該壓抵面或該印刷面與該壓牴面之間。 、依申請專利範圍第6項所述之網版,其中該感測件為一 應變規或一薄膜式應變感知器。201223776 VII. Patent application scope: 1. A printing device with screen tension sensing function, which includes: a platform, which is provided with a storage surface; ', Zhou Edition' is provided with a printing surface, a pressing surface, a printing area and at least a sensing surface facing the storage surface of the platform, the pressing surface being opposite to the printing surface, the printing area being connected to the printing surface and the pressing surface The component is disposed outside the printing area and the scraper is directed toward the pressing surface of the screen for pressing against the screen and moving in a printing direction. 2. The printing device having the screen tension measuring function according to the application patent specification, wherein the printing device further comprises a interface module, wherein the bridge is electrically connected to the sensing component, and an amplifier is electrically connected. Connected to the bridge, a process is electrically connected to the amplifier, and an input device and an output device are electrically connected to the processor. 3. The printing device having a screen tension sensing function according to claim 1 or 2, wherein the sensing member is disposed on the printing surface, the pressing surface or the printing surface and the pressing surface between. A printing apparatus having a screen tension sensing function according to the scope of the patent application, wherein the at least-sensing member is disposed adjacent to an edge of the printing area. 5. The printing device having the screen tension sensing function according to the fourth aspect of the patent application, wherein the at least one sensing component is provided, and the plurality of sensing components are disposed along the printing direction. Adjacent to the edge of the printing area.相对一-15—201223776 6. A screen comprising: a printing surface formed on one surface of the screen; a pressing surface 'relative to the printing surface; a printing area' communicating with the printing surface And the pressing surface; and the at least one sensing component is disposed outside the printing area. 7. The screen of claim 6 wherein the at least one sensing member is disposed adjacent to an edge of the printing region. 8. The screen of claim 6, wherein the at least one sensing member is provided in a plurality, and the plurality of sensing members are disposed adjacent to the opposite edges of the printing region along the printing direction. The screen according to claim 6, wherein the sensing member is disposed between the printing surface, the pressing surface or the printing surface and the pressing surface. The screen according to item 6 of the patent application, wherein the sensing member is a strain gauge or a film strain sensor. —16 ——16 —
TW099143056A 2010-12-09 2010-12-09 Printing apparatus with halftone strain detection and the halftone thereof TW201223776A (en)

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US20090311427A1 (en) * 2008-06-13 2009-12-17 Advantech Global, Ltd Mask Dimensional Adjustment and Positioning System and Method

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