TWM410931U - Radio frequency identification tag structure - Google Patents
Radio frequency identification tag structure Download PDFInfo
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- TWM410931U TWM410931U TW100205373U TW100205373U TWM410931U TW M410931 U TWM410931 U TW M410931U TW 100205373 U TW100205373 U TW 100205373U TW 100205373 U TW100205373 U TW 100205373U TW M410931 U TWM410931 U TW M410931U
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Description
五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種無線射頻標籤結構,且特別是有 關於一種可設置於具有彎折面之物品上的無線射頻標籤結 構。 【先前技術】 近年來,社會經濟不景氣的情況下,住家、校園環境 與企業公司内部等等的失竊案件層出不窮,竊盜成功的案 例曝露出現有的保全人員和監控影像設備種種缺點。即使 以固定式的攝影機加以監控,入侵者也能閃躲攝影機的死 角或者從預料外的通道進入行竊。保全人員制式化的巡邏 可以避免固定監控的問題,但通常因為人為疏失或疲累的 因素而出現漏洞。另一方面,對於貴重物品的管控,大部 分還是以鎖的方式進行保護,但是再高科技的門鎖,竊賊 也能夠短時間破壞或破解,竊取物品後鎖回,如果沒有定 時的檢查,很難察覺該物品是否遺失。 然而,一般習知技術中,利用無線射頻(RFID)進行 此監控之功能性,只能針對被保全之物品的平面貼附無線 射頻標籤(RFIDTag),上述專利無法在特定物品的彎曲面 上,進行監控偵查,因此當被保全之物品,被非法開啟破 壞時,習知技術無法發揮保全之作用。 【新型内容】 本創作提供一種可設置於具有彎折面之 射頻標籤結構,赌高監控物品之便樹I °°上的無線 本創作提出—種無線射頻標籤結構, 標^二延伸部及一黏貼部。無線射頻標籤:體= 頻標藏本趙並連接至晶片以形成一電氣迴V. New description: [New technical field] The present invention relates to a radio frequency tag structure, and in particular to a radio frequency tag structure that can be placed on an article having a bent surface. [Prior Art] In recent years, in the case of a socio-economic downturn, theft cases in homes, campus environments, and corporate companies have emerged in an endless stream. The successful cases of theft expose the shortcomings of existing security personnel and surveillance imaging equipment. Even with a fixed camera, intruders can evade the camera's dead end or steal from an unexpected channel. Regulatory patrols can prevent fixed monitoring problems, but often due to human error or fatigue. On the other hand, most of the control of valuables is still protected by locks. However, with high-tech door locks, thieves can also destroy or crack in a short time. After stealing items, they can be locked back. If there is no regular inspection, it is very It is difficult to detect if the item is lost. However, in the conventional technology, the function of performing radio monitoring using radio frequency (RFID) can only attach a radio frequency tag (RFIDTag) to the plane of the preserved article, and the above patent cannot be on the curved surface of a specific article. Monitoring and investigation is carried out, so when the preserved items are illegally opened and destroyed, the conventional technology cannot play the role of preservation. [New content] This creation provides a radio frequency tag structure that can be placed on a radio frequency tag structure with a curved surface, and a wireless radio frequency tag structure, a standard extension and a Adhesive part. Radio frequency tag: body = frequency tag hidden Zhao and connected to the chip to form an electrical back
貝"" ^ P 線射頻標籤本 菔(一端,黏貼部設置於無線射頻標籤本體及延伸部之同 一端面上,使無線射頻標籤本體及延伸部藉由黏貼 附於物件上。 在本創作之一實施例中,上述之無線射頻標籤本體與 延伸部間預切有一折切線,折切線之切口深度係小於無線 射頻標籤結構之厚度’未達穿透之狀態而仍保持無線射頻"B" "" ^ P line RF tag book (one end, the adhesive part is placed on the same end face of the radio frequency tag body and the extension part, so that the radio frequency tag body and the extension part are attached to the object by sticking. In one embodiment, the wireless radio frequency tag body and the extension portion are pre-cut with a tangential line, and the tangential depth of the tangential line is smaller than the thickness of the radio frequency tag structure, and the radio frequency is maintained.
標籤結構為密封狀態,並使無線射頻標籤結構易於貼合於 物件上。 在本創作之一實施例中,上述之收發天線係收發一無 線射頻訊號,以供一無線射頻讀取器透過一天線以讀取晶 片内之物件資訊。 在本創作之一實施例中,更包括一電子裝置以接收無 線射頻讀取器所讀取之物件資訊,並進行物件資訊之比對 及顯示。電子裝置更包含一資料庫、一處理器及一顯示幕, 資料庫係儲存複數筆無線射頻標籤結構所對應物件之物件 4 M410931 資訊’處理器依據資料庫與已讀取之物件資訊進行比對, 並將輸出一比對結果顯示於顯示幕上。此外,電子裝置更 包含一警示器,右無線射頻讀取器超過一時間預設值而未 讀取到物件資訊,則處理器透過警示器輸出一警示訊號。 本創作更提出一種無線射頻標籤結構,包括一無線射 頻標籤本體、一第一延伸部、一第二延伸部及一黏貼部。 無線射頻標籤本體包含一晶片及一收發天線,收發天線是 由一導線環繞於無線射頻標籤本體,並連接至晶片以形成 一電氣迴路’晶片係儲存對應一物件之一物件資訊。第一 延伸部及第二延伸部係分別連接於無線射頻標籤本體之兩 端’黏貼部則設置於無線射頻標籤本體、第一延伸部及第 二延伸部之同一端面上,使無線射頻標籤本體、第一延伸 部及第二延伸部藉由黏貼部以貼附於物件上。 本創作更提出一種無線射頻標籤結構,包括一第一無 線射頻標籤本體、一第二無線射頻標籤本體、一延伸部及 一黏貼部。第一無線射頻標籤本體包含—第一無線射頻晶 片及一第一無線射頻收發天線,第一無線射頻收發天線是 由一第一導線環繞於第一無線射頻標籤本體,並連接第一 無線射頻晶片以形成一電氣迴路,第一無線射頻晶片係儲 存對應一物件之一物件資訊。第二無線射頻標籤本體包含 一第二無線射頻晶片及一第二無線射頻收發天線,第二無 線射頻收發天線是由一第二導線環繞於第二無線射頻標籤 本體’並連接第二無線射頻晶片以形成一電氣迴路,第二 5 M410931 無線射頻晶片係儲存對應物件之物件資訊。延伸部連接第 -無線射娜籤本體及第二無線射_籤本體,黏貼部設 置於第一無線射頻標籤本體、第二無線射頻標籤本體及延 伸部之同一端面,使第一無線射頻標籤本體、第二無線射 頻標籤本體及延伸部藉由黏貼部以貼附於物件上。 【實施方式】 為讓本創作之上述特徵和優點能更明顯易懂,下文特 舉實施例’並配合所附圖式,作詳細說明如下。 .圖1是一種無線射頻標籤電路方塊圖。在圖1中,無 線射頻標籤電路包括一無線射頻標籤700、一無線射頻讀 取器(RFID Reader)800及一與無線射頻讀取器800電性連 接的系統主機900。 無線射頻標籤700包括一無線射頻晶片710及一天線 720。無線射頻晶片710係寫入物品資訊,無線射頻讀取器 800輸出一讀取訊息,讀取訊息並以無線的方式傳送到天 線720,天線720接收讀取訊息並傳送至無線射頻晶片710 以驅動無線射頻晶片71〇輸出物品資訊。物品資訊透過天 線720以無線的方式傳送出去。無線射頻讀取器800接收 物品資訊’並將物品資訊傳送至系統主機900,且由系統 主機900加以處理以執行貨品物流管理。 其中,系統主機900更包含一資料庫910、一處理器 920及一顯示器930,資料庫910係儲存複數筆無線射頻標 籤700所對應物件之物件資訊,處理器920依據資料庫910 M410931 與已讀取之物件資訊進行比對,並將輸出一比對結果顯示 於顯示器930上。此外,系統主機9〇〇更包含一警示器940, 若無線射頻讀取器800超過一時間預設值而未讀取到物件 資訊’則處理器920透過警示器940輸出一警示訊號。 請同時參閱讀2A及圖2B。圖2A是本創作之第一實 施例的無線射頻標籤結構示意圖。圖2B是依照未創作之第 一實施例之一種實施方式的示意圖。於本實施例中,無線 射頻標籤結構1〇〇包括一無線射頻標籤本體11()、一延伸 部120及一黏貼部13〇0無線射頻標籤本體11〇包含一晶 片111及一收發天線112,收發天線112係由一導線113 環繞於無線射頻標籤本體11()並連接至晶片1丨丨以形成一 電氣迴路,晶片111係儲存對應一物件之一物件資訊。延 伸部120連接於無線射頻標籤本體11〇之一端。黏貼部13〇 设置於無線射頻標籤本體11〇及延伸部12〇之同一端面 上,使無線射頻標籤本體11〇及延伸部12〇藉由黏貼部13〇 以貼附於一包裝盒610上。 其中,晶片111係儲存對應包裝盒61〇之一物件資訊。 無線射頻標籤本體11〇與延伸部12〇間預切有一折切 線140 ’折⑽140之切σ深度係小於無線射頻標藏結構 100之厚度,未達穿透之狀態而仍保持無線射頻標籤結構 100為密封狀態,並使無線射頻標籤結構1〇〇易於貼合在 物件上。更進一步來說,當無線射頻標籤結構1〇〇受到破 壞,需注意無線射頻標籤結構100是否遭受到破壞,進而 7 M410931 無法使用包裝盒610所包裝之物品。 於本實施例中,若是包裝盒610非為經過一般正常程 序的開啟,而使得無線射頻標籤結構1〇〇受到破壞的話, 透過無線射頻讀取器800就無法讀取相關資訊,進而透過 系統主機900之警示器940發出一警報聲音,以提醒管理 者注意包襞盒610的異常狀況。 請同時參閱讀3A及圖3B。圖3A是本創作之第二實 施例的無線射頻標籤結構示意圖。圖3B是依煦本創作之第 一實施例之一種實施方式的示意圖。於本實施例中,無線 射頻標籤結構200包括一無線射頻標籤本體21〇、一第一 延伸部220、一第二延伸部23〇及一黏貼部24〇。 2無線射頻標籤本體210包含一晶片211及一收發天線 2第一延伸部220及第二延伸部230係分別連接於無線 轉,籤本體21G之兩端,黏貼部24G則設置於無線射頻 端本體210、第一延伸部22〇及第二延伸部23〇之同一 二面上’使無線射頻標籤本體21〇、第一延伸部22。及第 伸4 230藉由黏貼部24〇以貼附於體& 別是瓶體620的蓋部。 特 襟二發^線212是由一導線213環繞於無線射頻 气+體210,並速姑衣_ 〜一形成-電氣迴路’晶 21G㈣與卜延㈣220及第: 曰預刀有一折切線25〇,折切線25〇之切口深 8 M410931 度係小於無線射頻標籤結構200之厚度,未達穿 %之狀態 而仍保持無線射頻標威結構200為密封狀態,並使無線射 頻標籤結構200易於貼合在瓶體620上,特別是瓶體620 的瓶蓋621上。 因此’當瓶體620的瓶蓋621被開啟時,無線射頻標 籤結構200的無線射頻標籤本體21〇、第一延伸部220及 第二延伸部230會沿著折切線250被破壞,使得無線射頻 標籤本體210為非密封狀態而藉此告知使用,此無線射頻 標籤結構200已被破壞,裡面的監控物質可能有人為破壞 而無法使用。 請同時參閱讀4A及圖4B。圖4A是本創作之第三實 施例的無線射頻標籤結構示意圖。圖4B是依照本創作之第 三實施例之一種實施方式的示意圖。於本實施例中,無線 射頻標籤結構300’包括一第一無線射頻標籤本體310、一 第二無線射頻標籤本體320、一延伸部330及一黏貼部340。 第一無線射頻標咸本體310包含一第一無線射頻晶片 311及一第一無線射頻收發天線312,第一無線射頻收發天 線312是由一第一導線313環繞於第一無線射頻標籤本體 310,並連接第一無線射頻晶片311以形成一電氣迴路,第 一無線射頻晶片311係儲存酒瓶630之一物件資訊。 第二無線射頻標籤本體320包含一第二無線射頻晶片 321及一第二無線射頻收發天線322,第二無線射頻收發天 線322是由一第二導線323環繞於第二無線射頻標籤本體 9 M410931 320,並連接坌一〜 無線射頻晶片321以形成一電氣迴路,第 二無線射頻晶片321係儲存酒瓶630之物件資訊。 延伸部330連接第一無線射頻標籤本體310及第二無 ,射頻標籤本體32〇,黏貼部340設置於第-無線射頻標 鐵本體310、第二無線射頻標籤本體320及延伸部330之 同一端面,使第一無線射頻標籤本體310、第二無線射頻 標藏本體320及延伸部33〇藉由黏貼部34〇以貼附於一酒 • 瓶630之蓋體631上。 其中’延伸部330分別與第一無線射蘋標籤本體31〇 及第二無線射頻標籤本體32〇間預切有折切線35〇,折切 線350之切口深度係小於無線射頻標籤結構3〇〇之厚度, 未達穿透之狀態而仍保持無線射頻標籤結構300為密封狀 態’並使無線射頻標籤結構3〇〇易於貼合於酒瓶63〇上。 因此,當酒瓶630的瓶蓋621被開啟時,無線射頻標 籤結構300會被破壞,而讓使用者可以注意到酒瓶63〇的 鲁 航蓋621已經有被開啟過了,裡面的内容物可能有不良物 質而不建議使用。 綜上所述,本創作藉由延伸部的設計,使無線射頻標 籤結構被破壞時’可以藉由無線射頻讀取器無法讀取物件 資訊而發出的警示來提醒倉管人員注意異狀,以提高物件 管理之效率。 雖然本創作以前述實施例揭露如上,然其並非用以限 定本創作,任何熟習相像技藝者,在不脫離本創作之精神 10 M410931 和範圍内,所作更動與潤飾之等效替換,仍為本創作之專 利保護範圍内。 M410931 【圖式簡單說明】 圖1是一種無線射頻標籤電路方塊圖。 圖2A是本創作之第一實施例的無線射頻標籤結構示意圖。 圖2B是依照本創作之第一實施例之一種實施方式的示意 圖。 圖3A是本創作之第二實施例的無線射頻標籤結構示意圖。 圖3B是依照本創作之第二實施例之一種實施方式的示意 圖。 圖4A是本創作之第三實施例的無線射頻標籤結構示意圖。 圖4B是依照本創作之第三實施例之一種實施方式的示意 圖。 12 M410931 【主要元件符號說明】 100 無線射頻標籤結構 110 無線射頻標籤本體 111 晶片 112 收發天線 113 導線 120 延伸部The label structure is sealed and the RFID tag structure is easily attached to the object. In one embodiment of the present invention, the transceiver antenna transmits and receives a wireless RF signal for a wireless RF reader to pass through an antenna to read object information in the wafer. In an embodiment of the present invention, an electronic device is further included to receive object information read by the wireless RF reader and to perform object information comparison and display. The electronic device further comprises a database, a processor and a display screen, and the data library is an object for storing the object corresponding to the plurality of radio frequency tag structures. 4 M410931 Information 'The processor compares the data according to the database with the read object information. , and the output of the comparison result is displayed on the display screen. In addition, the electronic device further includes a warning device. When the right wireless RF reader exceeds the preset value for a time and the object information is not read, the processor outputs a warning signal through the warning device. The present invention further provides a radio frequency tag structure, including a radio frequency tag body, a first extension portion, a second extension portion, and an adhesive portion. The radio frequency tag body comprises a chip and a transceiver antenna. The transceiver antenna is surrounded by a wire around the radio frequency tag body and connected to the chip to form an electrical circuit. The chip system stores information about an object corresponding to an object. The first extension portion and the second extension portion are respectively connected to the two ends of the radio frequency tag body. The adhesive portion is disposed on the same end surface of the radio frequency tag body, the first extension portion and the second extension portion, so that the radio frequency tag body is The first extension portion and the second extension portion are attached to the object by the adhesive portion. The present invention further provides a radio frequency tag structure, including a first radio frequency tag body, a second radio frequency tag body, an extension portion, and an adhesive portion. The first radio frequency tag body includes a first radio frequency transceiver chip and a first radio frequency transceiver antenna. The first radio frequency transceiver antenna is surrounded by the first radio frequency tag body and connected to the first radio frequency tag chip. To form an electrical circuit, the first radio frequency chip stores information about an object corresponding to an object. The second radio frequency tag body includes a second radio frequency transceiver chip and a second radio frequency transceiver antenna. The second radio frequency transceiver antenna is surrounded by a second wire to the second radio frequency tag body and connected to the second radio frequency chip. To form an electrical circuit, the second 5 M410931 radio frequency chip system stores object information of the corresponding object. The extension portion is connected to the first wireless radio tag body and the second wireless radio tag body, and the adhesive portion is disposed on the same end surface of the first radio frequency tag body, the second radio frequency tag body and the extension portion, so that the first radio frequency tag body is The second radio frequency tag body and the extension are attached to the object by the adhesive portion. [Embodiment] In order to make the above-mentioned features and advantages of the present invention more comprehensible, the following detailed description will be made with reference to the accompanying drawings. Figure 1 is a block diagram of a radio frequency tag circuit. In FIG. 1, the radio frequency tag circuit includes a radio frequency tag 700, a radio frequency reader (RFID) 800, and a system host 900 electrically coupled to the radio frequency reader 800. The radio frequency tag 700 includes a radio frequency chip 710 and an antenna 720. The radio frequency chip 710 writes the item information, the radio frequency reader 800 outputs a read message, reads the message and wirelessly transmits it to the antenna 720, and the antenna 720 receives the read message and transmits it to the radio frequency chip 710 for driving. The radio frequency chip 71 outputs the item information. Item information is transmitted wirelessly via Skyline 720. The radio frequency reader 800 receives the item information & transmits the item information to the system host 900 and is processed by the system host 900 to perform the goods logistics management. The system host 900 further includes a database 910, a processor 920, and a display 930. The database 910 stores object information of the object corresponding to the plurality of radio frequency tags 700, and the processor 920 reads and reads according to the database 910 M410931. The object information is compared and displayed on the display 930. In addition, the system host 9 further includes an alerter 940. If the wireless RF reader 800 does not read the object information by a predetermined time value, the processor 920 outputs an alert signal through the alerter 940. Please also read 2A and 2B. Fig. 2A is a block diagram showing the structure of a radio frequency tag of the first embodiment of the present invention. Figure 2B is a schematic illustration of an embodiment in accordance with a first embodiment that has not been created. In this embodiment, the radio frequency tag structure 1 includes a radio frequency tag body 11 ( ), an extension portion 120 , and an adhesive portion 13 . The radio frequency tag body 11 includes a chip 111 and a transceiver antenna 112 . The transceiver antenna 112 is surrounded by a wire 113 around the radio frequency tag body 11 () and connected to the chip 1 to form an electrical circuit. The wafer 111 stores object information corresponding to one object. The extension 120 is connected to one end of the radio frequency tag body 11 . The adhesive portion 13 is disposed on the same end surface of the RFID tag body 11 and the extension portion 12, so that the RFID tag body 11 and the extension portion 12 are attached to a package 610 by the adhesive portion 13A. The wafer 111 stores information about one object corresponding to the package 61. The RF tag body 11A and the extension portion 12 are pre-cut with a fold line 140. The cut σ depth of the fold (10) 140 is smaller than the thickness of the radio frequency identification structure 100, and the radio frequency tag structure 100 is maintained without being penetrated. It is in a sealed state and allows the RFID tag structure to be easily attached to the object. Furthermore, when the radio frequency tag structure 1 is damaged, it is necessary to pay attention to whether the radio frequency tag structure 100 is damaged, and the 7 M410931 cannot use the packaged contents of the package 610. In this embodiment, if the package 610 is not normally opened by the normal program, and the RFID tag structure is damaged, the related information can not be read through the wireless RF reader 800, and then through the system host. The 900 alert 940 sends an alert sound to alert the administrator to the abnormal condition of the packet 610. Please also read 3A and Figure 3B. Figure 3A is a block diagram showing the structure of a radio frequency tag of the second embodiment of the present invention. Figure 3B is a schematic illustration of an embodiment of a first embodiment of the present invention. In this embodiment, the radio frequency tag structure 200 includes a radio frequency tag body 21A, a first extension portion 220, a second extension portion 23A, and an adhesive portion 24A. 2, the radio frequency tag body 210 includes a chip 211 and a transceiver antenna 2, the first extension portion 220 and the second extension portion 230 are respectively connected to the wireless transfer, the two ends of the tag body 21G, and the adhesive portion 24G is disposed on the radio frequency end body 210. The first extension portion 22A and the second extension portion 23 are formed on the same two sides to cause the RFID tag body 21 and the first extension portion 22. And the extension 4 230 is attached to the body & the cover portion of the bottle body 620 by the adhesive portion 24 . The special second light wire 212 is surrounded by a wire 213 around the radio frequency gas + body 210, and the speed of the yu _ ~ a formation - electrical circuit 'crystal 21G (four) and pu Yan (four) 220 and the: 曰 pre-cutting has a tangential line 25 〇 The incision line 25〇 is deeper than the thickness of the radio frequency tag structure 200, and the radio frequency tag structure 200 is kept in a sealed state, and the radio frequency tag structure 200 is easily fitted. On the bottle 620, in particular the cap 621 of the bottle 620. Therefore, when the cap 621 of the bottle 620 is opened, the radio frequency tag body 21A of the radio frequency tag structure 200, the first extension 220 and the second extension 230 are destroyed along the fold line 250, so that the radio frequency The tag body 210 is in an unsealed state and thereby informs the use that the radio frequency tag structure 200 has been destroyed and the monitoring substance inside may be destroyed and cannot be used. Please also refer to reading 4A and Figure 4B. Fig. 4A is a structural diagram of a radio frequency tag of a third embodiment of the present invention. Figure 4B is a schematic illustration of an embodiment of a third embodiment in accordance with the present teachings. In this embodiment, the radio frequency tag structure 300' includes a first radio frequency tag body 310, a second radio frequency tag body 320, an extension portion 330, and an adhesive portion 340. The first radio frequency radio frequency tag 310 includes a first radio frequency transceiver chip 311 and a first radio frequency transceiver antenna 312. The first radio frequency transceiver antenna 312 is surrounded by the first radio frequency tag body 310 by a first wire 313. The first radio frequency chip 311 is connected to form an electrical circuit, and the first radio frequency chip 311 stores object information of one of the wine bottles 630. The second radio frequency tag body 320 includes a second radio frequency transceiver chip 321 and a second radio frequency transceiver antenna 322. The second radio frequency transceiver antenna 322 is surrounded by a second wire 323 to the second radio frequency tag body 9 M410931 320. And connecting the first radio frequency chip 321 to form an electrical circuit, and the second radio frequency radio chip 321 is for storing the information of the object of the wine bottle 630. The extension portion 330 is connected to the first radio frequency tag body 310 and the second radio frequency tag body 32 , and the adhesive portion 340 is disposed on the same end surface of the first radio frequency tag body 310 , the second radio frequency tag body 320 , and the extension portion 330 . The first radio frequency tag body 310, the second radio frequency tag body 320, and the extension portion 33 are attached to the cover 631 of a wine bottle 630 by the adhesive portion 34. The extension portion 330 is pre-cut with the folding line 35〇 between the first wireless label label body 31 and the second radio frequency label main body 32, and the incision depth of the folding line 350 is smaller than the radio frequency tag structure. The thickness, the state of penetration is still maintained while the RFID tag structure 300 is in a sealed state, and the RFID tag structure 3 is easily attached to the bottle 63. Therefore, when the bottle cap 621 of the wine bottle 630 is opened, the radio frequency tag structure 300 is destroyed, and the user can notice that the bottle cover 621 of the bottle 63 has been opened, and the contents inside are opened. There may be undesirable substances and it is not recommended. In summary, the design of the extension allows the occupant to pay attention to the abnormality when the radio frequency tag structure is broken, so that the warning can be alerted by the radio frequency reader being unable to read the object information. Improve the efficiency of object management. Although the present invention has been disclosed above in the foregoing embodiments, it is not intended to limit the present invention, and any skilled person skilled in the art, without departing from the spirit of the present invention, 10 M410931, is equivalent to the replacement of the modifiers and retouchings. Within the scope of the patent protection of the creation. M410931 [Simple Description of the Drawings] Figure 1 is a block diagram of a radio frequency tag circuit. 2A is a schematic structural diagram of a radio frequency tag of the first embodiment of the present invention. Figure 2B is a schematic illustration of an embodiment of a first embodiment in accordance with the present invention. FIG. 3A is a schematic structural diagram of a radio frequency tag of a second embodiment of the present invention. Figure 3B is a schematic illustration of an embodiment of a second embodiment in accordance with the present teachings. 4A is a schematic structural diagram of a radio frequency tag of a third embodiment of the present invention. Figure 4B is a schematic illustration of an embodiment of a third embodiment in accordance with the present teachings. 12 M410931 [Description of main component symbols] 100 Radio frequency tag structure 110 Radio frequency tag body 111 Wafer 112 Transceiver antenna 113 Wire 120 Extension
130 黏貼部 140 折切線 200 無線射頻標籤結構 210 無線射頻標籤本體 211 晶片 212 收發天線 213 導線 220 第一延伸部130 Adhesive part 140 Folding line 200 Radio frequency tag structure 210 Radio frequency tag body 211 Wafer 212 Transceiver antenna 213 Wire 220 First extension
230 第二延伸部 240 黏貼部 250 折切線 300 無線射頻標籤結構 310 第一無線射頻標籤本體 311 第一無線射頻晶片 312 第一無線射頻收發天線 313 第一導線 13 M410931230 Second extension 240 Adhesive part 250 Folding line 300 Radio frequency tag structure 310 First radio frequency tag body 311 First radio frequency chip 312 First radio frequency transceiver antenna 313 First wire 13 M410931
320 第二無線射頻標籤本體 321 第二無線射頻晶片 322 第二無線射頻收發天線 323 第二導線 330 延伸部 340 黏貼部 350 折切線320 second radio frequency tag body 321 second radio frequency chip 322 second radio frequency transceiver antenna 323 second wire 330 extension 340 adhesive portion 350 folding line
610 包裝盒 620 瓶體 621 瓶蓋 630 酒瓶 631 蓋體 700 無線射頻標籤 710 無線射頻晶片 720 天線610 Box 620 Bottle 621 Cap 630 Bottle 631 Cover 700 Radio Frequency Label 710 Radio Frequency Chip 720 Antenna
800 無線射頻讀取器 900 系統主機 910 資料庫 920 處理器 930 顯示器 940 警示器 14800 Wireless RF Reader 900 System Host 910 Library 920 Processor 930 Display 940 Alerter 14
Claims (1)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW100205373U TWM410931U (en) | 2011-03-25 | 2011-03-25 | Radio frequency identification tag structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW100205373U TWM410931U (en) | 2011-03-25 | 2011-03-25 | Radio frequency identification tag structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| TWM410931U true TWM410931U (en) | 2011-09-01 |
Family
ID=46418261
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW100205373U TWM410931U (en) | 2011-03-25 | 2011-03-25 | Radio frequency identification tag structure |
Country Status (1)
| Country | Link |
|---|---|
| TW (1) | TWM410931U (en) |
-
2011
- 2011-03-25 TW TW100205373U patent/TWM410931U/en not_active IP Right Cessation
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