TWM465889U - PH detector for animal and system thereof - Google Patents

Abstract

The present invention is related to aPH detecting system for animal having a detector and a receiver. The detector is swallowed by an animal, is moving inside the animal smoothly and is detecting PH value inside the animal continuously. The detector transmits the PH value continuously to the receiver so that the receiver may locate abnormal area inside the animal.

Description

Animal digestive system pH detector and system thereof

This creation is a pH detector, especially for a detector that can enter the digestive system and perform immediate detection.

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.

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.

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.

Wherein the physiological sensor senses a temperature.

Wherein the physiological sensor senses a blood content.

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.

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.

Wherein the physiological sensor senses a temperature.

Wherein the physiological sensor senses a blood content.

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.

As can be seen from the foregoing description, the creation has the following characteristics and achieves the following technical effects:

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. 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‧‧‧An animal digestive system pH detector

12‧‧‧ Physiological sensor

13‧‧‧Biocompatible coat

14‧‧‧Battery

16‧‧‧Active RF chip

19‧‧‧ Processor

20‧‧‧ Receiving device

21‧‧‧Host

22‧‧‧ Receiver

23‧‧‧Database

24‧‧‧ display

50‧‧‧Users

52‧‧‧Digestive system

The first figure is a schematic diagram of the system of the preferred embodiment of the present invention.

The second figure is a schematic diagram of the use of the preferred embodiment of the present invention.

The third figure is a partial cross-sectional view of a preferred embodiment of the present invention.

The fourth figure is a schematic diagram of the usage flow of the preferred embodiment of the present invention.

The fifth figure is a schematic diagram of the test results of the preferred embodiment of the present invention.

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.

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. .

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.

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.

The battery 14 provides the power required to operate the internal electronic components of the animal's digestive system pH detector 10.

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.

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.

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.

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 identification: The receiving device 20 recognizes the radio frequency identification tag signal.

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.

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.

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.

The detection result is displayed: the receiving device 20 displays the comparison analysis result on the display 24.

As can be seen from the foregoing description, the creation has the following characteristics and achieves the following technical effects:

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. 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‧‧‧ Physiological sensor

14‧‧‧Battery

16‧‧‧Active RF chip

19‧‧‧ Processor

20‧‧‧ Receiving device

21‧‧‧Host

22‧‧‧ Receiver

23‧‧‧Database

24‧‧‧ display

Claims (8)

An animal digestive system pH detector comprising 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. As a result, the radio frequency signal is wirelessly outputted to an external receiving device; the battery provides power required for the internal electronic components of the animal's digestive system pH detector; and the processor controls Physiological 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. The animal digestive system pH detector according to claim 1, wherein the physiological sensor senses a temperature. The animal digestive system pH detector according to claim 1 or 2, wherein the physiological sensor senses a blood content. An animal digestive system pH detecting system comprising an animal digestive system pH detector and a receiving device, wherein the animal digestive system pH detector is swallowed by an animal into the digestive system and immediately detects the digestive system The pH value of the animal digestive system pH detector converts the detection result into an RF signal output and outputs an RF identification tag signal to the receiving device, and the receiving device analyzes the RF signal and displays the detection result. The animal digestive system pH value detecting system according to claim 4, wherein the animal digestive system pH value detector comprises a biocompatible outer casing and a physiological sensor coated in the biocompatible outer casing. 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 resistant The etched material has 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 partially disposed The surface of the biocompatible outer casing is used for sensing a pH value to output the sensing result to the processor; the active RF chip is a radio frequency identification tag chip for independently outputting an RFID tag signal and an RF signal. Receiving control of the processor, wirelessly outputting the sensing result of the physiological sensor to the receiving device by using the RF signal; the battery provides the animal pH value detector of the digestive system The power required for the operation of the internal electronic component; and the processor controls the physiological sensor to sense the biological signal and drive the The active RF chip outputs a physiological sensing result converted into an RF signal to the receiving device. The animal digestive system pH detecting system according to claim 5, wherein the physiological sensor senses a temperature. The animal digestive system pH detecting system according to claim 5 or 6, wherein the physiological sensor senses a blood content. The animal digestive system pH detection system according to claim 7, wherein the receiving device comprises a host and a receiver electrically connected to the host, a display and a database, wherein the receiver captures the The radio frequency identification tag signal and the radio frequency signal of the animal digestive system pH value detector are output to the host, and the host analyzes the radio frequency identification tag signal and the radio frequency signal recording the biosignal, and compares with the database. The biophysiological signal and health status are displayed by the display.