200910215 七、 指定代表圖: ㈠本案指定代表圖為:第(一)圖。 (二)本代表圖之树符號簡單說明: 1:具印刷天線之無線射頻識別標藏; 11 :載體; 12 :天線線圈; 121a :晶片接點; 121b:迴路内接點; 121c:迴路外接點; 跳線線路; 141:絕緣層;以及 142:搭接導電電材。 八、 本案若有化科時,絲錢娜轉_化學式: 九、 發明說明: 【發明所屬之技術領域】 綠始.發月係有關於無線射頻識別之標籤技術,特別是將天 線、、,刷形成於標籤内之載體上,且於載體上製作-跳電 路或貫孔來執行發射及接收至/自一無線射頻識別讀取器 200910215 之一無線收發機制。 【先前技術】 目前,在我們生活之中所接觸到運用無線射頻識別 (RFID,Radio Frequency Identify)系統之無線射頻識別 (RFID)標蕺,如運用於信用卡、電話卡、悠遊卡、物流管理 之供應鏈物流及存貨控管、辦公大樓門禁監控、身分辨識或 航空運輸的行李識別上··....科;是_-具天線線圈之無 線射頻標赌合U馳雜於非賴式卡或接觸式卡内 或嵌入欲控管之任何媒介上,此晶片模組内所儲存之一數碼 資料藉由具天線線圈之無線射頻識別⑺^的標籤經無線傳輸 方式至-RFID讀取器而發揮輕之接收機制,以作為辨識、 追蹤、統計、查核、結帳、存貨控制等用途,已經是世界之 趨勢及潮流。 然,天線線圈是影響無線射頻識別(RFID)標籤是否能發 揮非接觸正確功能之首要重點,國外將無線_識別(咖) 標籤結合卡片或物流貨品之控管、辦公大樓門禁監控或是身 分辨識、醫療應用管理如病歷控f ...料已在國外普遍流行 使用,也有許多家廠商製造供應,但於天線線圈之製程不外 疋以侧或埋人漆包線等方式製作;其中,賴刻方式形成 天線線圈鋒害生活環境’造成環保闕,又埋人式天線線 圈銑孔作業時天線易被銑刀拉起,造成品質不良、或埋入深 度不- ’均皆造成天、線線圈品質上的*良。有鑑於此,本案 發明人著手於材料、辣、測試等技術問題,開發出以印刷 製程製作的天線線圈將天線線圈成功的印刷於任何之載體上 200910215 (如=板或塑膠板上),同時此產品兼具有制產品之優 點,⑽質·定及更具高效能之感應功效。 為滿足上述所糾的具印刷天線之無線射貞識別標藏的 。本發明人基於多年從事研究與諸多實務經驗經多方 =究設f與專題探討,遂於本發出—種具印刷無線射頻 識別之標籤天線以作為前述期望—實現方式與依據。 【發明内容】 有鐘於上述課題,本發明之目的為提供—種具印刷天線 之無線射頻識職籤,是將天線線關科獅成於標籤天 線内之载體上’且於麵上製作—跳電線路或貫孔來執行發 射及接收至/自-無線棚識職㈣之—錄收發機制。 緣是’為達上述之主要目的,依本發明之具印刷天線之 無線射頻識別標籤,包括:—載體、—天線線圈、一晶片模 組以及-跳線祕所構成。首先,—天線線圈以印刷於載體 上,且天線線圈包含兩晶片接點、一迴路内接點及一迴路外 接點。再來,一晶片模組貼附於天線線圈之兩晶片接點上。 接著,一跳線線路係由一絕緣層及一搭接導電電材所構成, 其中,絕緣層設置介於感應層之天線線圈之迴路内接點與迴 路外接點之間且覆蓋部份天線線圈,則,搭接導電電材疊於 絕緣層上,並位於天線線圈之迴路内接點與迴路外接點間形 成一感應接收天線線圈功能用以將該晶片模組内之一數碼資 料透過天線線圈輸出,來形成一無線感應之收發機制。、 200910215 不受外界破壞 ^更可再於上述之主要目的之具印刷天線之無線射 ΐΐ? 0線之载體上更加設至少—覆膜用以保護天線線°圈 接續,為達本發明之另一目的,依本發明之具印刷天 之無線射頻識別標籤,包括:_載體、一天線線圈、一晶片 ,組以及-導電電材。首先’於載體上開設至少—貫孔 著,天線線圈印刷於載體上且天線線圈包含兩晶片接點、— 迴路内接點及,路外接點。接著,晶片模組_於天線線 圈之兩晶片接點上。最後’―導電電材貼附於載體之一背面 上。其中’當導電電材之兩端點填滿於載體之貫孔内將與天 ^線圈之迴_接點及迴料接點形成—錢天線線圈功 能’進而將晶>{模_—數碼#料透過天線線圈輸出,俾以 形成一無線感應之收發機制。 接續,為達本發明之最後一目的,依本發明之且 線之無線射頻識別標籤,包括:—載體、—天線線圈、Ρ = 一晶片模組。其中’載體具一正面及一背面,且於載體貫穿 至少一貫孔。接著,天線線圈以印刷一漿料形成於載體之一 正面及一背面上。最後,晶片模組附著於載體正面上之天線 線圈的末稍端點處。其中,漿料藉由印刷填滿於載體之貫孔 内又貫孔與天線線κ之捕輕相賴,將與晶#模組形成 -感應天線線圈功能進而將晶片模組内之—數碼資料透過天 線線圈輸出,來形成一無線感應之收發機制。 縱上所述,因依本發明之具印刷天線之無線射頻識別標 200910215 藏疋將天線線圈利用印刷形成於標籤天線内之載體上,且 於載體上製作-跳電線路或貫孔來執行發射及接收至/自一 無線射頻識取n之—無線錄機制。_獻本發明之 具印^天線之無線射頻識別標籤的應用領域,並提供物流、 ί儲,、交通憑證、储值、停車付費、消費購物、金融交 易、防偽辨識識別功能結合應用之目地者。 吟古:ί使貝審查委員對本發明之技術特徵及所達成之功 之瞭解與認識,下文謹提供較佳之實施例及相 關圖式以為難之用,並以詳細之朗文字配合說明如後。 【實施方式】 下文月?上述目的、特徵、和優點能更明顯易懂, 實施二# Β二:印刷天線之無線射頻識別標籤特舉一較仓 ==關圖式,作詳細說明如下,其懷 的7°件將以相同的元件符號加以說明。 圖。:圖广本發明—較佳實施例之平面㈣ 1,包括一載體U、一天線線線之無線射頻識別漏 跳線線路14所構成。首先、,L綠—晶片歡13以及一 印刷於載㈣上,且天線線圈圈丨日2以導電㈣_ 迴路内接點121b及-迴路外接點^ 3 =片接點121a、一 來形成-電子迴路。再來,—為連接跳線線路[ 之兩晶片接點ma上。接著H=13 _於天線線圈1: 安考跳線線路14由一絕緣層14: 200910215 及一搭接導電電材142所構成;其中,絕緣層141是為一絕 緣材料並設置介於載體11之天線線圈12的迴路内接點i21b 與迴路外接點121c間且覆蓋部份天線線圈12之一部分區域 以防止部分天線線圈12造成電路短路。則’搭接導電電材142 疊於絕緣層141上,並位於天線線圈12之迴路内接點12比 與迴路外接點121c間來形成一感應接收天線線圈12功能, 用以將晶片模組13内之一數碼資料透過天線線圈a傳輸出 形成一無線感應之收發機制。請繼續參閱第二圖,圖中係顯 示本發明保護印刷天線之結構分解圖,且更可再於上述之主 要目的之具印刷無線射頻識別之標籤天線1中之載體u上更 加設至少一覆膜15用以保護天線線圈12不受外界破壞。 上述之載體11可由紙板或塑膠板所構成,則塑膠板包含 選自由泛用型及工程型塑膠所製成;載體u 一主動標籤或為-半主動式標籤。 ㈣電源成為 係為Ϊί明ί再達本發明之另一目的,請更再參閱第三圖, 目、,本發月另—目的之平面示意圖。圖中,係顯 具印刷天線之無線㈣識別標籤2包括: 月, 線圈12、一 a η捃化^ 戟體U、一天線 囫以日日片模組13以及一導電電材16。首先 Π上開設至少—貫孔⑴。接著, ;載體 塗佈印刷於, 、、,攻圏12以一導電漿料 一 Ρ機栽體11上且天線線圈12包含兩 迴路内接點121b及-迴路外接點此 〆” a、 :點:21b、l21C皆與貫孔⑴相連通成:=、: 取後,一導雷雷奸1β M1 接點121a上。 材藉由塗佈印刷貼附於載體11之一背面 200910215 上田導電電材16之一兩端,點161填滿於載體11之貫孔111 内將會與天線線圈12之迴路内接點121b及迴路外接點121c U應天線線圈12功能,進而將晶片模組13内之〆數 =貝料透過天線線圈13輸出’俾以形成—無線感應之收發機 制。 心ΐ述之載體11可由紙板或塑膠板所構成,則塑膠板包含 =泛用型及工_轉所製成;載體丨丨可峽電源成為 一主動標籤或為-半主動式標籤。 Μ / ’為更再達本發明之最後目的,請繼續參閱第四圖, 二發明最後目的之—平面透視圖。圖中,係顯示本發明 刷天線之無線射頻識別標籤3,包括:—載體Π、一 、':圈12、以及一晶片模組13。其中,載體u具一正面 一a 背面llb,且於载體u貫穿至少一貫孔⑴。接著, 、、、、’、圈I2以塗佈印刷—導賴料形成於載體 11之一正200910215 VII. Designated representative map: (1) The representative representative of the case is: (1). (2) Simple description of the symbol of the tree of the representative figure: 1: Radio frequency identification mark with printed antenna; 11: carrier; 12: antenna coil; 121a: wafer contact; 121b: internal contact of the circuit; 121c: external circuit Point; jumper line; 141: insulating layer; and 142: lap conductive material. 8. If there is a chemical science in this case, Silkenna turns _Chemical formula: IX. Invention description: [Technical field of invention] Green beginning. The moon has a labeling technology for radio frequency identification, especially antennas, The brush is formed on the carrier in the tag, and a hop circuit or a through hole is formed on the carrier to perform transmission and reception to/from a radio frequency identification reader 200910215. [Prior Art] Currently, we are exposed to radio frequency identification (RFID) standards using RFID (Radio Frequency Identification) systems, such as credit card, telephone card, leisure card, and logistics management. Chain logistics and inventory control, office building access control, identity identification or baggage identification for air transportation..... is a wireless radio beacon with antenna coils. In a contact card or embedded in any medium to be controlled, one of the digital data stored in the chip module is wirelessly transmitted to the RFID reader by a radio frequency identification (7) tag having an antenna coil. The light receiving mechanism, as identification, tracking, statistics, checking, checkout, inventory control, etc., is already the trend and trend of the world. However, the antenna coil is the primary focus of affecting whether radio frequency identification (RFID) tags can function as non-contact. The foreign wireless (identification) (coffee) tag combined with the control of cards or logistics goods, office building access control or identity Identification, medical application management such as medical record control f ... has been widely used in foreign countries, there are many manufacturers to manufacture and supply, but the process of the antenna coil is not made by side or buried in the enameled wire; The engraving method forms the antenna coil and the living environment of the environment is caused by environmental protection. When the antenna coil is drilled, the antenna is easily pulled up by the milling cutter, resulting in poor quality or poor depth of embedding. Quality is good. In view of this, the inventor of the present case started to solve the technical problems of materials, spicy, testing, etc., and developed an antenna coil made by a printing process to successfully print the antenna coil on any carrier 200910215 (such as = board or plastic board), This product combines the advantages of a product, (10) quality, and more efficient induction. In order to satisfy the above-mentioned wireless spot recognition identification with a printed antenna. The inventor has been engaged in research and many practical experiences for many years, and has developed a label antenna with printed radio frequency identification as the aforementioned expectation-implementation method and basis. SUMMARY OF THE INVENTION In order to provide the above-mentioned problem, the object of the present invention is to provide a radio frequency identification tag with a printed antenna, which is to make an antenna wire on a carrier in a tag antenna. - Jumping lines or through-holes to perform transmission and reception to/from the wireless shed (4) - recording and receiving mechanism. The edge is a radio frequency identification tag having a printed antenna according to the present invention, comprising: a carrier, an antenna coil, a chip module, and a jumper secret. First, the antenna coil is printed on the carrier, and the antenna coil includes two wafer contacts, a primary circuit contact, and a circuit external contact. Then, a chip module is attached to the two wafer contacts of the antenna coil. Then, the jumper circuit is composed of an insulating layer and a lapped conductive material, wherein the insulating layer is disposed between the inner contact point of the antenna coil of the sensing layer and the outer contact point of the loop, and covers part of the antenna coil. Then, the lapped conductive material is stacked on the insulating layer, and an inductive receiving antenna coil function is formed between the inner contact point of the antenna coil and the external contact point of the loop to output a digital data in the chip module through the antenna coil. To form a wireless sensing transceiver mechanism. , 200910215 is not subject to external damage ^ can further be used for the above-mentioned main purpose of the wireless antenna with printed antenna? 0 line carrier is more at least - film to protect the antenna line ° ring connection, in order to achieve the invention Another object is a radio frequency identification tag having a printing day according to the present invention, comprising: a carrier, an antenna coil, a wafer, a group, and a conductive material. First, at least the through hole is opened on the carrier, the antenna coil is printed on the carrier, and the antenna coil includes two wafer contacts, an inner contact point and an outer contact point. Next, the wafer module is placed on the two wafer contacts of the antenna coil. Finally, the conductive material is attached to the back side of one of the carriers. Where 'when the two ends of the conductive material are filled in the through hole of the carrier, it will form the back contact and the return contact of the day coil - the money antenna coil function' and then the crystal>{模__数码# The material is output through the antenna coil to form a wireless sensing transceiver mechanism. Further, in order to achieve the last object of the present invention, a radio frequency identification tag according to the present invention includes: a carrier, an antenna coil, and a chip module. Wherein the carrier has a front side and a back side, and the carrier extends through at least a uniform aperture. Next, the antenna coil is formed on the front side and one back side of the carrier by printing a paste. Finally, the wafer module is attached to the end of the antenna coil on the front side of the carrier. Wherein, the slurry is filled in the through hole of the carrier by printing, and the through hole is lightly matched with the antenna line κ, and the crystal module is formed into a sensing antenna coil function, and then the digital data in the chip module is Through the antenna coil output, a wireless sensing transceiver mechanism is formed. In the above, the radio frequency identification mark 200910215 with the printed antenna according to the present invention uses the printed antenna coil to be formed on the carrier in the tag antenna by printing, and the jump line or the through hole is formed on the carrier to perform the emission. And receiving/from a radio frequency identification n-wireless recording mechanism. _ The application field of the RFID tag with the printed antenna, and provides the combination of logistics, storage, traffic vouchers, stored value, parking payment, consumer shopping, financial transaction, anti-counterfeiting identification and recognition functions. .吟古: The knowledge and understanding of the technical features and the achievements of the present invention are made by the singer, and the following is a brief description of the preferred embodiments and related drawings. [Embodiment] The following month? The above objectives, features, and advantages can be more clearly understood. Implementation #二二: The radio frequency identification tag of the printed antenna is specially described as a comparison of the position == off-plan, as detailed below, the 7° piece of the The same component symbols are described. Figure. The invention is based on the plane (four) of the preferred embodiment, and comprises a carrier U and an antenna line for the radio frequency identification leakage line 14. First, L green-wafer hua 13 and one printed on (4), and the antenna coil circle 2 is electrically conductive (4) _ loop inner contact 121b and - loop external contact ^ 3 = sheet contact 121a, one to form - electron Loop. Again, - to connect the jumper lines [the two wafer contacts ma. Then, H=13_the antenna coil 1: The AUX jumper line 14 is composed of an insulating layer 14: 200910215 and a lapped conductive material 142; wherein the insulating layer 141 is an insulating material and is disposed between the carrier 11 A portion of the inner contact point i21b of the antenna coil 12 and the outer circuit contact point 121c covers a portion of the antenna coil 12 to prevent the partial antenna coil 12 from causing a short circuit. Then, the lapped conductive material 142 is stacked on the insulating layer 141, and is located between the inner contact 12 of the antenna coil 12 and the external contact point 121c to form an inductive receiving antenna coil 12 for use in the chip module 13. One of the digital data is transmitted through the antenna coil a to form a wireless sensing transceiver mechanism. Please refer to the second figure, which shows an exploded view of the protected printed antenna of the present invention, and further provides at least one overlay on the carrier u of the tag radio antenna 1 for printing radio frequency identification. The film 15 serves to protect the antenna coil 12 from external damage. The above-mentioned carrier 11 may be composed of a cardboard or a plastic plate, and the plastic plate may be made of a general-purpose type and an engineering type plastic; the carrier u may be an active label or a semi-active label. (4) Power supply becomes another purpose of the present invention, please refer to the third figure, the purpose, and the schematic diagram of the purpose of this month. In the figure, the wireless (4) identification tag 2 of the display printed antenna includes: a month, a coil 12, an a 捃 ^ 戟 body U, an antenna 囫 a day chip module 13 and a conductive material 16. First, open at least the through hole (1). Next, the carrier is coated and printed on the substrate 12 with a conductive paste on the machine body 11 and the antenna coil 12 includes the two-circuit inner contact 121b and the outer loop of the circuit. : 21b, l21C are connected with the through hole (1): =,: After taking, a lead is detected on the 1β M1 contact 121a. The material is attached to the back of the carrier 11 by coating printing 200910215 Ueda conductive material 16 At one end, the point 161 fills the through hole 111 of the carrier 11 and the inner loop 121b of the antenna coil 12 and the outer loop 121c of the loop should function as the antenna coil 12, and then the inside of the wafer module 13 The number = shell material is output through the antenna coil 13 to form a wireless sensing transceiving mechanism. The carrier 11 of the heart can be composed of a cardboard or a plastic plate, and the plastic plate comprises a general-purpose type and a work-turning type; The carrier 丨丨可峡 power supply becomes an active label or a semi-active label. Μ / 'For the ultimate goal of the invention, please continue to refer to the fourth figure, the final object of the invention - a plane perspective view. , showing the radio frequency identification tag 3 of the brush antenna of the present invention, comprising: a carrier Π, a, ': a ring 12, and a wafer module 13. The carrier u has a front face a a back face llb, and the carrier u penetrates at least the consistent hole (1). Then, , , , , I2 is formed by coating printing-guide material on one of the carriers 11
及3面lib上。最後,一晶片模組13附著於載體U 電4上,線線圈12的一末稍端點咖處。其中,導 、1=, 滿於載體11之貫孔ιη内又貫孔⑴與天 、曰⑽之末梢端點12ld相連通形成一電子迴路’將會與 之-叙、且13形成—感應天線線圈功能進而將晶片模組13内 發機ί碼倾透過錢_12輸出,來形成—無線感應之收 選自 200910215 一主動標籤或為一半主動式標籤。 以上所述僅為舉例性,而非為限制性者。任何未脫離本 發明之精神與範疇,而對其進行之等效修改或變更,均應包 含於後附之申請專利範圍中。 【圖式簡單說明】 第一圖係為本發明之較佳實施例之平面示意圖; 第二圖係為本發明之保護印刷天線之結構分解圖; 第三圖係為本發明另一目的之平面示意圖;以及 第四圖係為本發明最後目的之平面透視圖。 11 200910215 【主要元件符號說明】 1、2、3 :印刷天線之無線射頻識別標籤; 11 :載體; 11a:正面; lib:背面; 111 :貫孔; 12 :天線線圈; 121a .晶片接點, 121b:迴路内接點; 121c:迴路外接點; 121d:末梢端點; 13 .晶片才吴組, 14:跳線線路; 141:絕緣層; 142:搭接導電電材; 15:覆膜; 16:導電電材;以及 161:兩端點。 12And 3 faces on lib. Finally, a wafer module 13 is attached to the carrier U 4, and a terminal end of the coil 12 is at the end. Wherein, the guide, 1 =, is filled in the through hole ι of the carrier 11 and the through hole (1) is connected with the tip end 12ld of the sky, the 曰 (10) to form an electronic circuit 'will be related to - and 13 formed - the induction antenna The coil function further turns the output of the chip module 13 into the output of the money_12 to form a wireless sensor, which is selected from an active tag of 200910215 or a semi-active tag. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a schematic plan view of a preferred embodiment of the present invention; the second drawing is an exploded view of the protective printed antenna of the present invention; The schematic view; and the fourth figure are plan perspective views of the final object of the present invention. 11 200910215 [Description of main component symbols] 1, 2, 3: Radio frequency identification tag for printed antenna; 11: carrier; 11a: front; lib: back; 111: through hole; 12: antenna coil; 121a. 121b: in-circuit contact; 121c: circuit external contact; 121d: distal end point; 13. wafer only group, 14: jumper line; 141: insulating layer; 142: lap conductive material; 15: film; : Conductive electrical materials; and 161: points at both ends. 12