200935311 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種可供裝設電子標藏的座體,且特 別是有關於一種可供裝設無線射頻電子標蕺的標籤座。 【先前技術】 無線射頻辨識(Radio Frequency Identification, RFID ) 係利用無線射頻電波自動辨識資料之系統,其系統架構由 電子標藏與讀取器組成。一般來說,由於電子標籤是透過 無線電波與讀取器進行溝通,所以其電波訊號容易受周遭 之金屬干擾,由於射頻(RF)的物理特性,金屬會對rfid 的感應讀取穩定度造成影響,導致讀取器無法順利對電子 標籤讀取或寫入資料。 因此當電子標籤裝設在一金屬材料之載體時,需増加 電子標籤金屬材料之載體之間之距離,以減少干擾的情況 發生。傳統的做法為使用較厚之泡綿雙面膠,以一層一層 重覆黏貼之方式’將電子標藏黏貼於載體之上,並藉由重 覆黏贴之方式增加延伸寬度,使電子標籤與金屬載體間產 生一定間距,使其金屬載體對於電子標鐵之干擾降到最 低’這樣的做法雖然價格較低’但費時且其牢固性亦相當 低劣。 另外’對RFID標籤進行讀取與寫入資料時,以rFID 標籤與讀取器的訊號正交時,訊號強度最大,讀取與寫入 資料的效果最佳,若兩者非正交角度則必須使兩者之距離 200935311 更靠近才收的到减。軌目前有些钱ϋ定座提供了可 隨意調整角度的功能’使標籤與讀取器訊號可正交讀取, 但這樣的設計在實務上並不實用,且在製作的成本上相對 提尚。 【發明内容】 本發明的目的是在提供—種斜角式無線射頻識別標 籤座,使用不會造成RF物理性干擾之材質,將RFID標籤 與載體金屬區隔,以減少金屬干擾之發生。 本發明的另—目的是在提供—種斜角式無線射頻識 另J標籤座,其可視所需的場合,採用無線射頻識別標籤之 裝設面為固定角度斜面的標籤座,透過大量的製造,可降 低生產的成本,並減少使用時還需調整斜面角度的麻煩。 依照本發明實施例,提出一種斜角式無線射頻識別標 籤座,包含一座體,座體包含有一安裝面以及一裝設面。 其t裝設面具有一無線射頻識別標藏裝設位置。無線射頻 識別標籤裝設位置與安裝面之間之距離相隔i·5公分以 上。 依照本發明另一實施例,提出一種斜角式無線射頻識 別標籤座,包含一安裝面、一裝設面以及一支撐件。其中 裝設面具有一無線射頻識別標籤裝設位置。支撐件裝設於 安裝面與裝設面之間加以固定,且使得裝設面具有一斜角 介於0〜90度之間。 支撐件具有一延伸寬度,此延伸寬度使得無線射頻識 200935311 別標籤裝設位置與安裝面之間的最短距離至少相隔15公 分以上。 【實施方式】 請參照第1圖’其緣示依照本發明一較佳實施例的一 種斜角式無線射頻識別標籤座之立體圖。無線射頻識別標 籤座包含-座體200’座趙_為—實心結構,並包含有 ❹ 女裝面210、裝汉面220以及一底面23〇。座體2〇〇 之材質可為各種非金屬的材質所製成,在本實施例中,座 體200為一木質實心結構。 安裝面210係可供裝設於一載體上,例如:電腦、鋼 骨、鋼板與冰箱外殼等等。其中之裝設方式為在載體與安 裝面210之間,使用雙面膠、黏著劑或吸盤等方式將座體 200固定於載體上。 裝》又面220具有一無線無線射頻識別標籤裝設位置, φ 係可供叹有一電子標籤221,即無線射頻識別標籤。在本 實施例中,以載體為一電腦主機為例,加以說明。由於隨 著載體的不同,對於電子標籤221的影響程度亦不同,在 本^施例中,根據實驗得知,電子標籤221之中心線如 與安裝面210之間之距離223 (也就是電子標籤221與載 =之距離)至少需大於15公分以上(電腦主機未開機狀 ’t)或2公分以上(電腦主機於開機狀態),載體才不會 對電子標籤221造成訊號干擾。 般來說,電子標籤221會安裝於裝設面220之中央 200935311 位置’备然電子標蕺221之位置也可非置中配置,只要使 電子標籤221與載體之間之距離大於^公分以上即可。 換句話說,無線無線射頻識別標籤裝設位置與安裝面21〇 之距離相隔1.5公分以上即可。因此,在本實施例中,座 體200雖為一梯形形狀,但是只要符合本發明將電子標蕺 221與載體之間,相隔一距離,使載體不會對於電子標籤 221造成干擾之精神’座體200亦可為三角形、平行四邊 Q 形等各種形狀的結構。 由於座體200固定於載體後,載體可能放置於高處或 狹小空間中’為了在對電子標籤221進行資料的寫入與讀 取時,獲得一較佳的訊號強度’因此,裝設面22〇與底面 230之間形成有一夹角231。夹角231的大小可視無線射 頻識別標籤座200所處地點場合加以設計,一般來說,失 角231的大小可介於20度〜90度之間,也就是說裝設面 220可為斜面的型態,當夾角231為90度時,則裝設面 ❹ 220與安裝面210為互相平行,使得座體2〇〇變成一長方 體結構。 例如:當座體200固定於低於使用者腰部以下的位置 時,為了方便使用者利用讀取器(Reader )讀取資料,因 此會將夾角231設計為30度左右,使得裝設面22〇較為 朝上’讓使用者握取讀取器在讀取或寫入資料時更為便利 並獲得一較佳的訊號強度。 然而’當座體200固定於腰部附近的位置時,則炎角 230會設计為大約60度左右,以方便使用者讀取或寫入資 200935311 料。基本上來說,夾角231的大小無需要求一定要多少角 度,完全可視需求加以調整設計。在本實施例中,只是提 供例子說明作為參考,並非用以限定本發明。 請參照第2圖,其繪示依照本發明另一較佳實施例的 一種斜角式無線射頻識別標籤座之立體圖。在此為了簡化 說明,僅針對與第1圖之實施例不同之處加以說明。無線 射頻識別標藏座包含一座體300,其特徵在於座體3〇〇為 D 中空結構’以減輕無線射頻識別標籤座整體的重量,並減 少製作原料的使用,得以減低成本。 請參照第3圖,其繪示依照本發明又一較佳實施例的 一種斜角式無線射頻識別標籤座之立體圖。無線射頻識別 標籤座400包含有一安裝面41〇、一裝設面42〇以及一支 撲件430。支撐件430裝設於安裝面410與裝設面420之 間’用以固定安裝面410與裝設面420,並使裝設面420 形成有一斜角’也就是相對於安裝面41〇為一斜面。其中, ❹ 裝設面420具有一無線射頻識別標籤裝設位置,用以供安 裝一無線射頻識別標籤。 為了簡化說明,對於安裝面410與裝設面420之功能 不再贅述,僅針對支撐件430之結構與如何固定安裝面410 與裝設面420之關係加以說明。 在本實施例中,支撐件430為一平板結構,裝設於安 裝面410與裝設面420之中間位置,且支撐件430具有一 延伸寬度,此延伸寬度隨著載體干擾電子標籤421的程度 而增加。在本實施例中,根據實驗得知,電子標籤與安裝 9 200935311 面410之無線射頻識別標藏裝設位置之距離(也就是電子 標威與載體之距離)至少需大於1.5公分以上(電腦主機 未開機狀態)或2公分以上(電腦主機於開機狀態),栽 體才不會對電子標籤造成訊號干擾,因此支撐件43〇的延 伸寬度需大於1.5公分以上,以使安裝面41〇與裝設面42〇 之間之距離大於1.5公分以上。 無線射頻識別標籤裝設面420為一斜面結構。隨著使 用的場合與使用者的需求,無線射頻識別標籤裝設面42〇 之斜角一般會介於0〜90度之間。當斜角為〇度時,則裝 設面420與安裝面410為互相平行。支撐件43〇亦可為柱 狀結構,只要可將安裝面410與裝設面420加以固定即可。 雖然本發明已以數較佳實施例揭露如上,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 神和範圍内,當可作各種之更動與潤飾,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】 為讓本發明之上述和其他目的、特徵、優點與實施例 能更明顯易懂’所附圖式之詳細說明如下: 第1圖係繪示依照本發明一較佳實施例的一種斜角式 無線射頻識別標籤座之立體圖。 第2圖係繪示依照本發明另一較佳實施例的—種斜角 式無線射頻識別標籤座之立體圖。 第3圖係繪示依照本發明又一較佳實施例的一種斜角 200935311 式無線射頻識別標籤座之立體圖。 【主要元件符號說明】 200 : 座體 210 : 安裝面 220 : 裝設面 221 : 電子標籤 222 : 中心線 223 : 距離 230 : 底面 231 : 夾角 400 : 無線射頻識別標籤座 300 : 座體 420 : 裝設面 410 : 安裝面 430 : 支撐件 11200935311 IX. Description of the Invention: [Technical Field] The present invention relates to a seat for mounting an electronic tag, and in particular to a tag holder for mounting a radio frequency electronic tag. [Prior Art] Radio Frequency Identification (RFID) is a system that uses radio frequency radio waves to automatically identify data. Its system architecture consists of an electronic standard and a reader. Generally speaking, since the electronic tag communicates with the reader through radio waves, its radio signal is easily interfered by the surrounding metal. Due to the physical characteristics of radio frequency (RF), the metal will affect the inductive read stability of the rfid. Causes the reader to fail to read or write data to the electronic tag. Therefore, when the electronic tag is mounted on a carrier of a metal material, the distance between the carriers of the metal tag metal material needs to be increased to reduce the occurrence of interference. The traditional method is to use a thicker foam double-sided adhesive, and to adhere the electronic label to the carrier in a layer by layer manner, and increase the extension width by repeating the adhesive to make the electronic label and The metal carriers are spaced apart to minimize the interference of the metal carriers with the electronic standard. This is a relatively inexpensive method, but it is time consuming and its robustness is rather inferior. In addition, when reading and writing data to the RFID tag, when the rFID tag is orthogonal to the signal of the reader, the signal intensity is the highest, and the effect of reading and writing data is optimal. If the two are not orthogonal, then The distance between the two must be closer to 200935311. At present, some of the rails provide a function to adjust the angle at will. 'The label and the reader signal can be read orthogonally, but such a design is not practical in practice, and the cost of production is relatively high. SUMMARY OF THE INVENTION It is an object of the present invention to provide a beveled radio frequency identification tag holder that uses a material that does not cause RF physical interference to separate the RFID tag from the carrier metal to reduce metal interference. Another object of the present invention is to provide a bevel type radio frequency identification J-tag holder, which can be used as needed, and adopts a radio frequency identification tag with a fixed angle beveled tag holder for a large number of manufacturing. It can reduce the cost of production and reduce the trouble of adjusting the angle of the bevel when using. According to an embodiment of the invention, a bevel type radio frequency identification tag holder is provided, comprising a body, the seat body comprising a mounting surface and a mounting surface. The t-mounting mask has a radio frequency identification tag mounting location. The distance between the radio frequency identification tag mounting position and the mounting surface is more than i·5 cm. In accordance with another embodiment of the present invention, a beveled radio frequency identification tag holder is provided that includes a mounting surface, a mounting surface, and a support member. The mask is provided with a radio frequency identification tag mounting position. The support member is fixed between the mounting surface and the mounting surface, and the mounting mask has an oblique angle between 0 and 90 degrees. The support member has an extended width which is at least 15 cm apart from the shortest distance between the mounting position of the radio frequency identification 200935311 and the mounting surface. [Embodiment] Please refer to FIG. 1 for a perspective view of a bevel type radio frequency identification tag holder in accordance with a preferred embodiment of the present invention. The radio frequency identification tag holder includes a seat body 200' seated by a solid structure and includes a 女装 women's face 210, a faceted face 220, and a bottom face 23 〇. The material of the seat body 2 can be made of various non-metal materials. In the embodiment, the seat body 200 is a solid wooden structure. The mounting surface 210 can be mounted on a carrier such as a computer, a steel plate, a steel plate, a refrigerator casing, and the like. The mounting body 200 is fixed to the carrier by using a double-sided tape, an adhesive or a suction cup between the carrier and the mounting surface 210. The device 220 has a wireless radio frequency identification tag mounting position, and the φ system is provided with an electronic tag 221, that is, a radio frequency identification tag. In this embodiment, the carrier is taken as an example of a computer host. Since the degree of influence on the electronic tag 221 is different depending on the carrier, in the embodiment, according to the experiment, the center line of the electronic tag 221 is at a distance 223 from the mounting surface 210 (that is, the electronic tag). 221 and the distance of the load = at least more than 15 cm (the computer host is not turned on 't) or more than 2 cm (the host computer is turned on), the carrier will not cause signal interference to the electronic tag 221. Generally speaking, the electronic tag 221 is installed in the center of the mounting surface 220 200935311. The position of the electronic tag 221 is also non-centered, as long as the distance between the electronic tag 221 and the carrier is greater than ^ cm. can. In other words, the position of the wireless radio frequency identification tag is located at a distance of 1.5 cm or more from the mounting surface 21〇. Therefore, in the present embodiment, the seat body 200 has a trapezoidal shape, but as long as it conforms to the present invention, the electronic standard 221 and the carrier are separated by a distance, so that the carrier does not interfere with the electronic tag 221. The body 200 may have a structure of various shapes such as a triangle shape and a parallel quadrilateral Q shape. Since the base 200 is fixed to the carrier, the carrier may be placed in a high place or in a small space. In order to obtain a better signal strength when writing and reading data to the electronic tag 221, the mounting surface 22 is provided. An angle 231 is formed between the crucible and the bottom surface 230. The size of the angle 231 can be designed according to the location of the RFID tag holder 200. Generally, the size of the corner 231 can be between 20 degrees and 90 degrees, that is, the mounting surface 220 can be beveled. In the form, when the angle 231 is 90 degrees, the mounting surface 220 and the mounting surface 210 are parallel to each other, so that the base 2 turns into a rectangular parallelepiped structure. For example, when the seat body 200 is fixed at a position lower than the waist of the user, in order to facilitate the user to read the data by using a reader (Reader), the angle 231 is designed to be about 30 degrees, so that the mounting surface 22〇 More upwards, it is more convenient for the user to hold the reader to read or write data and obtain a better signal strength. However, when the seat 200 is fixed at a position near the waist, the yoke 230 is designed to be about 60 degrees so that the user can read or write the material 200935311. Basically, the size of the included angle 231 does not need to be a certain degree of angle, and can be adjusted according to the needs. In the present embodiment, the description is provided as an example and is not intended to limit the invention. Please refer to FIG. 2, which is a perspective view of a bevel type radio frequency identification tag holder according to another preferred embodiment of the present invention. In order to simplify the description, only differences from the embodiment of Fig. 1 will be described. The radio frequency identification tag includes a body 300 characterized by a D hollow structure to reduce the overall weight of the RFID tag holder and reduce the use of manufacturing materials to reduce costs. Please refer to FIG. 3, which is a perspective view of a bevel type radio frequency identification tag holder according to still another preferred embodiment of the present invention. The radio frequency identification tag holder 400 includes a mounting surface 41A, a mounting surface 42A, and a bumper member 430. The support member 430 is disposed between the mounting surface 410 and the mounting surface 420 to fix the mounting surface 410 and the mounting surface 420, and the mounting surface 420 is formed with an oblique angle, that is, the mounting surface 41 is formed. Beveled. The mounting surface 420 has a radio frequency identification tag mounting location for mounting a radio frequency identification tag. In order to simplify the description, the functions of the mounting surface 410 and the mounting surface 420 will not be described again, and only the structure of the supporting member 430 and how the mounting surface 410 and the mounting surface 420 are fixed will be described. In this embodiment, the support member 430 is a flat plate structure disposed at a middle position between the mounting surface 410 and the mounting surface 420, and the support member 430 has an extended width, which extends to the extent that the carrier interferes with the electronic label 421. And increase. In this embodiment, according to experiments, the distance between the electronic tag and the location of the radio frequency identification tag installed on the surface of the 2009 200911 surface 410 (that is, the distance between the electronic tag and the carrier) needs to be at least 1.5 cm or more (computer host) The unopened state) or 2 cm or more (the host computer is turned on), the carrier will not cause signal interference to the electronic tag, so the extension width of the support member 43〇 must be greater than 1.5 cm, so that the mounting surface 41〇 The distance between the faces 42〇 is more than 1.5 cm. The RFID tag mounting surface 420 is a beveled structure. The angle of the RFID tag mounting surface 42 is generally between 0 and 90 degrees, depending on the application and the needs of the user. When the bevel angle is a twist, the mounting surface 420 and the mounting surface 410 are parallel to each other. The support member 43A may also have a columnar structure as long as the mounting surface 410 and the mounting surface 420 can be fixed. Although the present invention has been described above in terms of several preferred embodiments, it is not intended to limit the present invention, and it is to be understood that those skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more <RTIgt; A perspective view of an angled radio frequency identification tag holder. Figure 2 is a perspective view of a bevel type radio frequency identification tag holder in accordance with another preferred embodiment of the present invention. 3 is a perspective view of a beveled corner 200935311 type radio frequency identification tag holder in accordance with still another preferred embodiment of the present invention. [Main component symbol description] 200 : Seat 210 : Mounting surface 220 : Mounting surface 221 : Electronic tag 222 : Center line 223 : Distance 230 : Bottom surface 231 : Angle 400 : Radio frequency identification tag holder 300 : Seat 420 : Mounting Setting surface 410 : mounting surface 430 : support member 11