TWM564160U - Physiological detecting device for automatically differentiating detection test piece calibration parameters and detection test piece thereof - Google Patents
Physiological detecting device for automatically differentiating detection test piece calibration parameters and detection test piece thereof Download PDFInfo
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Abstract
本創作為一生理檢測裝置,其包含一機體、一試片插槽、一量測單元、一代碼偵測單元、一代碼參數對應轉換單元與一運算器,而該生理檢測裝置使用的一檢測試片包含一量測電極結構與一代碼電極結構,該檢測試片為供插入該試片插槽,該量測單元與該代碼偵測單元分別供讀取該量測電極結構與該代碼電極結構,而讓該運算器取得一量測訊號與一代碼,並依據該代碼參數對應轉換單元而取得該代碼所對應的一校正參數,該運算器藉由該校正參數與該量測訊號可整合運算獲得校正後的生理訊號,據此本創作無需使用校正參數卡即可精準量測,不但使用方便,且沒有錯用參數卡而造成量測誤差的問題。The present invention is a physiological detecting device, which comprises a body, a test strip slot, a measuring unit, a code detecting unit, a code parameter corresponding converting unit and an arithmetic unit, and the physiological detecting device uses a check. The test piece comprises a measuring electrode structure and a code electrode structure, wherein the detecting test piece is for inserting into the test piece slot, the measuring unit and the code detecting unit respectively for reading the measuring electrode structure and the code electrode a structure, wherein the operator obtains a quantity of the test signal and a code, and obtains a correction parameter corresponding to the code according to the code parameter corresponding to the conversion unit, and the operator can be integrated with the measurement signal by the correction parameter The operation obtains the corrected physiological signal, and accordingly, the creation can accurately measure without using the calibration parameter card, which is convenient to use, and has no problem of measuring error caused by misusing the parameter card.
Description
本創作關於生理訊號檢測儀,尤指一種可自動判別檢測試片校正參數的生理檢測裝置。The present invention relates to a physiological signal detector, and more particularly to a physiological detecting device capable of automatically discriminating a calibration parameter of a test strip.
對於體弱的中老年人、長年臥病在床的患者來說,高血壓、糖尿病、痛風、心血管阻塞、貧血等等為好發疾病,多數中老年人都有誘發上述疾病的潛在因子,為了第一時間發現病徵,中老年人、患者必須在家自行監控如血壓、血糖、膽固醇、尿酸、血紅素與血氧等生理資訊,在生理資訊呈現不正常的數據時,可即時作適當的處置,以維護身體健康。For frail middle-aged and elderly people who are sick in bed for a long time, high blood pressure, diabetes, gout, cardiovascular obstruction, anemia, etc. are good diseases. Most middle-aged and elderly people have potential factors for inducing these diseases. The first time to find the symptoms, the elderly, patients must monitor their own physiological information such as blood pressure, blood sugar, cholesterol, uric acid, hemoglobin and blood oxygen at home, when the physiological information presents abnormal data, it can be properly disposed of immediately. To maintain good health.
請參閱「圖1」所示,目前已有檢測試片1與判讀機2問世,檢測試片1依據其種類可檢測各種生理資訊,插入專用的判讀機2內判讀後,再滴入使用者的檢體,如血液…等等,進以可量取血糖、尿酸、血紅素、三酸甘油脂與膽固醇等等生理資訊。Please refer to "Figure 1". At present, the test strip 1 and the interpreter 2 are available. The test strip 1 can detect various physiological information according to its type, insert it into the special interpretation machine 2, and then drop it into the user. The specimens, such as blood...etc., can be used to measure physiological information such as blood sugar, uric acid, heme, triglycerides and cholesterol.
由於檢測試片1因為製造時所使用的酵素原料,會受到環境與氣候溫度等等變因的影響,會直接影響檢測時的數據,為了正確檢測及提高精度,其需要進行校正,因此在製造檢測試片1時,會同時製造出對應的一校正參數卡3(編碼模組),如台灣公告第I265677號專利,其揭露了一種編碼模組、生物測量器及操作生物測量器之方法,不同批號的檢測試片1會具有不同的校正參數卡3,而該判讀機2在使用該批號的檢測試片1時,需要同時插入對應的該校正參數卡3,而該判讀機2會依據該校正參數卡3內所記載的一校正參數,搭配所量取的一量測訊號,進而整合產生精準的生理訊號。Since the test strip 1 is affected by environmental and climatic temperatures and the like due to the enzyme raw material used in the production of the test piece 1, it directly affects the data at the time of detection, and in order to correctly detect and improve the accuracy, it needs to be corrected, so that it is manufactured. When the test piece 1 is tested, a corresponding calibration parameter card 3 (encoding module) is simultaneously manufactured, such as the Taiwan Patent No. I265677, which discloses a coding module, a biometric device and a method for operating the biometric device. The test strips 1 of different batches will have different calibration parameter cards 3, and the discriminator 2 needs to simultaneously insert the corresponding calibration parameter card 3 when using the test strips 1 of the batch number, and the discriminating machine 2 will be based on The calibration parameter recorded in the calibration parameter card 3 is combined with a measured number of measurement signals to integrate and generate accurate physiological signals.
由於不同批號的檢測試片1,具有不同該校正參數卡3,其不能混用,否則會影響所量取生理資訊的正確性,然而,在實務上,常常會有忘記換上正確的該校正參數卡3,或者,不同批號的檢測試片1已經混淆難以分辨而難以選擇正確的該校正參數卡3而造成錯用等等問題發生,其造成使用上的不便,且會讓所量取的生理資訊失去精準度,而當量測的生理資訊不準確時,會讓使用者誤判病情,而有危害身體健康的問題。Since the test strips 1 of different batch numbers have different calibration parameter cards 3, they cannot be mixed, otherwise the correctness of the measured physiological information will be affected. However, in practice, it is often forgotten to replace the correct calibration parameters. Card 3, or different batches of test strips 1 have been confused and difficult to distinguish and it is difficult to select the correct calibration parameter card 3, causing misuse and the like, which causes inconvenience in use and allows the measured physiological If the information loses accuracy, and the physiological information of the equivalent measurement is inaccurate, it will cause the user to misjudge the condition and have problems that endanger the health of the body.
爰此,本創作的主要目的,在於揭露一種具自動判別檢測試片校正參數的生理檢測裝置,無須額外插入校正參數卡,即可精準量測生理資訊。Therefore, the main purpose of this creation is to expose a physiological detection device with automatic discrimination detection test piece calibration parameters, which can accurately measure physiological information without additionally inserting a calibration parameter card.
為達前述的創作目的,本創作為一種具自動判別檢測試片校正參數的生理檢測裝置,搭配一檢測試片使用,該檢測試片包含一量測電極結構與一代碼電極結構,該量測電極結構供滴入一檢體,該代碼電極結構的態樣對應複數代碼的任一,且該代碼電極結構具有至少一判斷電極,該至少一判斷電極於該檢測試片的一端邊併排排列,並該至少一判斷電極彼此之間具有分別代表不同該代碼的電性連接樣態。In order to achieve the above-mentioned creative purpose, the present invention is a physiological detecting device with automatic discriminating test piece correction parameters, which is used together with a test piece comprising a measuring electrode structure and a code electrode structure, the measuring piece The electrode structure is configured to drop into a sample, and the aspect of the code electrode structure corresponds to any one of the plurality of codes, and the code electrode structure has at least one determining electrode, and the at least one determining electrode is arranged side by side at one end of the detecting test piece. And the at least one determining electrode has an electrical connection state with respect to each other different codes.
而該生理檢測裝置包含一機體、一試片插槽、一量測單元、一代碼偵測單元、一代碼參數對應轉換單元與一運算器,其中該試片插槽設於機體上,並供該檢測試片插入,該量測單元設於該機體內並供讀取該量測電極結構而取得一量測訊號,該代碼偵測單元設於該機體內並供讀取該代碼電極結構所代表的該代碼,該代碼參數對應轉換單元設於該機體內,並記載該複數代碼與複數校正參數的對應關係,該運算器設於該機體內,並電性連接該試片插槽、該量測單元、該代碼偵測單元與該代碼參數對應轉換單元,以讓該運算器取得該量測訊號與該代碼,且該運算器藉由該代碼參數對應轉換單元而得知該代碼所對應的該校正參數,因而該運算器依據該校正參數與該量測訊號而進行整合運算以獲得校正後的一生理訊號。The physiological detecting device comprises a body, a test strip slot, a measuring unit, a code detecting unit, a code parameter corresponding converting unit and an arithmetic unit, wherein the test piece slot is disposed on the body and is provided for The detecting test piece is inserted, the measuring unit is disposed in the body and is configured to read the measuring electrode structure to obtain a measuring signal. The code detecting unit is disposed in the body and is configured to read the code electrode structure. The code representative, the code parameter corresponding to the conversion unit is disposed in the body, and the corresponding relationship between the complex code and the plurality of correction parameters is recorded, the operator is disposed in the body, and electrically connected to the test strip slot, The measuring unit, the code detecting unit and the code parameter corresponding to the converting unit, so that the computing device obtains the measurement signal and the code, and the operator knows that the code corresponds to the code unit by the conversion unit The calibration parameter is such that the operator performs an integration operation with the measurement signal according to the calibration parameter to obtain a corrected physiological signal.
據此,本創作無需額外使用參數卡,其使用不但方便且不同批號的檢測試片可以混用,沒有參數卡錯置而造成量測失準的問題,可以滿足使用上的需求。According to this, the creation of the creation of the parameter card is not necessary, and the use of the test strips of different batch numbers can be mixed, and the problem that the measurement card is misaligned without the parameter card misalignment can meet the requirements of use.
有關本創作的詳細內容及技術說明,現以實施例來作進一步說明,但應瞭解的是,下述實施例僅為例示說明之用,而不應被解釋為實施本創作之限制。The detailed description of the present invention and the technical description are further illustrated by the following examples, but it should be understood that the following examples are for illustrative purposes only and should not be construed as limiting the invention.
請參閱「圖2」、「圖3」、「圖4A」與「圖4B」所示,本創作為一生理檢測裝置10,搭配一檢測試片20使用,該檢測試片20包含一量測電極結構21與一代碼電極結構22,該量測電極結構21與該代碼電極結構22可以分別位於同一片該檢測試片20的上下兩面(雙面結構),以充分利用空間,該量測電極結構21供滴入一檢體(圖未示),該代碼電極結構22的態樣對應複數代碼的任一。Please refer to FIG. 2, FIG. 3, FIG. 4A and FIG. 4B. The present invention is a physiological detecting device 10, which is used together with a detecting test piece 20, and the test test piece 20 includes a measurement. The electrode structure 21 and the code electrode structure 22, the measuring electrode structure 21 and the code electrode structure 22 can be respectively located on the same upper and lower sides (double-sided structure) of the detecting test piece 20, so as to make full use of the space, the measuring electrode The structure 21 is for dropping into a sample (not shown), and the pattern of the code electrode structure 22 corresponds to any of the complex codes.
而該生理檢測裝置10包含一機體11、一試片插槽12、一量測單元13、一代碼偵測單元14、一代碼參數對應轉換單元15與一運算器16,其中該試片插槽12設於機體11上,並供該檢測試片20插入。該量測單元13設於該機體11內並供讀取該量測電極結構21而取得一量測訊號。該代碼偵測單元14設於該機體11內並供讀取該代碼電極結構22所代表的該代碼。該代碼參數對應轉換單元15設於該機體11內,並記載該複數代碼與複數校正參數的對應關係。又該機體11可以設有連接該運算器16的一顯示器19與一控制按鍵組18,該顯示器19可供顯示操作訊息與量測結果,而該控制按鍵組18則可供使用者進行操作。The physiological detecting device 10 includes a body 11, a test strip slot 12, a measuring unit 13, a code detecting unit 14, a code parameter corresponding converting unit 15 and an arithmetic unit 16, wherein the test chip slot 12 is disposed on the body 11 and is inserted into the test strip 20. The measuring unit 13 is disposed in the body 11 and is configured to read the measuring electrode structure 21 to obtain a measuring signal. The code detecting unit 14 is disposed in the body 11 and is configured to read the code represented by the code electrode structure 22. The code parameter corresponding conversion unit 15 is disposed in the body 11 and records the correspondence between the complex code and the complex correction parameter. The body 11 can be provided with a display 19 connected to the computing unit 16 and a control button set 18 for displaying operational messages and measurement results, and the control button set 18 is operable by the user.
該運算器16設於該機體11內,並電性連接該試片插槽12、該量測單元13、該代碼偵測單元14與該代碼參數對應轉換單元15,以讓該運算器16取得該量測訊號與該代碼,且該運算器16藉由該代碼參數對應轉換單元15而得知該代碼所對應的該校正參數,因而該運算器16依據該校正參數與該量測訊號而進行運算以獲得校正後的一生理訊號。另該機體11更可以設置連接該運算器16的一溫度量測單元17,該溫度量測單元17可以取得即時的環境溫度,以供使用者參考。The computing device 16 is disposed in the body 11 and electrically connected to the test strip slot 12, the measuring unit 13, the code detecting unit 14 and the code parameter corresponding converting unit 15 for the computing unit 16 to obtain The measurement signal is associated with the code, and the operator 16 knows the correction parameter corresponding to the code by the code parameter corresponding to the conversion unit 15, and thus the operator 16 performs the calibration signal according to the calibration parameter and the measurement signal. The operation is to obtain a corrected physiological signal. In addition, the body 11 can further be provided with a temperature measuring unit 17 connected to the computing unit 16, and the temperature measuring unit 17 can obtain an instantaneous ambient temperature for reference by the user.
請再一併參閱「圖4C」與「圖4D」所示,該代碼電極結構22可以具有至少一判斷電極221,該至少一判斷電極221於該檢測試片20的一端邊併排排列,並該至少一判斷電極221彼此之間具有分別代表不同該代碼的電性連接樣態,也就是說,該至少一判斷電極221的電性連接樣態可以代表該代碼,如「圖4D」所示,其列舉B1~B8共8種電性連接樣態,可代表8個該代碼(校正參數)。而該量測電極結構21則可以包含一工作電極211與至少一參考電極212,該工作電極211與該至少一參考電極212於該檢測試片20的一端邊併排排列,且該至少一參考電極212彼此之間具有代表不同檢測模式的電性連接樣態,藉由該至少一參考電極212的電性連接樣態可以代表檢測模式,如「圖4C」所示,其列舉A1~A3共3種電性連接樣態,可代表3個檢測模式。As shown in FIG. 4C and FIG. 4D, the code electrode structure 22 may have at least one determining electrode 221, and the at least one determining electrode 221 is arranged side by side at one end of the detecting test piece 20, and The at least one determining electrode 221 has an electrical connection pattern respectively representing different codes, that is, the electrical connection state of the at least one determining electrode 221 can represent the code, as shown in FIG. 4D. It lists 8 kinds of electrical connection patterns of B1~B8, which can represent 8 codes (correction parameters). The measuring electrode structure 21 may include a working electrode 211 and at least one reference electrode 212. The working electrode 211 and the at least one reference electrode 212 are arranged side by side at one end of the detecting test piece 20, and the at least one reference electrode 212 has electrical connection patterns representing different detection modes, and the electrical connection mode of the at least one reference electrode 212 can represent the detection mode, as shown in FIG. 4C, which lists A1~A3 total 3 An electrical connection pattern that represents three detection modes.
請參閱「圖5」,為本創作的使用流程圖,其包含步驟S1~S9,其為本創作的使用流程圖,首先為步驟S1:檢測試片插入,使用者將要使用檢測試片20插入該試片插槽12。接著為步驟S2:啟動檢測模式偵測,為藉由該量測單元13取得該至少一參考電極212彼此之間的電性連接樣態,而決定要使用的檢測模式,用以量測如血糖、尿酸、膽固醇、三酸甘油脂等等生理資訊。接著為步驟S3:取得校正參數,利用該代碼偵測單元14讀取該至少一判斷電極221的電性連接樣態,進而得知其所代表的該代碼,該運算器16再藉由該代碼參數對應轉換單元15而得知該代碼所對應的該校正參數。Please refer to FIG. 5, which is a flow chart of the use of the present invention, which includes steps S1 to S9, which is a flow chart of the use of the creation. First, step S1: detecting the insertion of the test piece, the user will insert the test piece 20 to be inserted. The test strip slot 12. Next, in step S2, the detection mode detection is started, and the detection mode to be used is determined by the measurement unit 13 to obtain the electrical connection state between the at least one reference electrode 212, and is used for measuring, for example, blood glucose. Physiological information such as uric acid, cholesterol, triglycerides, etc. Then, in step S3, the correction parameter is obtained, and the code detecting unit 14 reads the electrical connection state of the at least one determination electrode 221, and further knows the code represented by the code, and the operator 16 uses the code again. The parameter corresponds to the conversion unit 15 to know the correction parameter corresponding to the code.
接著為步驟S4:生理檢測裝置開機啟動,為開啟生理檢測裝置,準備進行量測。接著為步驟S5:檢測是否滴入檢體,若有則進行步驟S6,若無則滴入檢體,並重新進行步驟S4。接著為步驟S6:生理檢測裝置倒數並取得量測訊號,其為倒數一段時間,同時取得該量測訊號。接著為步驟S7:整合計算,為利用該校正參數、該量測訊號運算而產生該生理訊號。接著為步驟S8:倒數是否結束,檢測倒數是否結束,若否返回步驟S6而持續倒數,同時再一次取得該量測訊號,若倒數結束,則進行步驟S9。顯示量測數值,於該顯示器19顯示該生理訊號。Next, in step S4, the physiological detecting device is turned on, and the physiological detecting device is turned on, and the measurement is prepared. Next, in step S5, it is detected whether or not the sample is dropped, and if so, step S6 is performed, and if not, the sample is dropped, and step S4 is performed again. Next, in step S6, the physiological detecting device counts down and obtains a measuring signal, which is a countdown period, and simultaneously obtains the measuring signal. Next, in step S7: integrating the calculation, the physiological signal is generated by using the calibration parameter and the measurement signal operation. Next, in step S8: whether the reciprocal is over, whether the reciprocal is over is detected, and if not, the process returns to step S6 and continues to count down, and the measurement signal is acquired again. If the reciprocal is over, step S9 is performed. The measured value is displayed, and the physiological signal is displayed on the display 19.
如上所述,本創作相較習知的優點至少有:As mentioned above, this creation has at least the following advantages:
1.無需額外使用參數卡,沒有參數卡遺失、混淆、錯置等等問題。1. No need to use additional parameter cards, no parameter card missing, confusion, misplacement, etc.
2.不同批號的檢測試片可以混用,增加使用上的便利性。2. Test strips of different batch numbers can be mixed to increase the convenience of use.
綜上所述僅為本新型的較佳實施例而已,並非用來限定本新型之實施範圍,即凡依本新型申請專利範圍之內容所為的等效變化與修飾,皆應為本新型之技術範疇。The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of implementation of the present invention, that is, the equivalent changes and modifications according to the content of the patent application scope of the present invention should be the novel technology. category.
習知Conventional knowledge
1‧‧‧檢測試片1‧‧‧Test strips
2‧‧‧判讀機2‧‧‧Reading machine
3‧‧‧校正參數卡3‧‧‧ Calibration parameter card
本創作This creation
S1~S9‧‧‧步驟S1~S9‧‧‧Steps
10‧‧‧生理檢測裝置10‧‧‧ Physiological testing device
11‧‧‧機體11‧‧‧ body
12‧‧‧試片插槽12‧‧‧ test strip slot
13‧‧‧量測單元13‧‧‧Measurement unit
14‧‧‧代碼偵測單元14‧‧‧Code detection unit
15‧‧‧代碼參數對應轉換單元15‧‧‧ Code parameter corresponding conversion unit
16‧‧‧運算器16‧‧‧Operator
17‧‧‧溫度量測單元17‧‧‧Temperature measurement unit
18‧‧‧控制按鍵組18‧‧‧Control button set
19‧‧‧顯示器19‧‧‧ Display
20‧‧‧檢測試片20‧‧‧Test strips
21‧‧‧量測電極結構21‧‧‧Measurement electrode structure
211‧‧‧工作電極211‧‧‧Working electrode
212‧‧‧參考電極212‧‧‧ reference electrode
22‧‧‧代碼電極結構22‧‧‧ Code electrode structure
221‧‧‧判斷電極221‧‧‧Judgement electrode
圖1,為習知判讀機的結構圖。 圖2,為本創作生理檢測裝置結構示意圖。 圖3,為本創作生理檢測裝置功能方塊示意圖。 圖4A,為本創作檢測試片量測電極結構示意圖。 圖4B,為本創作檢測試片代碼電極結構示意圖。 圖4C,為本創作檢測試片量測電極的態樣示意圖。 圖4D,為本創作檢測試片代碼電極的態樣示意圖。 圖5,為本創作運作流程圖。Figure 1 is a structural diagram of a conventional interpretation machine. FIG. 2 is a schematic structural view of the physiological detecting device of the present invention. FIG. 3 is a schematic diagram showing the function of the artificial physiological detecting device. FIG. 4A is a schematic structural view of the measuring electrode of the artificial test strip. FIG. 4B is a schematic diagram showing the structure of the code electrode of the artificial test strip. FIG. 4C is a schematic view showing the state of the measuring electrode of the test strip. FIG. 4D is a schematic view showing the state of the code electrode of the test strip. Figure 5 is a flow chart of the creation operation.
Claims (5)
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