TWM564525U - Printer with improved structure of radio frequency identification tag antenna - Google Patents

Abstract

本創作公開一種具射頻識別標籤天線改良結構之列印機，其包括非導體滾軸、印字頭以及資訊讀寫模組。其中，非導體滾軸用以輸送射頻識別標籤料帶，印字頭設置在非導體滾軸的上方，以對射頻識別標籤料帶印製標記。資訊讀寫模組設置在非導體滾軸的下方，資訊讀寫模組用以將至少一資訊寫入射頻識別標籤料帶的至少一射頻識別標籤。藉此，使得針對射頻識別標籤料帶表面進行印製的作業，與針對RFID晶片的讀寫作業，兩者可以共同進行。 The present invention discloses a printer with an improved structure of a radio frequency identification tag antenna, which comprises a non-conductor roller, a printing head and an information reading and writing module. Wherein, the non-conductor roller is used for conveying the RFID tag tape, and the printing head is disposed above the non-conductor roller to print the mark on the RFID tag tape. The information reading and writing module is disposed under the non-conductor roller, and the information reading and writing module is configured to write at least one information into the at least one radio frequency identification tag of the RFID tag tape. Thereby, both the printing operation on the surface of the RFID tag tape and the reading and writing operation on the RFID chip can be performed together.

Description

具射頻識別標籤天線改良結構之列印機 Printer with improved structure of RFID tag antenna

本創作涉及一種具射頻識別標籤天線改良結構之列印機，特別是涉及一種資訊讀寫模組設置在對應於印字頭的位置的具射頻識別標籤天線改良結構之列印機。 The present invention relates to a printer with an improved structure of a radio frequency identification tag antenna, and more particularly to a printer with an improved structure of an RFID tag antenna disposed at a position corresponding to the print head.

習知的射頻識別(Radio Frequency Identification，簡稱RFID)標籤列印機，其RFID資訊讀寫模組與印字頭(如熱壓印頭，Thermal Print Head，簡稱TPH)設置位置不同，且在實際使用上，分別有不同的問題產生。 The conventional Radio Frequency Identification (RFID) label printing machine has different RFID information reading and writing modules and printing heads (such as Thermal Print Head, TPH for short), and is actually used. On the top, there are different problems.

具體來說，當資訊讀寫模組位在TPH上游時，無法驗證經過TPH的RFID晶片功能是否受損；反之，當資訊讀寫模組位在TPH下游時，有可能因為表面熱壓印的速度與RFID晶片的讀寫速度不一致，而造成耗材無法被順利且流暢地進行輸送，而影響壓印以及讀寫的品質。 Specifically, when the information reading and writing module is located upstream of the TPH, it is impossible to verify whether the function of the TPH-enabled RFID chip is damaged. Conversely, when the information reading and writing module is located downstream of the TPH, it may be due to surface hot stamping. The speed is inconsistent with the read/write speed of the RFID chip, and the consumables cannot be smoothly and smoothly transported, which affects the quality of imprinting and reading and writing.

另一方面，由於設置位置存在間距落差的關係，在列印每一卷的RFID標籤帶時，列印機需要將標籤先行移至讀寫模組的有效範圍內，才能夠確保標籤能夠被正確地讀寫，由於每次首張列印皆要做前置的移動，不但耗時還很可能因為設置位置間距過大，而導致某些尺寸較小的耗材無法帶出，迫使將首張標籤移出作廢，來帶動下一張。 On the other hand, due to the difference in the pitch of the set position, when printing the RFID label tape of each roll, the printer needs to move the label to the effective range of the read/write module first, so as to ensure that the label can be correctly Reading and writing, because each time the first print is to be moved forward, it is not only time-consuming, but also because the setting position is too large, which causes some small-sized consumables to be taken out, forcing the first label to be removed. To drive the next one.

本創作所要解決的技術問題在於，針對現有技術的不足提供一種具射頻識別標籤天線改良結構之列印機，使得針對所述射頻識別標籤料帶表面進行印製的作業，與針對射頻識別標籤的讀寫作業，兩者可以共同進行。 The technical problem to be solved by the present invention is to provide a printer with an improved structure of the RFID tag antenna for the deficiencies of the prior art, so that the printing operation on the surface of the RFID tag tape and the RFID tag are used. Read and write operations, the two can work together.

為了解決上述的技術問題，本創作所採用的其中一技術方案是，提供一種具射頻識別標籤天線改良結構之列印機，其包括一非導體滾軸、一印字頭以及一資訊讀寫模組。其中，所述非導體滾軸用以輸送一射頻識別標籤料帶，所述印字頭設置在所述非導體滾軸的上方，以對所述射頻識別標籤料帶印製標記。所述資訊讀寫模組設置在所述非導體滾軸的下方，所述資訊讀寫模組用以將至少一資訊寫入所述射頻識別標籤料帶的至少一射頻識別標籤。 In order to solve the above technical problem, one of the technical solutions adopted by the present invention is to provide a printer with an improved structure of a radio frequency identification tag antenna, which comprises a non-conductor roller, a printing head and an information reading and writing module. . Wherein the non-conductor roller is used for conveying a radio frequency identification tag tape, and the printing head is disposed above the non-conductor roller to print a mark on the radio frequency identification tag tape. The information reading and writing module is disposed under the non-conductor roller, and the information reading and writing module is configured to write at least one information into the at least one radio frequency identification tag of the radio frequency identification tag tape.

較佳地，所述非導體滾軸的一垂直投影區域與所述資訊讀寫模組部分重疊。 Preferably, a vertical projection area of the non-conductor roller partially overlaps the information reading and writing module.

較佳地，所述資訊讀寫模組具有一資訊寫入天線以及一資訊讀取天線，由所述資訊寫入模組所提供的所述至少一資訊穿過所述非導體滾軸而傳送到至少一所述射頻識別標籤，所述射頻識別標籤內含的資訊則穿過所述非導體滾軸而由所述資訊讀取天線讀取。 Preferably, the information reading and writing module has an information writing antenna and an information reading antenna, and the at least one information provided by the information writing module is transmitted through the non-conductor roller. And at least one of the radio frequency identification tags, the information contained in the radio frequency identification tag is read by the information reading antenna through the non-conductor roller.

較佳地，所述資訊寫入天線以及所述資訊讀取天線的總面積的至少二分之一，與所述非導體滾軸的一垂直投影區域重疊。 Preferably, at least one-half of the total area of the information writing antenna and the information reading antenna overlaps with a vertical projection area of the non-conductor roller.

較佳地，至少一所述資訊沿著一傳遞路徑以從所述資訊讀寫模組傳送至所述射頻識別標籤，所述具射頻識別標籤天線改良結構之列印機還包括一設置在所述非導體滾軸的一側旁的遮蔽組件，以用於限制所述傳遞路徑的傳送範圍。 Preferably, at least one of the information is transmitted along the transmission path from the information reading and writing module to the radio frequency identification tag, and the printer with the improved structure of the radio frequency identification tag antenna further includes a device disposed therein. A shielding assembly beside the one side of the non-conductor roller for limiting the transmission range of the transmission path.

較佳地，所述遮蔽組件包括一第一部件以及一第二部件，所述第一部件與所述第二部件依序沿著所述射頻識別標籤料帶的輸送方向排列且分別設置在所述非導體滾軸的前方與後方。 Preferably, the shielding assembly includes a first component and a second component, and the first component and the second component are sequentially arranged along the conveying direction of the RFID tag tape and are respectively disposed at the same. The front and rear of the non-conductor roller.

較佳地，所述具射頻識別標籤天線改良結構之列印機還包括一驅動構件，所述驅動構件連接所述第一部件以及所述第二部件，以帶動所述第一部件與所述第二部件相互靠近或相互分離。 Preferably, the printer with the improved structure of the RFID tag antenna further includes a driving member, the driving member connecting the first component and the second component to drive the first component and the The second components are close to each other or separated from each other.

較佳地，所述遮蔽組件具有一連接部、一第一側壁部以及一第二側壁部，所述連接部連接於所述第一側壁部與所述第二側壁部之間，所述第一側壁部與所述第二側壁部依序沿著所述射頻識別標籤料帶的輸送方向排列且分別設置在所述非導體滾軸前方與後方。 Preferably, the shielding assembly has a connecting portion, a first side wall portion and a second side wall portion, and the connecting portion is connected between the first side wall portion and the second side wall portion, A side wall portion and the second side wall portion are sequentially arranged along the conveying direction of the RFID tag tape and are respectively disposed in front of and behind the non-conductor roller.

較佳地，所述非導體滾軸樞接於所述連接部。 Preferably, the non-conductor roller is pivotally connected to the connecting portion.

較佳地，所述連接部連接於所述第一側壁部的下半部與所述第二側壁部的下半部之間。 Preferably, the connecting portion is connected between the lower half of the first side wall portion and the lower half of the second side wall portion.

本創作的其中一有益效果在於，本創作所提供的具射頻識別標籤天線改良結構之列印機，其能通過“所述印字頭設置在所述非導體滾軸的上方”、“所述資訊讀寫模組設置在所述非導體滾軸的下方”以及“所述資訊讀寫模組用以將至少一資訊寫入所述射頻識別標籤料帶的至少一射頻識別標籤”的技術方案，以使得針對所述射頻識別標籤料帶表面進行印製的作業，與針對射頻識別標籤的讀寫作業，兩者可以共同進行，不僅使得所述射頻識別標籤料帶能夠被順利且流暢地輸送，提升表面印製以及讀寫的品質，更因為資訊讀寫模組設置與印字頭的設置位置相互對應，而能夠簡化列印作業的操作流程，因此，不再需要將耗材先行移至讀寫模組的有效範圍，也能夠確保位在端部的第一張標籤被正確地讀寫，不僅提升了使用上的便利性，更能夠避免因設置位置間距過大而導致第一張標籤被浪費的問題。 One of the beneficial effects of the present invention is that the printer with the improved structure of the RFID tag antenna provided by the present invention can be disposed above the non-conductor roller by the "printing head", "the information a technical solution for the read/write module to be disposed under the non-conductor roller and to the at least one radio frequency identification tag of the information read/write module for writing at least one information into the RFID tag tape, In order to enable the printing of the radio frequency identification label tape surface and the reading and writing operation for the radio frequency identification tag, both can be performed together, so that the radio frequency identification label tape can be smoothly and smoothly conveyed. Improve the quality of surface printing and reading and writing, and because the setting of the information reading and writing module and the setting position of the printing head correspond to each other, the operation flow of the printing operation can be simplified, so that it is no longer necessary to move the consumables first to the reading and writing module. The effective range of the group also ensures that the first label at the end is correctly read and written, which not only improves the convenience of use, but also avoids setting the position. Distance is too large to cause the first label to be wasted.

為使能更進一步瞭解本創作的特徵及技術內容，請參閱以下有關本創作的詳細說明與圖式，然而所提供的圖式僅用於提供參考與說明，並非用來對本創作加以限制。 In order to further understand the features and technical contents of this creation, please refer to the following detailed description and drawings of the present invention. However, the drawings are provided for reference and description only, and are not intended to limit the creation.

D‧‧‧具射頻識別標籤天線改良結構之列印機 D‧‧‧Printer with improved structure of RFID tag antenna

1‧‧‧非導體滾軸 1‧‧‧ non-conductor roller

2‧‧‧印字頭 2‧‧‧Print head

3‧‧‧資訊讀寫模組 3‧‧‧Information Reading and Writing Module

31‧‧‧天線 31‧‧‧Antenna

311‧‧‧資訊寫入天線 311‧‧‧Information writing antenna

312‧‧‧資訊讀取天線 312‧‧‧Information reading antenna

4‧‧‧射頻識別標籤料帶 4‧‧‧RF tag tape

41‧‧‧射頻識別標籤 41‧‧‧RF tags

42‧‧‧帶體 42‧‧‧Band

5‧‧‧供料軸 5‧‧‧Feed shaft

6‧‧‧遮蔽組件 6‧‧‧shading components

61‧‧‧第一部件 61‧‧‧ first part

62‧‧‧第二部件 62‧‧‧ second part

63‧‧‧連接部 63‧‧‧Connecting Department

64‧‧‧第一側壁部 64‧‧‧First side wall

65‧‧‧第二側壁部 65‧‧‧Second side wall

A‧‧‧垂直投影區域 A‧‧‧Vertical projection area

圖1為本創作具射頻識別標籤天線改良結構之列印機的主要元件配置架構示意圖。 FIG. 1 is a schematic diagram showing the main component configuration architecture of a printer with an improved structure of a radio frequency identification tag antenna.

圖2為本創作第一實施例的側面示意圖。 Figure 2 is a side elevational view of the first embodiment of the creation.

圖3為本創作第一實施例另一態樣的側面示意圖。 Fig. 3 is a side elevational view showing another aspect of the first embodiment of the creation.

圖4為本創作第二實施例的側面示意圖。 Figure 4 is a side elevational view of the second embodiment of the present invention.

圖5為本創作第三實施例的側面示意圖。 Fig. 5 is a side view showing the third embodiment of the creation.

圖6為本創作第三實施例的立體示意圖。 Fig. 6 is a perspective view showing the third embodiment of the creation.

圖7為本創作第三實施例另一態樣的立體示意圖。 Fig. 7 is a perspective view showing another aspect of the third embodiment of the creation.

圖8為本創作第三實施例再另一態樣的立體示意圖。 FIG. 8 is a perspective view showing still another aspect of the third embodiment of the present invention.

以下是通過特定的具體實施例來說明本創作所公開有關“具射頻識別標籤天線改良結構之列印機”的實施方式，本領域技術人員可由本說明書所公開的內容瞭解本創作的優點與效果。本創作可通過其他不同的具體實施例加以施行或應用，本說明書中的各項細節也可基於不同觀點與應用，在不悖離本創作的構思下進行各種修改與變更。另外，本創作的附圖僅為簡單示意說明，並非依實際尺寸的描繪，事先聲明。以下的實施方式將進一步詳細說明本創作的相關技術內容，但所公開的內容並非用以限制本創作的保護範圍。 The following is a specific embodiment to illustrate the implementation of the "printer with radio frequency identification tag antenna improved structure" disclosed in the present disclosure. Those skilled in the art can understand the advantages and effects of the present disclosure from the contents disclosed in the present specification. . The present invention can be implemented or applied in various other specific embodiments. The details of the present specification can also be variously modified and changed without departing from the concept of the present invention. In addition, the drawings of the present creation are only for the purpose of simple illustration, and are not stated in advance according to the actual size. The following embodiments will further explain the related technical content of the present invention, but the disclosure is not intended to limit the scope of protection of the present invention.

應理解，雖然本文中可能使用術語第一、第二、第三等來描述各種元件或者信號，但這些元件或者信號不應受這些術語的限制。這些術語主要是用以區分一元件與另一元件，或者一信號與另一信號。另外，本文中所使用的術語“或”，應視實際情況可能包括相關聯的列出項目中的任一個或者多個的組合。 It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements or signals, these elements or signals are not limited by these terms. These terms are primarily used to distinguish one element from another, or one signal and another. In addition, the term "or" as used herein may include a combination of any one or more of the associated listed items, depending on the actual situation.

[第一實施例] [First Embodiment]

請參閱圖1及圖2所示，圖1為本創作具射頻識別標籤天線改良結構之列印機D的主要元件配置架構示意圖；圖2為本創作第一實施例的側面示意圖；圖3為本創作第一實施例另一態樣的側面示意圖。由上述圖中可知，本創作第一實施例提供一種具射頻識別標籤天線改良結構之列印機D，其具有用以輸送射頻識別標籤料帶4的非導體滾軸1、用以對射頻識別標籤料帶4印製標記的印字頭2以及將資訊寫入射頻識別標籤料帶4的射頻識別標籤41的資訊讀寫模組3。具體地說，本創作的射頻識別標籤料帶4為消耗性的材料，射頻識別標籤料帶4包括帶體42以及設置在帶體42上的射頻識別標籤41。射頻識別標籤41主要包括RFID晶片以及二維天線。實際應用上可以通過導電性油墨印刷或金屬薄膜蝕刻等方式，形成位在帶體42上的二維天線，再貼附RFID晶片與二維天線相耦接。另一方面，帶體42的表面也可以供印製資訊於其上，以便使用者直接閱覽所需資訊，或者提供其他資訊讀寫的途徑(例如傳統條碼或二維條碼)。然而，由於射頻識別標籤料帶4並非本創作所要保護的重點，其實際施作方式並不以上列所舉之例為限，其具體結構也不應被視為本創作權利範圍的限制。 Please refer to FIG. 1 and FIG. 2 . FIG. 1 is a schematic diagram showing the main component configuration structure of a printer D with an improved structure of a radio frequency identification tag antenna. FIG. 2 is a schematic side view of the first embodiment of the creation; FIG. A side view of another aspect of the first embodiment of the present creation. As can be seen from the above figures, the first embodiment of the present invention provides a printer D having an improved structure of a radio frequency identification tag antenna, which has a non-conductor roller 1 for transporting a radio frequency identification tag tape 4 for radio frequency identification. The label strip 4 prints the indicia 2 and the information read/write module 3 which writes the information to the radio frequency identification tag 41 of the radio frequency identification tag strip 4. Specifically, the RFID tag tape 4 of the present invention is a consumable material, and the RFID tag tape 4 includes a tape body 42 and a radio frequency identification tag 41 disposed on the tape body 42. The radio frequency identification tag 41 mainly includes an RFID chip and a two-dimensional antenna. In practical applications, a two-dimensional antenna positioned on the strip 42 can be formed by conductive ink printing or metal film etching, and then the attached RFID chip is coupled to the two-dimensional antenna. On the other hand, the surface of the strip 42 can also be used to print information thereon so that the user can directly view the desired information or provide other means of reading and writing information (such as a conventional barcode or a two-dimensional barcode). However, since the RFID tag tape 4 is not the focus of this creation, its actual implementation is not limited to the examples listed above, and its specific structure should not be construed as limiting the scope of the present invention.

請參閱圖1所示，具射頻識別標籤天線改良結構之列印機D具有供料軸5，供料軸5可供尚未使用的射頻識別標籤料帶4安裝至其上，且射頻識別標籤料帶4的自由端從供料軸5延伸至非導體滾軸1。通過非導體滾軸1的轉動，可以帶動射頻識別標籤料帶4朝向列印出口的方向(如圖中箭號所示之方向)輸送。 Referring to Figure 1, the printer D with the improved structure of the RFID tag antenna has a supply shaft 5 to which the unused RF tag tape 4 is mounted, and the RFID tag material is mounted thereon. The free end of the belt 4 extends from the feed shaft 5 to the non-conductor roller 1. By the rotation of the non-conductor roller 1, the RFID tag tape 4 can be transported in the direction of the printing exit (in the direction indicated by the arrow in the figure).

請參閱圖2所示，本創作的印字頭2設置在非導體滾軸1的上方，資訊讀寫模組3則設置在非導體滾軸1的下方，更具體地說，非導體滾軸1的垂直投影區域A與資訊讀寫模組3部分重疊。 Referring to FIG. 2, the print head 2 of the present invention is disposed above the non-conductor roller 1, and the information read/write module 3 is disposed below the non-conductor roller 1, more specifically, the non-conductor roller 1 The vertical projection area A partially overlaps with the information reading and writing module 3.

承上所述，當射頻識別標籤料帶4被非導體滾軸1帶動而通過非導體滾軸1與印字頭2兩者之間時，印字頭2可以對射頻識別標籤料帶4的表面印製標記。具體地說，印字頭2可以通過噴 墨的方式印製文字或圖案標記在帶體42的表面，也可以通過熱壓印的方式，將碳帶上的墨色轉印到帶體42的表面，以形成文字或圖案標記。 As described above, when the RFID tag tape 4 is driven by the non-conductor roller 1 and passes between the non-conductor roller 1 and the printing head 2, the printing head 2 can print the surface of the RFID tag tape 4. Marking. Specifically, the print head 2 can be sprayed The ink is printed on the surface of the belt 42 by means of ink, or the ink on the ribbon can be transferred to the surface of the belt 42 by hot stamping to form characters or pattern marks.

另一方面，當射頻識別標籤料帶4中的射頻識別標籤41通過非導體滾軸1的上方時，位在非導體滾軸1下方的資訊讀寫模組3能夠對射頻識別標籤41寫入資訊。具體地說，請參閱圖3所示，資訊讀寫模組3具有至少一天線31，且天線31的面積至少有二分之一位在非導體滾軸1的垂直投影區域A內。資訊讀寫模組3通過天線31對經過非導體滾軸1上方的射頻識別標籤41寫入資訊。由於本創作所採用的非導體滾軸1不會影響天線31的磁場，因此可以使資訊寫入模組3所提供的至少一資訊穿過非導體滾軸1而傳送至射頻識別標籤41。 On the other hand, when the radio frequency identification tag 41 in the RFID tag tape 4 passes over the non-conductor roller 1, the information read/write module 3 located below the non-conductor roller 1 can write to the radio frequency identification tag 41. News. Specifically, referring to FIG. 3, the information reading and writing module 3 has at least one antenna 31, and the area of the antenna 31 is at least one-half of the position in the vertical projection area A of the non-conductor roller 1. The information reading and writing module 3 writes information to the radio frequency identification tag 41 passing over the non-conductor roller 1 through the antenna 31. Since the non-conductor roller 1 used in the present creation does not affect the magnetic field of the antenna 31, at least one piece of information provided by the information writing module 3 can be transmitted to the radio frequency identification tag 41 through the non-conductor roller 1.

[第二實施例] [Second embodiment]

接下來，請參閱圖4所示，圖4為本創作第二實施例的側面示意圖。在本創作的第二實施例中，資訊讀寫模組3具有資訊寫入天線311以及資訊讀取天線312。藉由資訊寫入天線311，由資訊寫入模組3所提供的至少一資訊穿過非導體滾軸1而傳送到至少一射頻識別標籤41，進而被寫入射頻識別標籤41中；另一方面，射頻識別標籤41內含的資訊也能夠在穿過非導體滾軸1之後，由資訊讀取天線312讀取，藉此驗證寫入該射頻識別標籤41中的資訊是否能夠被正確地讀取。 Next, please refer to FIG. 4, which is a side view of the second embodiment of the present invention. In the second embodiment of the present invention, the information reading and writing module 3 has an information writing antenna 311 and an information reading antenna 312. By means of the information writing antenna 311, at least one information provided by the information writing module 3 is transmitted through the non-conductor roller 1 to the at least one radio frequency identification tag 41, and then written into the radio frequency identification tag 41; On the other hand, the information contained in the RFID tag 41 can also be read by the information reading antenna 312 after passing through the non-conductor roller 1, thereby verifying whether the information written in the RFID tag 41 can be correctly read. take.

由圖4所示可知，本實施例的資訊寫入天線311以及資訊讀取天線312都位於非導體滾軸1的垂直投影區域A內，但實際施作時並不以此為限，也可以調整其重疊比例。具體來說，資訊寫入天線311以及資訊讀取天線312的總面積的至少二分之一，與非導體滾軸1的垂直投影區域A重疊。其配置方式，可以是資訊寫入天線311的一半位於非導體滾軸1的垂直投影區域A內，資 訊讀取天線312的一半位於非導體滾軸1的垂直投影區域A內，也可以是資訊寫入天線311完全位在非導體滾軸1的垂直投影區域A，資訊讀取天線312僅部分(甚至完全沒有)位在非導體滾軸1的垂直投影區域A。資訊寫入天線311以及資訊讀取天線312與非導體滾軸1的垂直投影區域A重疊的比例可以彼此不同，本創作並不具體限制其配置方式。 As shown in FIG. 4, the information writing antenna 311 and the information reading antenna 312 of the present embodiment are all located in the vertical projection area A of the non-conductor roller 1, but the actual application is not limited thereto. Adjust the overlap ratio. Specifically, at least one-half of the total area of the information writing antenna 311 and the information reading antenna 312 overlaps with the vertical projection area A of the non-conductor roller 1. The configuration manner may be that half of the information writing antenna 311 is located in the vertical projection area A of the non-conductor roller 1 . One half of the read antenna 312 is located in the vertical projection area A of the non-conductor roller 1, or the information write antenna 311 is completely positioned in the vertical projection area A of the non-conductor roller 1, and the information reading antenna 312 is only partially ( Even at all) is located in the vertical projection area A of the non-conductor roller 1. The ratio of the information writing antenna 311 and the information reading antenna 312 overlapping the vertical projection area A of the non-conductor roller 1 may be different from each other, and the present invention does not specifically limit the arrangement thereof.

[第三實施例] [Third embodiment]

接下來，通過圖5至圖8說明本創作的第三實施例。圖5為本創作第三實施例的側面示意圖；圖6為本創作第三實施例的立體示意圖；圖7為本創作第三實施例另一態樣的立體示意圖；圖8為本創作第三實施例再另一態樣的立體示意圖。由上述圖中可知，本創作第三實施例的具射頻識別標籤天線改良結構之列印機D還包括一遮蔽組件6。具體地說，具射頻識別標籤天線改良結構之列印機D使至少一資訊沿著傳遞路徑以從資訊讀寫模組3傳送至射頻識別標籤41，遮蔽組件6設置在非導體滾軸1的一側旁，遮蔽組件6用於限制傳遞路徑的傳送範圍。 Next, a third embodiment of the present creation will be described with reference to FIGS. 5 to 8. 5 is a schematic side view of a third embodiment of the present invention; FIG. 6 is a perspective view of a third embodiment of the present invention; FIG. 7 is a perspective view of another embodiment of the third embodiment of the present invention; Another perspective view of another embodiment. As can be seen from the above figures, the printer D having the improved structure of the RFID tag antenna of the third embodiment of the present invention further includes a shielding assembly 6. Specifically, the printer D having the improved structure of the RFID tag antenna transmits at least one piece of information along the transmission path from the information reading and writing module 3 to the radio frequency identification tag 41, and the shielding component 6 is disposed on the non-conductor roller 1. Next to one side, the shield assembly 6 is used to limit the transmission range of the transfer path.

更進一步來說，請先參閱圖5所示，在本創作第三實施的第一種態樣中，遮蔽組件6包括第一部件61以及第二部件62，第一部件61與第二部件62依序沿著射頻識別標籤料帶4的輸送方向排列且分別設置在非導體滾軸1的前方與後方，以分別遮蔽由資訊寫入模組3的天線31向非導體滾軸1的前方與後方發出的磁場。通過設置遮蔽組件6，可以避免資訊被寫入目標射頻識別標籤41以外的其他射頻識別標籤41。 Further, referring to FIG. 5, in the first aspect of the third implementation of the present invention, the shielding assembly 6 includes a first component 61 and a second component 62, and the first component 61 and the second component 62. Arranging sequentially along the transport direction of the RFID tag tape 4 and respectively disposed in front of and behind the non-conductor roller 1 to respectively shield the antenna 31 of the information writing module 3 toward the front of the non-conductor roller 1 The magnetic field emitted from the rear. By providing the masking component 6, it is possible to prevent information from being written to other radio frequency identification tags 41 other than the target radio frequency identification tag 41.

承上所述，請參閱圖6所示，在本創作第三實施的此一態樣中，具射頻識別標籤天線改良結構之列印機D還包括驅動構件(圖式未繪製)，驅動構件連接第一部件61以及第二部件62，以帶動第一部件61與第二部件62相互靠近或相互分離。如此，當具有 不同規格的射頻識別標籤41的射頻識別標籤料帶4，被安裝至本創作的具射頻識別標籤天線改良結構之列印機D，此時可以配合射頻識別標籤41的尺寸，通過驅動構件適度調整第一部件61與第二部件62之間的間距，以達到最佳的讀寫以及屏蔽干擾效果。 As described above, referring to FIG. 6, in this aspect of the third implementation of the present invention, the printer D having the improved structure of the RFID tag antenna further includes a driving member (not drawn), and the driving member The first member 61 and the second member 62 are connected to drive the first member 61 and the second member 62 to be close to each other or separated from each other. So when there is The radio frequency identification tag strip 4 of the different specifications of the radio frequency identification tag 41 is mounted to the printer D with the improved structure of the radio frequency identification tag antenna, and can be appropriately adjusted by the driving member in accordance with the size of the radio frequency identification tag 41. The spacing between the first component 61 and the second component 62 for optimal read and write and shielding interference effects.

接下來，請參閱圖7所示，在本創作第三實施的另一態樣中，遮蔽組件6為一體成形式的設計，其具有連接部63、第一側壁部64以及第二側壁部65。在本創作第三實施的此一態樣中，連接部63連接於第一側壁部63與第二側壁部64之間，第一側壁部64與第二側壁部65依序沿著射頻識別標籤料帶4的輸送方向排列且分別設置在非導體滾軸1前方與後方，以分別遮蔽由資訊寫入模組3的天線31向非導體滾軸1的前方與後方發出的磁場。非導體滾軸1樞接於連接部63，而能夠轉動並帶動射頻識別標籤料帶4朝向列印出口的方向輸送。此一態樣的其中一個優點在於，遮蔽組件6與非導體滾軸1的相對位置較為固定，雖然犧牲了依據射頻識別標籤41的尺寸調整第一側壁部64與第二側壁部65間距的自由度，但有穩定性提高的效果。 Next, referring to FIG. 7, in another aspect of the third implementation of the present invention, the shielding assembly 6 is of an integral form having a connecting portion 63, a first side wall portion 64 and a second side wall portion 65. . In this aspect of the third implementation of the present invention, the connecting portion 63 is connected between the first side wall portion 63 and the second side wall portion 64, and the first side wall portion 64 and the second side wall portion 65 are sequentially along the radio frequency identification tag. The conveying direction of the tape 4 is arranged and disposed in front of and behind the non-conductor roller 1 to shield the magnetic field emitted from the antenna 31 of the information writing module 3 toward the front and the rear of the non-conductor roller 1, respectively. The non-conductor roller 1 is pivotally connected to the connecting portion 63, and is capable of rotating and driving the RFID tag tape 4 in the direction of the printing exit. One of the advantages of this aspect is that the relative position of the shield assembly 6 to the non-conductor roller 1 is relatively fixed, although the freedom to adjust the distance between the first side wall portion 64 and the second side wall portion 65 in accordance with the size of the radio frequency identification tag 41 is sacrificed. Degree, but with improved stability.

接下來，請參閱圖8所示，在本創作第三實施的再另一態樣中，遮蔽組件6的連接部63是連接於第一側壁部64的下半部與第二側壁部65的下半部之間，換言之，連接部63的上方是鏤空的，而不會干擾非導體滾軸1的轉動。此一態樣的其中一個優點在於，第一側壁部64與第二側壁部65的間距仍能夠維持一定的穩定度，且如果要搭配射頻識別標籤41的尺寸調整第一側壁部64與第二側壁部65的間距，只要替換所使用的遮蔽組件6即可，在更換作業上較前一態樣更具有方便性。 Next, referring to FIG. 8, in still another aspect of the third implementation of the present invention, the connecting portion 63 of the shielding assembly 6 is connected to the lower half portion and the second side wall portion 65 of the first side wall portion 64. Between the lower half, in other words, the upper portion of the connecting portion 63 is hollowed out without disturbing the rotation of the non-conductor roller 1. One of the advantages of this aspect is that the distance between the first side wall portion 64 and the second side wall portion 65 can still maintain a certain degree of stability, and if the size of the radio frequency identification tag 41 is to be adjusted, the first side wall portion 64 and the second side are adjusted. The spacing of the side wall portions 65 can be replaced with the shielding member 6 used, which is more convenient in the replacement work than in the previous aspect.

[實施例的有益效果] [Advantageous Effects of Embodiments]

本創作的其中一有益效果在於，本創作所提供的具射頻識別標籤天線改良結構之列印機D，其能通過“印字頭2設置在非導 體滾軸1的上方”、“資訊讀寫模組3設置在非導體滾軸1的下方”以及“資訊讀寫模組3用以將至少一資訊寫入射頻識別標籤料帶4的至少一射頻識別標籤41”的技術方案，以使得針對射頻識別標籤料帶4表面進行印製的作業，與針對射頻識別標籤41的讀寫作業，兩者可以共同進行，不僅使得射頻識別標籤料帶4能夠被順利且流暢地輸送，提升表面印製以及讀寫的品質，更因為資訊讀寫模組3的設置位置與印字頭2的設置位置相互對應，而能夠簡化列印作業的操作流程，因此，不再需要將耗材先行移至讀寫模組的有效範圍，也能夠確保位在端部的第一張標籤(其中包括射頻識別標籤41)被正確地讀寫，不僅提升了使用上的便利性，更能夠避免因為設置位置間距過大導致第一張標籤被浪費的問題。 One of the beneficial effects of this creation is that the printer D with the improved structure of the RFID tag antenna provided by the present invention can be set in the non-guide by the "print head 2" Above the body roller 1", "the information reading and writing module 3 is disposed below the non-conductor roller 1" and "the information reading and writing module 3 is used to write at least one information into at least one of the RFID tag strips 4 The technical solution of the radio frequency identification tag 41" is such that the operation for printing the surface of the radio frequency identification tag tape 4 and the reading and writing operation for the radio frequency identification tag 41 can be performed together, not only making the radio frequency identification tag tape 4 It can be smoothly and smoothly conveyed, improving the quality of surface printing and reading and writing, and because the setting position of the information reading/writing module 3 and the setting position of the printing head 2 correspond to each other, the operation flow of the printing operation can be simplified, It is no longer necessary to move the consumables first to the effective range of the reading and writing module, and also ensure that the first label (including the radio frequency identification tag 41) located at the end is correctly read and written, which not only improves the convenience of use. Sexuality, it is more able to avoid the problem that the first label is wasted because the spacing of the set positions is too large.

更進一步來說，相較於某些現有技術通過偏極化的方式，使得資訊讀寫模組的天線磁場從輸送滾軸的一側旁偏轉至輸送滾軸上方的作法，本創作的天線31的磁場直接正對射頻識別標籤41，能夠提供更高品質的讀寫效果，且採用非導體滾軸1更能夠大幅降低資訊讀寫過程中對天線31的磁場的干擾。 Furthermore, compared with some prior art methods, the antenna magnetic field of the information reading and writing module is deflected from one side of the conveying roller to the upper side of the conveying roller by means of polarization, and the antenna 31 of the present invention is created. The magnetic field directly faces the RFID tag 41, which can provide higher quality reading and writing effects, and the use of the non-conductor roller 1 can greatly reduce the interference of the magnetic field of the antenna 31 during the information reading and writing process.

以上所公開的內容僅為本創作的優選可行實施例，並非因此侷限本創作的申請專利範圍，所以凡是運用本創作說明書及圖式內容所做的等效技術變化，均包含於本創作的申請專利範圍內。 The above disclosure is only a preferred and feasible embodiment of the present invention, and is not intended to limit the scope of the patent application of the present invention. Therefore, any equivalent technical changes made by using the present specification and the content of the schema are included in the application for this creation. Within the scope of the patent.

Claims (10)

一種具射頻識別標籤天線改良結構之列印機，其包括：一非導體滾軸，其用以輸送一射頻識別標籤料帶；一印字頭，其設置在所述非導體滾軸的上方，以對所述射頻識別標籤料帶印製標記；以及一資訊讀寫模組，其設置在所述非導體滾軸的下方，所述資訊讀寫模組將至少一資訊寫入所述射頻識別標籤料帶的至少一射頻識別標籤。 A printer with an improved structure of a radio frequency identification tag antenna, comprising: a non-conductor roller for conveying a radio frequency identification tag tape; and a printing head disposed above the non-conductor roller Printing a mark on the RFID tag; and an information reading and writing module disposed under the non-conductor roller, the information reading and writing module writing at least one information into the radio frequency identification tag At least one radio frequency identification tag of the tape. 如請求項1所述的具射頻識別標籤天線改良結構之列印機，其中，所述非導體滾軸的一垂直投影區域與所述資訊讀寫模組部分重疊。 The printer of claim 1, wherein a vertical projection area of the non-conductor roller partially overlaps the information read/write module. 如請求項1所述的具射頻識別標籤天線改良結構之列印機，其中，所述資訊讀寫模組具有一資訊寫入天線以及一資訊讀取天線，由所述資訊寫入模組所提供的所述至少一資訊穿過所述非導體滾軸而傳送到至少一所述射頻識別標籤，所述射頻識別標籤內含的資訊則穿過所述非導體滾軸而由所述資訊讀取天線讀取。 The printer of claim 1, wherein the information reading and writing module has an information writing antenna and an information reading antenna, and the information writing module is configured by the information writing module. Transmitting the at least one information to the at least one radio frequency identification tag through the non-conductor roller, and the information contained in the radio frequency identification tag passes through the non-conductor roller and is read by the information Take the antenna to read. 如請求項3所述的具射頻識別標籤天線改良結構之列印機，其中，所述資訊寫入天線以及所述資訊讀取天線的總面積的至少二分之一，與所述非導體滾軸的一垂直投影區域重疊。 The printer having the improved structure of the RFID tag antenna according to claim 3, wherein the information writing antenna and at least one-half of the total area of the information reading antenna, and the non-conductor roll A vertical projection area of the axis overlaps. 如請求項1所述的具射頻識別標籤天線改良結構之列印機，其中，至少一所述資訊沿著一傳遞路徑以從所述資訊讀寫模組傳送至所述射頻識別標籤，所述射頻識別標籤列印機還包括一設置在所述非導體滾軸的一側旁的遮蔽組件，以用於限制所述傳遞路徑的傳送範圍。 The printer of claim 1, wherein at least one of the information is transmitted along a transmission path from the information reading and writing module to the radio frequency identification tag. The RFID tag printer further includes a screening assembly disposed adjacent one side of the non-conductor roller for limiting the transmission range of the transfer path. 如請求項5所述的具射頻識別標籤天線改良結構之列印機，其 中，所述遮蔽組件包括一第一部件以及一第二部件，所述第一部件與所述第二部件依序沿著所述射頻識別標籤料帶的輸送方向排列且分別設置在所述非導體滾軸的前方與後方。 A printer having an improved structure of a radio frequency identification tag antenna according to claim 5, The shielding assembly includes a first component and a second component, and the first component and the second component are sequentially arranged along the conveying direction of the RFID tag tape and are respectively disposed at the non- Front and rear of the conductor roller. 如請求項6所述的具射頻識別標籤天線改良結構之列印機，其中，所述射頻識別標籤列印機還包括一驅動構件，所述驅動構件連接所述第一部件以及所述第二部件，以帶動所述第一部件與所述第二部件相互靠近或相互分離。 The printer of claim 6, wherein the radio frequency identification tag printer further includes a driving member, the driving member connecting the first component and the second a component to drive the first component and the second component to be close to each other or separated from each other. 如請求項5所述的具射頻識別標籤天線改良結構之列印機，其中，所述遮蔽組件具有一連接部、一第一側壁部以及一第二側壁部，所述連接部連接於所述第一側壁部與所述第二側壁部之間，所述第一側壁部與所述第二側壁部依序沿著所述射頻識別標籤料帶的輸送方向排列且分別設置在所述非導體滾軸前方與後方。 The printer of claim 5, wherein the shielding assembly has a connecting portion, a first side wall portion and a second side wall portion, wherein the connecting portion is connected to the Between the first side wall portion and the second side wall portion, the first side wall portion and the second side wall portion are sequentially arranged along the conveying direction of the radio frequency identification label tape and respectively disposed on the non-conductor Roller front and rear. 如請求項8所述的具射頻識別標籤天線改良結構之列印機，其中，所述非導體滾軸樞接於所述連接部。 The printer of claim 8, wherein the non-conductor roller is pivotally connected to the connecting portion. 如請求項8所述的具射頻識別標籤天線改良結構之列印機，其中，所述連接部連接於所述第一側壁部的下半部與所述第二側壁部的下半部之間。 The printer of claim 8, wherein the connecting portion is connected between the lower half of the first side wall portion and the lower half of the second side wall portion. .