CN113616929A - Pulse electromagnetic stimulation method based on human body physiological information and body shaping device - Google Patents

Abstract

The invention provides a pulse electromagnetic stimulation method based on human body physiological information and a body shaping device, wherein the method comprises the following steps: calculating stimulation parameter sequences of different parts of the human body according to the acquired physiological information of the human body; based on the stimulation parameter sequences of different parts of the human body, different parts of the human body are subjected to pulse electromagnetic stimulation. According to the invention, the stimulation parameter combination is intelligently recommended and optimized by combining with the physiological information of the human body according to the difference of specific stimulation parts, the stimulation parameter sequence is customized according to the differentiation information of individual organisms and parts, the universality and the accuracy of the body shaping of the pulse electromagnetic stimulation are improved, the muscle damage caused by potential over-stimulation and the poor effect caused by potential over-weak stimulation are effectively avoided, the user experience is improved, and the safety and the effectiveness of the pulse electromagnetic stimulation in clinical application are integrally improved.

Description

Pulse electromagnetic stimulation method based on human body physiological information and body shaping device

Technical Field

The invention relates to the fields of medical cosmetology, exercise health, physical therapy rehabilitation and body management shaping, in particular to a pulse electromagnetic stimulation method based on human body physiological information and a body shaping device.

Background

At present, with the increasing living standard of people, the aesthetic appeal of the public is more and more embodied and generalized; wherein, the appeals of the majority of beauty demanders to the body shaping and fat reduction are increased day by day, and the strong market growth trend is presented;

meanwhile, in the field of exercise rehabilitation, people pursue customized stimulation of different muscle groups of different individuals to perform corresponding strength training so as to achieve a specific expected effect;

the advancement and the wide prospect of the pulse electromagnetic stimulation shaping technology in the market segment are determined by the technical principle of the pulse electromagnetic stimulation shaping technology, however, related products in the current stage only work with a fixed stimulation parameter sequence, the stimulation parameter sequence is seriously homogenized, a mechanism of stimulation parameter closed-loop regulation and control is not provided, the actual expression is that the customization of the stimulation parameter sequence cannot be carried out on different parts and different individuals, the stimulation accuracy is low, and the corresponding expected effect cannot be really achieved.

The physiological parameters of each person are different, and the muscle content and fat content of different parts are different, if the homogeneous parameter sequence is used for carrying out non-differential muscle stimulation, the muscle group exercising effect and the body shaping effect are greatly reduced, and even a certain degree of sports strain can be caused to the muscle group.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides a pulse electromagnetic stimulation method based on human body physiological information and a body shaping device.

According to a first aspect of the present invention, there is provided a pulsed electromagnetic stimulation method based on human physiological information, comprising: receiving input human body related data and acquiring first human body physiological information through a sensor; calculating second human body physiological information according to input human body related data, and calculating third human body physiological information according to the first human body physiological information, wherein the first human body physiological information, the second human body physiological information and the third human body physiological information form fourth human body physiological information; calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information; based on the stimulation parameter sequences of different parts of the human body, different parts of the human body are subjected to pulse electromagnetic stimulation.

On the basis of the technical scheme, the invention can be improved as follows.

Optionally, the input human body related data includes sex, height, weight and age, the first human body physiological information includes a human body fat rate BFR, a fat thickness, a human body basal metabolic rate and a bone mass, the second human body physiological information includes a body mass index BMI, and the third human body physiological information includes a human body muscle content, a fat content, a protein content and a moisture content.

Optionally, the calculating second human physiological information according to the input human-related data, and calculating third human physiological information according to the first human physiological information include: calculating body mass index BMI according to gender and height; and calculating the muscle content, the fat content, the protein content and the water content according to the first human physiological information.

Optionally, the calculating, according to the fourth human physiological information, stimulation parameter sequences of different parts of the human body further includes: judging whether the calculated body mass index BMI and the body fat rate BFR are both in a standard normal range, and if so, storing the fourth human physiological information; if not, outputting early warning prompt information.

Optionally, the calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information includes: and for different parts of the human body, respectively adopting different calculation formulas to calculate stimulation parameter sequences of the corresponding parts based on the fourth human body physiological information, wherein the stimulation parameter sequences comprise ultralow frequency, low frequency, medium frequency, stimulation intensity and the number of times of three frequency cyclic stimulation.

Optionally, the stimulation intensity is determined according to the body mass index BMI, the fat thickness and the muscle content, the three frequencies are determined according to the muscle content and the body fat rate BFR, and the number of times of the cyclic stimulation of the three frequencies is determined according to the muscle content, the body basal metabolic rate and the body mass index BMI.

Optionally, the calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information includes: and when any stimulation parameter is calculated for different parts of the human body, different weights are set for the fourth human body physiological information corresponding to any stimulation parameter, and the stimulation parameter sequence of each different part is calculated.

According to a second aspect of the present invention, there is provided a body shaping device comprising a sensor, a main control module, a storage module, a power supply module and an output coil; the sensor is used for acquiring first human physiological information and sending the first human physiological information to the main control module; the main control module is used for receiving input human body related data and first human body physiological information sent by the sensor; calculating second human body physiological information according to the human body related data, and calculating third human body physiological information according to the first human body physiological information, wherein the first human body physiological information, the second human body physiological information and the third human body physiological information form fourth human body physiological information; calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information, and sending the stimulation parameter sequences of different parts of the human body to a power supply module; and the power supply module is used for driving the output coil to carry out pulse electromagnetic stimulation on the corresponding human body part in the form of alternating voltage based on the stimulation parameter sequences of different parts of the human body.

Optionally, the main control module is configured to calculate stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information, and includes: and for different parts of the human body, respectively adopting different calculation formulas to calculate stimulation parameter sequences of the corresponding parts based on the fourth human body physiological information, wherein the stimulation parameter sequences comprise ultralow frequency, low frequency, medium frequency, stimulation intensity and the number of times of three frequency cyclic stimulation.

According to the pulse electromagnetic stimulation method based on the human body physiological information and the body shaping device, the stimulation parameter combination is intelligently recommended and optimized according to different specific stimulation parts and the human body physiological information, the stimulation parameter sequence is customized according to the differentiation information of biological individuals and parts, the universality and the accuracy of pulse electromagnetic stimulation body shaping are improved, muscle damage caused by potential over-stimulation and poor effect caused by potential over-weak stimulation are effectively avoided, the user experience is improved, and the safety and the effectiveness of pulse electromagnetic stimulation in clinical application are integrally improved.

Drawings

FIG. 1 is a flow chart of a pulsed electromagnetic stimulation method based on human physiological information according to the present invention;

fig. 2 is a schematic structural view of a body shaping device according to the present invention;

fig. 3 is a flowchart of a method for performing pulsed electromagnetic stimulation using a body shaping device according to the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Fig. 1 is a flowchart of a pulsed electromagnetic stimulation method based on human physiological information according to the present invention, as shown in fig. 1, the method includes: 101. receiving input human body related data and acquiring first human body physiological information through a sensor; 102. calculating second human body physiological information according to input human body related data, and calculating third human body physiological information according to the first human body physiological information, wherein the first human body physiological information, the second human body physiological information and the third human body physiological information form fourth human body physiological information; 103. calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information; 104. based on the stimulation parameter sequences of different parts of the human body, different parts of the human body are subjected to pulse electromagnetic stimulation.

It can be understood that, based on the drawbacks of the background art, the embodiments of the present invention provide a method for performing customized pulsed electromagnetic stimulation by recommending corresponding stimulation parameter sequences for different parts of different individuals.

Specifically, human body physiological information is collected through a sensor, corresponding stimulation parameter sequences are respectively calculated for different parts of a human body according to the human body physiological information, and pulse electromagnetic stimulation is carried out on the different parts of the human body based on the stimulation parameter sequences of the different parts of the human body.

According to the invention, the stimulation parameter combination is intelligently recommended and optimized by combining with the physiological information of the human body according to the difference of specific stimulation parts, the stimulation parameter sequence is customized according to the differentiation information of individual organisms and parts, the universality and the accuracy of the body shaping of the pulse electromagnetic stimulation are improved, the muscle damage caused by potential over-stimulation and the poor effect caused by potential over-weak stimulation are effectively avoided, the user experience is improved, and the safety and the effectiveness of the pulse electromagnetic stimulation in clinical application are integrally improved.

In one possible embodiment, the input human-related data includes gender, height, weight and age, the first human physiological information includes a human body fat rate BFR, fat thickness, a human body basal metabolic rate and bone mass, the second human physiological information includes a body mass index BMI, and the third human physiological information includes a human muscle content, a fat content, a protein content and a water content.

When the human physiological information is acquired, some data are input to an operation interface by a user, some data are directly acquired by a sensor, and some data are calculated according to the input data and data detected between the sensors. The human body data input through the operation interface mainly comprise sex, height, weight and age, and the human body physiological information which can be directly detected by the sensor mainly comprises human body fat rate BFR, fat thickness, human body basal metabolic rate and bone mass.

In one possible embodiment, calculating second human physiological information according to the input human-related data, and calculating third human physiological information according to the first human physiological information includes: calculating a body mass index BMI according to the height and the weight; and calculating the muscle content, the fat content, the protein content and the water content according to the first human physiological information.

It can be understood that the body mass index BMI of the human body can be calculated according to the input height and weight, and the human body physiological information such as muscle content, fat content, protein content and water content of the human body can be calculated according to the body fat rate BFR, fat thickness, basal metabolic rate and bone mass of the human body detected by the sensor.

Whether input through an interface, detected between sensors, or calculated, are combined to form human physiological information.

In a possible embodiment, the calculating a stimulation parameter sequence of different parts of the human body according to the fourth human body physiological information further includes: judging whether the calculated body mass index BMI and the body fat rate BFR are both in a standard normal range, and if so, storing the fourth human physiological information; if not, outputting early warning prompt information.

It can be understood that before calculating the stimulation parameter sequences of different parts according to the human physiological information, the human physiological information is screened, whether the calculated body mass index BMI and the human body fat rate BFR are both in a standard normal range is judged, if so, the human physiological information is normal, and the human physiological information is kept; if the physiological information of the human body is not in the normal range, the physiological information of the human body is abnormal, the physiological information needs to be abandoned, and early warning prompt information is output. Subsequently, according to the normal physiological information of the human body, the stimulation parameter sequences of different parts of the human body are calculated.

In a possible embodiment, the calculating a stimulation parameter sequence of different parts of the human body according to the fourth human body physiological information includes: and for different parts of the human body, respectively adopting different calculation formulas to calculate stimulation parameter sequences of the corresponding parts based on the fourth human body physiological information, wherein the stimulation parameter sequences comprise ultralow frequency, low frequency, medium frequency, stimulation intensity and the number of times of three frequency cyclic stimulation.

The stimulation parameter sequence of different parts of the human body is calculated by adopting different calculation formulas based on physiological parameters of the human body, wherein the stimulation parameter sequence mainly comprises 5 stimulation parameters of alternating voltage of 3 frequency bands in total, circulating stimulation times of three frequency bands, stimulation intensity and the like in ultralow frequency, low frequency and intermediate frequency.

Wherein, for 5 stimulation parameters in the stimulation parameter sequence, the stimulation intensity can be determined according to the body mass index BMI, the fat thickness and the muscle content, the three frequencies can be determined according to the muscle content and the body fat rate BFR, and the cycle stimulation times of the three frequencies can be determined according to the muscle content, the body basal metabolic rate and the body mass index BMI.

In a possible embodiment, calculating a stimulation parameter sequence of different parts of the human body according to the fourth human body physiological information includes: and when any stimulation parameter is calculated for different parts of the human body, different weights are set for the fourth human body physiological information corresponding to any stimulation parameter, and the stimulation parameter sequence of each different part is calculated.

It can be understood that no matter which part of the human body is, the stimulation intensity can be determined according to the body mass index BMI, the fat thickness and the muscle content, the three frequencies can be determined according to the muscle content and the body fat rate BFR, the number of times of the cyclic stimulation of the three frequencies can be determined according to the muscle content, the basal metabolic rate of the human body and the body mass index BMI, but for different parts of the human body, the weights of the corresponding human physiological information are different when the stimulation parameters are calculated. For example, the stimulation intensity is calculated according to three human physiological information, namely the body mass index BMI, the fat thickness and the muscle content, and then, the weights of the three human physiological information are different for different parts of the human body, so that the calculated stimulation parameter sequences of different parts are different.

Referring to fig. 2, a body shaping device is provided, which mainly comprises a sensor 201, a main control module 202, a storage module 203, a power supply module 204 and an output coil 205.

The sensor 201 is used for acquiring first human physiological information and sending the first human physiological information to the main control module 202; the main control module 202 is used for receiving the input human body related data and the first human body physiological information sent by the sensor 201; calculating second human body physiological information according to the human body related data, and calculating third human body physiological information according to the first human body physiological information, wherein the first human body physiological information, the second human body physiological information and the third human body physiological information form fourth human body physiological information; calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information, and sending the stimulation parameter sequences of different parts of the human body to the power supply module 204; the power module 204 is used for driving the output coil 205 to perform pulse electromagnetic stimulation on the corresponding human body part in the form of alternating voltage based on the stimulation parameter sequences of different parts of the human body; the storage module 203 is used for storing the fourth human physiological information and the stimulation parameter sequences of different parts of the human body.

The main control module 204 is configured to calculate stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information, and includes: and for different parts of the human body, respectively adopting different calculation formulas to calculate stimulation parameter sequences of the corresponding parts based on the fourth human body physiological information, wherein the stimulation parameter sequences comprise ultralow frequency, low frequency, medium frequency, stimulation intensity and the number of times of three frequency cyclic stimulation.

Referring to fig. 3, a flow chart of the body shaping device for performing pulse electromagnetic stimulation on different parts of a human body mainly includes the following steps:

1. starting up the equipment and starting to enter the system;

2. the customer selects the sex of the male/female, and inputs the height, the weight and the age; physiological information such as body fat rate and basal metabolic rate is detected by the sensor 201;

3. selecting a site to be stimulated (abdomen or buttocks or upper arm or thigh);

4. checking the input information of the customer according to the information input in the step 2 and the information of normal BMI, body fat rate BFR and the like of international standard, judging whether the numerical value exceeds the normal numerical value range, and if so, giving an early warning prompt by the system; if the data is judged to be within the normal range, the data is stored in the storage module 203;

5. stimulation sequence parameters (5 parameters in total, 3 frequencies + stimulation intensity + frequency cycle times) are determined by not any physiological information but a plurality of physiological information, and the weighting refers to which physiological information determines which stimulation parameters and the occupied proportion;

6. the main control module 202 calls data in the storage unit to complete a related algorithm;

7. packing the calculated stimulation parameter sequence into a data packet instruction with a fixed format, and transmitting the data packet instruction to the power module 204;

8. the power supply module 204 drives the output coil 205 to work in the form of alternating voltage according to the stimulation sequence parameters;

9. the output coil 205 acts on the selected body part;

10. if the person is changed to a different person or the same person changes to stimulate different parts, the steps are iterated once.

According to the pulse electromagnetic stimulation method and the body shaping device based on the human body physiological information, provided by the invention, stimulation parameter sequences of different parts of a human body are calculated according to the obtained human body physiological information; based on the stimulation parameter sequences of different parts of the human body, different parts of the human body are subjected to pulse electromagnetic stimulation. According to the difference of specific stimulation parts, human physiological information is combined, stimulation parameter combination is intelligently recommended and optimized, a stimulation parameter sequence is customized according to the differentiation information of individual organisms and parts, the universality and the accuracy of body shaping of pulse electromagnetic stimulation are improved, muscle damage caused by potential over-stimulation and poor effect caused by potential over-weak stimulation are effectively avoided, the user experience is improved, and the safety and the effectiveness of the pulse electromagnetic stimulation in clinical application are integrally improved.

It should be noted that, in the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to relevant descriptions of other embodiments for parts that are not described in detail in a certain embodiment.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A pulse electromagnetic stimulation method based on human physiological information is characterized by comprising the following steps:

receiving input human body related data and acquiring first human body physiological information through a sensor;

calculating second human body physiological information according to input human body related data, and calculating third human body physiological information according to the first human body physiological information, wherein the first human body physiological information, the second human body physiological information and the third human body physiological information form fourth human body physiological information;

calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information;

based on the stimulation parameter sequences of different parts of the human body, different parts of the human body are subjected to pulse electromagnetic stimulation.

2. The pulsed electromagnetic stimulation method according to claim 1, wherein the input human-related data includes gender, height, weight, and age, the first human physiological information includes a human body fat rate BFR, fat thickness, human basal metabolic rate, and bone mass, the second human physiological information includes a body mass index BMI, and the third human physiological information includes a human muscle content, fat content, protein content, and moisture content.

3. The pulsed electromagnetic stimulation method according to claim 2, wherein the calculating of the second human physiological information from the input human-related data and the calculating of the third human physiological information from the first human physiological information comprises:

calculating body mass index BMI according to gender and height;

and calculating the muscle content, the fat content, the protein content and the water content according to the first human physiological information.

4. The pulsed electromagnetic stimulation method according to claim 3, wherein the calculating of the stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information further comprises:

judging whether the calculated body mass index BMI and the body fat rate BFR are both in a standard normal range, and if so, storing the fourth human physiological information; if not, outputting early warning prompt information.

5. The pulsed electromagnetic stimulation method according to claim 4, wherein the calculating the stimulation parameter sequence of different parts of the human body according to the fourth human body physiological information comprises:

and for different parts of the human body, respectively adopting different calculation formulas to calculate stimulation parameter sequences of the corresponding parts based on the fourth human body physiological information, wherein the stimulation parameter sequences comprise ultralow frequency, low frequency, medium frequency, stimulation intensity and the number of times of three frequency cyclic stimulation.

6. The pulsed electromagnetic stimulation method according to claim 5, wherein the stimulation intensity is determined according to body mass index BMI, fat thickness and muscle content, the three frequencies are determined according to muscle content and body fat rate BFR, and the number of cyclic stimulation of the three frequencies is determined according to muscle content, body basal metabolic rate and body mass index BMI.

7. The method according to claim 5 or 6, wherein said calculating the sequence of stimulation parameters of different parts of the human body according to the fourth human physiological information comprises:

and when any stimulation parameter is calculated for different parts of the human body, different weights are set for the fourth human body physiological information corresponding to any stimulation parameter, and the stimulation parameter sequence of each different part is calculated.

8. A body shaping device is characterized by comprising a sensor, a main control module, a storage module, a power supply module and an output coil;

the sensor is used for acquiring first human physiological information and sending the first human physiological information to the main control module;

the main control module is used for receiving input human body related data and first human body physiological information sent by the sensor; calculating second human body physiological information according to the human body related data, and calculating third human body physiological information according to the first human body physiological information, wherein the first human body physiological information, the second human body physiological information and the third human body physiological information form fourth human body physiological information; calculating stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information, and sending the stimulation parameter sequences of different parts of the human body to a power supply module;

and the power supply module is used for driving the output coil to carry out pulse electromagnetic stimulation on the corresponding human body part in the form of alternating voltage based on the stimulation parameter sequences of different parts of the human body.

9. The body shaping device of claim 8, wherein the main control module is configured to calculate the stimulation parameter sequences of different parts of the human body according to the fourth human body physiological information, and comprises:

and for different parts of the human body, respectively adopting different calculation formulas to calculate stimulation parameter sequences of the corresponding parts based on the fourth human body physiological information, wherein the stimulation parameter sequences comprise ultralow frequency, low frequency, medium frequency, stimulation intensity and the number of times of three frequency cyclic stimulation.

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