阅读说明：本技术 穴位电针装置及系统 (Acupuncture point electric acupuncture device and system ) 是由 王云 蔡新霞 王蜜霞 邢宇 李欣蓉 王怡丁 于 2021-08-16 设计创作，主要内容包括：本公开提供一种穴位电针装置,包括：多根电针,其顶部设置有导线；电针管道,套设于每根电针外,电针管道内部顶端通过弹簧连接电针的针体的顶端；微电机,其电机轴通过连接线连接至电针的顶部区域,从而通过微电机转动带动电针沿电针管道移动；固定架,用于支撑固定所述电针管道和微电机；底托,由柔性、多孔的绝缘材料制成,能够供电针穿透底托后植入皮肤；以及金属外壳,与所述底托配合安装后将所述电针、电针管道、微电机以及固定架罩设于金属外壳内部。(The present disclosure provides an electric acupuncture device for acupuncture points, including: a plurality of electric needles, the top of which is provided with a lead; the electric needle pipeline is sleeved outside each electric needle, and the top end inside the electric needle pipeline is connected with the top end of the needle body of the electric needle through a spring; the motor shaft of the micro motor is connected to the top area of the electric needle through a connecting wire, so that the electric needle is driven to move along the electric needle pipeline through the rotation of the micro motor; the fixing frame is used for supporting and fixing the electric needle pipeline and the micro motor; the bottom support is made of flexible and porous insulating materials and can be used for implanting the electric needle into the skin after penetrating through the bottom support; and the metal shell is matched with the bottom support and then is installed, and then the electric needle, the electric needle pipeline, the micro motor and the fixing frame are covered inside the metal shell.)

1. An electric acupuncture device for acupuncture points, comprising:

a plurality of electric needles, the top of which is provided with a lead;

the electric needle pipeline is sleeved outside each electric needle, and the top end inside the electric needle pipeline is connected with the top end of the needle body of the electric needle through a spring;

the motor shaft of the micro motor is connected to the top area of the electric needle through a connecting wire, so that the electric needle is driven to move along the electric needle pipeline through the rotation of the micro motor;

the fixing frame is used for supporting and fixing the electric needle pipeline and the micro motor;

the bottom support is made of flexible and porous insulating materials and can be used for implanting the electric needle into the skin after penetrating through the bottom support; and

and the metal shell is matched with the bottom support and then is installed with the electric needle, the electric needle pipeline, the micro motor and the fixing frame cover inside the metal shell.

2. The acupuncture point electro-needle device according to claim 1, wherein said electro-needle is provided with 2.

3. The acupuncturing device according to claim 1, further comprising:

and the micro pulley is arranged on the outer side of the electric needle pipeline and is used for matching with the micro motor and the connecting wire to realize the adjustment of the moving direction of the electric needle.

4. The acupuncturing electric needle device according to claim 1, wherein the implantation speed and the implantation length of the electric needle are controlled by controlling the rotation speed and the rotation time of the micro-motor:

v＝2πRn；

wherein L is the implantation length of the electric needle, v is the implantation speed of the electric needle, R is the radius of the micro motor shaft, n is the rotating speed of the micro motor, and t is the operation time of the motor.

5. The acupuncturing device according to claim 1, wherein the needle body is provided with a projection for limiting the needle when the needle is moved in the needle channel, so that the needle is implanted in the skin in a vertical direction.

6. An electrical acupuncture system comprising:

the acupuncturing device according to any one of claims 1 to 5;

the main control module is used for receiving height and weight information of a user and determining the primary electric needle implantation depth;

the signal acquisition module is connected with all the electric needles and is used for acquiring the electrophysiological signals of the acupuncture points where the electric needles are implanted, so that the main control module can determine an electrical stimulation scheme according to the acquired electrophysiological signals;

and the stimulation module is used for outputting a stimulation electric signal to the electric needle according to the electric stimulation scheme so as to stimulate the acupuncture points.

7. The electro-acupuncture system according to claim 6, the signal acquisition module comprising:

the multi-channel signal amplifying circuit is used for amplifying the electrophysiological signals collected by the electric needles in the acupuncture point electric needle devices by 20 times;

the multi-channel signal denoising circuit is used for removing power frequency noise of the electrophysiological signals and carrying out 4-order Butterworth low-pass filtering with the cutoff frequency of 500 Hz; and

and the analog-to-digital conversion circuit is used for converting the electrophysiological signals into digital signals and outputting the digital signals to the main control module.

8. The electro-acupuncture system according to claim 6, the main control module comprising:

the characteristic extraction unit is used for extracting time domain characteristics, frequency domain characteristics and nonlinear characteristics of the electrophysiological signals;

the component index unit is used for determining a time domain characteristic component index, a frequency domain characteristic component index and a nonlinear characteristic component index according to the time domain characteristic, the frequency domain characteristic and the nonlinear characteristic of the electrophysiological signal; and

and the health index unit is used for obtaining the cardiovascular health index according to the time domain characteristic component index, the frequency domain characteristic component index and the nonlinear characteristic component index.

9. The electro-acupuncture system according to claim 8, wherein the main control module further comprises:

the stimulation adjusting unit judges the occurrence position and the reason of the cardiovascular problem according to the change of the blood vessel health indexes obtained by different acupuncture points, and emphatically stimulates the acupuncture points related to the problem; selecting the waveform, waveform frequency and stimulation duration of the stimulation electric signal according to the change degree of each component index of the blood vessel health index of the acupuncture point; and analyzing whether the mode of the current electrical stimulation scheme is proper or not according to the change trend of the cardiovascular health indexes detected for multiple times, and feeding back or reminding the selection of the stimulation mode in the stimulation scheme.

10. The electro-acupuncture system of claim 8, the types of the stimulation electrical signals comprising: at least one of a pulse wave, a rectangular wave, a triangular wave, a sine wave, and an analog waveform identical to a digital signal of an audio file.

Technical Field

The disclosure relates to the technical field of medical instruments, in particular to an electric acupuncture device and system for acupuncture points.

Background

Acupuncture is becoming more and more popular among public and health care professionals worldwide as a means of traditional Chinese medicine physiotherapy. With respect to the acceptability and effectiveness of acupuncture, it is considered the most practical and effective treatment in many countries. In recent decades, clinical studies of acupuncture have been rapidly developed, and have significant therapeutic and regulatory effects in both human and animal models of health/disease. Its research approach has changed from the initial treatment of pain related diseases to the treatment of cardiovascular and nervous system diseases. For example, the Danzhong (RN17), Neiguan (PC6) and Sanyinjiao (SP6) have been shown to be useful in the treatment of cardiovascular diseases. Likewise, the Baihui acupoint (GV20) can be used to treat sleep problems in humans. Electrical stimulation is also considered to be the best alternative to physicians using acupuncture techniques.

Bioelectric signal analysis is one of the most critical methods for understanding acupuncture points. The use of electronic devices to detect and monitor acupuncture points has a long history. Currently, the research objectives on electrical signals at human acupuncture points include electrical impedance analysis and potential analysis. Initially, there was much literature on the impedance of human acupuncture points. To date, there has been controversy regarding the difference in impedance between the needle-stick point and the surrounding area; one important reason is that environmental or physiological factors affecting skin characteristics can significantly alter the impedance measurements of the acupuncture points.

Therefore, how to simultaneously carry out electrophysiological signal detection and acupoint stimulation on human acupoints and eliminate the influence of individual difference and skin difference is an urgent technical problem to be solved.

Disclosure of Invention

Technical problem to be solved

Based on the above problems, the present disclosure provides an acupuncture point electric acupuncture device and system to alleviate the technical problems in the prior art that it is difficult to perform electrophysiological signal detection and acupuncture point stimulation on human acupuncture points simultaneously, and it is difficult to eliminate the influence of individual difference and skin difference.

(II) technical scheme

In one aspect of the present disclosure, there is provided an electric acupuncture device for acupuncture, including: a plurality of electric needles, the top of which is provided with a lead; the electric needle pipeline is sleeved outside each electric needle, and the top end inside the electric needle pipeline is connected with the top end of the needle body of the electric needle through a spring; the motor shaft of the micro motor is connected to the top area of the electric needle through a connecting wire, so that the electric needle is driven to move along the electric needle pipeline through the rotation of the micro motor; the fixing frame is used for supporting and fixing the electric needle pipeline and the micro motor; the bottom support is made of flexible and porous insulating materials and can be used for implanting the electric needle into the skin after penetrating through the bottom support; and the metal shell is matched with the bottom support and then is installed, and then the electric needle, the electric needle pipeline, the micro motor and the fixing frame are covered inside the metal shell.

According to the embodiment of the present disclosure, the electric needles are provided with 2.

According to the embodiment of the present disclosure, the acupuncture point acusector device further includes: and the micro pulley is arranged on the outer side of the electric needle pipeline and is used for matching with the micro motor and the connecting wire to realize the adjustment of the moving direction of the electric needle.

According to the embodiment of the disclosure, the implantation speed and the implantation length of the electric needle are controlled by controlling the rotating speed and the rotating time of the micromotor:

v＝2πRn；

wherein L is the implantation length of the electric needle, v is the implantation speed of the electric needle, R is the radius of the micro motor shaft, n is the rotating speed of the micro motor, and t is the operation time of the motor.

According to the embodiment of the disclosure, the electric needle body is provided with a protruding part for limiting the electric needle when the electric needle pipeline moves, so that the electric needle is implanted into the skin in the vertical direction.

In another aspect of the present disclosure, there is provided an electric acupuncture system including: the acupuncturing device according to any one of the above; the main control module is used for receiving height and weight information of a user and determining the primary electric needle implantation depth; the signal acquisition module is connected with all the electric needles and is used for acquiring the electrophysiological signals of the acupuncture points where the electric needles are implanted, so that the main control module can determine an electrical stimulation scheme according to the acquired electrophysiological signals; and the stimulation module is used for outputting a stimulation electric signal to the electric needle according to the electric stimulation scheme so as to stimulate the acupuncture points.

According to the embodiment of the present disclosure, the signal acquisition module includes: the multi-channel signal amplifying circuit is used for amplifying the electrophysiological signals collected by the electric needles in the acupuncture point electric needle devices by 20 times; the multi-channel signal denoising circuit is used for removing power frequency noise of the electrophysiological signals and carrying out 4-order Butterworth low-pass filtering with the cutoff frequency of 500 Hz; and the analog-to-digital conversion circuit is used for converting the electrophysiological signals into digital signals and outputting the digital signals to the main control module.

According to the embodiment of the present disclosure, the main control module includes: the characteristic extraction unit is used for extracting time domain characteristics, frequency domain characteristics and nonlinear characteristics of the electrophysiological signals; the component index unit is used for determining a time domain characteristic component index, a frequency domain characteristic component index and a nonlinear characteristic component index according to the time domain characteristic, the frequency domain characteristic and the nonlinear characteristic of the electrophysiological signal; and the health index unit is used for obtaining the cardiovascular health index according to the time domain characteristic component index, the frequency domain characteristic component index and the nonlinear characteristic component index.

According to the embodiment of the present disclosure, the main control module further includes: the stimulation adjusting unit judges the occurrence position and the reason of the cardiovascular problem according to the change of the blood vessel health indexes obtained by different acupuncture points, and emphatically stimulates the acupuncture points related to the problem; selecting the waveform, waveform frequency and stimulation duration of the stimulation electric signal according to the change degree of each component index of the blood vessel health index of the acupuncture point; and analyzing whether the mode of the current electrical stimulation scheme is proper or not according to the change trend of the cardiovascular health indexes detected for multiple times, and feeding back or reminding the selection of the stimulation mode in the stimulation scheme.

According to an embodiment of the present disclosure, the types of the stimulation electrical signal include: at least one of a pulse wave, a rectangular wave, a triangular wave, a sine wave, and an analog waveform identical to a digital signal of an audio file.

(III) advantageous effects

According to the technical scheme, the electric acupuncture point acupuncture device and the electric acupuncture point system has one or a portion:

(1) the electric needle device can adjust the length according to the difference of the height and the weight of an individual, the implantation length of the same individual in a short period is the same, the acquired electrophysiological signals have the same base line, the analysis error is reduced, and the error caused by artificial implantation is avoided;

(2) the flexible and porous insulating material is used at the skin contact part of the electric needle, and is attached to the skin to isolate the electric signal of the human skin and keep the normal temperature and humidity of the skin;

(3) the electrophysiological signals collected by the multiple electrotactile needle devices can be detected simultaneously, time domain characteristics, frequency domain characteristics and nonlinear characteristics of the signals are obtained through analysis according to the electrophysiological signals of multiple acupuncture points, and the cardiovascular function of a human body is analyzed by combining parameters of all the characteristics, so that a basis is provided for effectively diagnosing the cardiovascular health of the human body;

(4) the electric stimulation can be automatically adjusted, the parameters of the electric stimulation are automatically set according to the analysis result of the electric physiological signals of the acupuncture points, the optimal stimulation scheme for the human body is adjusted, and meanwhile, the individual parameter fine adjustment can be carried out according to individual difference;

(5) the data transmission can select a wired/wireless mode, the rapid transmission of big data is met, and the convenience of small file transmission is also met.

Drawings

Fig. 1a is a schematic exploded view of an acupuncture point acupuncturing device according to an embodiment of the present disclosure.

Fig. 1b is a schematic view of an assembly structure of the acusector needle device in a non-shell state according to an embodiment of the present disclosure.

Fig. 2 is a schematic diagram of an electrical acupuncture point acupuncture system for cardiovascular related diseases in an embodiment of the present disclosure.

Fig. 3 is a schematic diagram of an electrophysiological signal processing workflow in an embodiment of the disclosure.

Fig. 4 is a schematic diagram of an electrophysiological signal data analysis workflow in an embodiment of the present disclosure.

Fig. 5 is a schematic diagram of a working flow of electrical stimulation regulation and control of an electrical acupuncture device in an embodiment of the present disclosure.

[ description of main reference numerals in the drawings ] of the embodiments of the present disclosure

100-an electrical needle device; 101-a connecting line; 102-a micro-motor; 103-a fixing frame; 104-electrical needle tubing; 105-a micro-pulley; 106-a spring; 107-electric needle; 108-shoe; 109-metal housing.

Detailed Description

The present disclosure provides an acupuncture point electric acupuncture device and system, which can perform electrophysiological signal detection and acupuncture point stimulation on human acupuncture points simultaneously, can eliminate the influence of individual difference and skin difference, and realize automated and instrumented closed-loop treatment through the acupuncture points.

The electrophysiological signals of the acupoints contain rich information about the pathological and physiological states of the human body, and the specificity of the acupoints is a core scientific problem related to acupuncture practice and is a hot spot of important attention in current acupoint research. Research shows that the acupuncture points are important reflecting points of human pathological changes and can effectively reflect the conditions of internal organs. The cause of this phenomenon may be related to neurogenic inflammation of the skin. Many studies have been conducted to verify the specificity of the acupoints, particularly the cardiovascular aspect, from imaging, thermal, morphological, electrical, etc., and the electrophysiological signals of the Danzhong, Neiguan and Sanyinjiao acupoints have been shown to be specific to the cardiovascular function of the human body. The specificity of the acupoint electrophysiological signals provides a potential basis for quantifying the characteristics of the acupoints and diagnosing diseases.

For the purpose of promoting a better understanding of the objects, aspects and advantages of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

In an embodiment of the present disclosure, there is provided an electrical acupuncture device for acupuncture points, as shown in fig. 1a and 1b, including:

a plurality of electric needles 107 provided with wires on the top;

the electric needle pipeline 104 is sleeved outside each electric needle, and the top end inside the electric needle pipeline is connected with the top end of the needle body of the electric needle through a spring 106;

a micro-motor 102, the motor shaft of which is connected to the top area of the electric needle through a connecting wire 101, so that the electric needle is driven to move along the electric needle pipeline through the rotation of the micro-motor;

a fixing frame 103 for supporting and fixing the electric needle pipeline 104 and the micro-motor 102;

the bottom support 108 is made of flexible and porous insulating materials and can be implanted into the skin after the power needle penetrates through the bottom support; and

and the metal shell 109 is matched with the bottom support and then is installed with the electric needle, the electric needle pipeline, the micro motor and the fixing frame which are covered inside the metal shell.

In the embodiment of the present disclosure, as shown in fig. 2, the number of the electric needles 107 is two, and two circular structures are disposed on the needle body, and the size of the circular structures corresponds to the size of the inner tube diameter of the electric needle tube, so as to ensure that the needle body of the electric needle can move in the electric needle tube without deviation, and then vertically implant into the skin; the top end of the needle body is connected to a micro motor 102 between the needle bodies through an inelastic connecting line 101, the micro pulley 105 is used for realizing the turning of the line, and the implantation speed and the implantation length of the electric needle 107 are realized by controlling the rotating speed and the rotating time of the motor:

v＝2πRn

wherein, L is the electric needle implantation length, R is the radius of the micro-motor shaft, n is the micro-motor rotating speed, t is the motor operation time, and v is the electric needle implantation speed.

The electric needle catheter 104 is made of insulating materials around a single needle body, the top end of the needle body is connected with the top end of the electric needle catheter through a spring 106, and the needle body can be automatically ejected out when the electric needle device and the system are used; a fixing frame 103 made of a hard and non-deformable insulating object supports the micro-motor 102 and the electric needle catheter 104; the outer side of the electric needle device is electromagnetically shielded by using a stainless steel alloy outer wall 109; the flexible bottom support 108 is made of flexible and porous insulating materials at the skin contact position of the electric needle device, the electric needle device is attached to the skin, electric signals of the skin of a human body are isolated, the normal temperature and the humidity of the skin are kept, meanwhile, the structure also has the function of fixing the skin, and when the electric needle is taken out, the skin cannot be dragged, so that the pain of the human body is reduced; in addition, the bottom side of the alloy outer wall can be provided with a detachable watchband which is used for fixing the electric needle device when the electric needle is implanted into the skin.

In an embodiment of the present disclosure, there is also provided an acupoint electrical acupuncture system, as shown in fig. 2, the acupoint electrical acupuncture system includes:

the acupuncture point electric acupuncture device is characterized in that;

the main control module is used for receiving height and weight information of a user and determining the primary electric needle implantation depth;

the signal acquisition module is connected with all the electric needles and is used for acquiring the electrophysiological signals of the acupuncture points where the electric needles are implanted, so that the main control module can determine an electrical stimulation scheme according to the acquired electrophysiological signals;

and the stimulation module is used for outputting a stimulation electric signal to the electric needle according to the electric stimulation scheme so as to stimulate the acupuncture points.

According to the embodiment of the disclosure, the top end of the needle body is connected with the signal acquisition module through a wire; the left side needle body is connected with the stimulation module through a lead; the power line of the micromotor module is connected with the power module.

In some embodiments of the present disclosure, the signal acquisition module, a functional flow diagram is shown in fig. 3; the signal acquisition module comprises:

the multi-channel signal amplification circuit is used for amplifying the signals collected by the plurality of electric needle devices by 20 times;

the multi-channel signal denoising circuit is used for removing power frequency noise of the multi-channel signals and carrying out 4-order Butterworth low-pass filtering with the cut-off frequency of 500 Hz;

and the analog-to-digital conversion circuit is used for converting the analog signals of the channels into digital signals and transmitting the data to the main control module at a sampling rate of 2 KHz.

In some embodiments of the present disclosure, the main control module can calculate the length of the acupuncture point according to the input height and weight information, and automatically set a proper implantation depth; according to individual differences, the implantation depth can be finely adjusted manually.

In some embodiments of the present disclosure, the main control module, the functional flowchart is shown in fig. 4; the main control module comprises:

the characteristic extraction unit is used for extracting time domain characteristics, frequency domain characteristics and nonlinear characteristics of the electrophysiological signals;

the component index unit is used for determining a time domain characteristic component index, a frequency domain characteristic component index and a nonlinear characteristic component index according to the time domain characteristic, the frequency domain characteristic and the nonlinear characteristic of the electrophysiological signal; and

and the health index unit is used for obtaining the cardiovascular health index according to the time domain characteristic component index, the frequency domain characteristic component index and the nonlinear characteristic component index.

The stimulation adjusting unit judges the occurrence position and the reason of the cardiovascular problem according to the change of the blood vessel health indexes obtained by different acupuncture points, and emphatically stimulates the acupuncture points related to the problem; selecting the waveform, waveform frequency and stimulation duration of the stimulation electric signal according to the change degree of each component index of the blood vessel health index of the acupuncture point; and analyzing whether the mode of the current electrical stimulation scheme is proper or not according to the change trend of the cardiovascular health indexes detected for multiple times, and feeding back or reminding the selection of the stimulation mode in the stimulation scheme.

The STM32 series chip has the advantages of various functions, low chip cost, low price, low power consumption, small chip volume and the like, and can be customized according to the requirements of users.

According to the embodiment of the disclosure, the feature extraction unit may process a multi-channel signal, perform software denoising, further remove Power frequency and high frequency interference, and extract time domain features (including average absolute amplitude mAV, zero crossing points ZC, variance var), frequency domain features (including Power value Power, Power spectral density curve peak PSD), and nonlinear features (including fuzzy entropy FuzzyEn (m, N, r, N), LZ complexity c (N)). The feature calculation method is as follows:

if{x_k＞0 and x_k+1＜0}or{x_k＜0 and x_k+1＞0}and{|x_k-x_k+1|＞ε}

ZC＝ZC+1

FuzzyEn(m，n，r，N)＝lnδ^m(n，r)-lnδ^m+1(n，r)

where mAV is the average absolute amplitude, ZC is the number of zero crossings, var is the variance, N is the number of data samples, epsilon is the baseline threshold (epsilon ═ 0.015 μ V), xk is the kth sample in the analysis window, FuzzyEn (m, N, r, N) is the fuzzy entropy, m is the embedding dimension, r is the width of the exponential function boundary, N is the gradient of the exponential function boundary, δ is the constructor, c (N) is the normalized LZ complexity, c (N) is the complexity, and a is the number of symbols (a ═ 2).

According to an embodiment of the present disclosure, the component index unit may be capable of calculating a time domain component index, a frequency domain component index, a nonlinear component index:

H_T＝α_TmAV+β_TZC+γ_Tvar

H_F＝α_FPower+β_FPeak

H_N＝α_NFuzzyEn+β_NC(N)

wherein HT is a time domain component index, HF is a frequency domain component index, HN is a nonlinear component index,

dT, beta T and gamma T are respectively the component specific gravity of three time domain characteristics, alpha F and beta F are respectively the component specific gravity of two frequency domain characteristics, and alpha N and beta N are respectively the component specific gravity of two nonlinear characteristics.

According to an embodiment of the present disclosure, the health index unit is capable of calculating an instantaneous cardiovascular health index HI:

H_I(η₁，η₂，η₃，...，η_n)

＝η₁(α_IH_T+β_IH_F+γ_IH_N)+η₂(α_IH_T+β_IH_F+γ_IH_N)+…+η₂(α_IH_T+β_IH_F+γ_IH_N)

wherein alpha I, beta I and gamma I are respectively the health proportion of a time domain component index, a frequency domain component index and a nonlinear component index, and eta n is the cardiovascular health function of the nth acupuncture point.

Calculating the long-term cardiovascular health index HL:

H_L(η₁，η₂，η₃，...，η_n)＝θ₁H_I1+θ₂H_I2+θ₃H_I3

wherein HI1, HI2 and HI3 are three instant cardiovascular health indexes of the latest detection and analysis respectively, and theta 1, theta 2 and theta 3 are health proportions of the three instant cardiovascular health indexes respectively.

In some embodiments of the present disclosure, the stimulation adjustment unit can determine the cause of cardiovascular health change of the human body, and automatically set a suitable stimulation mode:

judging the position and reason of cardiovascular problems of human body according to the change of health indexes of different acupuncture points, and emphatically stimulating acupuncture points related to the problems; selecting a waveform, a waveform frequency and a stimulation duration according to the change degree of each component of the health index of the acupuncture points; and analyzing whether the current electrical stimulation mode is proper or not according to the change trend of the cardiovascular health index in the on-line/long-term state detected for many times, and feeding back or reminding manual setting of the selection of the stimulation mode.

In some embodiments of the present disclosure, the types of stimulating electrical signals include: at least one of a pulse wave, a rectangular wave, a triangular wave, a sine wave, and an analog waveform identical to a digital signal of an audio file.

In summary, the main control module package can process the digital signals obtained by the conversion of the signal acquisition module to obtain time domain characteristics, frequency domain characteristics and nonlinear characteristics of the signals, and comprehensively analyze the time domain characteristics, the frequency domain characteristics and the nonlinear characteristics to obtain the human body instant cardiovascular function health index; the health index of the cardiovascular function of the human body for a long time can be obtained by combining the analysis of the health index of the cardiovascular function of the human body in real time in the first three times; automatically adjusting the current intensity, frequency and waveform output to each electric needle pair module by the stimulation module according to the real-time and long-time indexes obtained by analysis; a waveform that can be imported using a mobile terminal or a USB; the audio file imported by the mobile terminal or the USB can be converted into an electrical stimulation waveform; analyzing whether the current electrical stimulation mode is appropriate or not according to the change trend of the cardiovascular health index in the on-line/long-term state detected for many times, and feeding back or prompting manual setting on the selection of the stimulation mode; the implantation length can be adjusted according to the input height and weight information of the human body; can be finely adjusted according to the difference of human bodies.

In some embodiments of the present disclosure, the flow chart of the stimulation module function is shown in fig. 5, and the stimulation module includes:

the conversion circuit unit is provided with an analog-digital conversion circuit and can convert the control information output by the main control module into an analog signal for stimulation;

the output unit can simultaneously output the same or different currents to the left needle bodies of the plurality of electric needle devices;

the protection unit is provided with a voltage limiting protection circuit to ensure that the human body is not hurt, and meanwhile, in the stimulation process, if the output current voltage value exceeds the set limit value, an alarm is given out.

In some embodiments of the present disclosure, the system further comprises a peripheral circuit, the peripheral circuit comprising:

a power supply module: two types of direct current power supplies of 5V and 12V can be provided for each module; providing a 12V direct current power supply to the micro motor;

a data storage module: the collected signals, height and weight, signal characteristics, output parameters and instant/long-term cardiovascular function health indexes of each time can be selectively stored;

the USB read-write module: the stored data can be exported/imported through the USB module; waveforms may be exported/imported;

a display module: the device can display the acquired waveforms of all the electric acupuncture devices, can display the output parameters of the stimulation module, can display the instant and stored data and parameters, and can display the service conditions of all the modules;

a key input module: can input instructions and set parameters;

a communication module: including bluetooth function and WIFI function for acupuncture point detects and adjusts and control system and carries out data transmission with mobile terminal, can set up parameter, leading-in waveform, export data through mobile terminal.

According to the embodiment of the disclosure, the operation method and the flow of the acupuncture point electric acupuncture device and the system aiming at the cardiovascular related diseases are as follows: vertically placing a plurality of electric needle devices on the acupuncture points, wherein two needles of the electric needle devices are vertical to the channels and collaterals where the acupuncture points are located; setting height and weight information, and confirming and checking the implantation depth; collecting electrophysiological signals of the acupuncture points; the main control module starts to analyze the signal characteristics, calculates cardiovascular health indexes and displays an electric stimulation scheme; determining an electrical stimulation protocol comprising: stimulation waveform, stimulation duration; if a new stimulus waveform is attempted to be used, the stimulus waveform can be imported in the form of an audio file using a USB module or a communication module; initiating electrical stimulation; and (5) after the electrical stimulation is finished, pulling out the needle body of the electric needle.

So far, the embodiments of the present disclosure have been described in detail with reference to the accompanying drawings. It is to be noted that, in the attached drawings or in the description, the implementation modes not shown or described are all the modes known by the ordinary skilled person in the field of technology, and are not described in detail. Further, the above definitions of the various elements and methods are not limited to the various specific structures, shapes or arrangements of parts mentioned in the examples, which may be easily modified or substituted by those of ordinary skill in the art.

From the above description, those skilled in the art should clearly understand the acusector device and system of the present disclosure.

In summary, the present disclosure provides an acupuncture point electric acupuncture device and system, which can automatically implant and take out an electric acupuncture into and from the skin; the signal acquisition module in the acupoint electric needle system is used for acquiring and processing electrophysiological signals; the stimulation module is used for stimulating different acupuncture points with the same/different waveforms, durations and frequencies; the main control module is used for analyzing the electrophysiological signals, extracting characteristics, calculating cardiovascular health indexes of the human body and selecting the optimal stimulation mode; and the peripheral circuit is used for data interaction, data transmission and power supply. The present disclosure provides a new means for detecting and regulating human cardiovascular system, and provides a new research mode for the specific research of acupuncture and moxibustion.

It should also be noted that directional terms, such as "upper", "lower", "front", "rear", "left", "right", and the like, used in the embodiments are only directions referring to the drawings, and are not intended to limit the scope of the present disclosure. Throughout the drawings, like elements are represented by like or similar reference numerals. Conventional structures or constructions will be omitted when they may obscure the understanding of the present disclosure. And the shapes and sizes of the respective components in the drawings do not reflect actual sizes and proportions, but merely illustrate the contents of the embodiments of the present disclosure.

The use of ordinal numbers such as "first," "second," "third," etc., in the specification and claims to modify a corresponding element does not by itself connote any ordinal number of the element or any ordering of one element from another or the order of manufacture, and the use of the ordinal numbers is only used to distinguish one element having a certain name from another element having a same name.

In addition, unless steps are specifically described or must occur in sequence, the order of the steps is not limited to that listed above and may be changed or rearranged as desired by the desired design. The embodiments described above may be mixed and matched with each other or with other embodiments based on design and reliability considerations, i.e., technical features in different embodiments may be freely combined to form further embodiments.

The above-mentioned embodiments are intended to illustrate the objects, aspects and advantages of the present disclosure in further detail, and it should be understood that the above-mentioned embodiments are only illustrative of the present disclosure and are not intended to limit the present disclosure, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.