TWM465889U - PH detector for animal and system thereof - Google Patents
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- TWM465889U TWM465889U TW102209730U TW102209730U TWM465889U TW M465889 U TWM465889 U TW M465889U TW 102209730 U TW102209730 U TW 102209730U TW 102209730 U TW102209730 U TW 102209730U TW M465889 U TWM465889 U TW M465889U
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Description
本創作是一種酸鹼值檢測器,尤其是關於一種可以進入消化系統並進行即時檢測之檢測器。This creation is a pH detector, especially for a detector that can enter the digestive system and perform immediate detection.
檢驗動物之腸道健康與否,通常不簡單。為了檢測腸道,一般需要內視鏡等裝置或設備深入動物或人體之體內,藉以檢測或監控體內腸道的狀況。由於內視鏡等檢測方式會對於動物或人體造成傷害、產生疼痛感且所費不貲,因此,一般人檢測腸道常是因為身體已經不堪負荷而必須為之。It is usually not simple to test the health of the animal's intestines. In order to detect the intestines, devices or devices such as endoscopes are generally required to penetrate the body of an animal or a human body to detect or monitor the condition of the intestinal tract in the body. Since the detection methods such as endoscopes can cause injury, pain, and cost to animals or humans, it is often necessary for the average person to detect the intestines because the body is already unbearable.
為了解決既有腸道狀態檢測方式通常複雜、對身體容易產生巨大疼痛感及費用過高的問題,本創作為一種可以讓使用者吞食並於消化系統中自動檢測其酸鹼值等生理訊號,不僅可以大幅降低檢測成本,也可大幅減緩檢測過程之疼痛感等問題,達到低成本高效率且幾乎無痛的技術功效。In order to solve the problem that the detection method of the intestinal state is usually complicated, the body is prone to great pain and the cost is too high, the present invention is a physiological signal that allows the user to swallow and automatically detect the pH value in the digestive system. Not only can the cost of testing be greatly reduced, but also the pain of the detection process can be greatly reduced, achieving low-cost, high-efficiency and almost painless technical effects.
本創作提出一種動物消化系統酸鹼值檢測器,其包含一生物相容外套以及包覆於該生物相容外套內的一生理感 測器、一主動式射頻晶片、一電池及一處理器,該處理器分別與該生理感測器、該主動式射頻晶片及該電池電性連接,其中:該生物相容外套係生物相容且抗酸蝕之材料製成,其內部包含一容置空間容納該生理感測器、該主動式射頻晶片、該電池及該處理器;該生理感測器設於該生物相容外套內且局部設於該生物相容外套之表面,其係用於感測一酸鹼值將感應結果輸出至該處理器;該主動式射頻晶片為自主輸出一射頻辨識標籤訊號及一射頻訊號之射頻辨識標籤晶片,其接受該處理器之控制,將該生理感測器之感應結果以射頻該射頻訊號無線輸出至外部一接收裝置;該電池提供該動物消化系統酸鹼值檢測器內部電子組件工作所需的電力;及該處理器控制該生理感測器感測生物訊號,並驅使該主動式射頻晶片將轉換為射頻訊號之生理感測結果輸出至該接收裝置。The present invention proposes an animal digestive system pH detector comprising a biocompatible outer casing and a physiological sense wrapped in the biocompatible outer casing a processor, an active RF chip, a battery, and a processor, the processor being electrically connected to the physiological sensor, the active RF chip, and the battery, wherein: the biocompatible jacket is biocompatible And an acid-resistant material, the interior of which comprises an accommodating space for accommodating the physiological sensor, the active RF chip, the battery and the processor; the physiological sensor is disposed in the biocompatible outer casing and The surface is disposed on the surface of the biocompatible outer casing, and is used for sensing a pH value to output the sensing result to the processor; the active RF chip is a self-output RF identification tag signal and an RF signal for RF identification a tag chip, which is controlled by the processor, and wirelessly outputs the sensing result of the physiological sensor to an external receiving device by using a radio frequency RF signal; the battery provides an internal electronic component working device of the animal digestive system pH detector The required power; and the processor controls the physiological sensor to sense the biological signal, and drives the active RF chip to output the physiological sensing result converted into the RF signal to the Receiving means.
其中,該生理感測器感測一溫度。Wherein the physiological sensor senses a temperature.
其中,該生理感測器感測一血液含量。Wherein the physiological sensor senses a blood content.
本創作再提出一種動物消化系統酸鹼值檢測系統,其包含一動物消化系統酸鹼值檢測器及一接收裝置,該動物消化系統酸鹼值檢測器係由一動物吞嚥進入消化系統,並即時檢測該消化系統的酸鹼值,該動物消化系統酸鹼值檢測器將檢測結果轉換為射頻訊號輸出並輸出一射頻辨識標籤 訊號至該接收裝置,該接受裝置分析該射頻訊號並予以顯示檢測結果。The present invention further proposes an animal digestive system pH detection system, which comprises an animal digestive system pH detector and a receiving device. The animal digestive system pH detector is swallowed by an animal into the digestive system, and is immediately Detecting the pH value of the digestive system, the animal's digestive system pH detector converts the detection result into an RF signal output and outputs an RF identification tag The signal is sent to the receiving device, and the receiving device analyzes the RF signal and displays the detection result.
其中,該動物消化系統酸鹼值檢測器包含一生物相容外套以及包覆於該生物相容外套內的一生理感測器、一主動式射頻晶片、一電池及一處理器,該處理器分別與該生理感測器、該主動式射頻晶片及該電池電性連接,其中:該生物相容外套係生物相容且抗酸蝕之材料製成,其內部包含一容置空間容納該生理感測器、該主動式射頻晶片、該電池及該處理器;該生理感測器設於該生物相容外套內且局部設於該生物相容外套之表面,其係用於感測一酸鹼值將感應結果輸出至該處理器;該主動式射頻晶片為自主輸出一射頻辨識標籤訊號及一射頻訊號之射頻辨識標籤晶片,其接受該處理器之控制,將該生理感測器之感應結果以射頻該射頻訊號無線輸出至該接收裝置;該電池提供該動物消化系統酸鹼值檢測器內部電子組件工作所需的電力;及該處理器控制該生理感測器感測生物訊號,並驅使該主動式射頻晶片將轉換為射頻訊號之生理感測結果輸出至該接收裝置。Wherein the animal digestive system pH detector comprises a biocompatible outer casing and a physiological sensor coated in the biocompatible outer casing, an active radio frequency chip, a battery and a processor, the processor Separably electrically connected to the physiological sensor, the active RF chip and the battery, wherein: the biocompatible outer sleeve is made of a biocompatible and acid resistant material, and the interior thereof comprises an accommodation space for accommodating the physiological a sensor, the active RF chip, the battery, and the processor; the physiological sensor is disposed in the biocompatible outer casing and partially disposed on a surface of the biocompatible outer casing for sensing an acid The base value outputs the sensing result to the processor; the active RF chip is a radio frequency identification tag chip that independently outputs an RFID tag signal and an RF signal, and receives the control of the processor to sense the physiological sensor. The result is wirelessly outputting the RF signal to the receiving device by radio frequency; the battery provides power required for the internal electronic component of the animal's digestive system pH detector; and the processor controls the living Sensor sensing a biological signal, and drive the RF chip to convert the active output to the receiving device is a physiological sensing result of RF signals.
其中,該生理感測器感測一溫度。Wherein the physiological sensor senses a temperature.
其中,該生理感測器感測一血液含量。Wherein the physiological sensor senses a blood content.
其中,該接收裝置包含一主機及與該主機電性連接之一接收器、一顯示器及一資料庫,該接收器擷取該動物消化 系統酸鹼值檢測器之射頻辨識標籤訊號及射頻訊號後輸出至該主機,該主機21將該射頻辨識標籤訊號及記錄該生物訊號之射頻訊號予以分析,並與該資料庫相互比較後,由該顯示器顯示生物生理訊號及健康狀態。The receiving device includes a host and a receiver electrically connected to the host, a display and a database, and the receiver captures the animal to digest The radio frequency identification tag signal and the radio frequency signal of the system pH detector are output to the host, and the host 21 analyzes the radio frequency identification tag signal and the radio frequency signal recording the biosignal, and compares with the database, The display shows biophysiological signals and health status.
藉由前述說明可知,本創作具有下列特點及達成下述技術功效:As can be seen from the foregoing description, the creation has the following characteristics and achieves the following technical effects:
1.透過積體電路與奈米技術之協助,讓檢測器之體積可以縮小,可非常便於使用,且不會造成使用者或動物的痛苦。1. With the help of the integrated circuit and nano technology, the detector can be reduced in size, which is very easy to use and does not cause pain to users or animals.
2.可以同時檢測生物體內的酸鹼分布狀態、是否可能產生出血、發炎等等,藉以達到提早檢測,提早治療的技術效果。2. It can simultaneously detect the distribution of acid and alkali in the living body, whether it may produce bleeding, inflammation, etc., in order to achieve the technical effect of early detection and early treatment.
10‧‧‧動物消化系統酸鹼值檢測器10‧‧‧An animal digestive system pH detector
12‧‧‧生理感測器12‧‧‧ Physiological sensor
13‧‧‧生物相容外套13‧‧‧Biocompatible coat
14‧‧‧電池14‧‧‧Battery
16‧‧‧主動式射頻晶片16‧‧‧Active RF chip
19‧‧‧處理器19‧‧‧ Processor
20‧‧‧接收裝置20‧‧‧ Receiving device
21‧‧‧主機21‧‧‧Host
22‧‧‧接收器22‧‧‧ Receiver
23‧‧‧資料庫23‧‧‧Database
24‧‧‧顯示器24‧‧‧ display
50‧‧‧使用者50‧‧‧Users
52‧‧‧消化系統52‧‧‧Digestive system
第一圖為本創作較佳實施例之系統示意圖。The first figure is a schematic diagram of the system of the preferred embodiment of the present invention.
第二圖為本創作較佳實施例之使用示意圖。The second figure is a schematic diagram of the use of the preferred embodiment of the present invention.
第三圖為本創作較佳實施例之局部剖面示意圖。The third figure is a partial cross-sectional view of a preferred embodiment of the present invention.
第四圖為本創作較佳實施例之使用流程示意圖。The fourth figure is a schematic diagram of the usage flow of the preferred embodiment of the present invention.
第五圖為本創作較佳實施例之測試結果示意圖。The fifth figure is a schematic diagram of the test results of the preferred embodiment of the present invention.
請參考第一圖、第二圖及第三圖,其為本創作動物消化系統酸鹼值檢測器10之較佳實施例,其包含一生物相容外套13以及包覆於該生物相容外套13內的一生理感測器12、一主動式射頻晶片16、一電池14及一處理器19,該處 理器19分別與該生理感測器12、該主動式射頻晶片16及該電池14電性連接。Please refer to the first, second and third figures, which are a preferred embodiment of the animal digestive system pH detector 10, comprising a biocompatible outer sleeve 13 and coated on the biocompatible outer sleeve. a physiological sensor 12, an active RF chip 16, a battery 14 and a processor 19 in the area 13 The processor 19 is electrically connected to the physiological sensor 12, the active RF chip 16, and the battery 14.
該生物相容外套13係一種生物相容且抗酸蝕之材料製成,其內部包含一容置空間容納該生理感測器12、該主動式射頻晶片16、該電池14及該處理器19。The biocompatible outer sleeve 13 is made of a biocompatible and acid resistant material, and includes an accommodating space for accommodating the physiological sensor 12, the active RF chip 16, the battery 14 and the processor 19. .
該生理感測器12設於該生物相容外套13內且局部設於該生物相容外套13之表面,其係用於感測一酸鹼值、一溫度及/或一血液含量之生物訊號感應裝置,其感應酸鹼值、溫度或血紅素含量等生物訊號後,將感應結果輸出至該處理器19。The physiological sensor 12 is disposed in the biocompatible outer casing 13 and partially disposed on the surface of the biocompatible outer casing 13 for sensing a biological signal of a pH value, a temperature and/or a blood content. The sensing device outputs a sensing result to the processor 19 after sensing a biological signal such as a pH value, a temperature, or a heme content.
該主動式射頻晶片16為可以自主輸出一射頻辨識標籤訊號及一射頻訊號之射頻辨識標籤晶片,其接受該處理器19之控制,將該生理感測器12之感應結果以射頻該射頻訊號無線輸出至一接收裝置20。The active RF chip 16 is a radio frequency identification tag chip capable of autonomously outputting a radio frequency identification tag signal and an RF signal, and is controlled by the processor 19, and the sensing result of the physiological sensor 12 is radio frequency. Output to a receiving device 20.
該電池14提供該動物消化系統酸鹼值檢測器10內部電子組件工作所需的電力。The battery 14 provides the power required to operate the internal electronic components of the animal's digestive system pH detector 10.
該處理器19控制該生理感測器12感測生物訊號,並將該生理感測器12之感測結果驅使該主動式射頻晶片16轉換為射頻訊號輸出至該接收裝置20。The processor 19 controls the physiological sensor 12 to sense the biological signal, and drives the sensing result of the physiological sensor 12 to convert the active RF chip 16 into an RF signal output to the receiving device 20.
使用時,將該動物消化系統酸鹼值檢測器10由一使用者50直接吞食以進入其一消化系統52,並於該消化系統52中移動最終由排泄口排出,如第二圖。該動物消化系統酸鹼值檢測器10於該消化系統52移動過程,持續讀取該消化系統52不同位部位或器官的生理訊號,並將檢測結果即時輸出至外部的該接收裝置20。In use, the animal digestive system pH detector 10 is directly swallowed by a user 50 to enter its digestive system 52, and moved in the digestive system 52 to be ultimately expelled from the drain, as shown in the second figure. The animal digestive system pH detector 10 moves during the movement of the digestive system 52, continuously reads the physiological signals of different parts or organs of the digestive system 52, and immediately outputs the detection results to the external receiving device 20.
該接收裝置20包含一主機21及與該主機21電性連接之一接收器22、一顯示器24及一資料庫23,該接收器22擷取該動物消化系統酸鹼值檢測器10之射頻辨識標籤訊號及射頻訊號後輸出至該主機21。該主機21將該射頻辨識標籤訊號及記錄該生物訊號之射頻訊號予以分析,並與該資料庫23相互比較後,由該顯示器24顯示生物生理訊號如第五圖所示。由於該動物消化系統酸鹼值檢測器10具有發射該射頻辨識標籤訊號之效能,其可確保該動物消化系統酸鹼值檢測器10所輸出之訊號的單一性。因此,當該使用者50吞食超過一個該動物消化系統酸鹼值檢測器10時,負擔不同檢測功能的該動物消化系統酸鹼值檢測器10可以同時進行檢測,該接收裝置20可分別同時接收檢測結果而不相互混淆。如此,每個該動物消化系統酸鹼值檢測器10之功能可單純化而縮小尺寸,讓使用者50可便於吞嚥。The receiving device 20 includes a host 21 and a receiver 22 electrically connected to the host 21, a display 24 and a database 23, and the receiver 22 captures the radio frequency identification of the animal digestive system pH detector 10. The tag signal and the RF signal are output to the host 21. The host 21 analyzes the radio frequency identification tag signal and the radio frequency signal recording the biosignal, and compares with the database 23, and displays the biophysiological signal from the display 24 as shown in the fifth figure. Since the animal digestive system pH detector 10 has the ability to emit the radio frequency identification tag signal, it ensures the singularity of the signal output by the animal digestive system pH detector 10. Therefore, when the user 50 ingests more than one animal digestive system pH detector 10, the animal digestive system pH detector 10, which bears different detection functions, can simultaneously perform detection, and the receiving device 20 can receive simultaneously Test results without confusion. Thus, the function of each of the animal digestive system pH detectors 10 can be simplistic and reduced in size, allowing the user 50 to facilitate swallowing.
請參考第四圖,該接收裝置20可依據下列步驟完成生物訊號之檢測結果之分析與顯示檢測結果: 偵測RFID訊號:該接收裝置20讀取一個以上的該動物消化系統酸鹼值檢測器10獨有之射頻辨識標籤訊號。Referring to the fourth figure, the receiving device 20 can complete the analysis of the detection result of the biological signal and display the detection result according to the following steps: Detecting the RFID signal: The receiving device 20 reads more than one radio frequency identification tag signal unique to the animal's digestive system pH detector 10.
ID辨識:該接收裝置20辨識該射頻辨識標籤訊號。ID identification: The receiving device 20 recognizes the radio frequency identification tag signal.
正確(判斷):該接收裝置20辨識該射頻辨識標籤訊號是否正確或存在於系統,藉以判斷所擷取之訊號之必要性與正確性,當判斷結果為正確,則執行下列步驟,反之則停止由該動物消化系統酸鹼值檢測器10讀取訊號。Correct (judgment): the receiving device 20 recognizes whether the radio frequency identification tag signal is correct or exists in the system, so as to judge the necessity and correctness of the captured signal. When the judgment result is correct, the following steps are performed, otherwise, the process is stopped. The signal is read by the animal digestive system pH detector 10.
資料擷取;該接收裝置20接受每個通過射頻辨識標籤訊號判斷程序之該動物消化系統酸鹼值檢測器10所輸出之 射頻訊號。Data acquisition; the receiving device 20 receives the output of the animal's digestive system pH detector 10 through the radio frequency identification tag signal determination program. RF signal.
擷取分析資訊:該接收裝置20分析射頻訊號內部包含之生物檢測結果,並與一資料庫進行比對,找出檢測之生理狀態是否落於正常範圍,或者更進一步顯示可能之疾病徵兆。例如,可以分析胃酸之酸度、消化系統之血液濃度、溫度等等判斷是否胃酸過高、出血、發炎等等。The analysis device 20: The receiving device 20 analyzes the biological detection result contained in the RF signal, and compares it with a database to find out whether the physiological state of the detection falls within a normal range, or further displays possible disease symptoms. For example, the acidity of gastric acid, the blood concentration of the digestive system, the temperature, and the like can be analyzed to determine whether the stomach acid is too high, bleeding, inflammation, and the like.
顯示偵測結果:該接收裝置20將比較分析結果之顯示於該顯示器24。The detection result is displayed: the receiving device 20 displays the comparison analysis result on the display 24.
藉由前述說明可知,本創作具有下列特點及達成下述技術功效:As can be seen from the foregoing description, the creation has the following characteristics and achieves the following technical effects:
1.透過積體電路與奈米技術之協助,讓檢測器之體積可以縮小,可非常便於使用,且不會造成使用者或動物的痛苦。1. With the help of the integrated circuit and nano technology, the detector can be reduced in size, which is very easy to use and does not cause pain to users or animals.
2.可以同時檢測生物體內的酸鹼分布狀態、是否可能產生出血、發炎等等,藉以達到提早檢測,提早治療的技術效果。2. It can simultaneously detect the distribution of acid and alkali in the living body, whether it may produce bleeding, inflammation, etc., in order to achieve the technical effect of early detection and early treatment.
12‧‧‧生理感測器12‧‧‧ Physiological sensor
14‧‧‧電池14‧‧‧Battery
16‧‧‧主動式射頻晶片16‧‧‧Active RF chip
19‧‧‧處理器19‧‧‧ Processor
20‧‧‧接收裝置20‧‧‧ Receiving device
21‧‧‧主機21‧‧‧Host
22‧‧‧接收器22‧‧‧ Receiver
23‧‧‧資料庫23‧‧‧Database
24‧‧‧顯示器24‧‧‧ display
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