M440488 五、新型說明: 【新型所屬之技術領域】 本創作涉及射頻識別標籤之技術領域,特別是一種應用在 被移除後即無法·復原而具備防拆功能之射頻識別標藏。 【先前技術】 射頻識別標籤,又稱為電子標籤無需接觸即能進行資料交 流的技術已廣泛地應用在各種用途,如護照、簽賬卡、大眾2 輸收費系統、高速公㈣m任何生產製造裝配的控管、 订李郵件包裹處理、文檔追縱、物流標記控管系統等。在前述 各種用途巾’㈣朗標籤皆需要以大量、快速且低成本的製 造方式,㈣提供足夠的標籤數量以供所需。{以生產製造裝 配或物流標記的控管而言’更有可能成為取代目前條碼而成為 未來主流的控f技術的構成要件。主要原因即在於條碼仍然需 要人工一一掃描,而採用射頻識別標籤卻能僅需使用探測器在 亟短的時間内即完成所有商品資料的確認。 再者,當t已有使用奈米金屬墨水,例如導電銀漿印刷射 頻識別標籤的天線的技術,而能實現將射頻識別標籤作為包裝 的。卩/刀,甚至直接與商品所需的包裝印刷在同一基材上的技 術。相較之下u傳統半導體技術製作的射頻識別標籤(必然需 採用沉積、钱刻等步驟來製作天線)製作成本高,更還需要貼 =標藏在商品所需的包裝上的動作。而此_顔別標籤由於 &用印刷技術’不僅能大量、快速且低成本地製造,更省去了 + 不籤的動作。然而’伴隨前述極為便利的應用而來,繼而 而=考慮便疋安全與可靠信賴的技術問題。當射頻識別標籤用 Μ ^ 7F該生產物件或商品等最重要的唯—性時,其僅具備一次 3 M440488 性使用的特性,亦即當射頻識別標籤在被移除後即無法復原而 需要具備防拆的功能。如臺灣專利公開案200836708中所揭示 的抛棄式腕帶」’然而其撕開後僅僅係利用第2圖中基材上 的撕裂線42,造成天線的破壞,僅需極為簡單的技術即能恢復 「拋棄式腕帶」的功能性,而獲取當中的原有資料。因此,需 要一種新的射頻識別標籤以解決上述問題。 【新型内容】 本創作之目的係為了解決上述技術問題,提供一種射頻識 別標藏,包括面材、離型層、天線及晶片。離型層形成在所述 面材之第一表面。離型層能以全面或局部形成在面材之第一表 ,°離型層可以網紋圖案、規則式之間隔圖案或與天線交錯交 疊之圖案形成。天線藉由將導電墨水印刷在已形成所述離型層 的:述面材之第—表面上形成。晶片與所述天線連接。射頻識 別標籤更包括不乾膠及離型紙,依序覆蓋所述天線及所述晶 片’藉由所述不乾膠可使所述射頻識別標籤黏貼於一物件。射 頻識別標籤之面材可為紙張1藉由㈣塗布離型劑在所述第 ,表面且進行固化處理。射賴別標籤自物件分_,天線會 與面材之第一表面形成有離型層之處分離。 本創作之有益效果係: 本創作之射頻朗標Μ僅能以大量、快速且低成本之方i 作,並且由於離型層全面或局部形成在面材之第一表面,巨 =射頻識別標籤自物件分離時,天線會與面材之第—表面㈣ 目ί合31層U ’面材之第—表面無形成離型層之處,天,轉 2與所述面材保持黏合。是以,當本創作之射頻識別標籤與 -之物件分離後,射頻識別標籤即無法復原而具備防拆功 M440488 、f 1實現射頻識別«標示生產物件或商品最重要之唯一性 . 4夺質。 / 【實施方式】 • 下面,,σ。附圖對本創作之射頻識別標籤的具 作坪細說明。 參見第一1、2圖,第!圖表示製作本創作射頻識別標藏之 ^刷叹備的不;fe®。第2圖表示本創作射頻朗標籤之分層構 4示意圖。製作本創作射頻識別標狀印刷設備可以包括離型 _層印刷早π 10、導電墨水印刷單元2〇及導電墨水加孰翠元 3〇。離型層印刷單元10還包括供應離型劑u之供應單元 ' 沾 劑輥!2、印版親13、壓印輥14及離型劑固化單元⑴導電墨 水印刷單元20還包括供應導電墨水21之墨水供應單元沾墨輕 仏印版輥23及壓印輥24。導電墨水加熱單元3〇還包括加熱 元件31及加熱元件寧置構件32。 第1圖中未顯示該印刷設備當然還包括放卷機及收卷機之 構成機,。如圖中箭頭方向所示,放卷機展開面材卷料向離型 籲層印刷單元10傳送面材100,例如紙張。收卷機自導電墨水加 熱單70卷收已完成天線印刷之面材1〇〇。如第i、2圖中所示, 面材100.輸送至離型層印刷單元10時,印刷設傷提供離型劑 11至沾劑輥12上,再藉由印版輥丨3及相對設置之壓印輥丨4, 將離型劑1】印刷塗布在面材100之上表面,即第一表面上(於 此印刷5又備僅為簡化示意,非全部機構詳細之顯示)。接著, 藉由離型劑固化單元15固化印刷塗布在面材1〇〇上之離型劑 U,形成離型層200。離型劑可為紫外線固化離型劑、加熱固 化離型劑或紅外線固化離型劑等,離型劑固化單元15則相應 5 M440488 地可選擇採用紫外線IHb單;;t、加熱固化單元或紅外線固化單 兀等,利用紫外線、熱源或紅外線固化離型劑。離型層2〇〇可 全面或局部地形成在面材⑽之所述第—表面。例如,離型層 200可以網紋圖案、規則式之間隔圖案、或與於後將形成之^ 線300交錯交疊的圖案形成在面材1〇〇之所述第一表面(詳細 於後詳述)。 .面材⑽輸送至導電墨水印刷單元2〇時’印刷設備提供 導電墨水21至沾墨輥22’再藉由圖中顯示之印版輥23及相對 設置之壓印輥24,將導電墨水21印刷在已形成離型層綱之 面材⑽之所述第—表面上,印刷之圖㈣用以作為天線300 之圖案。接著,藉由導電墨水加熱單元3Q,利用加熱元件Η, 如紅外線加熱元件或熱風加熱元件,錢印刷在離型層期上 之導電墨水21,以形成並製作天線3〇〇。導電墨水21包括太 米金屬粒子,例如奈米銀粒子(可於印刷後進行高溫燒結以: 成導電線路)。 再者,當在面材100之第—表面完成離型層200盘天線30( 的印刷後,可將面材卷料反轉,視客制化各種需求,在面材10C 之第二表面進行彩色印刷。或者,當在面材1〇〇之第一表面完 成離型層200與天線30〇的印刷後’再續行絕緣油墨之印刷及 天線架橋之印刷完錢,再視客制化各種需求,在面材_之 第二表面進行彩色印刷。接著,再進行射頻識別標藏的晶片柳 之黏晶加工,如第3圖中本創作射頻識別標籤(未顯示離型層、 =乾谬及離型紙)戶斤示.,晶片彻與天線3〇〇電性連接,用以 貫現射頻識別標籤的功能。接著,在面材⑽之第—表面已々 ::離型層與天線30。上,藉由背膠機(未顯示進行: ^ 500 (或雙面膠)之覆膠。然後或以模切機(未顯示) M440488 對面材進行切割製作成品(如不 型紙όοο藉由不乾膠5QQ > π織或吊牌);或先將離 稭由不乾膠500貼合在面材1〇〇之 以模切機對面材進行切割製作成σ 九 後,再 參見第4圏盘第不乾移標藏或吊牌)。 ’的第一竇浐钿/、 4圖表示本創作之射頻識別標籤 第實轭例與黏貼之物件700分離後的 本創作之射頻識別標籤的第二實施例 之L第5圖表示 別頻識別標籤可藉由不乾勝5°。使射頻識 =黏貼於一物件7。。。物件並非—定為平面之物體,, ^可為-㈣面之㈣,不會影響㈣朗 識別標藏自物件·分離時,天線3〇〇會與面材1〇〇之第2 =成有離型層觸之處分離。亦即,射頻識別標籤自物件分 離時,天線會與面材之第一表面形成有離型層之處分離,面材 之第纟面無形成離型層之處’天線則會與所述面材保持黏 合0 ' 如第4圖中所示,在本創作第一實施例中,離型層2⑻係 全面地形成在面材100之所述第一表面。當射頻識別標藏自物 件700分離時,天線3〇〇即會與面# 1〇〇分離射頻識別標藏 即無法復原而具備防拆功能。如第5圖中所示,在本創作第二 實施例中,離型層200係局部地形成在面材1〇〇之所述第 面。如前所述,離型層200可以網紋圖案、規則式之間隔圖案、 或任何紋路變化之圖案形成,僅要能與在後將形成之天線3卯 父錯父疊即可。如第5圖所示,局部地形成離型層2〇〇讓射頻 識別標籤自物件700分離時,天線30不僅與面材100分離, 且為斷裂地,甚至不規則地被破壞,射頻識別標籤更加無法復 原而進一步提升其所需之防拆功能,更實現射頻識別標籤標示 生產物件或商品最重要之唯一性特質。 7 M440488 參見第1、2及6圖。第ό圖表示本創作之射頻識別標籤 的製作方法的流程圖。 步螺S601’全面地或局部地印刷塗布離型劑11在面材 之第一表面上; 步驟S602,藉由離型劑固化單元15固化全面地或局部地 印刷塗布在面材1〇〇第一表面上之離型劑u’形成離型層鹰,. 步驟S603,印刷導電墨水21在已形成離型層2〇〇的面材 100之第一表面; —步驟S604,利用加熱元件31,乾燥印刷在面材ι〇〇之第 表面上的導電墨水21,以形成並製作天線3〇〇; v驟S605,進行射頻識別標籤的晶片4〇〇之黏晶加工; 步驟S606,進行不乾膠500 (或雙面膠)之覆膠; 步驟S607,藉由不乾膠500,貼合離型紙6〇〇在面材1〇〇 之第一表面上》 冉者,在步驟S604後,步驟 ⑴ 人匕π优谷刺 各種需求,在面材100之第二表面進行彩色印刷之—步驟。 者,在步驟S604後,步驟S605前,在面材1〇〇之第一表面 成離型層200與天、線300之印刷後,續行絕緣油墨之印刷及 線架橋之印刷’接著’再在面材⑽<第—表面完成離型層2 與天線300之印刷。並且,在步驟S6〇6或步驟s6〇7後,可 包括以模切機對面材進行切割製作成品(如不乾膠標籤或 牌)之一步驟。 總彳狀特色即在於#本創叙㈣朗標藏盘 :貼之物件分離後’射頻識別標籤即無法復原而具備防拆功 此,以實現射頻識別標藏標示生產物件或商品最重要之唯一性 M440488 【圖式簡單說明】 第1圖表示製作本創作射頻識別樟繇 ~織之印刷設備的示意圖; 第2圖表示賴作射頻卿錢之分層構造示音圖; 第3圖表示本創作射頻識別標籤(未顯示_層、不乾谬 及離型紙)之示意圖; 第4圖表示本創作之射頻識別標籤 w L 取實施例與黏貼之 物件分離後的示意圖; 之 第5圖表示本創作之射頻識別標籤的第·_ . 艰•耵弟—實施例與黏貼 物件分離後的示意圖; 之流程圖。 第6圖表示本創作之射頻識別標藏的製作方法 【主要元件符號說明】M440488 V. New description: [New technical field] This creation involves the technical field of radio frequency identification tags, especially a radio frequency identification tag that can be used for tampering after being removed. [Prior Art] Radio frequency identification tags, also known as electronic tags, can be widely used in various applications without contact, such as passports, charge cards, Volkswagen 2 toll collection systems, high-speed public (four) m, any manufacturing assembly. Control, booking mail parcel processing, document tracking, logistics tag control system, etc. In the aforementioned various types of use, the (4) lang label requires a large number of rapid and low-cost manufacturing methods, and (4) a sufficient number of labels is provided for the needs. {In terms of manufacturing assembly or logistics mark control' is more likely to become a component of the control technology that will replace the current bar code. The main reason is that the barcode still needs to be manually scanned one by one, and the RFID tag can use the detector to complete the confirmation of all commodity data in a short period of time. Furthermore, when a technique for printing an antenna of a radio frequency identification tag using a nano metallic ink such as a conductive silver paste has been used, the RFID tag can be packaged.卩/knife, even a technique that prints directly on the same substrate as the package required for the product. In contrast, radio frequency identification tags made by traditional semiconductor technology (necessary steps such as deposition, money engraving, etc.) are expensive to produce, and more need to be attached to the package required for the product. And this _ 标签 label is not only can be manufactured in large quantities, quickly and at low cost because of the printing technology, and the action of not signing is omitted. However, with the extremely convenient application mentioned above, it is then considered to consider the technical problems of safe and reliable trust. When the RFID tag uses 最 ^ 7F to produce the most important uniqueness of the object or product, it only has the characteristics of 3 M440488 once, that is, when the RFID tag cannot be recovered after being removed, it needs to be Tamper function. For example, the disposable wristband disclosed in Taiwan Patent Publication No. 200836708, however, only uses the tear line 42 on the substrate in Fig. 2 after tearing, thereby causing damage to the antenna, which requires only a very simple technique. Restore the functionality of the "discarded wristband" and obtain the original information. Therefore, a new RFID tag is needed to solve the above problem. [New Content] The purpose of this creation is to solve the above technical problems and provide a radio frequency identification mark including a face material, a release layer, an antenna and a wafer. A release layer is formed on the first surface of the facestock. The release layer can be formed integrally or partially on the first surface of the face material, and the release layer can be formed in a textured pattern, a regular pattern of intervals, or a pattern interleaved with the antenna. The antenna is formed by printing a conductive ink on the first surface of the surface material on which the release layer has been formed. A wafer is coupled to the antenna. The radio frequency identification tag further includes a sticker and a release paper, and sequentially covers the antenna and the wafer. The RFID tag can be adhered to an object by the sticker. The face material of the radio frequency identification tag may be a paper 1 coated with a release agent on the surface, and subjected to a curing treatment by (4). The ray-on-label is separated from the object _, and the antenna is separated from the first surface of the face material with a release layer. The beneficial effects of this creation are: The RF beacon of this creation can only be made in a large, fast and low-cost manner, and since the release layer is formed entirely or partially on the first surface of the face material, the giant = radio frequency identification tag When the object is separated, the antenna will be in contact with the surface-surface (4) of the face material. The surface of the surface of the U-face material is not formed into a layer, and the turn 2 is kept bonded to the face material. Therefore, when the RFID tag of this creation is separated from the object, the RFID tag cannot be restored and has the tamper-evident work M440488, f 1 realizes the radio frequency identification «marks the most important uniqueness of the production object or commodity. 4 . / [Embodiment] • Below, σ. The drawings are a detailed description of the radio frequency identification tag of the present invention. See Figures 1, 2, and! The figure shows that the creation of the radio frequency identification of this creation is not the same; fe®. Figure 2 shows a schematic diagram of the hierarchical structure of the original RF tag. The creation of the present radio frequency identification standard printing apparatus may include release _ layer printing as early as π 10, conductive ink printing unit 2 〇 and conductive ink plus jadeite 3 〇. The release layer printing unit 10 further includes a supply unit for supplying the release agent u's dip roller! 2. Printing plate member 13, embossing roll 14 and release agent curing unit (1) The conductive ink printing unit 20 further includes an ink supply unit for supplying the conductive ink 21, which is immersed in the stencil printing roller 23 and the embossing roller 24. The conductive ink heating unit 3A further includes a heating element 31 and a heating element holding member 32. The printing apparatus shown in Fig. 1 does not of course include a rewinding machine and a winding machine. As shown by the direction of the arrow in the figure, the unwinder unwinds the face stock to convey the facestock 100, such as paper, to the release liner printing unit 10. The winder has received 70 pieces of surface material for the antenna printing from the conductive ink heating sheet. As shown in the first and second figures, when the face material 100 is transported to the release layer printing unit 10, the printing set provides the release agent 11 to the application roller 12, and the plate roller 3 and the relative arrangement are provided. The embossing roller 丨 4, the release agent 1] is printed and applied on the upper surface of the face material 100, that is, the first surface (the printing 5 is only for the sake of simplicity, not all the details are shown). Next, the release agent U coated on the face material 1 is cured by the release agent curing unit 15 to form the release layer 200. The release agent may be an ultraviolet curing release agent, a heat curing release agent or an infrared curing release agent, etc., and the release agent curing unit 15 may select an ultraviolet IHb single for the corresponding 5 M440488; t, a heat curing unit or an infrared Curing a single crucible, etc., using a UV, heat source or infrared to cure the release agent. The release layer 2 can be formed wholly or partially on the first surface of the facestock (10). For example, the release layer 200 may be formed on the first surface of the face material 1〇〇 in a textured pattern, a regular pattern of intervals, or a pattern interleaved with a line 300 to be formed later (detailed in detail) Said). When the surface material (10) is transported to the conductive ink printing unit 2, the printing device supplies the conductive ink 21 to the squeezing roller 22', and the conductive ink 21 is formed by the plate roller 23 and the oppositely disposed embossing roller 24 shown in the drawing. The printing is performed on the first surface of the face material (10) on which the release layer has been formed, and the printed image (4) is used as the pattern of the antenna 300. Next, the conductive ink 21 is printed on the release layer by a conductive ink heating unit 3Q using a heating element Η such as an infrared heating element or a hot air heating element to form and fabricate the antenna 3 〇〇. The conductive ink 21 includes titanium metal particles such as nano silver particles (which can be sintered at a high temperature after printing to: form a conductive line). Furthermore, after the printing of the release layer 200 disk antenna 30 on the first surface of the face material 100, the surface material roll can be reversed, and the second surface of the face material 10C can be carried out depending on various requirements of the customization. Color printing. Or, after the printing of the release layer 200 and the antenna 30〇 on the first surface of the face material 1', the printing of the insulating ink and the printing of the antenna bridge are completed, and then the various types of customization are observed. Demand, color printing on the second surface of the face material _. Then, the radio frequency identification of the wafer will be processed by the chip, such as the creation of the radio frequency identification tag in Figure 3 (not showing the release layer, = cognac And the release paper) is shown in the figure. The wafer is electrically connected to the antenna 3 to realize the function of the RFID tag. Then, on the surface of the face material (10), the surface is separated: the release layer and the antenna 30 On, by the adhesive machine (not shown: ^ 500 (or double-sided tape) of the glue. Then or by die-cutting machine (not shown) M440488 cut the finished material (such as no paper όοο by not Dry glue 5QQ > π weave or tag); or first put the straw from the adhesive 500 in the face Material 1 〇〇 模 模 模 模 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 对 σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ The fifth embodiment of the second embodiment of the radio frequency identification tag of the present invention after the yoke of the radio frequency identification tag is separated from the pasted object 700 shows that the other frequency identification tag can be overcome by 5°. In an object 7... The object is not - a flat object, ^ can be - (4) face (4), will not affect (4) Long identification of the object from the object · Separation, the antenna 3 〇〇 will be with the face material 1〇 The second part of the crucible is separated from the contact layer of the release layer. That is, when the radio frequency identification tag is separated from the object, the antenna is separated from the first surface of the face material to form a release layer, and the third surface of the surface material is separated. Where the release layer is not formed, the antenna will remain bonded to the face material. As shown in Fig. 4, in the first embodiment of the present invention, the release layer 2 (8) is integrally formed in the face material 100. The first surface. When the radio frequency identification is separated from the object 700, the antenna 3 is separated from the surface #1〇〇 In the second embodiment of the present invention, the release layer 200 is partially formed on the first surface of the face material 1〇〇, as shown in Fig. 5. As described above, the release layer 200 may be formed by a moiré pattern, a regular pattern of intervals, or a pattern of any grain change, and only needs to be overlapped with the antenna 3 that will be formed later. As shown, when the release layer 2 is partially formed to separate the RFID tag from the object 700, the antenna 30 is not only separated from the face material 100, but is broken or even irregularly broken, and the RFID tag is more unrecoverable. Further enhance the tampering function required, and realize the most important uniqueness of the RFID tag to mark the production object or commodity. 7 M440488 See Figures 1, 2 and 6. The figure below shows a flow chart of the method of making the RFID tag of the present creation. The step screw S601' prints the release agent 11 on the first surface of the face material in a comprehensive or partial manner; in step S602, the release agent is cured by the release agent curing unit 15 to be fully or partially printed on the face material. a release agent u' on a surface forms a release layer eagle. Step S603, printing the conductive ink 21 on the first surface of the face material 100 on which the release layer 2 has been formed; - Step S604, using the heating element 31, Drying the conductive ink 21 printed on the surface of the face material ι〇〇 to form and fabricate the antenna 3〇〇; v S605, performing the die bonding processing of the wafer 4 of the RFID tag; Step S606, performing the process a glue 500 (or double-sided tape); step S607, by means of a sticker 500, the release paper 6 is applied to the first surface of the face material 1", after step S604, the steps (1) The step of color printing on the second surface of the face material 100 by the human 匕 优 谷 thorn. After step S604, before the step S605, after the first surface of the face material 1 is printed by the release layer 200 and the sky and the line 300, the printing of the insulating ink and the printing of the wire bridge are continued 'following' Printing of the release layer 2 and the antenna 300 is completed on the face material (10) < Further, after step S6〇6 or step s6〇7, a step of cutting the face material by a die-cutting machine to produce a finished product (e.g., a sticker or a card) may be included. The total shape is the #本创叙 (4) 朗标藏盘: After the object is separated, the RFID tag can not be restored and has the tamper-evident work to achieve the most important unique identification of the production object or commodity. M440488 [Simple description of the diagram] Figure 1 shows the schematic diagram of the printing equipment for the creation of the radio frequency identification ;~ weaving; Figure 2 shows the layered structure of the radio frequency Qing Qian; Figure 3 shows the creation Schematic diagram of radio frequency identification tag (not showing _ layer, non-drying and release paper); Figure 4 shows the schematic diagram of the radio frequency identification tag w L of the present creation separated from the pasted object; Figure 5 shows the creation The _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Figure 6 shows the method of making the RFID tag of this creation. [Main component symbol description]
10 離型層印刷單元 11 離型劑 12 1 沾劑輥 13 印版輥 14 壓印輥 15 離型劑固化單元 20 導電墨水印刷單元 21 導電墨水 22. 沾墨輥 23 印版輥 24 壓印輥 30 導電墨水加熱單元 31 加熱元件 32 加熱元件容置構件10 Release layer printing unit 11 Release agent 12 1 Dip roller 13 Plate roller 14 Imprint roller 15 Release agent curing unit 20 Conductive ink printing unit 21 Conductive ink 22. Dip roller 23 Plate roller 24 Imprint roller 30 conductive ink heating unit 31 heating element 32 heating element housing member
M440488 100 面材 200 離型層 300 天線 400 晶片 500 不乾膠 600 離型紙 700 物件 S601-S607 射頻識別標籤製作方法之步驟。 10M440488 100 Facestock 200 Release layer 300 Antenna 400 Wafer 500 Adhesive 600 Release paper 700 Object S601-S607 Steps for making RFID tags. 10