201136017 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種射頻識別標籤模組(radio frequency identification tag module ) ’且特別是有關於一種具有金屬帶 的射頻識別標籤模組。 【先前技術】201136017 VI. Description of the Invention: [Technical Field] The present invention relates to a radio frequency identification tag module and particularly relates to a radio frequency identification tag module having a metal strip. [Prior Art]
射頻識別系統(radio frequency identification system,RFID • system)是一種藉由無線電磁波以進行非接觸的資料存取(data access)的技術的系統。射頻識別系統包括一内建有資料庫的 電腦、一讀取器(reader)與一射頻識別標籤(RnD tag)。 讀取器電性耦接至電腦,且射頻識別標籤配置於一待識別物 (identification-required good)上,此待識別物例如為一裝有 待運送物品(transportation-required article)的箱體(b〇x)。 當例如為箱體的待識別物被運送出工廠而經過貨物閘門 時,讀取器的-配置於貨物閘門處的天線發出無線訊號,射頻 • 識別標籤接收此無線訊號並回傳另一無線訊號至讀取器。因 此’電腦可根據讀取器所讀取的無線訊號以及内建的資料庫的 負sfl,以識別此待識別物的基本資料。 然而,當單—或堆疊的多個待識別物經過貨物閘門(g〇〇ds gate)時’各個待識別物内的物品或這些待識別物的堆離 會影響讀取器與各個射頻識別標籤之間的無線溝通(:士二 commumcation ),使得這些射頻識別標籤的一部分| 讀取器的,線所發射的無線訊號。另外,若箱體内^之内容 物具有大量金屬成份者’也會對無線訊號傳輸產生影響,導致 201136017A radio frequency identification system (RFID) system is a system for performing non-contact data access by wireless electromagnetic waves. The RFID system includes a computer with a built-in database, a reader and a radio frequency identification tag (RnD tag). The reader is electrically coupled to the computer, and the RFID tag is disposed on an identification-required good, such as a box containing a transport-required article (b) 〇x). When the object to be identified, for example, the container is transported out of the factory and passes through the cargo gate, the antenna of the reader disposed at the cargo gate emits a wireless signal, and the radio frequency identification tag receives the wireless signal and returns another wireless signal. To the reader. Therefore, the computer can identify the basic data of the object to be identified based on the wireless signal read by the reader and the negative sfl of the built-in database. However, when a single-or-stacked plurality of objects to be identified pass through a cargo gate (g〇〇ds gate), the items in each object to be identified or the piles of the objects to be identified may affect the reader and each radio frequency identification tag. Between the wireless communication (: 士二commumcation), which makes part of these RFID tags | reader, the wireless signal transmitted by the line. In addition, if the contents of the box have a large amount of metal components, it will also affect the wireless signal transmission, resulting in 201136017
It頻識別標籤不易被讀取^因此,讀取器無法有效地讀取到射 賴別標_發射的無軌號,使得射綱财、統的電腦將無 ^確識別經過貨物閘門的待識別物’進而造成物流控管上的 盲點。有鑑於此,習知的射頻識別系統的感應方式實有改進之 必要。 【發明内容】 本發明提供一種射頻識別標籤模組,其接收與傳送無線訊 號的能力較佳。 本發明提出一種射頻識別標籤模組,包括—金屬帶(metal band )與一射頻識別標籤(radio frequency identification tag )。 金屬f形成一連續型環體(continu〇us ring)。射頻識別標籤 郴近於金屬帶且包括一天線(antenna)與一晶片(chip)。天 線適於與金屬帶產生電磁感應。晶片電性耦接至天線。 由於本發明之實施例的射頻識別標籤模組具有金屬帶,所 以具有上述射頻識別標籤模組的容置體經過貨物閘門時,射頻 識別標籤模組的射頻識別標籤與讀取器之間的無線溝通較不 會受到容置體内部所擺放的電子元件的干擾。因此,與習知技 術相較,本發明之實施例的射頻識別標籤模組接收與傳送無線 訊號的能力較佳。 、 …、、 為讓本發明之實施例的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。 【實施方式】 圖1A繪示本發明一實施例之一種容置體的立體示意圖。 圖1B繪示圖1A的容置體的放大示意圖。圖iC繪示^個圖 201136017 1A之容置體堆疊而通過貨物閘門的示意圖。請先參考圖1A 與圖1B ’本實施例之容置體(container) ci包括—容置本體 (containing body) B1與一射頻識別標籤模組20〇。容置本體 B1例如為一相體’其具有一容置空間(c〇ntaining) $ 1。 在本實施例中,容置本體B1的材質可為非導電類的材質,其 包括紙類。然而,在另一實施例中,容置本體B1可為導電類 的材質。 ~ 射頻識別標籤模組200電性絕緣地配置於容置本體B1且 • 位於容置空間S1外。例如,射頻識別標藏模組200可以黏貼 ,方式配置於容导本體B1的内表面或外表面上。射頻識別標 籤模組200包括一金屬帶210與一射頻識別標籤22〇。金屬帶 210例如為-連續型環體’其環繞容置空間…射頻識別標藏 220鄰近於金屬帶210且包括一晶片222與一天線224。天線 224例如為一環形天線(1〇〇p antenna),盆 222且糾㈣雜抗㈣。天請適 產生電磁感應。 鲁 值得注意的是’若容置本體B1的㈣為料電類的材 呌,射頻識別標籤模組200可電性絕緣地配置於容置本體m 面或外表面上。然而,若容置本體m的材質為導電類 的材料,則射頻識別標籤模組200應電性絕緣地配置於容置本 體B1之外表面。 請參考圖1A、圖1B與圖1C,多個容置體α以圖冗的 成3層且母層9個谷置體C1的堆疊容置體結構τι, =母-層的這些容置體C1的射頻識別標籤模組細的金屬 二〇幾乎位於同-高度上。此外,各個容置體ci的容置本 體B1内可擺放多個電子元件,例如為液晶顯示面板。 201136017 =^置體結構T1的這些容置體α通過貨 :別=藉由其天線A1發射無線訊號,並且各個射頻 莫,金屬帶210與對應的射頻識別標籤2心 R1所私4之S產生電磁感應,使得各個晶片222接收到讀取器 224 “^^號°接著’各個晶片222藉由對應的天線 線2^4 I ,並且各個射頻識別標籤模組細的天 R1接# i、丨久應的金屬帶21G之間產生電磁感應,使得讀取器 __ 22G所回應的無線訊號。因此, f 的—電腦C2可根據讀取器R1所讀取的 體内建的資料庫的資訊,以識別這些堆叠的容置 二此,須說明的是,每一層的金屬帶21〇位於同一高度的 情況下,这些射頻識別標籤22〇與讀 的效果難。糾,在另―實_,各_ ^ 的=概,物糊韻 R之間仍可達成有效之無線訊號溝通。 i右HI述可知’ *於容置體C1的射麵別標籤模組2〇〇 間S1的金屬帶210,所以當多個容置體ci以 2f _門時’各個射頻識別標籤模組200的射 頻識別4錢22〇與讀取器之間的無線溝通較不會受到容置體 ^經内1所擺放的電子元件的干擾或容置體的堆疊擺放方式的 此與驾知技術相較本實施例之各個射頻識別標籤 棋,,且200的接收與傳送無線訊號的能力較佳。 綜上所述,本發明之實施例的射頻識別標籤模組至少具有 以下其中之一或其他優點: 201136017 -、由於本發明之實施綱射_別賴触 帶,所以具有上述射頻識別標藏模叙的容置體經過貨 時,射賴別標籤模組的射頻識別標鐵與讀取器之間的^ 通較不會受到容置體内部所擺放的電子元件的干擾。因’此、·,盘 、習知技術她,本發明之實關的射賴軸轉 送無線訊號的能力較佳。 /、得 二、由於本發明之實施例的射頻識別標籤模組且 帶,所以當多個容置體以堆疊的方式經過句^輪 賴別標籤馳的軸朗標籤與讀取器之料、盖ς射 不會受到這些容置體的堆疊擺放方式的影響。因此,與習^ 力關轉賴师難._魏與傳綠 雖然本發明已以實施例揭露如上,然其並非用 明’任何熟習此技藝者,在不脫離本發明之精神和本^ 可作些許之更動與潤飾’因此本發明之保護 田 請專利範圍所界定者為準。 田硯後附之申 【圖式簡單說明】 圖1Α繪示本發明一實施例之一種容 且扯NJL體不意圖。 圖1Β繪示圖1Α的容置體的放大示意圖。 意圖圖Κ:繪示多個圖1Α之容置體堆疊而通過貨物閘門的示 【主要元件符號說明】 200 :射頻識別標籤模組 210 :金屬帶 201136017 220 :射頻識別標籤 222 :晶片 224、A1 :天線 B1、ΒΓ :容置本體 C1、C1’ :容置體 C2 :電腦 D1 :貨物閘門 R1 :讀取器 S1 :容置空間 T1 :堆疊容置體結構The It frequency identification tag is not easy to be read. Therefore, the reader cannot effectively read the trackless number of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 'There is a blind spot on logistics control. In view of this, the sensing method of the conventional RFID system is really necessary. SUMMARY OF THE INVENTION The present invention provides a radio frequency identification tag module that is better at receiving and transmitting wireless signals. The invention provides a radio frequency identification tag module, which comprises a metal band and a radio frequency identification tag. The metal f forms a continu〇us ring. The RFID tag is close to the metal strip and includes an antenna and a chip. The antenna is adapted to generate electromagnetic induction with the metal strip. The wafer is electrically coupled to the antenna. Since the RFID tag module of the embodiment of the present invention has a metal strip, the radio frequency identification tag of the radio frequency identification tag module and the reader are wireless when the receiving body of the radio frequency identification tag module passes through the cargo gate. Communication is less likely to be interfered with by electronic components placed inside the housing. Therefore, the radio frequency identification tag module of the embodiment of the present invention has better ability to receive and transmit wireless signals than the prior art. The above features and advantages of the embodiments of the present invention will become more apparent and understood. Embodiment 1 FIG. 1A is a perspective view of a housing according to an embodiment of the present invention. FIG. 1B is an enlarged schematic view of the housing of FIG. 1A. Figure iC shows a schematic diagram of the housing of the 201136017 1A stacking through the cargo gate. Referring first to FIG. 1A and FIG. 1B', the container ci of the present embodiment includes a receiving body B1 and a radio frequency identification tag module 20A. The accommodating body B1 is, for example, a phase body ’ having a housing space (c〇ntaining) $1. In this embodiment, the material of the receiving body B1 may be a non-conductive material, which includes paper. However, in another embodiment, the receiving body B1 may be a conductive material. The radio frequency identification tag module 200 is electrically insulated from the receiving body B1 and is located outside the accommodating space S1. For example, the RFID tag module 200 can be attached to the inner surface or the outer surface of the volume guiding body B1. The RFID tag module 200 includes a metal strip 210 and a radio frequency identification tag 22A. The metal strip 210 is, for example, a continuous loop body that surrounds the receiving space. The radio frequency identification tag 220 is adjacent to the metal strip 210 and includes a wafer 222 and an antenna 224. The antenna 224 is, for example, a loop antenna (1〇〇p antenna), a basin 222, and a (four) hybrid reactance (four). Please apply electromagnetic induction. It is worth noting that the radio frequency identification tag module 200 can be electrically insulated and disposed on the m-plane or the outer surface of the accommodating body if the (4) body of the body B1 is a material of the material type. However, if the material of the housing m is a conductive material, the RFID tag module 200 should be electrically insulated from the outer surface of the housing B1. Referring to FIG. 1A, FIG. 1B and FIG. 1C, the plurality of accommodating bodies α are stacked in three layers and the stacking body structure of the mother layer 9 valleys C1 is τι, = the hull of the mother layer. The fine metal dice of the C1 RFID tag module is located almost at the same height. In addition, a plurality of electronic components, such as a liquid crystal display panel, can be placed in the housing body B1 of each of the housing bodies ci. 201136017 = ^ These contents of the body structure T1 through the goods: Do not emit wireless signals through its antenna A1, and each radio frequency, the metal band 210 and the corresponding radio frequency identification tag 2 heart R1 private 4 S generated The electromagnetic induction is such that each of the wafers 222 receives the reader 224 "^^# and then the respective wafers 222 are connected to the respective antenna lines 2^4I, and the respective radio frequency identification tag modules are connected to the day R1#i, 丨Electromagnetic induction is generated between the long-term metal strip 21G, so that the reader __ 22G responds to the wireless signal. Therefore, the computer C2 of f can be based on the information of the built-in database read by the reader R1. In order to identify the contents of these stacks, it should be noted that, in the case where the metal strips 21〇 of each layer are at the same height, the effect of these radio frequency identification tags 22〇 and reading is difficult. _ ^ = = , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , so when multiple housings ci are 2f _ gates, 'each radio frequency identification tag module 200 The wireless communication between the RFID and the reader is not affected by the interference of the electronic components placed in the housing 1 or the stacked arrangement of the housing. The radio frequency identification tag module of the embodiment of the present invention has at least one of the following or other advantages, compared to the radio frequency identification tag of the present embodiment, and the capability of receiving and transmitting the wireless signal 200 is better. : 201136017 - Since the implementation of the present invention is not related to the touch belt, the receiver having the above-mentioned radio frequency identification tag model passes through the cargo, and the radio frequency identification tag and the reader of the tag module are The communication between the two is less likely to be interfered by the electronic components placed inside the housing. Because of this, the disc, the conventional technology, the ability of the real axis of the present invention to transfer wireless signals is better. According to the radio frequency identification tag module of the embodiment of the present invention, when a plurality of accommodating bodies are stacked in a stack, the axis of the tag and the material of the reader are traversed by the phrase Cover shots are not subject to these contents The effect of the stacking method. Therefore, it is difficult to transfer to the teacher. _Wei and Chuan Green Although the present invention has been disclosed above by way of example, it is not intended to be used by anyone skilled in the art. The spirit of the invention and the present invention may be modified and retouched. Therefore, the scope of the patent application of the present invention is defined by the scope of the patent application of the present invention. The following is a brief description of the drawings. Figure 1A is an enlarged schematic view of the housing of Figure 1A. Intentional diagram: showing a plurality of stacks of the housing of Figure 1 and passing through the cargo gate [main component symbol description 】 200: RFID tag module 210: metal band 201136017 220: RFID tag 222: chip 224, A1: antenna B1, ΒΓ: housing body C1, C1': housing C2: computer D1: cargo gate R1: Reader S1: accommodating space T1: stacked accommodating body structure