201015064 六、發明說明: 【發明所屬之技術領域】 本發明係有關於一種讀取裝置,特別是有關於—種應用於讀取生物檢測試片 之讀取裝置。 【先前技術】 •隨著醫療產業的進步與電子產業的發達,發展頗多關於居家醫療照護的檢測 儀器,例如:電子耳溫搶或電子式血壓計。其中關於生化或免疫檢測儀器方面, ❹則疋以檢測血糖、尿酸或總膽固醇等較常見,而其檢測系統可依流體檢測訊號 區分為光學式與電化學式,其巾又以使用電化學式的系統較為普遍。 由於不同的檢測樣本其進行檢測所需的物質亦有所不同,所以不同的檢測類 型需使用不同的檢測^ »舉例來說:若是欲測驗血糖職取牡糖檢測試片, 而測驗尿酸則需取用尿酸檢測試片。此外,為確保測驗結果的正確性,必須使 用未過期的檢測試片。而習知技術的檢測機台,通常使用一外加的校正晶片來 儲存上述賴㈣型、減及保存_雜正魏。在進行檢晴,將對應於 該檢測試片類型及批號的校正晶片插入檢測機台内,檢測機台讀取校正晶片中 的校正資訊,且將試片類型、試片批號與保存期限等顯示於檢測機台上,由使 用者自打確認所欲使用之檢測試片與機台上顯示出來的類型、批號、校正資訊 是否相同’以及試片是否超過使用期限。此外,由於校正晶片亦可搭載該批號 所屬試片的檢測值校正資訊,所以必須使用與該校正晶片同屬一批號的檢測試 片進行檢測,以確保最正確的檢測結果β由於上述之檢測機台在使用上係由使 用者進行人卫進行制_、減以及贿舰的校對,無法避免因使用者一 時不察所導致的誤用錯誤_的檢測試片、過期驗測試片,以及與校正晶片 不同批號的檢測試片,進而影響分析結果的正確性。 此外目則市面上使用之各種檢測試片在檢驗完畢時,大多需利用人工手動 將試片置入或取出,但往往因檢測試片尺寸設計不良,恐有使用者在操作時誤 201015064 * 觸檢體造成檢體污染’或是檢體站污手指之虞,使用上多有不便。 【發明内容】 為了解決上述之缺點,本發明提供一種檢測試片讀取裝置,用以讀取檢測試 片的流體檢測訊號,包括殼體、顯示器、輸送機構、光學讀取器、檢測訊號讀 取器、控制模組等。檢測試片至少包含有至少一個流體反應區以呈現流體檢測 訊號與至少一個可光學讀取之圖案,上述之可光學讀取之圖案(0ptically Readable Pattern)包含有檢測試片的識別資訊。顯示器設於殻體上用以顯示檢剩 結果’輸送機構則用以承載檢測試片,並依預先設定的路徑移動,使檢測試片 〇移入殼體内或使檢測試片自殼體内移出。光學讀取器係用來讀取檢測試片之條 碼中之相關資訊,其中相關資訊主要包括有檢測試片的類型、批號&〇t Number)、使用期限、與所屬批號的試劑校正資料等。檢測訊號讀取器是用來讀 取檢測試片之流體檢測訊號。此外’控制模組則包含有資料庫模組及運算模組, 其中資料庫模組為儲存有多種類型的檢測試片的流體檢測訊號資料,而運算模 組則是根據檢測試片之類型,讀取資料庫模組中對應於該種類型的流體檢測訊 號資料與所屬批號的試劑校正資料,並據以比對檢測試片的流體檢測訊號,用 以產生一檢測結果。 Q 因此’本發明之主要目的係提供一種檢測試片讀取裝置,藉由光學讀取器讀 取檢測试片上之可光學讀取之圖案所包含的識別資訊,得以自動比對檢測試片 之類型、批號、使用期限與批號的試劑校正資料是否正確,故可避免檢測試片 之誤用’進而影響分析結果的正確性。 本發明之次要目的係提供一種檢測試片讀取裝置,由於具有輸送機構輸送檢 測試片’並依預先設定]^徑移動,故具有穩定度高之特性及快速掃描之功能。 本發明之另-目的係提供-織顺丨讀減置,具有輸韻構,其所載入 之檢測試片,可自_自鍾外移人及自舰⑽出,故可㈣免·者與檢 體之間的互相污染。 本發明之又-目的係提供-種檢測試片讀取裝置,具有檢測訊號讀取器,可 201015064 · 同時續取生化及免疫檢測試片所發出的流體檢測訊號。 本發月之再目的係提供—種檢測試片讀取裝置’具有檢測訊號讀取器,可 刀別讀取生化或免疫檢測試片所發出的流體檢測訊號。 本發明之再目_提供—種檢測試片讀取裝置,由於包含有輸出裝置,可 以輸出制#的_結果或細試#與受測者資料姆應之條碼。 本發明之再-目的係提供—種檢測試片讀取裝置,藉由條碼讀取裝置一併讀 取待測檢體所屬之受測者病歷資料,可進—步提供資料整合的功能。 本發明之再-目的係提供—種檢測試片讀取裝置,藉由提供可自由拆却的條 _碼讀取裝置,以便使用者操作。 本發明進一步提供一種使用於檢測試片讀取裝置中之檢測試片,檢測試片至 少包含有至少一個流體反應區以呈現流體檢測訊號與至少一個可光學讀取之圖 案’可光學ff取之圖案包含有該檢職片的識前訊,主要包括該檢測試片類 型、批號、使用期限與批號的試劑校正資料,且流體反應區與可光學讀取之圖 案係設置於不同的位置。 因此’本發明之再一目的係提供一種使用於檢測試片讀取裝置中之檢測試 片’藉由上述之檢測試片讀取裝置讀取檢測試片上之可光學讀取之圖案所包含 的識別資訊,得以自動比對檢測試片之類型、批號、使用期限與批號的試劑校 ©正資料是否正確,故可避免檢測試片之誤用,進而影響分析結果的正確性。 本發明之又一目的係提供一種使用於檢測試片讀取裝置中之檢測試片,檢測 試片上至少有一可光學讀取之圖案包含有檢測試片相關之識別資訊,其中可光 學讀取之圖案,可以為一維條碼、二維條碼,或是可由可見光、紫外光、紅外 光等光源讀取之圖案,便於進行檢測試片之識別。 【實施方式】 由於本發明係揭露一種檢測試片讀取裝置,其中所利用之生物檢測原理及 基本機電架構,已為相關技術領域具有通常知識者所能明瞭,故以下文中之說 明’不再作完整描述。同時,以下文中所對照之圖式,係表達與本發明特徵有 201015064 關之結構示意,並未亦不需要依據實際尺寸完整繪製,盍先敘明。 首先請參考第1A圖,係本發明提出之第一較佳實施例,為一種檢測試片讀 取裝置100。檢測試片讀取裝置100用以讀取檢測試片2〇所發出的流趙檢測訊 號,包括殼體卜顯示器2、輸送機構3、光學讀取器4、檢測峨讀取器5、控 制模組6。前述之檢職片2〇至少包含有至少—個流體反應區21以呈現流體檢 測訊號與至少-個可光學讀取之圖案22(如第2B圖所示可光學讀取之圖案包 含有檢測試片20的識別資訊(Identiflcati〇n !^_扯1〇11),其中可光學讀取之圖案 22,可以為一維條碼(〇ne Dimensi〇ns B_de)、二維條碼(Tw〇 B_de)、可見光讀取、紫外光讀取或紅外光讀取等任一種可光學讀取之圖案, 以利進行讀取檢職# 20之識職訊。識職關包含有檢賴片2()所屬之 類型、批號、使用期限與對應於該批號的試劑校正資料等資訊。 顯不器2設於殼體1上,用以顯示檢測結i輸送機構3係承載檢測試片 2〇,並依預先設定的路徑水平移動,使檢測試片2〇可自動移入殼體〗内或自殼 體1内移出,因此,本發明之設計可避免因手動操作所導致的不穩定,進一步 可有快速掃描之功能。此種自動輸送檢測試片之設計,無須使用者手動將檢測 試片20置入檢測試片讀取裝置1〇〇,可避免人工操作使檢測試片與操作者手指 的互相污染,藉此確保測試結果的正確性,以及保護操作者免於誤觸生物檢體 參而受到生物性危害。此外,此種設計亦可避免由於檢測試片尺寸設計不良所導 致不易取出之缺點。 睛繼續參考第1A圖,光學讀取器4係設在殼體1内部,用以讀取檢測試片 2〇之可光學讀取之圖案22中之識別資訊,其讀取位於檢測試片20上的可光學 讀取之圖案22有兩種方式:其一,在輸送機構3將檢測試片20移入殼體1内 部的同時’由光學讀取器4在輸送機構3預先設定的路徑上讀取檢測試片20的 可光學讀取之圖案22。另一種方式則為在檢測試片20被輸送機構3移至預先設 定的路徑終點後,再由光學讀取器4讀取檢測試片20的可光學讀取之圖案22。 又’光學讀取器4與檢測訊號讀取器5分別設置於輸送機構3所預先設定的路 201015064 ' ' 徑的上下兩側面為較佳。 請參考第1B圖,光學讀取器4亦可設置於殼體i的側部。此種配置設計, 可讓檢測試片20在置入輸送機構3之前,由光學讀取器4先行讀取檢測試片2〇 的可光學讀取之圖案22。此外,光學讀取器4亦可以讀取檢測試片2〇所對應之 受測者的病歷條碼或ID條碼,藉以確認檢測試片2〇是否為此受測者所擁有, 有再次校正之功效,作為受測者與檢測試片2〇的資料整合之用。此外,光學讀 取器4可自由拆卸地自殼體!分離,以方便使用者操作^拆卸下來的光學讀取 器4 了利用無線傳輸方式或導線傳輸方式聯繁(c〇mmunieating)至檢測試片讀取 裝置100。 此種由檢測試片上的可光學讀取之圖案22搭載檢測試片所屬之類型、批 號、使用期限與對應於該批號的試劑校正資料等資訊且由檢測試片讀取裝置自 行讀取該等資_方式’相較於卿人工確認或手動輸人_試⑲關資料之 方法,可以有效地避免使用者因一時不察而誤用過期之檢測試片20,導致檢體 之浪費,甚或影響分析結果的正確性。 檢測訊號讀取器5設置於殼體1内部,用以讀取檢測試片2〇的流體反應區 21所發出之流體檢測訊號,其中流體檢測訊號可以檢測出光反應訊號,或是電 化學反應訊號《檢測訊號讀取器5讀取流逋檢測訊號的方式亦有兩種。其一, β可在檢測試片20在被輸送裝置3移入殼體!的同時,由檢測訊號讀取器5在預 先設定的路徑中,讀取檢測試片20所發出的流體檢測訊號。其二,則是在檢測 試片20被輸送裝置3移至預先設定路徑的終點後,再由檢測訊號讀取器5讀取 檢測試片20所發出的流體檢測訊號。 控制模組ό則包含有資料庫模組61及運算模組62。資料庫模組61為儲存 有多種類型的檢測試片的流體檢測訊號資料,例如:進行血糖、總膽固醇或尿 酸等各類型檢測所需的流體檢測資料。運算模組62則是根據檢測試片之類型, 5賣取儲存於資料庫模組61中對應於該種類型的流體檢測訊號資料與檢測試片2〇 所屬批號的觸校正㈣,並據上述㈣與侧試4 2晴發出喊體檢測訊號 201015064 進行比對,用以產生-檢測結果。而且’運算模組&亦可根據檢測試片的 使用期限資料,進一步中斷或允許檢測訊號讀取器5讀取檢測試片2〇所發出之 流體檢測訊號。 舉例來說’進行血糖測試時’在檢測試片20送入檢測試片讀取裝置ι〇〇後, 由光學讀取器4讀取檢職片20所屬之類型是否屬於血糖測試,並同時讀取可 光學讀取之圖案22中所載之試片批號與使用期限等資訊,並由檢測試片讀取裝 置1〇〇進行自動比對。待確賴片類型與使用期限等資料無誤後,則由檢測訊 號讀取器5讀取檢測試片20所發出之流體檢測訊號。檢測試片讀取裝置ι〇〇確 ❹認檢測試片20為血糖測試用之試片後,由資料庫模組61提供▲糖測試相關的 流體檢測訊號資料,之後再結合檢測試片20上可光學讀取之圖案2上的試劑 校正資料,併同由檢測訊號讀取器5所讀取到的檢測試片2〇發出的流體檢測訊 號,交由運算模組62運算,最終得到血糖檢測結果。 請參考第1C圖,檢測試片讀取裝置100進一步包含有印表機輸出璋%及 USB輸出蜂92等輸出裝置,可輸出檢測試片2G的檢測結果。而檢測試片讀取 裝置100亦可視實際需求接裝設置藍牙(IEEE 802.15)輸出埠(未圖示)。 又,檢測試片讀取裝4 100進一步包含有操作_ 7。當操作開關7啟動後, 輸送機構3才能用以承載檢測試片2〇並依預先設定的路徑移動。而且操作開關 ® 7進一步提供有中止功能,當檢測試片讀取裝置1〇〇正在運作時,可藉由操作操 作開關7來中止檢測試片讀取裝置100的運作。 =測試片讀取裝置_進-步包含有輸人鍵盤8,t檢測試片2G不具有可 由光學讀取器4讀取的相關資訊,或是光學讀取器4損壞時,可_手動輸入 =式輸人檢測試片2G所屬之_、減、使_限及對應於該批號的試劑校正 資料等_資訊。而顧者亦可_輸人鍵盤8較啦的舰條碼或瓜條碼 等資訊以手動方式輸入檢測試片讀取裝置1〇〇,且可由印表機輸出皡%及/或 USB輸出锋%等輸出裝置輸出上述由使用者手動輸入的資訊。 201015064 請參考第2A圖與第2B圖,係本發賴出之第二較佳實施例,為一種使用 於檢測試片讀取裝置100中檢測試片2〇β檢測試片20包含有至少一個用以呈現 流體檢測訊號麟體反應區21,與至少—個可光學讀取之圖案22。可光學讀取 之圖案22包含有檢測試片20的識別資訊,例如試片類型、批號、使用期限與 所屬批號的試臟JE資料。又,在概賴置狀社,龍反舰21與可光學 讀取之圖案22各自分職於檢職片2()的兩個不接觸的相對表面上,例如在 第2A圖與第況圖中所示’流體反應區21是位在檢測試片2〇的表面a上,而 可光學讀取之圖案22則是位在檢測試片2G上相對於表面A的另—個表面b。 至於檢測試;1 20之其他舰如前料_難實施例所述。 以上所述僅為本發明之較佳實施例,並非用以限定本發明之申請專利權 利;同時以上的描述,對於熟知本技術領域之專門人士應可明瞭及實施因此 其他未脫離树明關示之_谓完等狀變祕_,均餘含在 專利範圍中。 【圖式簡單說明】 第1A圖為一立體示意圖,係根據本發明提出之第-較佳實施例,為-種檢 φ測試片讀取裝置。 第1B圖為一立體示意圖,係根據本發明提出之第-較佳實施例,為另-種 檢測試片讀取裝置。 第1C圖為-立體侧視圖’係根據本發明提出之第一較佳實施例,為一種檢 測試片讀取裝置。 第2A圖為-立體示意圖’係根據本發明提出之第二較佳實施例,為一種檢 測試片’其表面A具有流體反應區。 第2B圖為-立體示意圖,係根據本發明提出之第二較佳實施例,為一種檢 測試片,其相對於表面A的另一表面B具有可光學讀取之圖案。 201015064201015064 VI. Description of the Invention: [Technical Field] The present invention relates to a reading device, and more particularly to a reading device for reading a biometric test strip. [Prior Art] • With the advancement of the medical industry and the development of the electronics industry, there are many developmental instruments for home medical care, such as electronic ear thermometers or electronic blood pressure monitors. Among them, in terms of biochemical or immunoassay instruments, ❹ 疋 较 is more common for detecting blood sugar, uric acid or total cholesterol, and its detection system can be divided into optical and electrochemical types according to the fluid detection signal, and the towel uses an electrochemical system. More common. Since different test samples require different substances for their detection, different test types require different tests. ^ For example: if you want to test the blood sugar, take the test sample, and test the uric acid. Take uric acid test strips. In addition, to ensure the correctness of the test results, test pieces that have not expired must be used. The detection machine of the prior art usually uses an additional correction chip to store the above-mentioned type (4) type, subtraction and preservation_mixing positive Wei. After performing the inspection, the calibration wafer corresponding to the test piece type and the batch number is inserted into the inspection machine, the inspection machine reads the correction information in the calibration wafer, and displays the test piece type, the test piece batch number, the shelf life, and the like. On the inspection machine, the user can confirm whether the test piece to be used and the type, batch number and correction information displayed on the machine are the same 'and whether the test piece exceeds the service life. In addition, since the calibration wafer can also carry the detection value correction information of the test piece to which the batch number belongs, it is necessary to use the detection test piece of the same batch number as the calibration wafer for detection to ensure the most accurate detection result β due to the above detection machine. The use of the station is carried out by the user, and the proofreading of the bribes is not possible. The test strips, the expired test strips, and the calibration wafers are not avoided due to the user's misuse. Test strips of different batches, which in turn affect the correctness of the analysis results. In addition, when the test pieces are used in the market, most of them need to be manually put into or taken out by the test piece. However, the size of the test piece is often poorly designed, and the user may mistake the operation at 201015064. The specimen causes contamination of the specimen' or the specimen is dirty with the fingers, which is inconvenient to use. SUMMARY OF THE INVENTION In order to solve the above disadvantages, the present invention provides a test strip reading device for reading a fluid detecting signal of a test strip, including a housing, a display, a transport mechanism, an optical reader, and a detection signal reading. Picker, control module, etc. The test strip includes at least one fluid reaction zone for presenting a fluid detection signal and at least one optically readable pattern, and the optically readable pattern (0ptically Readable Pattern) includes identification information of the test strip. The display is arranged on the casing for displaying the result of the remaining detection. The conveying mechanism is configured to carry the test piece and move according to a preset path, so that the test piece is moved into the casing or the test piece is removed from the casing. . The optical reader is used to read relevant information in the barcode of the test strip, and the related information mainly includes the type of the test strip, the batch number & 〇t Number, the use period, the reagent correction data with the batch number, and the like. . The detection signal reader is used to read the fluid detection signal of the test strip. In addition, the control module includes a database module and a computing module, wherein the database module is a fluid detecting signal data storing a plurality of types of detecting test pieces, and the computing module is based on the type of the test piece. The reagent correction data corresponding to the type of fluid detection signal data and the batch number of the library module is read, and the fluid detection signal of the test strip is compared to generate a detection result. Q Therefore, the main object of the present invention is to provide a test strip reading device which can automatically detect the test strip by reading the identification information contained in the optically readable pattern on the test strip by the optical reader. The type, batch number, expiration date and batch number of reagent calibration data are correct, so the misuse of the test strip can be avoided, which in turn affects the correctness of the analysis results. A secondary object of the present invention is to provide a test strip reading apparatus which has a function of high stability and a function of rapid scanning because it has a transport mechanism for transporting a test piece </ </ RTI> and moves according to a preset path. Another object of the present invention is to provide a weaving read and subtraction, which has a rhyme structure, and the test piece loaded therein can be moved from the outside of the clock and from the ship (10), so (4) Mutual contamination with the specimen. Still another object of the present invention is to provide a test strip reading device having a detection signal reader, which can be used to continuously extract fluid detecting signals from biochemical and immunological test strips. A further object of the present month is to provide a test strip reading device having a detection signal reader for reading a fluid detection signal from a biochemical or immunoassay test strip. Further, the present invention provides a test strip reading device which, by including an output device, can output a _ result or a snippet # and a bar code of the subject data. A further object of the present invention is to provide a test strip reading device, which can read the medical record data of the subject to be tested by the barcode reading device, and can further provide the function of data integration. A further object of the present invention is to provide a test strip reading device for providing a user-operable operation by providing a freely detachable strip reading device. The invention further provides a test strip for detecting a test strip reading device, the test strip comprising at least one fluid reaction zone for presenting a fluid detection signal and at least one optically readable pattern The pattern includes the pre-existing information of the inspection film, which mainly includes the reagent calibration data of the test piece type, the batch number, the use period and the batch number, and the fluid reaction zone and the optically readable pattern are disposed at different positions. Therefore, a further object of the present invention is to provide a test strip for use in a test strip reading device, which comprises the above-described test strip reading device for reading an optically readable pattern on a test strip. The identification information can be automatically compared to check whether the type of the test piece, the batch number, the use period and the batch number of the reagents are correct, so that the misuse of the test piece can be avoided, thereby affecting the correctness of the analysis result. Another object of the present invention is to provide a test strip for detecting a test strip reading device, wherein at least one optically readable pattern on the test strip includes identification information related to the test strip, wherein the optical strip can be optically read. The pattern can be a one-dimensional barcode, a two-dimensional barcode, or a pattern that can be read by a light source such as visible light, ultraviolet light, or infrared light, so as to facilitate identification of the test strip. [Embodiment] Since the present invention discloses a detecting test piece reading device, the biological detecting principle and the basic electromechanical structure utilized therein have been known to those having ordinary knowledge in the related art, and therefore the description below is no longer Make a full description. At the same time, the drawings referred to in the following text are indicative of the structure of the features of the present invention having 201015064, and are not required to be completely drawn according to actual dimensions, which are first described. Referring first to Figure 1A, a first preferred embodiment of the present invention is a test strip reading apparatus 100. The test strip reading device 100 is configured to read the flow detection signal sent by the test strip 2, including the housing display 2, the transport mechanism 3, the optical reader 4, the detection cassette reader 5, and the control module. Group 6. The aforementioned inspection film 2 includes at least one fluid reaction zone 21 for presenting a fluid detection signal and at least one optically readable pattern 22 (the optically readable pattern shown in FIG. 2B includes a test test) The identification information of the slice 20 (Identiflcati〇n !^_扯1〇11), wherein the optically readable pattern 22 can be a one-dimensional barcode (〇ne Dimensi〇ns B_de), a two-dimensional barcode (Tw〇B_de), Any optically readable pattern, such as visible light reading, ultraviolet light reading or infrared light reading, for the purpose of reading the job search. #职职关 contains the inspection 2 () The type, the batch number, the expiration date, and the reagent calibration data corresponding to the batch number, etc. The display device 2 is disposed on the casing 1 for displaying the detection node i, the transport mechanism 3 is carrying the test strip 2〇, and is preset The horizontal movement of the path allows the test strip 2 to be automatically moved into or removed from the housing 1. Therefore, the design of the present invention can avoid the instability caused by manual operation, and further has the function of rapid scanning. The design of such automatic transport test strips does not require users The test strip 20 is placed in the test strip reading device 1 〇〇 to avoid manual contamination of the test strip and the operator's fingers, thereby ensuring the correctness of the test result and protecting the operator from errors. It is biologically harmful to touch the biological sample. In addition, this design can also avoid the disadvantage of being difficult to remove due to poor design of the test piece. The eye continues to refer to Figure 1A, and the optical reader 4 is placed in the housing. 1 inside, for reading the identification information in the optically readable pattern 22 of the test strip 2, and reading the optically readable pattern 22 on the test strip 20 in two ways: While the transport mechanism 3 moves the test strip 20 into the inside of the casing 1, the optically readable pattern 22 of the test strip 20 is read by the optical reader 4 on a path set in advance by the transport mechanism 3. Another way Then, after the detection test piece 20 is moved to the predetermined path end point by the transport mechanism 3, the optically readable pattern 22 of the test strip 20 is read by the optical reader 4. Further, the optical reader 4 and The detection signal reader 5 is respectively set to the input It is preferable that the upper and lower sides of the path 201015064'' of the path set by the feeding mechanism 3 are preferred. Referring to FIG. 1B, the optical reader 4 may be disposed at the side of the casing i. This configuration allows for inspection. Before the test piece 20 is placed in the transport mechanism 3, the optically readable pattern 22 of the test strip 2 is read by the optical reader 4. In addition, the optical reader 4 can also read the test strip 2〇. Corresponding tester's medical record barcode or ID barcode to confirm whether the test strip 2 is owned by the test subject, and has the effect of recalibration, as the data integration between the test subject and the test strip 2〇 In addition, the optical reader 4 can be detachably detached from the casing! to facilitate the user to operate the detached optical reader 4 by means of wireless transmission or wire transmission (c〇mmunieating) to the inspection The sheet reading device 100 is tested. Such an optically readable pattern 22 on the test strip carries information such as the type, batch number, expiration date, and reagent correction data corresponding to the lot number of the test strip, and is read by the test strip reading device. Compared with the manual confirmation or manual input method, the method can effectively prevent the user from misusing the expired test strip 20 due to temporary obscurity, resulting in waste of the specimen, or even impact analysis. The correctness of the results. The detection signal reader 5 is disposed inside the casing 1 for reading the fluid detection signal emitted by the fluid reaction zone 21 of the test strip 2, wherein the fluid detection signal can detect the photoreaction signal or the electrochemical reaction signal. There are also two ways in which the detection signal reader 5 reads the rogue detection signal. First, β can be moved into the housing of the test strip 20 at the transported device 3! At the same time, the detection signal reader 5 reads the fluid detection signal from the test strip 20 in a pre-set path. Second, after detecting that the test strip 20 is moved to the end point of the preset path by the transport device 3, the detection signal reader 5 reads the fluid detection signal from the test strip 20. The control module includes a database module 61 and an operation module 62. The database module 61 is a fluid detecting signal data storing a plurality of types of test strips, for example, fluid detecting data required for various types of blood glucose, total cholesterol or uric acid. The operation module 62 is based on the type of the test strip, 5 selling the touch correction (4) stored in the database module 61 corresponding to the type of fluid detection signal data and the batch number of the test strip 2, and according to the above (4) Align with the side test 4 2 clear scream detection signal 201015064 to generate - test results. Further, the 'computing module& can further interrupt or allow the detecting signal reader 5 to read the fluid detecting signal emitted from the detecting strip 2 according to the period of use of the test strip. For example, when 'the blood glucose test is performed', after the test strip 20 is fed into the test strip reading device ι, the optical reader 4 reads whether the type of the test piece 20 belongs to the blood glucose test and simultaneously reads Information such as the lot number and the expiration date of the test piece contained in the optically readable pattern 22 is taken, and the test piece reading device 1 is automatically compared. After the information such as the type of the sheet and the expiration date are correct, the detection signal reader 5 reads the fluid detection signal from the test strip 20. After the test strip reading device ι〇〇 confirms that the test strip 20 is a test piece for blood sugar test, the fluid test signal data related to the sugar test is provided by the database module 61, and then combined with the test strip 20 The reagent correction data on the optically readable pattern 2 is compared with the fluid detection signal sent from the detection test piece 2 read by the detection signal reader 5, and is calculated by the operation module 62 to finally obtain the blood glucose detection. result. Referring to FIG. 1C, the test strip reading apparatus 100 further includes an output device such as a printer output 璋% and a USB output bee 92, and can output a detection result of the test strip 2G. The test strip reading device 100 can also be equipped with a Bluetooth (IEEE 802.15) output port (not shown) depending on actual needs. Further, the test strip reading device 4 100 further includes an operation_7. When the operation switch 7 is activated, the transport mechanism 3 can be used to carry the test strip 2 and move according to a preset path. Further, the operation switch ® 7 is further provided with a suspend function, and when the test strip reading device 1 is being operated, the operation of the test strip reading device 100 can be stopped by operating the operation switch 7. = test piece reading device _ step-in-step includes input keyboard 8, t-test piece 2G does not have relevant information that can be read by optical reader 4, or can be manually input when optical reader 4 is damaged = _ information on the _, subtraction, _ limit, and reagent correction data corresponding to the batch number of the test piece 2G. The person can also input the test strip reading device 1 by manually inputting the information such as the bar code or the bar code of the keyboard 8 and can output 皡% and/or USB output front% by the printer. The output device outputs the above information manually input by the user. 201015064 Please refer to FIG. 2A and FIG. 2B , which is a second preferred embodiment of the present invention, which is used for detecting the test piece in the test strip reading device 100. The test strip 20 includes at least one test strip 20 . For presenting the fluid detection signal, the reaction zone 21, and at least one optically readable pattern 22. The optically readable pattern 22 contains identification information for the test strip 20, such as the test strip type, lot number, expiration date, and the trial dirty JE data of the batch number. Moreover, in the case of the Zhuangsha, the dragon anti-ship 21 and the optically readable pattern 22 are respectively assigned to two non-contact opposing surfaces of the inspection piece 2(), for example, in the 2A and the second The 'fluid reaction zone 21' is shown on the surface a of the test strip 2, and the optically readable pattern 22 is the other surface b on the test strip 2G with respect to the surface A. As for the test; the other ships of 1 20 are as described in the preceding paragraph. The above description is only the preferred embodiment of the present invention, and is not intended to limit the patent application rights of the present invention; the above description is to be understood and implemented by those skilled in the art, and thus the other embodiments are not disclosed. The _ is the end of the morphological change _, the remainder is included in the scope of the patent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1A is a perspective view showing a φ test piece reading apparatus in accordance with a first preferred embodiment of the present invention. Fig. 1B is a perspective view showing a test piece reading device according to a first preferred embodiment of the present invention. Fig. 1C is a perspective view showing a first embodiment of the present invention, which is a test piece reading device. Fig. 2A is a perspective view showing a second preferred embodiment of the present invention, which is a test piece having a surface A having a fluid reaction zone. Fig. 2B is a perspective view, which is a second preferred embodiment of the present invention, and is a test piece having an optically readable pattern with respect to the other surface B of the surface A. 201015064
【主要元件符號說明】 檢測試片讀取裝置 100 檢測試片 20 流體反應區 21 可光學讀取之圖案 22 殼體 1 顯示器 2 輸送機構 3 光學讀取器 4 檢測訊號讀取器 5 控制模組 6 資料庫模組 61 運算模組 62 操作開關 7 輸入鍵盤 8 印表機輸出埠 91 USB輸出埠 92 表面 A、B 10[Description of main component symbols] Test strip reading device 100 Test strip 20 Fluid reaction zone 21 Optically readable pattern 22 Housing 1 Display 2 Transport mechanism 3 Optical reader 4 Detection signal reader 5 Control module 6 Database module 61 Operation module 62 Operation switch 7 Input keyboard 8 Printer output 埠91 USB output 埠92 Surface A, B 10