M362992 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種生化感測系統,特別是關於具有辮識圖案 之生化感測試片的生化感測系統。 【先前技術】 醫學檢測上使用生化感測系統已是一項普遍的技術。習知生 化感測系統通常包含生化感測試片與量測裝置。為了區別試片的 φ 種類以免將錯誤的試片置入量測裝置中,通常會在試片内部設計 可產生特定電子訊號的一辨識單元。在量測裝置啟動之後,由微 處理器偵測此辨識單元,以判斷此試片是否正確。 問題 由於習知生化感測系統總須在量測裝置啟動後才能進行試片 辨識工作’故等待時間冗長甚為枝。而且,為了使微處理 以侧此辨識單元,試片及微處理器都要有特殊輯,製程較、 雜成本也較高。因此,有必要提供—__祕來解決習知= 【新型内容】 鑑於先前技術所存在的問題,本創作提供 統,其具有蚊的生彳⑷職㈣麟定之制錢。^感^糸 本創作係使此蚊量職置只能由此败社滅_ 3 ’ 因此’依據本創作,使用者若將錯誤的試片置人量測裝置中,。 無法啟動此狀之量職置,故錢者可 ,將 要等到量職置啟動後才進㈣認。 4片而不f M362992 本創作在-方面係提供一種生化感測試片, 及設置於該絕絲彳m觸電餘;及㈣心緣基板 連接器,該4接器具有複數個端子,該複數子^座具有一 =其中該生化感測試片係透過該複數 = 組耦合而啟動該量測裝置。 辨識电極 該 依據一實施例,本創作之絕緣基板係定 該^接器,該辨識電極組係形成複數個電極端合 稷數個電極端點相對於該絕緣基板之一縱長方向排列成= 線 例,本創作之絕緣基板係定義—連接區用以耦 Ϊ 電極組係形成概_極端點於該連接區, =複數個電極端_剩成沿著魏緣基板之—縱長方向的一直 【實施方式】 配合以下之較佳實關之敘述汹式制,本創作之目的、 L施1、特徵、及伽將更為清楚。應注意所關式巾相似元件 偏木用相似的轉符號。為清楚呈現本創作,圖式中之各元件並 非按,實物之比靖製’而且為避免模糊本創作之内容,以下說 月亦知之零組件、相關材料、及其相關處理技術。應瞭解 以下實施_鱗說本創狀内容,而雜制本創作之範圍。 #本創作係揭露—種生化感測系統,包含生化感測試片與量測 裝置。圖1係根據本創作之一實施例,綠示-生化感測試片100 M362992 的結構分解圖’其中為了方便理解各元件間的相對位置,而以虛 線代表生化感測5式片100的輪磨與相應位置。本創作之生化感測 試片100包含一絕緣基板110、具有複數個電極的一電極系統 120、一絕緣層130、一反應層150、一具親水性之上隔片。 參考圖1 ’絕緣基板no為一電絕緣性之基材,其材料可包含 但不限於:聚氯乙烯(PVC)、玻璃纖維、聚酯、電木板、聚對苯二 甲酸二乙酯(PET)、聚碳酸酯(PC)、聚丙稀(PP)、聚乙烯(PE)、聚 馨本乙細(PS)或陶竟專。絕緣基板係定義一連接區112供配晋雷搞用 嫩量測裝置之連接器(如後續所述);及反應區^:^ 與反應層(如後續所述)。 參考圖1 ’電極系統120包含複數個電極。詳言之,電極系統 120包含一量測電極組121、一辨識電極組124及一導電元件127, 其中量測電極組121包含互相絕緣的參考電極122及工作電極 123,辨識電極組124包含由導電元件127連接的第一辨識電極⑵ ^第二辨識電極126。導電藉127可有任何形式。在—實 ^導電耕127為-電阻。複數個電極係具有複數個電極端點。 坪^ ’如圖i所示’連接區112上即配置有參考電極端點m =作電極端點⑵a,第-辨識電極端點收及第二辨識電極端點 加。應〉主意,在此實施例中,辨識電板組124於連接區出之 硬數個電極端點125a及126a係相對於絕緣基板議之 ^ L排列成一斜線x。於連接區112之辨識電極組124的第—網 甩極I25係較第一辨識電極⑶短。電極材料可為任何導電5, 例如碳膠、銀膠、轉、碳職合膠、或麵似物及組合等。、 M362992 冋樣參考圖! ’絕緣層130覆蓋一部分的電極系統12〇,而使 位f連接區112之電極祕120暴露出來而得以與量測裝置(如 後續所述)電相接。絕緣層130更包含一開口 135用以容納一反 應層15〇 /開Ο 135需至少暴露在反應區114之量測電極組121。 開口 I35系定義一入口 m,供液態樣品注入。絕緣層⑽的材料 •可^含但不限於PVC絕緣㈣、PET絕緣料、熱乾燥型絕緣漆 或各外,乾燥型絕緣漆。反應層150係至少包含氧化還原酶,用 •以與液紐私生化學反應,其中,氧傾原_麵隨液態樣 • f不同而有所不同。反應層15〇需至少覆蓋設置於反應區114之 里測電極組121。當賴、樣品自人σ⑶注人會_到量測電極組 再參考圖1 ’具親水性之上隔片1δ〇具有—氣孔⑹,用以排 出反應區114於化學反應時產生的氣體,如此可加強毛細作用而 加速液態樣品的注人的速度,且上隔片⑽之親水性可引導液態 樣扣的流向並具有導出氣體的功能,縮短液態樣品充滿反應層15〇 的時間。 圖2係根據本創作之一實施例,繪示圖〗所述之生化感測試 片100與罝測裝置200連接的示意圖。為清楚示範本創作,圖2 之生化感測试片1〇〇係僅顯示電極系統12〇與絕緣基板丨丨〇。量測 裝置200包含用以對外連接的一連接器220、一放大器240、一類 比對數位轉換器270、以及一微處理器26〇。連接器22〇具有複數 個端子222、223、225及226。詳言之,連接器2加具有;個相應 於笔極知點122a、123a、125a及126a之端子222、223、225及 M362992 226。當生化感測試片100插入量測裝置2〇〇時,生化感測試片ι〇〇 係透過其辨識電極組124之複數個電極端點125a及126a與連接 益之複數個端子225及226耦合而啟動量測裝置2〇〇。應注意,在 此實施例中,啟動量測裝置200係與辨識電極組124之複數個電 極端點225及226有關。換言之,雖然本實施例之量測電極組121 之電極端點122a與123a也可對應到複數個端子222及223,然此 對應並無關於量測裝置200的啟動。 # 同樣參考圖2’連接器22〇更可將生化感測試片1〇〇中的各電 極電連接至量測裝置200的接地端、或連接至量測裝置2〇〇内各 個電路。量測裝置200更包含用以顯示各種量測結果的一顯示器 270,以及一電源280。在另一實施例中,顯示器27〇及電源28〇 可為外接裝置,而不包含於量測裝置200中。應注意,本創作在 於利用連接器220中複數個端子225及226的位置配置與辨識電 極組124之複數個電極端點225及226位置配置之相呼應,達到 電耦合以啟動量測裝置200,藉此區別是否置入正確感測試片轸量 測裝置200中。當使用者所插入的生化感測試片不具有可與複數 個端子225及226相乎應之電極端點225及226,將不能啟動量測 裝置200。 ' ’ ® 3及® 4賴摘作之各獅肖的生化制試4與連接 裔,為清楚不範本創作,圖中之生化感測試片係僅顯示電極系统 與絕緣基板。 μ' 如圖3所示,電極系統32〇包含一量測電極組32卜一辨識電 M362992 S3,導電元件327,其中量测電極組321包含互相絕緣的 >考電極322及工作電極323,辨識電極組似&含由導電 極^接的第-辨識電極奶及第二職電極谈。此等複數個電 ° 23、325及326係具有複數個電極端點322a、323a、325a 及326a。應注意,在此實施例中,辨識電極址似於連接區犯 之複數個電極端點325a及326a係相對於絕緣基板31〇之一縱長 方向L排列成-斜線少。於連接區312之辨識電極組324的第一辨 識電極325係較第二韻電極326長。連接器32〇具有四個相應M362992 VIII. New Description: [New Technology Field] This creation is about a biochemical sensing system, especially a biochemical sensing system for biochemical test strips with ambiguous patterns. [Prior Art] The use of biochemical sensing systems in medical testing has become a common technique. Conventional biosensing systems typically include biochemical test strips and metrology devices. In order to distinguish the φ type of the test piece from the erroneous test piece placed in the measuring device, an identification unit for generating a specific electronic signal is usually designed inside the test piece. After the measuring device is started, the identification unit is detected by the microprocessor to determine whether the test piece is correct. The problem is that the conventional biochemical sensing system always has to perform the test strip identification work after the measuring device is started. Moreover, in order to make the micro-processing side identification unit, the test piece and the microprocessor must have a special series, and the process and the cost are high. Therefore, it is necessary to provide -__ secret to solve the conventional knowledge = [new content] In view of the problems of the prior art, this creation provides the system, which has the production of mosquitoes (4) (4) Lin Dingzhi. ^感^糸 This creation department makes this mosquito position only to defeat the society _ 3 ‘ Therefore, according to this creation, if the user puts the wrong test piece into the measuring device. Can not start the amount of this position, so the money can, will wait until the volume of the start of the job before entering (four) recognition. 4 pieces without f M362992 The present invention provides a biochemical test piece in the aspect of the present invention, and is provided on the wire 触m electric shock; and (4) a core substrate connector, the 4-connector has a plurality of terminals, the plurality of The seat has a = wherein the biochemical test strip activates the measuring device through the complex = group coupling. According to an embodiment, the insulating substrate of the present invention is configured to form the plurality of electrodes, and the plurality of electrode ends are arranged in a longitudinal direction of one of the insulating substrates. = Line example, the definition of the insulating substrate of this creation - the connection area is used to couple the electrode group formation _ extreme point in the connection area, = a plurality of electrode ends _ remaining along the edge of the Wei edge substrate - longitudinal direction [Embodiment] With the following description of the best practice, the purpose of this creation, L, 1, features, and gamma will be more clear. It should be noted that the similar components of the closed towel are similar to the rotary symbols. In order to clearly present the creation of the creation, the components in the drawings are not in accordance with the real thing, and in order to avoid obscuring the content of the creation, the following are also known as the components, related materials, and related processing techniques. It should be understood that the following implementations _ scales the content of this creation, and the scope of this creation. #本创作系 exposes a biochemical sensing system, including biochemical test strips and measuring devices. 1 is a structural exploded view of a green-biochemical sensory test piece 100 M362992 according to an embodiment of the present invention. [In order to facilitate understanding of the relative positions between the elements, the dotted line represents the wheel grinding of the biochemical sensing 5 piece 100. With the corresponding location. The biochemical sensing test strip 100 of the present invention comprises an insulating substrate 110, an electrode system 120 having a plurality of electrodes, an insulating layer 130, a reactive layer 150, and a hydrophilic upper spacer. Referring to FIG. 1 'the insulating substrate no is an electrically insulating substrate, and the material thereof may include but is not limited to: polyvinyl chloride (PVC), glass fiber, polyester, bakelite, polyethylene terephthalate (PET). ), polycarbonate (PC), polypropylene (PP), polyethylene (PE), poly bismuth (PS) or Tao Jing special. The insulating substrate defines a connection region 112 for use with a connector for the use of a tender measuring device (as described later); and a reaction region ^: and a reaction layer (as described later). Referring to Figure 1, the electrode system 120 includes a plurality of electrodes. In detail, the electrode system 120 includes a measuring electrode group 121, an identifying electrode group 124 and a conductive element 127. The measuring electrode group 121 includes a reference electrode 122 and a working electrode 123 insulated from each other, and the identifying electrode group 124 includes The first identification electrode (2) connected to the conductive element 127 is the second identification electrode 126. The conductive 127 can have any form. In the - solid ^ conductive 127 for - resistance. A plurality of electrode systems have a plurality of electrode terminals. As shown in Fig. i, the connection region 112 is provided with a reference electrode end m = as the electrode end point (2) a, and the first - identification electrode end point is received by the second identification electrode end point. It should be noted that in this embodiment, the hard electrode terminals 125a and 126a of the identification board group 124 in the connection region are arranged in a diagonal line x with respect to the insulating substrate. The first net drain I25 of the identification electrode group 124 in the connection region 112 is shorter than the first identification electrode (3). The electrode material can be any conductive material 5, such as carbon glue, silver glue, transfer, carbon glue, or a combination and combination. , M362992 参考 reference map! The insulating layer 130 covers a portion of the electrode system 12A, and exposes the electrode 120 of the bit f connection region 112 to be electrically connected to the measuring device (as described later). The insulating layer 130 further includes an opening 135 for accommodating a reaction layer 15 〇 / opening 135 to be exposed to at least the measuring electrode group 121 of the reaction zone 114. The opening I35 defines an inlet m for the injection of a liquid sample. The material of the insulation layer (10) can include, but is not limited to, PVC insulation (4), PET insulation material, heat drying type insulation paint or external, dry type insulation paint. The reaction layer 150 contains at least an oxidoreductase, and is chemically reacted with the liquid phase, wherein the oxygenotrope-plane differs depending on the liquid sample f. The reaction layer 15 is not required to cover at least the electrode group 121 disposed in the reaction zone 114. When the sample, the sample from the human σ (3) injection _ to the measurement electrode group and then refer to Figure 1 'the hydrophilic upper spacer 1 δ 〇 has a vent (6) to discharge the reaction zone 114 gas generated during the chemical reaction, so The capillary action can be enhanced to accelerate the injection speed of the liquid sample, and the hydrophilicity of the upper spacer (10) can guide the flow direction of the liquid sample buckle and have the function of deriving a gas, shortening the time when the liquid sample is filled with the reaction layer 15 。. 2 is a schematic diagram showing the connection of the biochemical test strip 100 and the detecting device 200 according to an embodiment of the present invention. For a clear demonstration of the creation, the biochemical test piece 1 of Fig. 2 only shows the electrode system 12A and the insulating substrate. The measuring device 200 includes a connector 220 for external connection, an amplifier 240, a type of comparison bit converter 270, and a microprocessor 26A. Connector 22 has a plurality of terminals 222, 223, 225 and 226. In detail, the connector 2 is provided with terminals 222, 223, 225 and M362992 226 corresponding to the pen points 122a, 123a, 125a and 126a. When the biochemical test strip 100 is inserted into the measuring device 2, the biochemical test strip is coupled to the plurality of terminals 225 and 226 of the connection benefit through a plurality of electrode terminals 125a and 126a of the identification electrode group 124. Start the measuring device 2〇〇. It should be noted that in this embodiment, the activation measurement device 200 is associated with a plurality of electrical pole points 225 and 226 of the identification electrode set 124. In other words, although the electrode terminals 122a and 123a of the measuring electrode group 121 of the present embodiment can correspond to the plurality of terminals 222 and 223, the corresponding activation of the measuring device 200 is not involved. # Similarly, referring to Fig. 2' connector 22, each of the electrodes in the biochemical test strip 1 can be electrically connected to the ground of the measuring device 200 or to each of the circuits in the measuring device 2. The measuring device 200 further includes a display 270 for displaying various measurement results, and a power source 280. In another embodiment, the display 27 and the power source 28A can be external devices and are not included in the measurement device 200. It should be noted that the present invention consists in utilizing the positional arrangement of the plurality of terminals 225 and 226 in the connector 220 to correspond to the positional arrangement of the plurality of electrode terminals 225 and 226 of the identification electrode group 124 to achieve electrical coupling to activate the measuring device 200. Thereby, it is distinguished whether or not the correctness test piece 轸 measuring device 200 is placed. When the biochemical test strip inserted by the user does not have electrode terminals 225 and 226 that are compatible with the plurality of terminals 225 and 226, the measuring device 200 will not be activated. ' ’ ® 3 and ® 4 are based on the biochemical test 4 and connection of the lions. For the sake of clarity, the biochemical test strips in the figure show only the electrode system and the insulating substrate. As shown in FIG. 3, the electrode system 32A includes a measuring electrode group 32, an identification electric M362992 S3, and a conductive element 327, wherein the measuring electrode group 321 includes mutually insulated < test electrode 322 and working electrode 323, The identification electrode group like & includes the first-identification electrode milk and the second electrode which are connected by the electrode. The plurality of electrodes 23, 325, and 326 have a plurality of electrode terminals 322a, 323a, 325a, and 326a. It should be noted that in this embodiment, the plurality of electrode terminals 325a and 326a which are identified as the electrode sites in the connection region are arranged in a longitudinal direction L with respect to the insulating substrate 31 to have a small number of oblique lines. The first identification electrode 325 of the identification electrode group 324 of the connection region 312 is longer than the second rhythm electrode 326. Connector 32〇 has four corresponding
於電極端點322a、323a、325a及326a之端子332、333、335及 336。生化感測試片3〇〇係透過其辨識電極組324之複數個電極端 點325a及326a與連接器之複數個端子335及336耦合而啟動量 測裝置(未顯示)。應注意,在此實施例中,啟動量測裝置(未顯示) 係與辨識電極組324之複數個電極端點335及336有關。換言之, 雖然本實施例之量測電極組321之電極端點322a與323a也可對 應到複數個端子332及333,然此對應並無關於量測裝置(未顯示) 的啟動。 如圖4所示,電極系統420包含一量測電極組421、一辨識電 極組424及一導電元件427,其中量測電極組421包含互相絕緣的 爹考電極422及工作電極423 ’辨識電極組424包含由導電元件 427連接的第一辨識電極425及第二辨識電極426。此等複數個電 極422、423、425及426係具有複數個電極端點422a、423a、425a 及426a。應注意,在此實施例中,辨識電極組424於連接區412 之複數個電極端點425a及426a係沿著絕緣基板410之一縱長方 向L排列成一直線在此實施例中,第一辨識電極425之電極端 -10- M362992 點425a係位在第二辨識電極426之電極端點幻如與工作電極π〕 之包極端點423a之間’然;電極端點425a與電極端點4遍之位置 係可相互對調,此亦包含於本創作之範圍中。連接器42〇且有四 個相應於電極端點422a、423a、425a及426a之端子432、^33、 435及43“生化感測試片4〇〇係透過其辨識電極組似4之複數個 電極,.點425a及426a與連接器之複數個端子435及你耦合而 啟動量測裝置(未顯示)。應注意,在此實施例中,啟動量測裝置(未 顯不)係與辨識電極組424之複數個電極端點435及4%有關。換 • 言之’雖然本實施例之量測電極組421之電極端點4孤與4说 也可對應到複數個端子432及433,然此對應並無關於量測裝置(未 顯示)的啟動。 /如上所述,本創作並不限制電極在試片上的安排方式以及電 或際長度尺寸,事實上,只要電極所組成之辨翻案能對 〜、疋的量測裝置即已足夠。以上所述僅為本創作之較佳實施例 =已’並賴膽定本創作之申請專利範圍;凡其它未脫離本創 斤揭示之精神下所完成之等效改變或修飾,均應包含在下述之 申請專利範圍内。 【圖式簡單說明】 圖1係根據本創作_實施例緣示一生化感測試片的結構分解 圃, 沾_ f 2 1所示之生化感測試片與特定之量測裝置連接 的不意圖; 圖3係根據本創作另—實施例纟會示__生化感測試g與一特定 M362992 連接器連接的示意圖; 圖4係根據本創作更另一實施例繪示一生化感測試片與一特 定連接器連接的示意圖; 【主要元件符號說明】 100生化感測試片 ' 110絕緣基板 • 112連接區 p 114反應區 120電極系統 130絕緣層 150反應層 160上隔片 121量測電極組 124辨識電極組 127導電元件 . 122參考電極 ® 123工作電極 125第一辨識電極 126第二辨識電極 - 122a、123a、125a 及 126a 電極端點 . 135 開口 150反應層 132 入口 160上隔片 -12- M362992 164氣孔 200量測裝置 220連接器 240放大器 270類比對數位轉換器 260微處理器 222、223、225、226 端子 320、 420電極系統 321、 421量測電極組 324、424辨識電極組 327、427導電元件 322、 422參考電極 323、 423工作電極 324、 424辨識電極組 325、 425第一辨識電極 326、 426第二辨識電極 322a、323a、325a、326a 電極端點 422a、423a、425a、426a 電極端點 330、430連接器 332、333、335、336 端子 432、433、435、436 端子 L縱長方向 X、y斜線 z直線Terminals 332, 333, 335 and 336 of electrode terminals 322a, 323a, 325a and 326a. The biochemical test strip 3 activates a measuring device (not shown) by coupling a plurality of electrode terminals 325a and 326a of the identification electrode group 324 with a plurality of terminals 335 and 336 of the connector. It should be noted that in this embodiment, the activation measurement device (not shown) is associated with the plurality of electrode terminals 335 and 336 of the identification electrode set 324. In other words, although the electrode terminals 322a and 323a of the measuring electrode group 321 of the present embodiment can correspond to the plurality of terminals 332 and 333, there is no activation of the measuring device (not shown). As shown in FIG. 4, the electrode system 420 includes a measuring electrode set 421, an identifying electrode set 424, and a conductive element 427. The measuring electrode set 421 includes mutually insulated test electrodes 422 and working electrodes 423 'identifying electrode sets. 424 includes a first identification electrode 425 and a second identification electrode 426 connected by a conductive element 427. The plurality of electrodes 422, 423, 425, and 426 have a plurality of electrode terminals 422a, 423a, 425a, and 426a. It should be noted that in this embodiment, the plurality of electrode terminals 425a and 426a of the identification electrode group 424 in the connection region 412 are arranged in a line along a longitudinal direction L of the insulating substrate 410. In this embodiment, the first identification The electrode terminal -10- M362992 of the electrode 425 is located between the electrode end point of the second identification electrode 426 and the package end point 423a of the working electrode π]; the electrode end point 425a and the electrode end point 4 times The positions are mutually exclusive and are included in the scope of this creation. The connector 42 has four terminals 432, 33, 435 and 43 corresponding to the electrode terminals 422a, 423a, 425a and 426a. The biochemical test strip 4 is a plurality of electrodes through which the electrode group 4 is identified. Point 425a and 426a and a plurality of terminals 435 of the connector are coupled to you to activate the measuring device (not shown). It should be noted that in this embodiment, the measuring device (not shown) and the identification electrode group are activated. 424 of the plurality of electrode terminals 435 and 4% are related. In other words, although the electrode terminal end 4 of the measuring electrode group 421 of the present embodiment can also correspond to a plurality of terminals 432 and 433, There is no activation of the measuring device (not shown). As mentioned above, this creation does not limit the arrangement of the electrodes on the test piece and the length of the electrical or length. In fact, as long as the electrode is composed of ~, 疋 量 装置 即 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Equivalent changes or modifications should be included in the application below BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] Fig. 1 is a structural decomposition of a biochemical test piece according to the present invention. The biochemical test piece shown by the d_f 2 1 is connected to a specific measuring device. Figure 3 is a schematic diagram showing the connection of a biochemical sensory test g to a specific M362992 connector according to another embodiment of the present invention; Figure 4 is a biochemical test according to another embodiment of the present invention. Schematic diagram of the connection of a piece to a specific connector; [Description of main components] 100 biochemical test piece '110 insulating substrate•112 connection area p 114 reaction area 120 electrode system 130 insulation layer 150 reaction layer 160 upper spacer 121 measuring electrode Group 124 identifies electrode set 127 conductive elements. 122 reference electrode® 123 working electrode 125 first identification electrode 126 second identification electrode - 122a, 123a, 125a and 126a electrode end point. 135 opening 150 reaction layer 132 inlet 160 upper spacer - 12- M362992 164 vent 200 measuring device 220 connector 240 amplifier 270 analog converter 260 microprocessor 222, 223, 225, 226 terminal 320, 420 electrode system 321, 421 measurement Polar group 324, 424 identification electrode group 327, 427 conductive element 322, 422 reference electrode 323, 423 working electrode 324, 424 identification electrode group 325, 425 first identification electrode 326, 426 second identification electrode 322a, 323a, 325a, 326a Electrode end points 422a, 423a, 425a, 426a electrode end points 330, 430 connectors 332, 333, 335, 336 terminals 432, 433, 435, 436 terminal L longitudinal direction X, y oblique line z straight line