M28.8928 八、新型說明: 【新型所屬之技術領域】 本創作係-種具有識&[功能之生物感測器試片及與之配合之感測器,其係 --種透過關導電材質具有不_抗之特性,依需要將不同導電㈣塗佈在試 片之識別電極區域上,不需因試片之辨識區域位置改變,而修改感測器上之辨 識設備規格’以節省成本:並在檢測時,可藉由感測器設定之阻抗與試片識別 電極區域之阻抗作比較,令不符合該感測器檢測之試片,無法進行檢測:令檢 鲁測者不致有誤判或誤用之情形發生者。 【先前技術】 由於居家護理之觀細益提升,快速、便宜、不需專業人M操作之居家自 我檢測產品日漸增多’例如灰糖儀、電子耳溫搶、電子式血壓計等,其中血糖 儀所使用之歸式血糖試紙即是_電化學生物制器職檢測檢體中血糖淨 度。 x 目前在市場上常絲測試血糖、膽_、_酸草酸轉鶴_)、麵胺p 綱酸轉移祕ρτ)等之感_,由於其別之體積小,再加上其外觀、形狀❸ 似’因此«者在制時,可能而造成該❹傻無法朗或所量測出之數 值錯誤,例如欲檢耻糖值,但誤__醇之試片等情況之發生。 爲改善上述之情況發生,請參照第la、lb、ic圖所示,其為恥第麵 案’其主要係—電化學生物感測器試片被揭露,其能有選擇性的定量分析 血搪、咖_其他錢巾的絲。該t姆生贼絲抑印之 作為識別電極⑼,該識別電極6G_試用途之不同,而設置在不同位置上二 如第13圖所示,其識別電極⑽在左邊,係與用來檢測血糖之感測器配合,而 M288928 士第lb圖所示,其識別電極β〇在右邊係用來檢測膽固醇之感測器配合,再者, 月“、、弟lc圖所示’其識別電極⑼橫跨兩側係用來檢測麵胺酸草酸轉移酶⑼下) 或麵胺丙酮酸轉移晦(GPT)之感測器配合。 ~ %此一來’雖然可以透過識別電極設置在試片不同位置上,而搭配不同之 感測為’達到上述之目的,惟因在製造時,不但不同形式之試片,需更換生產 線製作,且感測器也必須隨需要製作出不同之識別設備,對於製造廠家而言, 不但不符合經濟效益,且在成本上亦無法降低,而對於消費者,則可能因試片 鲁體積小,而其上之識別電極更佔非常小之區域,如此一來,即使識別電極有所 改變,但因變動不大,在檢測時,感測器無法精準識別出該試片是否為配合之 試片,容易造成誤判。 【新型内容】 本創作即針對前述先前技術之缺點,關發出—種具有不同阻抗之材質, 將不同導電材質塗佈在試片之朗電極區域上,而在檢測時,可藉由感測器預 先叹疋之_该與制試#識職極層之阻抗值作比較,使不符合該感測器檢 • φ測之滅片’無法進行檢測,令檢測者不致有誤判之情形發生者。 - 冑實現上述之目的,本案提供一種具有識別功能之生物感測器試片,其係 由具絕緣性之第-、第二基板所組成,該第一基板長於第二基板,又該第一基 板上設有;n作、參考條及識難極區域,且讀/參考電極及識卿極區域凸 路於第一基板外’而該識別電極區域係由導電材質塗佈而成,且該導電材質主 要係配合不同®測檢咖途或不同檢測儀器*改變;而在該第-基板上之工 作、參考電極其為互相補觸,且、二基板之另—端設有檢測區,該檢 測區並與工作、參考電極相連接;使用時,令試片插入感測器時,可透過辨識 M288928 電極區域上塗佈不同導電材質產生不同之阻抗值之特性,配合不同檢測需求, 如此一來,令製造廠家僅需在出廠時依不同需要,在識別電極區域上塗佈不同 之導電材質,而較習知之試片必須配合不同用途及不同規格之感測器,去改變 識別電極之位置及規袼,更為節省製造之成本及方便使用。 本創作之另一目的,在提供一種配合感測試片之感測器,該感測器在出廠 時,依配合之試片之阻抗值設定一定範圍之阻抗值,如此,在進行檢測時,該 ' 感測器可藉由試片識別電極區域上不同導電材質所產生不同之阻抗值,來判定 修是否在預先設定之阻抗值範圍内。若否,則產生一錯誤訊息;若是,則進行檢 測。如此一來,不會有誤判之情形發生,而使檢測之結果精確,且具有防呆之 功能。 【實施方式】 本創作揭不-種具有識別功能之生物感測器試片,請參照第2及第%圖所 示,其為本創作應用於平面式電化學試片之一種實施例,該試片10上設有相對 之第-、二基板u、12 ’且該第一基板n長於第二基板12,該等第—、二基 .鲁板η、12係呈平板狀且具電絕緣性,又該第一二基板U、12周緣除了兩端 _外之相對應面具有黏性膠(其為本創作之-種實施方式,惟熟悉該項技藝者,仍 可乂’、匕方式凡成)’以使第一、二基板u ' 12膠合在一起,而無覆膠部分具 有檢測用之生物活性物質,且該第一基板u凸露於第二基板12外之一端設有 一識別電極區域13,該識別電極區域13可由導電材f所塗佈而成,因不同導電 …、有不同之阻抗值’例如導電碳^^合材料(不同混合比例具有不同阻抗 。_Ω(區人姆)〜800Ω(歐姆)為-種試片之阻抗值區間,㈣(歐姆)〜3扣 (歐姆)為另一種試片之阻抗值區間...),或為貴金屬合金⑽、把合金)或單- M288928 貴重金屬(金、銀、_)或氧化銦錫敝成不同阻抗值。 所示) —而該第-、二基板u、12另一端則設有—向外凸出之檢測區14,另 弟一' 二基板η、12間夾置有-工作電極15及—參考電極16,該工作電極 及參考電極16並保持-定間距,且該工作電極15及參考電極16_端深入檢測 區η,另-端與識別電極區域13凸露於第二基板12外(如第&圖及第 如此-來,可以令試片插入感測器時,藉由識別電極區域13上不同導電材 質所產生不同之阻抗,或是其中—電極(讀電極15或參考電極16)與識別電極 區域13間所產生之阻抗,配合不同檢測需求,或不_式之感測器,不但可配 合不同代稍之需要’且令廠雑需在驗時依獨需要,在朗電極區 域13上塗佈不同之導電材質’而較習知之試片必須配合不同用途及不同規格之 感測器,去改變識職極之位置、形式及數量,更騎省製造之成本及方便使 用0 請參照第3及第3a圖所示,其為本創作應用於立體式電化學試片之另一種 肇實施例,該試片10上設有一第一基板丨丨及位於第一基板丨丨兩側之第二基板12, 且該第一基板11長於第二基板12,又該等第一、二基板n、12係呈平板狀且 具電絕緣性,且該第一、二基板n、丨2周緣除了兩端外之相對應面具有黏性膠 (為本創作之一種實施方式,惟熟悉該項技藝者,仍可以其它方式完成),以使 第一、二基板11、12膠合在一起,而無覆膠部分具有檢測用之生物活性物質, 且該第一基板11凸露於第二基板12外之一端設有一識別電極區域13,該識別 電極區域13可由導電材質所塗佈而成,因不同導電材質具有不同之阻抗值,例 如··導電碳漿混合材料(不同混合比例具有不同阻抗值一400Ω(歐姆)〜800Ω(歐 M288928 姆)為-種試片之阻抗值區間,lkQ(歐姆)〜3kQ(歐姆)為另一種試片之阻抗值 區間…),或為貴金屬合金⑽、纪合金)或單一貴重金屬(金、銀、钻等)或氧 化銦錫所組成不同阻抗值。 ' 另,該第一基板11與第二基板12間分別失置有一工作電極15及一參考電 、極16,且該工作電極15及參考電極16並藉由第-基板u保持一定間距及電性 ‘不連接,且該工作電極15及-參考電極16 -端深入檢_ 14,另一端與識別 ^ 電極區域13凸露於第二基板12外(如第3 a圖及第3 b圖所示)。 • 請參照第4圖所示,其為一感測器,該感測器上設有一機體20,該機體20 上設有一顯不器21,且該機體20中設有一微處理器,該微處理器分別與一檢測 單元、一類比/數位轉換單元、顯示器2卜儲存單元以及電源相連接(圖中未示), 以令使用%,檢測單元檢測生物檢體,並藉由類比/數位轉換單元轉換成數據資 料,同時,透過處理器將透過輸入單元設定之基準值由儲存單元取出與其比較, 並在處理後透賴示單元顯示出來㈤屬習知構造,且非本案所欲保護之範圍, 故在此不另·述。),且該機體2〇在一端設有一檢測口 22,該檢測口上設有與 -·試片10配合之探點221,該等探點221並與感測器之控制系統(圖中未示)相 - 連接,於本實施例該等探點221可偵測在識別電極區域13上,或分別在其中電 極(工作電極15或參考電極16)或識別電極區域13上。 請參照第2、3、4圖所示,在進行檢測以前,先將試片插入檢測口 22,使 識別%極區域13或將識別電極區域13與其中一電極與探點221接觸,透過轉 換處理後,感測器可藉由試片識別電極區域上不同導電材質所產生不同之阻 抗值,或是識別電極區域丨3與其中一電極間所產生之阻抗,來判定阻抗值是否 在預先設定之阻抗值範圍内,若否,則透過顯示器21產生一錯誤訊息,若是, M288928 則繼續進行檢測,如此一來,不但不會有誤判之情形發生,而使檢測之結果精 確,且具有防呆之功能。 綜上所述,本創作在物品、形狀、構造、結構上屬首先創作,且可改良習 用技術之各種缺點,在使用上能增進功效,合於實用,充分符合創作專利要件, 實為一理想之創作。 【圖式簡單說明】 第la圖為W0第0171328號專利案之示意圖一。 • 第lb圖為WO第0171328號專利案之示意圖二。 第lc圖為WO第0171328號專利案之示意圖三。 第2圖為本創作之試片立體示意圖。 第2a圖為本創作之試片之分解示意圖。 弟2b圖為本創作之試片上之工作/參考電極與識別電極區域相對位置分解 示意圖。 第3圖林創作之試片之另_種實施例之立體示意圖。 #第%圖為本創作之試片之另一種實施例之分解示意圖。 、…目為本解之4片上之另—種實施例之工作/參考電極與識別電 域相對位置分解示意圖。 & 第4圖為本創作感測器之示 意圖。 【主要元件符號說明】 第一基板 11 第二基板 12 識別電極區域 13 10 M288928 檢測區 工作電極 參考電極 機體 顯示器 檢測口 探點 14 15 16 20 21 22 221M28.8928 VIII. New Description: 【New Technical Fields】 This creative department is a kind of sensor with biometric sensor and its matching sensor. The material has a non-resistance characteristic, and different conductive (4) is coated on the identification electrode area of the test piece as needed, and the identification device specification on the sensor is not required to change the position of the identification area of the test piece to save cost. : In the detection, the impedance set by the sensor can be compared with the impedance of the electrode area of the test strip to make the test piece that does not meet the sensor detection, and the test cannot be performed: the tester is not misjudged. Or the case of misuse. [Prior Art] Due to the improvement of the concept of home care, fast, cheap, and no need for professional M operation, home self-test products are increasing, such as gray sugar meter, electronic ear temperature grab, electronic blood pressure meter, etc. The type of blood glucose test strip used is the blood glucose level in the electrochemical biochemical test sample. x Currently in the market, the test of blood sugar, gallbladder _, _ souric acid oxalic acid _), face amine p-acid transfer secret ρτ), etc., due to its small size, plus its appearance, shape ❸ It seems that 'therefore, when the system is in the process, it may cause the stupidity or the measured value error, such as the value of the shame, but the __ alcohol test piece. In order to improve the above situation, please refer to the la, lb, and ic diagrams, which is the shame of the first case. Its main system - electrochemical biosensor test strips are revealed, which can selectively quantitatively analyze blood.搪, coffee _ other silk money. The t-ray thief is used as the identification electrode (9), and the identification electrode 6G_ is used in different positions, and is disposed at different positions. As shown in Fig. 13, the identification electrode (10) is on the left side, and is used for detecting The blood glucose sensor is matched, and the M288928 is shown in the figure lb. The identification electrode β〇 is on the right side of the sensor for detecting cholesterol, and further, the month “,” lc diagram shows the identification electrode. (9) Detecting the sensor mixture across the two sides for detecting the face acid oxalate transferase (9) or the face amine pyruvate transfer enthalpy (GPT). ~ %This one can be set differently in the test piece through the identification electrode. Position, but with different senses as 'to achieve the above purpose, but because at the time of manufacture, not only different types of test strips, need to replace the production line, and the sensor must also create different identification equipment as needed, for Manufacturers, not only do not meet economic benefits, and can not reduce the cost, but for consumers, it may be because of the small size of the test film, and the identification electrode on it is a very small area, so that Even if the identification electrode has Change, but because of little change, the sensor can not accurately identify whether the test piece is a matching test piece during the test, which is easy to cause misjudgment. [New content] This creation is aimed at the shortcomings of the aforementioned prior art, and is issued - Materials with different impedances, different conductive materials are coated on the positive electrode area of the test piece, and in the detection, the impedance value of the working layer can be preliminarily sighed by the sensor For comparison, it is not possible to perform the detection of the sensor that cannot be detected, so that the detector does not cause misjudgment. - To achieve the above purpose, the present invention provides a biological sensing with recognition function. The test piece is composed of an insulating first and second substrate, the first substrate is longer than the second substrate, and the first substrate is provided with n, a reference strip and a hard-to-reach region, and The read/reference electrode and the illuminating region are convex on the outside of the first substrate, and the identification electrode region is coated with a conductive material, and the conductive material is mainly changed with different Detectives or different testing instruments* In the first - the work on the substrate, the reference electrode is mutually complementary, and the other end of the two substrates is provided with a detection area, which is connected with the working and reference electrodes; when used, when the test piece is inserted into the sensor It can identify different impedance values by coating different conductive materials on the electrode area of M288928, and meet different detection requirements. As a result, manufacturers only need to apply different coatings on the identification electrode area according to different needs at the factory. The conductive material, and the known test piece must be matched with sensors of different purposes and different specifications to change the position and specification of the identification electrode, thereby saving manufacturing cost and convenient use. Another purpose of the creation is Providing a sensor for the matching test piece, the sensor is set at a factory to match a certain range of impedance values according to the impedance value of the test piece, so that the sensor can be tested by the test. The chip identifies different impedance values generated by different conductive materials on the electrode area to determine whether the repair is within a predetermined impedance value range. If not, an error message is generated; if so, a test is made. In this way, there will be no misjudgment, and the detection result will be accurate and have the function of preventing fools. [Embodiment] This creation does not disclose a biosensor test piece having an identification function, please refer to the second and the %th drawings, which is an embodiment of the present invention applied to a planar electrochemical test piece. The test piece 10 is provided with a first and a second substrate u, 12 ′ and the first substrate n is longer than the second substrate 12 . The first and second base plates η and 12 are flat and electrically insulated. Sexually, the first two substrates U and 12 have a viscous glue on the opposite side of the two ends except for the two ends (the present is a kind of implementation method, but those who are familiar with the art can still 乂', 匕 way The first substrate and the second substrate u ' 12 are glued together, and the uncoated portion has a biologically active substance for detection, and the first substrate u is exposed at one end of the second substrate 12 to provide an identification. The electrode region 13, the identification electrode region 13 can be coated by the conductive material f, because of different conductivity..., different impedance values, such as conductive carbon materials (different mixing ratios have different impedances. _Ω ) ~800Ω (ohm) is the impedance value interval of the test piece, (4) (ohm) ~ 3 buckle (ohm ) is the impedance value interval of another test piece...), either precious metal alloy (10), alloy (or alloy) or single-M288928 precious metal (gold, silver, _) or indium tin oxide to different impedance values. The first and second substrates u and 12 are provided with a detection region 14 protruding outward, and the other two substrates η and 12 are interposed with a working electrode 15 and a reference electrode. The working electrode and the reference electrode 16 are kept at a constant interval, and the working electrode 15 and the reference electrode 16_ end penetrate the detection region η, and the other end and the identification electrode region 13 are exposed outside the second substrate 12 (eg, & and so-called, can be used to insert the test piece into the sensor, by identifying the different impedance of the different conductive materials on the electrode area 13, or the - electrode (read electrode 15 or reference electrode 16) and Identifying the impedance generated between the electrode regions 13 to match the different detection requirements, or the sensor of the type, not only can meet the needs of different generations, and the factory needs to be independently required during the inspection, in the Lang electrode region 13 The coatings are coated with different conductive materials'. Compared with the known test strips, the test strips must be used with different uses and different specifications to change the position, form and quantity of the job, and the cost of riding the province and the convenient use. As shown in Figures 3 and 3a, it is applied to this creation. In another embodiment of the bulk electrochemical test piece, the test piece 10 is provided with a first substrate and a second substrate 12 on both sides of the first substrate, and the first substrate 11 is longer than the second substrate 12 And the first and second substrates n and 12 are flat and electrically insulating, and the peripheral edges of the first and second substrates n and 丨2 have adhesive glue on the opposite sides except for the two ends. One embodiment, which is familiar to the skilled artisan, can still be completed in other ways, so that the first and second substrates 11, 12 are glued together, and the uncoated portion has the biologically active substance for detection, and the first The substrate 11 is exposed at one end of the second substrate 12 and is provided with an identification electrode region 13 which can be coated by a conductive material. Since different conductive materials have different impedance values, for example, conductive carbon paste is mixed. Material (different mixing ratios have different impedance values - 400 Ω (ohms) ~ 800 Ω (European M288928 ohms) for the impedance range of the test piece, lkQ (ohms) ~ 3kQ (ohms) is the impedance value interval of the other test piece... ), or precious metal alloy (10), Ji Gold) or a single precious metal (gold, silver, drilling, etc.) or different oxide composed of indium tin impedance value. In addition, a working electrode 15 and a reference electrode 16 are respectively disposed between the first substrate 11 and the second substrate 12, and the working electrode 15 and the reference electrode 16 are kept at a certain pitch and electricity by the first substrate u. The 'not connected', and the working electrode 15 and the reference electrode 16-end are inspected _14, and the other end and the identification electrode area 13 are exposed outside the second substrate 12 (as shown in Fig. 3a and Fig. 3b) Show). Please refer to FIG. 4 , which is a sensor. The sensor is provided with a body 20 . The body 20 is provided with a display 21 , and the body 20 is provided with a microprocessor. The processor is respectively connected to a detecting unit, a analog/digital converting unit, a display 2 storage unit, and a power source (not shown) to make the detecting unit detect the biometric object and perform analog/digital conversion. The unit converts into data data, and at the same time, the reference value set by the input unit is taken out by the processor and compared with the storage unit, and is displayed by the display unit after processing (5) is a conventional structure, and is not the scope of protection of the case. Therefore, it is not mentioned here. And the detecting body 22 is provided with a detecting port 22 at one end, and the detecting port is provided with a detecting point 221 matched with the - test strip 10, and the detecting points 221 are combined with the control system of the sensor (not shown) Phase-to-connection, in the present embodiment, the probes 221 can be detected on the identification electrode region 13, or on the electrodes (the working electrode 15 or the reference electrode 16) or the identification electrode region 13, respectively. Referring to Figures 2, 3, and 4, before the detection, the test piece is inserted into the detection port 22, so that the identification of the % pole region 13 or the identification electrode region 13 and one of the electrodes are in contact with the probe 221, and the conversion is performed. After the processing, the sensor can determine whether the impedance value is preset by using the test piece to identify different impedance values generated by different conductive materials on the electrode region, or by identifying the impedance generated between the electrode region 丨3 and one of the electrodes. Within the range of impedance values, if not, an error message is generated through the display 21. If so, the M288928 continues to perform the detection, so that not only the misjudgment occurs, but the detection result is accurate and has a foolproof effect. The function. In summary, this creation is the first creation in the article, shape, structure and structure, and can improve various shortcomings of the conventional technology. It can enhance the effect in use, is practical, and fully meets the requirements of the creation of patents. Creation. [Simple description of the drawing] The first drawing is a schematic diagram of the patent of WO No. 0171328. • Figure lb is a schematic diagram 2 of WO No. 0171328. Figure lc is a schematic diagram 3 of WO No. 0171328. The second picture is a three-dimensional diagram of the test piece of the creation. Figure 2a is an exploded view of the test piece of the creation. 2b is a schematic diagram of the relative positional decomposition of the work/reference electrode and the identification electrode area on the test piece of the creation. A perspective view of another embodiment of the test piece created by Fig. 3 Lin. #%%图 is an exploded view of another embodiment of the test piece of the present creation. , ... is a schematic diagram of the relative positional decomposition of the working/reference electrode and the identification electric field of the other embodiment of the present invention. & Figure 4 is the schematic of the creative sensor. [Description of main component symbols] First substrate 11 Second substrate 12 Identification electrode area 13 10 M288928 Detection area Working electrode Reference electrode Body Display detection port 14 15 16 20 21 22 221
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