五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係一種熱轉印電子射頻識別標籤,尤指一種應 用於射頻識別標籤所屬技術領域者。 【先前技術】 [0002] 由於應用場合的增加,近期單品級別追蹤的射頻識別 技術(RFID)發展越來越快。RFID技術是一種自動的識 別技術,通過這種技術,我們可以很方便的追蹤產品。 由於這種技術減少了人在貨品追蹤當中的參與,所以這 種技術很大程度上減少了物流管理中的人員開支。RFID 在不同的地方有很多潛在的應用,例如單品識別以及零 售管理。應用這種技術,人們可以對不同的產品進行定 位。由於低成本優勢,被動式超高頻RFID標籤在服裝庫 存管理上得到了應用。 一個RFID系統由發射器與接收器組成,例如RFID標 籤和RFID讀取器。RFID系統的目的是能夠讓RFID讀取器 成功讀取RFID標籤。通常來講,在被動式的RFID中是沒 有電源的。所以,驅動RFID晶片的能量是來自於讀取器 發射出來的信號。RFID讀取器發射一個調製信號給標籤 ,然後同時標籤反射一個帶有標籤身份號碼的信號給讀 取器。一個被動式RFID標籤主要由一個天線和一個RF晶 片組成。其中RF晶片中有儲存身份號碼的記憶體。相對 于傳統條碼,RFID商標的優勢是可以在遠距離讀取資訊 ,同時可以多個商標同時讀取。 由於一些大的服裝生產商與銷售商的推動,例如瑪莎 表單編號A0101 第3頁/共11頁 M375255 ,Lacoste,Calvin Klein和Burberry,RFID技術有 效的提升了物流管理的效率也減少了這些公司的運營成 本。現有的RFID商標是基於PET薄膜與壓敏膠的商標。然 而,這些壓敏商標有一些難以克服的問題: 1. 由於高壓敏膠轉換比較複雜,壓敏膠RFID商標的成本 還是很高。 2. 由於RFID商標上的天線圖案會破壞標籤的設計,這些 RFID商標還沒有被標籤設計人員廣泛的接受。 3. 這些商標不能夠抵禦惡劣的條件,例如水洗。因此, 現在開發一種R FID商標有很好的可靠性並且可以作為商 標設計的一部分的需求十分迫切。 【新型内容】 [0003]〈創作動機〉 本創作有鑑於上述問題,為改善習知壓敏商標使用成 本高及使用便利性差之問題,乃完成本創作之熱轉印電 子射頻識別標籤。 <創作目的> 本創作之主要目的在於提供一種熱轉印電子射頻識別 標籤,其係於射頻識別標籤上設置有塗料油墨層,塗料 油墨層可以保護射頻識別標籤,且設計人員可以設置種 商標,然後印刷在塗料油墨層,該結構係包括基板、熱 熔膠粉層和射頻識別標籤,該熱熔膠粉層黏接於基板, 而射頻識別標籤通過熱熔膠水層黏貼在熱熔膠粉層,且 射頻識別標籤上設置有具保護作用的塗料油墨層。 另塗料油墨層設置有圖案印刷層,而塗料油墨層覆蓋 表單編號A0101 第4頁/共11頁 [0004] 的面積可與射頻識別標籤覆蓋的面積相同,或塗料油墨 層覆蓋的面積可與大於射頻識別標籤覆蓋的面積,亦或 塗料油墨層覆蓋的面積可與基板的面積相同,以達使用 成本低及使用便利性高之功效。 【實施< 方式】 為使責審查委員能進一步瞭解本創作之結構,特 徵及其他目的,玆以如后之較佳實施例附以圖式詳細說 明如后,惟本圖例所說明之實施例係供說明之用,並非 為專利申請上之唯一限制者。 請配合參閱第一、二圖所示,係本創作熱轉印電子 射頻識別標籤之實施利1示意圖,其係包括:基板(丨)、 熱溶膠粉層(2)和射頻識別標籤(3),熱炫膠粉層(2)黏 接在基板(1),射頻識別標籤(3)通過熱熔膠水層(4)黏 貼結合在熱熔膠粉層(2),射頻識別標籤(3)上設置有起 保護作用的塗料油墨層(5),其中,所述塗料油墨層(5) 覆蓋的面積與射頻識別標籤(3)覆蓋的面積相同,所述塗 料油墨層(5 )設置有圖案印刷層(6 ),圖案印刷層(6 )可 以是各種商標圖案; 藉由上述結構之配合,以完成本創作熱轉印電子射頻 識別標籤。 請配合參閱第三、四圖所示,係本創作熱轉印電子射 頻識別b籤之實施利2示意圖,其與實施例1不同在於, 本實施例2中的塗料油墨層(5)覆蓋的面積與基板(1)的面 積相同,塗料油墨層(5 )面積更大,可以印刷的面積也就 更大,可以設計人員更多的空間發揮。 表單編號A0101 第5頁/共11頁 M375255 茲將本創作之優點論述如下:本創作係於射頻識別標籤 上設置有塗料油墨層,塗料油墨層可以保護射頻識別標 籤,使得射頻識別標籤不受外界的侵蝕,例如防水洗性 能比較強;而且,設計人員可以設計各種商標圖案或其 他圖案資訊,然後印刷在塗料油墨層,可以印刷各種顏 色,不受射頻識別標籤的限制。 綜上所述,本創作確實可達到上述諸項功能及目的 ,故本創作應符合專利申請要件,爰依法提出申請。 【圖式簡單說明】 [0005] 第一圖係本創作之實施例1平面結構示意圖; [0006] 第二圖係本創作之第一圖A-A剖視圖; [0007] 第三圖係本創作之實施例2平面結構示意圖; [0008] 第四圖4係本創作之第三圖B-B剖視圖。 【主要元件符號說明】 [0009] (1)基板 [0010] (2)熱熔膠粉層 [0011] (3)射頻識別標籤 [0012] ( 4 )熱炫膠水層 [0013] (5)塗料油墨層 [0014] (6)圖案印刷層 表單編號A0101 第6頁/共11頁V. New description: [New technology field] [0001] This creation is a thermal transfer electronic radio frequency identification tag, especially one that belongs to the technical field of radio frequency identification tags. [Prior Art] [0002] Due to the increase in applications, the recent development of radio frequency identification (RFID) technology for single-level tracking has become faster and faster. RFID technology is an automatic identification technology that allows us to easily track products. Since this technology reduces people's participation in the tracking of goods, this technology greatly reduces the personnel expenses in logistics management. RFID has many potential applications in different places, such as item identification and retail management. With this technology, people can position different products. Passive UHF RFID tags have been used in apparel inventory management due to their low cost advantages. An RFID system consists of a transmitter and a receiver, such as an RFID tag and an RFID reader. The purpose of the RFID system is to enable RFID readers to successfully read RFID tags. Generally speaking, there is no power in passive RFID. Therefore, the energy driving the RFID chip is derived from the signal emitted by the reader. The RFID reader transmits a modulated signal to the tag, and at the same time the tag reflects a signal with the tag identification number to the reader. A passive RFID tag consists primarily of an antenna and an RF wafer. The RF chip has a memory for storing an identification number. Compared to traditional barcodes, the advantage of RFID trademarks is that they can read information at a distance and simultaneously read multiple trademarks. Thanks to the promotion of some large clothing manufacturers and distributors, such as Martha Form No. A0101, Page 3 / 11 M375255, Lacoste, Calvin Klein and Burberry, RFID technology has effectively improved the efficiency of logistics management and reduced these companies. Operating costs. The existing RFID trademark is based on the trademark of PET film and pressure sensitive adhesive. However, these pressure sensitive trademarks have some insurmountable problems: 1. Due to the complexity of high pressure sensitive adhesive conversion, the cost of pressure sensitive adhesive RFID trademarks is still very high. 2. These RFID trademarks have not been widely accepted by label designers due to the destruction of the label design by the antenna pattern on the RFID logo. 3. These trademarks are not resistant to harsh conditions such as washing. Therefore, it is urgent to develop a R FID trademark that is very reliable and can be used as part of the trademark design. [New Content] [0003] "Creation Motivation" In view of the above problems, the author has completed the creation of the thermal transfer electronic radio frequency identification tag in order to improve the high cost of use and the ease of use of the conventional pressure sensitive trademark. <Creation Purpose> The main purpose of this creation is to provide a thermal transfer electronic radio frequency identification tag which is provided with a paint ink layer on the radio frequency identification tag, the paint ink layer can protect the radio frequency identification tag, and the designer can set the species The trademark is then printed on the coating ink layer. The structure includes a substrate, a hot melt adhesive powder layer and a radio frequency identification label. The hot melt adhesive powder layer is adhered to the substrate, and the radio frequency identification label is adhered to the hot melt adhesive through the hot melt adhesive layer. The powder layer is provided with a protective coating ink layer on the RFID tag. The paint ink layer is provided with a pattern printing layer, and the paint ink layer covers the area of the form number A0101, page 4 / page 11 [0004], the area covered by the RFID tag may be the same, or the area covered by the paint ink layer may be greater than The area covered by the RFID tag or the area covered by the coating ink layer can be the same as the area of the substrate, so as to achieve low cost of use and high convenience. [Implementation] The structure, features and other purposes of the present invention will be further explained in the following preferred embodiments with the following detailed description, but the embodiments illustrated in the following drawings It is for illustrative purposes and is not the only limitation on patent applications. Please refer to the first and second figures, which is a schematic diagram of the implementation of the thermal transfer electronic radio frequency identification tag, which includes: substrate (丨), hot melt powder layer (2) and radio frequency identification tag (3) The hot rubber powder layer (2) is adhered to the substrate (1), and the radio frequency identification label (3) is adhered to the hot melt adhesive powder layer (2) through the hot melt adhesive layer (4), and the radio frequency identification tag (3) Provided is a protective coating ink layer (5), wherein the coating ink layer (5) covers the same area as the radio frequency identification tag (3), and the coating ink layer (5) is provided with a pattern printing The layer (6), the pattern printing layer (6) may be various trademark patterns; by the cooperation of the above structures, the thermal transfer electronic radio frequency identification tag is completed. Please refer to the third and fourth figures, which is a schematic diagram of the implementation of the thermal transfer electronic radio frequency identification (b), which is different from the first embodiment in that the coating ink layer (5) in the second embodiment is covered. The area is the same as the area of the substrate (1), the area of the coating ink layer (5) is larger, and the area that can be printed is larger, so that the designer can play more space. Form No. A0101 Page 5 of 11 M375255 The advantages of this creation are discussed as follows: This creation is based on the RFID tag with a coating ink layer that protects the RFID tag and protects the RFID tag from the outside world. The erosion, such as waterproof washing performance is relatively strong; moreover, designers can design a variety of trademark patterns or other pattern information, and then printed on the paint ink layer, can print a variety of colors, not subject to RFID tags. In summary, this creation can indeed achieve the above functions and purposes, so this creation should meet the requirements of the patent application, and apply in accordance with the law. BRIEF DESCRIPTION OF THE DRAWINGS [0005] The first drawing is a schematic plan view of a first embodiment of the present invention; [0006] The second drawing is a cross-sectional view of the first drawing AA of the present creation; [0007] The third drawing is the implementation of the present creation. Example 2 Schematic diagram of a planar structure; [0008] Fourth FIG. 4 is a cross-sectional view taken along line BB of the third drawing of the present invention. [Main component symbol description] [0009] (1) Substrate [0010] (2) Hot melt adhesive powder layer [0011] (3) Radio frequency identification tag [0012] (4) Hot glue layer [0013] (5) Coating Ink layer [0014] (6) Pattern printing layer form number A0101 Page 6 of 11