WO2022068489A1

WO2022068489A1 - Human body bioelectric marker detection device, detection system, and detection method

Info

Publication number: WO2022068489A1
Application number: PCT/CN2021/115017
Authority: WO
Inventors: 秦正星
Original assignee: 世耳医疗科技(上海)有限公司
Priority date: 2020-09-30
Filing date: 2021-08-27
Publication date: 2022-04-07
Also published as: CN113662548A

Abstract

A human body bioelectric marker detection device, detection system, and detection method, the detection device comprising a movable terminal (1), a detection module (2) being arranged inside the movable terminal (1), a detection probe (3) used for collecting human body bioelectric information being mounted on one end of the movable terminal (1), the detection probe (3) being electrically connected to the detection module (2), the detection module (2) acquiring bioelectric detection data by means of processing the human body bioelectric information of the detection probe (3), and a marking apparatus (4) used for physically marking the surface of the human skin also being mounted on the movable terminal (1); the detection system comprises the detection device and also comprises a data processing module (13), the data processing module (13) being communicatively connected to the detection module (2) by means of a communication module (14), the detection module (2) transmitting detection data to the data processing module (13) by means of the communication module (14), and the data processing module (13) acquiring human body electrical data by means of performing alternating current source demodulation processing on the detection data; the detection site can be marked in real time whilst human body bioelectric detection is implemented, effectively increasing detection efficiency.

Description

A kind of human body bioelectric label detection equipment, detection system and detection method

cross reference

This application claims the priority of the Chinese application with application number 202011061779.X filed on September 30, 2020. The contents of the aforementioned applications are incorporated herein by reference.

technical field

The invention relates to the technical field of bioelectricity detection, in particular to a detection device, a detection system and a detection method of a human body bioelectricity label.

technical background

In the process of life activities, the organs, tissues and cells of organisms will undergo changes in potential and polarity, which generate bioelectricity. It is a physical and chemical change in the process of life activities, a manifestation of normal physiological activities, and a basic feature of biological living tissue. By adding a detection probe to the outer surface of the organism, the bioelectric activity in the organism can be detected.

Extensive and complex electrical phenomena in living organisms are the reflection of normal physiological activities. Under certain conditions, in a statistical sense, bioelectricity is regular: certain physiological processes correspond to certain electrical responses. Therefore, according to the changes of bioelectricity, it can be inferred whether the physiological process is in a normal state, such as the detection of bioelectrical information such as electrocardiogram, electroencephalogram, and electromyogram.

In the 1950s, Yoshio Nakagu in Japan discovered that the skin on the surface of acupoints has the characteristics of low resistance and high potential. Further research found that the resistance and conductivity characteristics of meridian points are biophysical indicators that can reflect the objectivity of the meridian system. For example, the electrical impedance of the meridians of healthy human body is bilaterally symmetrical, while the electrical impedance of the bilateral meridians of patients is obviously unbalanced. The imbalance of bilateral meridian impedance from left to right, external and internal imbalances are generally related to the pathological changes of viscera and meridians. The viscera and meridians involved in abnormal electrical conductivity (or resistance) may have a specific correlation with disease transmission. (Liu Lili et al., Observation on the correlation between the changes in the body surface electrical conductivity of Twelve Yuan acupoints and the zang-fu meridians in patients with brain tumors, Chinese Journal of Basic Medicine of Traditional Chinese Medicine, 2009, 15(11)857-860.)

Collecting bioelectricity from acupuncture points is mainly used to measure electrical resistance. It has been used in the world and China for decades. Scientific experiments and clinical trials have proven that lesions in the human body will show abnormal electrical resistance on the body surface. resistance drops. Germany and Japan have leading research. In China, the point where the resistance drops is called the "good guide point". The method of finding the corresponding sick body part by detecting the part where the resistance becomes lower is also called the "good guide method".

In the existing bioelectricity-related fields, there are almost no medical devices that are widely used to detect bioelectricity. Most of the existing devices have the function of simply detecting the resistance of the body surface. It lacks the function of marking the detection site. Each test is performed continuously by a single person, which is very tiring. It is impossible to separate diagnosis and treatment, and it is impossible to mark and record the detection position, which affects the detection efficiency and detection accuracy, and also greatly increases. It increases the workload of operators and makes it difficult to popularize.

Therefore, it is necessary to provide a new type of human bioelectric marker detection equipment, detection system and detection method to solve the above problems existing in the prior art.

Summary of Invention

The purpose of the present invention is to provide a detection device, a detection system and a detection method for human bioelectricity labeling, which can mark the detection site in real time while detecting the human body bioelectricity, thereby improving the detection efficiency.

In order to achieve the above purpose, the human body bioelectricity marker detection device of the present invention includes a movable terminal, a detection module is arranged inside the movable terminal, and one end of the movable terminal is installed with a device for collecting human body bioelectricity information. The detection probe is electrically connected to the detection module, and the detection module obtains detection data by processing the human body bioelectricity information of the detection probe. A marking device that physically marks the surface.

The beneficial effect of the present invention is that: the human body bioelectricity information is collected by the detection probe of the detection device, and the human body bioelectricity information is analyzed and processed through the detection module inside the mobile terminal to obtain the human body bioelectricity detection data, so as to complete the detection of the human body. In the detection process of bioelectricity, in the process of detection, the detection part of the detection probe is marked in real time through the marking device, so as to accurately record the detection part of human bioelectricity, which is convenient and accurate to understand the detection situation of different parts of the human body, which greatly improves the detection efficiency.

Further, the marking device is movably installed on the movable terminal. The beneficial effect is that the marking device is movably installed on the movable terminal, and the position of the marking device can be flexibly changed during use, so as to meet the use requirements under different conditions.

Further, the movable terminal is provided with a storage slot, one end of the storage slot penetrates the surface of the movable terminal, the surface of the movable terminal is provided with a sliding opening slot, and the sliding opening slot is connected to the interior of the storage slot. The outer wall of the marking device is connected with a sliding plate through a connecting plate, and the end of the marking device facing the movable terminal is connected with the end of the receiving slot through a telescopic rod, and the position of the sliding plate is adjusted to Change the position of the marking device. The beneficial effect is that the telescopic rod is retracted by pushing the sliding plate, so as to push the marking device to telescopically move inside the sliding opening slot, so as to realize the activity adjustment of the marking device inside the movable terminal, and the marking device is pushed out when in use, and the marking device is pushed out when not in use. The marking device is retracted for more convenient use.

Further, a locking device is connected to the sliding plate, and the sliding plate is fixedly connected to the movable terminal through the locking device. The beneficial effect is that after the sliding plate is slid to adjust the position of the marking device, the sliding plate and the marking device are fixed, so as to facilitate marking and realize free movement and fixed adjustment.

Further, the mobile terminal is further provided with a camera device for capturing an image of the human body part to be detected by the detection device. The beneficial effect is that when performing bioelectricity on the human body, not only the marking device is used for marking processing, but also the image of the detection part of the human body is captured by the camera device, so as to accurately record the detection position.

Further, the movable terminal is also provided with an illumination device for illuminating the body part to be detected of the detection device. The beneficial effect is that: when the detection device performs bioelectric detection on the human body part, the detected human body part is illuminated by the lighting device, which not only facilitates the quick and accurate finding of the position of the human body tissue, but also improves the brightness of the human body detection part, which is convenient for the operator to carry out the detection. Detection operation.

Further, the movable terminal is further provided with an environment collection module for collecting external environment information, and the environment collection module is electrically connected with the detection module. The beneficial effect is that the external environment information is collected through the environment collecting module, so as to facilitate the judgment of the influence of the external environment on the detection result.

Further, the external environment information includes at least one of air pressure information, temperature information, and humidity information, and the environment acquisition module includes at least one of an air pressure sensor, a temperature sensor, and a humidity sensor.

Further, the end of the detection probe is provided with a pressure sensor, and the pressure sensor is electrically connected to the detection module. The beneficial effects are: by detecting the pressure at the end of the detection probe, it is convenient to know the pressure when the detection probe acts on the surface of the human skin, and it is convenient to precisely control the force.

Further, the movable terminal is further provided with a broadcasting device for broadcasting the detection data, and the broadcasting device is electrically connected with the detection module. The beneficial effect is that the detection result of the mobile terminal is broadcasted by the broadcast device, which is convenient for the detection personnel to know the detection result and state more accurately.

The present invention also provides a human body bioelectrical marker detection system, including the above-mentioned human body bioelectrical marker detection device, and a data processing module, the data processing module is communicatively connected to the detection module through a communication module, and the detection module The detection data is transmitted to the data processing module through the communication module, and the data processing module obtains the human body electrical data by performing AC source demodulation processing on the detection data.

The beneficial effect of the present invention is that: after the bioelectricity detection is performed on the human body part by the above-mentioned detection device to obtain the detection data, the detection data is processed by the AC source demodulation method through the data processing module to obtain the accurate human body electricity data quickly, which effectively improves the Detection efficiency and accuracy of detection results.

Further, the human body electrical data includes at least one of potential information, resistance information and capacitance information. The beneficial effect is that, while detecting and marking the human body, multi-parameter detection of human bioelectricity can be realized through the above detection system, so as to meet different human body bioelectricity detection requirements.

Further, the data processing module is also electrically connected with a generation module, and the generation module generates a detection report according to the human body electrical data processed by the data processing module. The beneficial effect is that: after the data processing module processes and obtains the human body electrical data, a detection report is generated and output from the detected human body electrical data through the generating module, so that the operator can quickly and accurately know the human body bioelectricity detection result.

Further, the data processing module and the movable terminal are provided separately or integrally. The beneficial effect is that the data processing module and the movable terminal are installed in different ways according to the requirements, so as to be suitable for different detection applications.

Further, the data processing module includes a host computer or an embedded system. The beneficial effect is that the detection data is processed by the upper computer or the embedded system to meet different usage requirements.

The present invention further provides a method for detecting human bioelectric markers, comprising the following steps:

S1. Contact the detection probe of the mobile terminal with the surface of the human body to collect bioelectrical information of the human body;

S2, processing the human bioelectricity information through the detection module to obtain detection data;

S3. The detection module transmits the detection data to a data processing module through a communication module, and processes the detection data through the data processing module to obtain human body electrical data;

S4. Determine whether the electrical data of the human body is abnormal, and physically mark the detection part of the human body corresponding to the electrical data of the abnormal human body by a marking device.

The beneficial effect of the present invention is: after processing the detection data obtained by the detection module of the mobile terminal through the data processing module of the detection system, it is determined whether the detected human body electrical data is normal, and at the same time, the abnormal human body electrical data is corresponding to the abnormal human body electricity data through the marking device. The detection part of the human body is marked, which is convenient for the subsequent re-detection process.

Description of drawings

Fig. 1 is the national standard diagram of auricular point according to the embodiment of the present invention;

FIG. 2 is a schematic diagram of an overall structure of a mobile terminal according to an embodiment of the present invention;

3 is an enlarged structural schematic diagram of A in FIG. 2 according to an embodiment of the present invention;

4 is a schematic cross-sectional structural diagram of a marking device according to an embodiment of the present invention;

5 is a block diagram of the composition of a detection system according to an embodiment of the present invention;

FIG. 6 is a schematic flowchart of a detection method according to an embodiment of the present invention.

SUMMARY OF THE INVENTION

In order to make the purpose, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention. Obviously, the described embodiments are a part of the present invention. examples, but not all examples. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention. Unless otherwise defined, technical or scientific terms used herein should have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. As used herein, "comprising" and similar words mean that the elements or things appearing before the word encompass the elements or things recited after the word and their equivalents, but do not exclude other elements or things.

Aiming at the problems existing in the prior art, the embodiments of the present invention provide a human body bioelectricity marker detection device, a detection system and a detection method. While realizing rapid detection of human body bioelectricity, the detection part can be detected in real time through the labeling device. The quick marking is convenient for accurately recording the detection position of the human body, which facilitates further detection of the detection position of the mark in the follow-up, and improves the detection efficiency.

It should be noted that the solution of the present application is applied to the detection of human body bioelectricity, including the detection of various parts of the human body. Specific instructions.

Among the various parts of the human body surface, the auricle is the reflection projection area of the organs, limbs and nerves of the human body, and correspondingly, the auricle is also the concentration point of acupuncture points. The national icon of auricular points is shown in Figure 1. Each internal organ and body part of the human body has corresponding projection points on the auricle.

As shown in FIG. 2 , FIG. 3 and FIG. 4 , as shown, the present invention provides a human body bioelectrical marker detection device, including a mobile terminal 1 , and a detection module 2 is provided inside the mobile terminal 1 , and the One end of the mobile terminal 1 is installed with a detection probe 3 for collecting human bioelectricity information, the detection probe 3 is electrically connected to the detection module 2 , and the detection module 2 processes the human body bioelectricity information of the detection probe 3 . In order to obtain detection data, a marking device 4 for physically marking the human body is also installed on the mobile terminal 1 .

The entire mobile terminal 1 collects the human body bioelectricity information on the surface of the human skin through the detection probe 3, and transmits the human body bioelectricity information to the detection module 2 for detection processing, thereby obtaining the detection data of the human body bioelectricity. The detection position of human bioelectricity is physically marked by the marking device 4, so that some parts of the human body with abnormal detection data are marked and recorded, which is convenient for subsequent recording and re-detection of abnormal parts, effectively improving the detection efficiency and detection accuracy. The magnitude reduces the workload of manual detection.

During the specific operation, the detection probe 3 of the mobile terminal 1 collects the bioelectrical information of the human body in real time, and analyzes and processes the detection data through the detection module 2 to obtain the detection data, and judges whether the detection result is abnormal according to the detection data. Move the marking device 4 to the detection position of the detection probe 3, and physically mark the current detection position through the marking device 4, so as to record the specific information of the current position, so as to complete the recording process of different detection positions, and it is also convenient for subsequent replacement. After the operator, the previous detection result can also be identified by the marked position, thereby greatly reducing the workload of the detection process.

In some embodiments, the marking device 4 is movably installed on the movable terminal 1, and the marking device 4 is movably installed on the movable terminal 1, so that the position of the marking device 4 can be adjusted freely, and the marking device 4 can be freely adjusted when needed. When marking is required, the marking device 4 is put away when not in use, which is also convenient for the entire mobile terminal 1 to detect human bioelectricity.

In some embodiments, the mobile terminal 1 is provided with a receiving groove 5, one end of the receiving groove 5 penetrates the surface of the mobile terminal 1, and the surface of the mobile terminal 1 is provided with a sliding opening groove 6, the The sliding opening slot 6 is connected to the inside of the receiving slot 5 , the outer wall of the marking device is connected with the sliding plate 8 through the connecting plate 7 , and the end of the marking device 4 facing the movable terminal 1 is connected to the other end through the telescopic rod 9 . The ends of the receiving grooves 5 are connected, and the position of the marking device 4 can be changed by adjusting the position of the sliding plate 8 .

Specifically, in a normal state, the marking device 4 is located inside the receiving slot 5, so that the end position of the marking device 4 does not exceed the end position of the detection probe 3, so that the detection probe 3 of the mobile terminal 1 can perform normal detection on the human skin surface. , when the mobile terminal 1 detects that the detection data of human bioelectricity is in an abnormal state, the inspector pushes the sliding plate 8 by hand, so that the sliding plate 8 moves on the top of the sliding opening groove 6, because the connecting plate 7 and the marking device 4 connected, and the marking device 4 is connected with the end of the storage slot 5 through the telescopic rod 9, so that the telescopic rod 9 is moved to the outside through the connecting plate 7, so that the marking device 4 is pulled out from the inside of the storage slot 5, so that the marking device 4. Physically mark the human body to record the detection position of abnormal or special detection data.

In some embodiments, in order to prevent the marking device 4 from loosening during marking, the sliding plate 8 is connected with a locking device 10 , and the sliding plate 8 is connected to the mobile terminal 1 through the locking device 10 . Fixed connection, when the marking device 4 slides out of the receiving slot 5 to mark the human body detection part, the sliding plate 8 and the outer surface of the mobile terminal 1 are fixed together by the locking device 10, so as to facilitate the stable alignment of the marking device 4. After the marking device 4 completes the marking, when the marking device 4 does not need to be used, the locking device 10 is opened to separate the sliding plate 8 from the surface of the mobile terminal 1, and the sliding plate 8 is pushed to re-receive the marking device 4 into the storage. Inside the slot 5 for the next use.

Further, the locking device 10 includes a buckle 1001 connected to the surface of the sliding plate 8, and the surface of the movable terminal 1 is provided with two rows of grooves 1002 respectively located on both sides of the sliding opening slot 6, and the marking device 4 needs to be fixed. When pressing the buckle 1001 to insert the buckle 1001 into the groove 1002 at the corresponding position, the sliding plate 8 and the surface of the movable terminal 1 can be fixed together; and when the marking device 4 needs to be released, pull the buckle 1001 Pull the buckle 1001 out of the groove 1002 to separate the sliding plate 8 from the movable terminal 1 , so as to facilitate the position adjustment of the marking device 4 .

Preferably, the marking device 4 in the above-mentioned embodiment adopts a marking pen, including at least one of a fluorescent marking pen, a carbon ink marking pen and a gentian violet marking pen, either a single marking pen or a plurality of marking pens can be used The combination of pens is used to distinguish different marking positions, which is selected according to the actual situation, which is not particularly limited in the solution of the present application.

Further, the marking device 4 in the solution of the present application is mainly used to physically mark the detection part on the surface of the human body. Any device that can be used to mark the surface of the human body in the prior art can be applied to this technical solution, and this solution does not make any changes to this. Restrictions are not repeated here.

In some embodiments, the mobile terminal 1 is further provided with a camera 101 for capturing an image of the body part to be detected by the detection device. When the mobile terminal 1 detects the bioelectric data of the human body, the The camera device 101 collects image information of the human body detection position, so as to more accurately record the real state of the human body detection position, so that the inspector can more accurately understand the specific situation of the current human body detection position, and it is also convenient for subsequent human body detection through image information and detection data. Location to judge the situation.

Preferably, the camera device 101 in this embodiment adopts an infrared camera.

In some embodiments, the movable terminal 1 is further provided with a lighting device 102 for illuminating the human body part to be detected by the detection device. 102 illuminates the detection part of the human body, which is convenient for the operator to collect the bioelectric information of the human body through the detection probe 3, which is convenient for the operator to use.

Specifically, when the detection probe 3 collects the bioelectric information of the human ear acupuncture points, the illumination device 102 is used for lighting, which effectively enhances the light. For some local positions of the ear acupuncture points, the mobile terminal 1 can detect more accurately.

Preferably, the lighting device 102 in this embodiment adopts an LED lamp.

In some embodiments, the movable terminal 1 is further provided with an environment collection module 103 for collecting external environment information, the environment collection module 103 is electrically connected with the detection module 2, and the movable The terminal 1 obtains the data of the external environment information from the surrounding external environment information during detection, so as to judge the influence of the external environment on the accuracy of the detection data detected by the mobile terminal 1, thereby improving the accuracy of the detection data.

In some embodiments, the external environment information includes at least one of air pressure information, temperature information, and humidity information, and the environment acquisition module includes at least one of an air pressure sensor 1031, a temperature sensor 1032, and a humidity sensor 1033. The air pressure sensor 1031, the temperature sensor 1032 and the humidity sensor 1033 collect air pressure information, temperature information and humidity information respectively, so as to realize accurate detection of the external environment.

In some embodiments, the end of the detection probe 3 is provided with a pressure sensor 11, and the pressure sensor 11 is electrically connected to the detection module 2. When the detection probe 3 acts on the surface of the human skin to collect human bioelectrical information During the process, the pressure information of the detection probe 3 acting on the human skin surface is collected by the pressure sensor 11, so as to accurately understand the pressure of the detection probe 3 on the human skin surface, which is convenient for the operator to apply appropriate pressure to the human skin surface, and improves the detection process. safety.

In some embodiments, the portable terminal 1 is further provided with a broadcasting device 12 for broadcasting detection data, the broadcasting device 12 is electrically connected to the detection module 2 , and the portable terminal 1 detects human bioelectricity and obtains detection. After the data, the detection data is broadcast in the form of voice through the broadcast device 12, which facilitates the operator to quickly understand the detection data and the current detection state, and improves the operation efficiency.

Specifically, the broadcasting device 12 in this embodiment includes a speaker.

It should be noted that the above-mentioned camera device 101 , lighting device 102 , environment acquisition module 103 , pressure sensor 11 and broadcast device 12 are all electrically connected to the control device built in the detection module 2 , and the environment acquisition module 103 is acquired through the detection module 2 . and the data of the pressure sensor 11, and control the state of the camera device 101, the lighting device 102 and the broadcasting device 12 respectively, and realize the automatic control of the whole detection equipment.

Further, the detection module 2 processes the human body bioelectricity information through the detection circuit to obtain the detection data of the human body bioelectricity, and the detection circuit adopted includes the human body bioelectricity detection circuit in the prior art. , and will not be repeated here.

In the bioelectric detection equipment in the prior art, the operator can only operate vaguely or not to operate the instrument, and the labor intensity of the doctor is extremely large. The objects are separated for diagnosis and treatment, and different professionals are handed over according to the process to meet the needs of use in different occasions, which greatly facilitates the use of operators and improves the detection efficiency.

As shown in FIG. 5 , the present invention also provides a human body bioelectrical marker detection system, including the above-mentioned human body bioelectrical marker detection device, and a data processing module 13 , and the data processing module 13 communicates with the human body through the communication module 14 . The detection module 2 is connected in communication, the detection module 2 transmits the detection data to the data processing module 13 through the communication module 14, and the data processing module 13 performs AC source demodulation processing on the detection data to obtain The body electrical data is obtained.

After the above-mentioned detection equipment detects the human body surface and obtains the detection data, in order to obtain more accurate human body electrical data, the data processing module 13 performs secondary processing on the detection data, so that the final result can be obtained more quickly and accurately, and the detection equipment can be more sensitive to the human body. The accuracy of the test results of the electrical data.

Specifically, after the detection module 2 of the detection device detects and obtains the detection data of human bioelectricity, the detection data is transmitted to the data processing module 13 through the communication module 14, and the detection data is processed by the data processing module 13 using the AC source demodulation method, Thereby, the final human body electrical data is obtained, so as to realize the rapid and efficient detection process of human bioelectricity.

Further, the communication module 14 includes at least one of a wired interface and a wireless interface, the wired interface includes at least one of a network cable interface, a USB interface, and a Turbo C interface, and the wireless interface includes a Bluetooth interface and a WIFI interface. , at least one of infrared interfaces.

In some embodiments, the human body electrical data includes at least one of potential information, resistance information, and capacitance information, and the detection system can individually detect one of the human body's potential, resistance, or capacitance bioelectric data, or It can detect a variety of potential information, resistance information and capacitance information, realize multi-parameter detection of human bioelectricity, and meet different detection requirements.

In some embodiments, the data processing module 13 is also electrically connected with a generation module 15 , and the generation module 15 generates a detection report according to the human body electrical data processed by the data processing module 13 , and obtained from the data processing module 13 After the human body electrical data is generated, the generating module 15 generates a detection report according to the final result of the human body electrical data, so that the testing personnel can directly observe the testing results and know the details.

Further, the generating module 15 is connected to an external printer through a communication network, so as to print out the generated detection report in paper form through the printer for easy reference.

In some embodiments, the data processing module 13 is provided separately from the mobile terminal 1 or is provided integrally, so as to meet usage requirements under different conditions.

In some embodiments, the data processing module 13 includes a host computer or an embedded system.

As shown in Figure 6, the present invention further provides a method for detecting human bioelectric markers, comprising the following steps:

Through the above detection method, after the mobile terminal 1 detects the bioelectrical data of the human body to obtain the detection data, the data processing module 13 processes the detected data to obtain the final human body electrical data, and judges whether the human body electrical data is abnormal or not. The abnormal position of the electrical data of the human body is physically marked by the marking device 4, so that the abnormal position can be recorded quickly and the previous detection situation can be traced later.

Although the embodiments of the present invention have been described in detail above, it will be apparent to those skilled in the art that various modifications and changes can be made to these embodiments. However, it should be understood that such modifications and changes are within the scope and spirit of the invention as set forth in the appended claims. Furthermore, the invention described herein is capable of other embodiments and of being practiced or carried out in various ways.

Claims

A human body bioelectric marker detection device is characterized in that it includes a movable terminal, a detection module is arranged inside the movable terminal, and a detection probe for collecting human body bioelectric information is installed at one end of the movable terminal, and the The detection probe is electrically connected to the detection module, the detection module obtains detection data by processing the human body bioelectricity information of the detection probe, and the movable terminal is also equipped with a mark for physically marking the surface of the human skin device.
The human body bioelectrical marker detection device according to claim 1, wherein the marker device is movably installed on the movable terminal.
The human body bioelectricity detection device according to claim 2, wherein a receiving groove is provided on the movable terminal, one end of the receiving groove penetrates through the surface of the movable terminal, and the surface of the movable terminal is provided with a sliding an opening slot, the sliding opening slot is in communication with the interior of the storage slot, the outer wall of the marking device is connected with a sliding plate through a connecting plate, and the end of the marking device facing the movable terminal is connected to the storage slot through a telescopic rod The slot ends are connected to change the position of the marking device by adjusting the position of the sliding plate.
The human body bioelectricity detection device according to claim 3, wherein a locking device is connected to the sliding plate, and the sliding plate is fixedly connected to the movable terminal through the locking device.
The human body bioelectric marker detection device according to claim 1, wherein the movable terminal is further provided with a camera device for capturing an image of the human body part to be detected by the detection device.
The human body bioelectric marker detection device according to claim 1, wherein the movable terminal is further provided with an illumination device for illuminating the body part to be detected of the detection device.
The human body bioelectric marker detection device according to claim 1, wherein the movable terminal is further provided with an environment collection module for collecting external environment information, and the environment collection module is electrically connected to the detection module.
The human body bioelectric marker detection device according to claim 7, wherein the external environment information includes at least one of air pressure information, temperature information and humidity information, and the environment acquisition module includes an air pressure sensor, a temperature sensor and At least one of the humidity sensors.
The human body bioelectric marker detection device according to claim 1, wherein a pressure sensor is provided at the end of the detection probe, and the pressure sensor is electrically connected to the detection module.
The human body bioelectric marker detection device according to claim 1, wherein the movable terminal is further provided with a broadcasting device for broadcasting the detection data, and the broadcasting device is electrically connected to the detection module.
A human body bioelectrical marker detection system, comprising the human body bioelectrical marker detection device according to any one of the above claims 1 to 10, characterized in that, further comprising a data processing module, the data processing module communicates with the human body through a communication module The detection module is connected in communication, and the detection module transmits the detection data to the data processing module through the communication module, and the data processing module obtains the human body electricity by performing AC source demodulation processing on the detection data. data.
The human body bioelectrical marker detection system according to claim 11, wherein the human body electrical data includes at least one of potential information, resistance information and capacitance information.
The human body bioelectrical marker detection system according to claim 11, wherein the data processing module is further electrically connected with a generation module, and the generation module generates detection according to the human body electrical data processed by the data processing module. Report.
The human body bioelectrical marker detection system according to claim 11, wherein the data processing module and the movable terminal are provided separately or integrally.
The human body bioelectrical marker detection system according to any one of claims 11 to 14, wherein the data processing module comprises a host computer or an embedded system.
A human body bioelectrical marker detection method is characterized in that, comprises the following steps:

S1. Contact the detection probe of the mobile terminal with the surface of the human body to collect bioelectrical information of the human body;

S2, processing the human bioelectricity information through the detection module to obtain detection data;

S3. The detection module transmits the detection data to a data processing module through a communication module, and processes the detection data through the data processing module to obtain human body electrical data;

S4. Determine whether the human body electrical data is abnormal, and physically mark the human body detection part corresponding to the abnormal human body electrical data through a marking device