阅读说明：本技术 一种人体生物电标记检测设备、检测系统及检测方法 (Human body bioelectricity mark detection equipment, detection system and detection method ) 是由 秦正星 于 2021-08-20 设计创作，主要内容包括：本发明提供了一种人体生物电标记检测设备、检测系统及检测方法,检测设备包括可移动终端,可移动终端内部设置有检测模块,可移动终端的一端安装有用于采集人体生物电信息的检测探头,检测探头与检测模块电连接,检测模块通过对检测探头的人体生物电信息处理以获得生物电的检测数据,可移动终端上还安装有用于对人体皮肤表面进行物理标记的标记装置,检测系统包括检测设备,还包括数据处理模块,数据处理模块通过通信模块与检测模块通信连接,检测模块通过通信模块将检测数据传输至数据处理模块,数据处理模块通过对检测数据进行交流源解调处理以获得人体电数据,本发明在对人体生物电进行检测的同时,能够实时标记检测部位,有效提高了检测效率。(The invention provides a human body bioelectricity mark detection device, a detection system and a detection method, wherein the detection device comprises a movable terminal, a detection module is arranged in the movable terminal, one end of the movable terminal is provided with a detection probe for collecting human body bioelectricity information, the detection probe is electrically connected with the detection module, the detection module processes the human body bioelectricity information of the detection probe to obtain bioelectricity detection data, the movable terminal is also provided with a marking device for physically marking the skin surface of a human body, the detection system comprises the detection device and a data processing module, the data processing module is in communication connection with the detection module through a communication module, the detection module transmits the detection data to the data processing module through the communication module, the data processing module demodulates the detection data through an alternating current source to obtain the human body bioelectricity data, the invention can mark the detection part in real time while detecting the bioelectricity of the human body, thereby effectively improving the detection efficiency.)

1. The utility model provides a human bioelectricity mark check out test set, its characterized in that, includes mobile terminal, the inside detection module that is provided with of mobile terminal, but mobile terminal's one end is installed and is used for gathering human bioelectricity information's test probe, test probe with the detection module electricity is connected, detection module is through right test probe's human bioelectricity information processing is in order to obtain detected data, but still install on the mobile terminal and be used for carrying out the mark device of physical mark to human skin surface.

2. The human body bioelectrical marker detection device according to claim 1, wherein said marker means is movably mounted on said movable terminal.

3. The human body bioelectricity detection apparatus as claimed in claim 2, wherein the movable terminal is provided with a receiving slot, one end of the receiving slot penetrates through a surface of the movable terminal, the surface of the movable terminal is provided with a sliding open slot, the sliding open slot is communicated with an inner portion of the receiving slot, an outer wall of the marking device is connected with a sliding plate through a connecting plate, one end of the marking device facing the movable terminal is connected with an end portion of the receiving slot through a telescopic rod, and a position of the marking device is changed by adjusting a position of the sliding plate.

4. The human body bioelectricity detection apparatus as claimed in 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.

5. The human body bioelectrical mark detection apparatus according to claim 1, wherein said movable terminal is further provided with a camera device for taking an image of a human body part to be detected of said detection apparatus.

6. The human body bioelectrical mark detection apparatus according to claim 1, wherein an illumination device for illuminating a part of the human body to be detected of the detection apparatus is further provided on the movable terminal.

7. The human body bioelectrical mark detection device according to claim 1, wherein an environment acquisition module for acquiring external environment information is further provided in the mobile terminal, and the environment acquisition module is electrically connected to the detection module.

8. The human body bioelectrical 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 collection module includes at least one of an air pressure sensor, a temperature sensor and a humidity sensor.

9. The human body bioelectrical marker detection device according to claim 1, wherein a pressure sensor is provided at an end of the detection probe, and the pressure sensor is electrically connected to the detection module.

10. The human body bioelectricity mark detection device according to claim 1, characterized in that a broadcast device for broadcasting detection data is further provided on the mobile terminal, and the broadcast device is electrically connected to the detection module.

11. A human body bioelectrical mark detection system comprising the human body bioelectrical mark detection device according to any one of claims 1 to 10, further comprising a data processing module, wherein the data processing module is communicatively connected to the detection module via a communication module, the detection module transmits the detection data to the data processing module via the communication module, and the data processing module performs ac source demodulation processing on the detection data to obtain the human body electric data.

12. 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.

13. 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 a detection report according to the human body electric data processed by the data processing module.

14. The human body bioelectrical tag detection system according to claim 11, wherein said data processing module is provided separately from or integrally with said movable terminal.

15. 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.

16. A human body bioelectricity mark detection method is characterized by comprising the following steps:

s1, contacting the detection probe of the movable terminal with the surface of the human body to acquire the bioelectrical information of the human body;

s2, processing the human body bioelectricity information through a detection module to obtain detection data;

s3, the detection module transmits the detection data to a data processing module through a communication module, and the data processing module processes the detection data to obtain human body electricity data;

and S4, judging whether the human body electrical data are abnormal or not, and physically marking the human body detection part corresponding to the abnormal human body electrical data through a marking device.

Technical Field

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

Background

During the life activity, the organs, tissues and cells of the living beings have the potential and polarity change, so that the bioelectricity is generated. It is a physical and chemical change in the course of life activity, is the manifestation of normal physiological activity, and is also a basic characteristic of living tissue. The bioelectrical activity in the organism can be detected by adding a detection probe on the external surface of the organism.

The wide and complicated electrical phenomena in the organism are the reflection of normal physiological activities, and under certain conditions, the bioelectricity is regular in a statistical sense: certain physiological processes correspond to certain electrical responses. Therefore, whether the physiological process is in a normal state or not can be deduced according to the bioelectricity change, such as detection of bioelectricity information of electrocardiogram, electroencephalogram, electromyogram and the like.

In 20 th century and 50 th era, the fact that the skin on the surface of the acupuncture point has low resistance and high potential was discovered in Japan. Further research shows that the resistance and conductivity of the channels and acupoints are biophysical indexes reflecting the objectivity of the meridian system. For example, the electrical impedance of the meridians of a healthy human body is bilaterally symmetrical, while the electrical impedance of the meridians on both sides of the patient is significantly unbalanced. Bilateral imbalance of meridian impedance, exterior-interior imbalance and visceral and meridian pathological changes have general correlation, and viscera and meridians involved in abnormal conduction (or resistance) may have specific correlation with disease transmission. (Liuli et al, observation of correlation between the change of body surface conductivity of twelve primary points of brain tumor patients and viscera and meridians, Chinese journal of basic medicine, 2009, 15(11) 857-once drug 860.)

The bioelectricity of the acupuncture point is mainly collected to measure the resistance at present, and has been proved by scientific experiments and clinic in the world and China for decades, and the pathological changes of the human body show abnormal resistance on the body surface, mainly obvious resistance reduction. In germany and japan, the former type of research is called "good conducting point" in China as a point where the resistance decreases, and a method of detecting a portion where the resistance decreases to find a corresponding diseased human body portion is also called "good conducting method".

Present bioelectricity related field, almost not widely used for detecting the medical instrument of bioelectricity, current equipment mostly has the function of simply detecting body surface resistance, when detecting "good guide point", the sound production is reminded, but lack the function of carrying out the mark to the detection position, detect at every turn and all be alone one continuous operation, it is very tired, can't realize diagnosis and treatment separation, also can not carry out mark and record to the detection position, influence the accuracy of detection efficiency and detection, operating personnel's work load has also greatly increased, lead to being difficult to the popularization.

Therefore, there is a need to provide a novel human body bioelectrical marker detection apparatus, a detection system and a detection method to solve the above-mentioned problems in the prior art.

Disclosure of Invention

The invention aims to provide human body bioelectricity mark detection equipment, a detection system and a detection method, which can mark a detection part in real time while detecting human body bioelectricity and improve the detection efficiency.

In order to achieve the above purpose, the human body bioelectricity mark detection device of the invention comprises a movable terminal, wherein a detection module is arranged in the movable terminal, one end of the movable terminal is provided with a detection probe for collecting human body bioelectricity information, the detection probe is electrically connected with the detection module, the detection module processes the human body bioelectricity information of the detection probe to obtain detection data, and the movable terminal is also provided with a marking device for physically marking the surface of human body skin.

The invention has the beneficial effects that: human bioelectricity information is collected through a detection probe of the detection equipment, detection data of human bioelectricity are obtained after analysis processing is carried out on the human bioelectricity information through a detection module inside the movable terminal, so that the detection process of the human bioelectricity is completed, in the detection process, real-time marking is carried out on the detection part of the detection probe through a marking device, the detection part of the human bioelectricity is accurately recorded, the detection conditions of different parts of a human body are conveniently and accurately known, and the detection efficiency is greatly improved.

Further, the marking device is movably mounted on the movable terminal. The beneficial effects are that: the marking device is movably arranged on the movable terminal, and the position of the marking device can be flexibly changed when the marking device is used, so that the use requirements under different conditions are met.

Furthermore, be provided with on the mobile terminal and accomodate the groove, accomodate groove one end and run through the mobile terminal surface, the mobile terminal surface is provided with the slip open slot, the slip open slot with accomodate inslot portion and switch on, the mark device outer wall is connected with the sliding plate through the connecting plate, just the mark device orientation the one end of mobile terminal pass through the telescopic link with accomodate groove end connection, through adjusting the position of sliding plate is in order to change mark device's position. The beneficial effects are that: the telescopic rod is contracted by pushing the sliding plate, so that the marking device is pushed to perform telescopic motion in the sliding open slot, the movable adjustment of the marking device in the movable terminal is realized, the marking device is pushed out when the movable terminal is used, the marking device is retracted when the movable terminal is not used, and the use is more convenient.

Further, a locking device is connected to the sliding plate, and the sliding plate is fixedly connected to the mobile terminal through the locking device. The beneficial effects are that: after the sliding plate slides to adjust the position of the marking device, the sliding plate and the marking device are fixed, so that marking is facilitated, and free movement and fixed adjustment are realized.

Furthermore, the movable terminal is also provided with a camera device for shooting the human body position image to be detected of the detection equipment. The beneficial effects are that: when the bioelectricity is carried out on the human body, the marking device is used for carrying out marking processing, and the image of the detection part of the human body is shot through the camera device, so that the detection position can be accurately recorded.

Furthermore, an illuminating device used for illuminating the human body part to be detected of the detection equipment is further arranged on the movable terminal. The beneficial effects are that: when the detection equipment carries out the bioelectricity detection to the human body part, the human body part of detection is illuminated through the lighting device, the position of the human tissue is not only convenient to find quickly and accurately, but also the brightness of the human body detection part is improved, and the detection operation of an operator is facilitated.

Furthermore, an environment acquisition module used for acquiring external environment information is further arranged in the mobile terminal, and the environment acquisition module is electrically connected with the detection module. The beneficial effects are that: and acquiring external environment information through an environment acquisition module so as to judge 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.

Furthermore, the end part of the detection probe is provided with a pressure sensor, and the pressure sensor is electrically connected with the detection module. The beneficial effects are that: the pressure at the tail end of the detection probe is detected, so that the pressure when the detection probe acts on the surface of the skin of a human body can be known, and the force can be controlled accurately.

Further, still be provided with the report device that is used for reporting the testing data on the portable terminal, report the device with the detection module electricity is connected. The beneficial effects are that: the detection result of the movable terminal is broadcasted through the broadcasting device, so that the detection personnel can know the detection result and the state more accurately.

The invention also provides a human body bioelectricity mark detection system, which comprises the human body bioelectricity mark detection device and a data processing module, wherein the data processing module is in communication connection with the detection module through a communication module, the detection module transmits the detection data to the data processing module through the communication module, and the data processing module carries out alternating current source demodulation processing on the detection data to obtain the human body bioelectricity data.

The invention has the beneficial effects that: after bioelectricity detection is carried out on the human body part through the detection equipment to obtain detection data, the detection data are processed through the data processing module by an alternating current source demodulation method to quickly obtain accurate human body electricity data, and the detection efficiency and the accuracy of a detection result are effectively improved.

Further, the human body electrical data includes at least one of potential information, resistance information, and capacitance information. The beneficial effects are that: when the detection mark is carried out on the human body, the detection system realizes the multi-parameter detection of the bioelectricity of the human body, and meets different detection requirements of the bioelectricity of the human body.

Furthermore, the data processing module is also electrically connected with a generating module, and the generating module generates a detection report according to the human body electrical data processed by the data processing module. The beneficial effects are that: after the data processing module processes the human body electric data, the generating module generates and outputs a detection report of the detected human body electric data, so that an operator can quickly and accurately know the detection result of the human body bioelectricity.

Further, the data processing module is separately or integrally arranged with the mobile terminal. The beneficial effects are that: the data processing module and the mobile terminal are installed in different modes according to requirements so as to be suitable for different detection use occasions.

Further, the data processing module comprises an upper computer or an embedded system. The beneficial effects are that: the detection data is processed through an upper computer or an embedded system so as to meet different use requirements.

The invention further provides a human body bioelectricity mark detection method, which comprises the following steps:

s1, contacting the detection probe of the movable terminal with the surface of the human body to acquire the bioelectrical information of the human body;

s2, processing the human body bioelectricity information through a detection module to obtain detection data;

s3, the detection module transmits the detection data to a data processing module through a communication module, and the data processing module processes the detection data to obtain human body electricity data;

and S4, judging whether the human body electrical data are abnormal or not, and physically marking the human body detection part corresponding to the abnormal human body electrical data through a marking device.

The invention has the beneficial effects that: after the detection data acquired by the detection module of the mobile terminal is processed by the data processing module of the detection system, whether the detected human body electrical data are normal or not is judged, and meanwhile, the human body detection part corresponding to the abnormal human body electrical data is marked by the marking device, so that the subsequent secondary detection process is facilitated.

Drawings

FIG. 1 is a national ear acupoint map according to an 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;

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

FIG. 4 is a schematic cross-sectional view of a marking device according to an embodiment of the present invention;

FIG. 5 is a block diagram of the components of a detection system in accordance with an embodiment of the present invention;

fig. 6 is a schematic flow chart of a detection method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, 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, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. As used herein, the word "comprising" and similar words are intended to mean that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items.

In order to solve the problems in the prior art, embodiments of the present invention provide a human body bioelectricity mark detection device, a human body bioelectricity mark detection system, and a human body bioelectricity mark detection method, which implement quick detection of human body bioelectricity, and simultaneously, quickly mark a detection portion in real time by a marking device, so as to accurately record a detection position of a human body, facilitate further detection of the marked detection position, and improve detection efficiency.

It should be noted that, this application scheme is applied to the detection of human bioelectricity, including the detection of each position of human body, for the specific circumstances of better explanation, this application scheme uses the bioelectricity detection of human ear acupuncture point as the example, specifically explains this scheme.

In each part of the human body surface, the auricle is a reflection projection area of the limb nerves of the viscera of the whole body of the human body, and correspondingly, the auricle part is also an acupuncture point concentration point. The ear acupoint map is shown in fig. 1, and there are corresponding projected points on auricles of various internal organs and body parts of human body.

As shown in fig. 2, 3 and 4, the present invention provides a human body bioelectricity mark detection apparatus, which includes a movable terminal 1, wherein a detection module 2 is disposed inside the movable terminal 1, a detection probe 3 for acquiring human body bioelectricity information is mounted at one end of the movable terminal 1, the detection probe 3 is electrically connected to the detection module 2, the detection module 2 processes the human body bioelectricity information of the detection probe 3 to obtain detection data, and a marking device 4 for physically marking a human body is further mounted on the movable terminal 1.

Whole mobile terminal 1 gathers the human body bioelectricity information on human skin surface through detecting probe 3, and detect processing with human body bioelectricity information transmission to detection module 2, thereby obtain the detection data of human body bioelectricity, in the in-process that detects, carry out the physics mark to the detection position of human body bioelectricity through marking device 4, thereby carry out mark record to some human body positions that detect data anomaly, be convenient for follow-up record and detect once more to unusual position, effectively improve detection efficiency and the accuracy that detects, the work load of artifical detection has been reduced by a wide margin.

When specifically operating, human body bioelectricity information is collected in real time through the detection probe 3 of the movable terminal 1, and analysis processing is carried out through the detection module 2 so as to obtain detection data, whether the detection result is abnormal is judged according to the detection data, when the detection result is judged to be abnormal, the detection position from the marking device 4 to the detection probe 3 is moved, and physical marking is carried out on the current detection position through the marking device 4, thereby recording the specific information of the current position, in order to complete the recording process of different detection positions, simultaneously, after the subsequent change of operators is convenient, the previous detection result can be identified through the marking position, thereby the workload of the detection process is greatly reduced.

In some embodiments, the marking device 4 is movably mounted on the mobile terminal 1, and the marking device 4 is movably mounted on the mobile terminal 1, so that the position of the marking device 4 can be freely adjusted, the marking is performed when the marking device is needed, the marking device 4 is collected when the marking device is not needed, and the detection of bioelectricity of a human body by the whole mobile terminal 1 is facilitated.

In some embodiments, the mobile terminal 1 is provided with a receiving slot 5, one end of the receiving slot 5 penetrates through the surface of the mobile terminal 1, the surface of the mobile terminal 1 is provided with a sliding open slot 6, the sliding open slot 6 is communicated with the inside of the receiving slot 5, the outer wall of the marking device is connected with a sliding plate 8 through a connecting plate 7, one end of the marking device 4 facing the mobile terminal 1 is connected with the end of the receiving slot 5 through a telescopic rod 9, and the position of the marking device 4 is changed by adjusting the position of the sliding plate 8.

Specifically, in the 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, which is convenient for the detection probe 3 of the movable terminal 1 to normally detect the skin surface of the human body, when the movable terminal 1 detects that the detection data of the bioelectricity of the human body is in an abnormal state, the inspector pushes the sliding plate 8 by hand, so that the sliding plate 8 moves at the top of the sliding opening groove 6, since the connecting plate 7 is connected with the marking device 4, and the marking device 4 is connected with the end of the receiving groove 5 through the telescopic rod 9, thereby driving the telescopic rod 9 to move outwards through the connecting plate 7, thereby pulling the marking device 4 out of the accommodating groove 5, so that the human body is physically marked by the marking means 4 to record the detection position of the abnormal or special detection data.

In some embodiments, in order to prevent the mark device 4 from being loosened during use, the sliding plate 8 is connected with a locking device 10, the sliding plate 8 is fixedly connected with the mobile terminal 1 through the locking device 10, and when the mark device 4 slides out of the accommodating groove 5 to mark the human body detection part, the sliding plate 8 is fixed with the outer surface of the mobile terminal 1 through the locking device 10, so that the mark device 4 can mark the human body stably; and when the marking device 4 is not required to be used after the marking of the marking device 4 is completed, 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 receiving 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 mobile terminal 1 is provided with two rows of grooves 1002 respectively located at two sides of the sliding open slot 6, when the marking device 4 needs to be fixed, the buckle 1001 is pressed to insert the buckle 1001 into the groove 1002 at the corresponding position, so that the sliding plate 8 and the surface of the mobile terminal 1 can be fixed together; when the marking device 4 needs to be released, the buckle 1001 is pulled to pull the buckle 1001 out of the groove 1002, so that the sliding plate 8 and the movable terminal 1 can be separated from each other, and the position of the marking device 4 can be conveniently adjusted.

Preferably, the marking device 4 in the above embodiment uses a marking pen, including at least one of a fluorescent marking pen, a carbon ink marking pen and a gentian violet marking pen, and may use a single marking pen or a combination of a plurality of marking pens to distinguish different marking positions, which is selected according to actual conditions, and this is not particularly limited in the present embodiment.

Furthermore, the marking device 4 in the present application scheme is mainly used for physically marking the detected portion of the human body surface, and any device that can be used for marking the human body surface in the prior art can be applied to the present application scheme, which is not limited in this scheme and is not described herein again.

In some embodiments, the mobile terminal 1 is further provided with a camera device 101 for shooting a body part image to be detected of the detection device, when the mobile terminal 1 detects bioelectrical data of a body, image information of a body detection position is collected through the camera device 101, so that the real state of the body detection position is recorded more accurately, a detection person can know the specific situation of the current body detection position more accurately, and the situation of the body detection position can be judged subsequently through the image information and the detection data.

Preferably, the imaging device 101 in the present embodiment employs an infrared camera.

In some embodiments, the movable terminal 1 is further provided with an illuminating device 102 for illuminating a human body part to be detected of the detection device, and in the process of bioelectricity detection of the human body by the movable terminal 1, the human body part to be detected is illuminated by the illuminating device 102, so that an operator can conveniently acquire bioelectricity information of the human body through the detection probe 3, and the use of the operator is facilitated.

Specifically, when the detection probe 3 collects human body bioelectricity information of the ear acupoints of the human body, the illumination device 102 illuminates to effectively enhance light, and the detection of the mobile terminal 1 is more accurate for some local positions of the ear acupoints.

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

In some embodiments, an environment acquisition module 103 for acquiring external environment information is further disposed in the mobile terminal 1, the environment acquisition module 103 is electrically connected to the detection module 2, and the external environment information around the mobile terminal 1 is acquired through the environment acquisition module 103 during detection, so as to obtain data of the external environment information, so as to determine the influence of the external environment on the accuracy of the detection data detected by the mobile terminal 1, and improve 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, the environment collecting module includes at least one of an air pressure sensor 1031, a temperature sensor 1032, and a humidity sensor 1033, and the air pressure sensor 1031, the temperature sensor 1032, and the humidity sensor 1033 collect the air pressure information, the temperature information, and the humidity information, respectively, so as to achieve accurate detection of the external environment.

In some embodiments, the end of the detection probe 3 is provided with the pressure sensor 11, the pressure sensor 11 is electrically connected with the detection module 2, and in the process that the detection probe 3 acts on the surface of the human skin to collect the bioelectricity information of the human body, the pressure sensor 11 collects the pressure information of the detection probe 3 acting on the surface of the human skin, so that the pressure condition of the detection probe 3 on the surface of the human skin can be accurately known, an operator can apply proper pressure to the surface of the human skin conveniently, and the safety of the detection process is improved.

In some embodiments, still be provided with on the mobile terminal 1 and be used for reporting the device 12 of reporting of detected data, report device 12 with detection module 2 electricity is connected, and after mobile terminal 1 detected human bioelectricity and obtained detected data, report out with the form of pronunciation with detected data through reporting device 12, make things convenient for operating personnel to know detected data and current detection state fast, improved operating 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 a control device built in the detection module 2, and the data of the environment acquisition module 103 and the pressure sensor 11 are acquired through the detection module 2, and at the same time, the states of the camera device 101, the lighting device 102 and the broadcast device 12 are respectively controlled, so as to implement automatic control of the whole detection device.

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 adopted detection circuit comprises a human body bioelectricity detection circuit in the prior art, so that the scheme of the application is not limited, and is not repeated here.

Among the prior art's biological electricity check out test set, the operator can only fuzzy operation or not operate the instrument, and doctor's intensity of labour is very big moreover, and the check out test set of this application scheme has realized the mark at the detection site of testing object, can diagnose and treat the separation to same testing object, by the professional of difference according to the flow handing-over operation to satisfy the user demand under the different occasions, made things convenient for operating personnel's use greatly, improved detection efficiency.

As shown in fig. 5, the present invention further provides a human body bioelectrical mark detection system, including the human body bioelectrical mark detection device, further including a data processing module 13, where the data processing module 13 is in communication connection with the detection module 2 through a communication module 14, 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 human body bioelectrical data.

After the detection device detects the surface of the human body to obtain the detection data, the data processing module 13 performs secondary processing on the detection data to obtain more accurate human body electrical data, so that a final result can be obtained more quickly and accurately, and the accuracy of the detection device on the detection result of the human body electrical data is improved.

Specifically, after the detection module 2 of the detection device detects and obtains 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 through the data processing module 13 in an alternating current source demodulation mode, so that final human bioelectricity data is obtained, and a rapid and efficient detection process of human bioelectricity is realized.

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 at least one of a bluetooth interface, a WIFI interface and an infrared interface.

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 detect one of the potential, resistance or capacitance of the human body alone, or detect multiple kinds of potential information, resistance information and capacitance information, so as to realize multi-parameter detection of human body bioelectricity and meet different detection requirements.

In some embodiments, the data processing module 13 is further electrically connected to a generating module 15, the generating module 15 generates a detection report according to the human body electrical data processed by the data processing module 13, and after the human body electrical data is obtained by the data processing module 13, the generating module 15 generates a detection report according to the human body electrical data of the final result, so that a detection person can directly observe the detection result to know details.

Further, the generating module 15 is connected to an external printer through a communication network, so that the generated detection report is printed out in a paper form through the printer, and is convenient to look up.

In some embodiments, the data processing module 13 is disposed separately from or integrally with the mobile terminal 1 to meet the use requirements under different conditions.

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

As shown in FIG. 6, the present invention further provides a method for detecting a human bioelectrical marker, comprising the steps of:

s1, contacting the detection probe of the movable terminal with the surface of the human body to acquire the bioelectrical information of the human body;

s2, processing the human body bioelectricity information through a detection module to obtain detection data;

s3, the detection module transmits the detection data to a data processing module through a communication module, and the data processing module processes the detection data to obtain human body electricity data;

and S4, judging whether the human body electrical data are abnormal or not, and physically marking the human body detection part corresponding to the abnormal human body electrical data through a marking device.

By the detection method, after the bioelectricity data of the human body is detected by the movable terminal 1 to obtain the detection data, the detection data is processed by the data processing module 13 to obtain the final human body electricity data, whether the human body electricity data is abnormal or not is judged, and the abnormal position of the human body electricity data is physically marked by the marking device 4, so that the abnormal position can be rapidly recorded, and the detection condition before follow-up tracing can be conveniently realized.

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