CN114041640B - Intelligent underwear, intelligent underwear control method and computer readable storage medium - Google Patents

Abstract

The invention discloses an intelligent underwear, an intelligent underwear control method and a computer readable storage medium, wherein the intelligent underwear comprises: the underwear body comprises a cup; the array electrodes are distributed on the inner side of the cup and radially distributed around the center of the cup; and the peripheral circuit equipment is arranged in the underwear body and comprises a pulse generating module, and the pulse generating module is electrically connected with the array electrode. The method comprises the following steps: when receiving a working signal, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes; after the first preset time period is continued, the pulse generating module is controlled to stop inputting pulse current to the array electrode, so that the underwear has a health care function.

Description

Intelligent underwear, intelligent underwear control method and computer readable storage medium

Technical Field

The invention relates to the field of medical care appliances, in particular to an intelligent underwear, an intelligent underwear control method and a computer readable storage medium.

Background

In general, women's population often has a larger demand for living goods than men, and in particular, women's underwear, which is an indispensable living goods for most women, has a high frequency of use, and as the life style changes, women have an increasing demand for quality and function of women's underwear.

Common female underwear has the functions of keeping warm, supporting the chest and the like, but does not have great help to the health of female breasts and does not have a health care function.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide intelligent underwear, an intelligent underwear control method and a computer readable storage medium, and aims to realize the health care function of the underwear.

To achieve the above object, the present invention provides a smart undergarment comprising:

the underwear body comprises a cup;

the array electrodes are distributed on the inner side of the cup and are radially distributed around the center of the cup; and

the peripheral circuit equipment is arranged in the underwear body and comprises a pulse generation module, and the pulse generation module is electrically connected with the array electrode.

Optionally, the peripheral circuit device further comprises a multiplexing module, and the pulse generating module and the array electrode are connected through the multiplexing module.

Optionally, the smart undergarment further comprises:

the annular electrode comprises at least two electrode plates, the annular electrode is positioned on the inner side of the cup and arranged along the outer edge of the array electrode, and the annular electrode is electrically connected with the pulse generation module.

Optionally, the peripheral circuit device further comprises a voltage detection module, and the voltage detection module is connected with the annular electrode and the array electrode.

In order to achieve the above object, the present invention provides an intelligent underwear control method, which is applied to intelligent underwear, and the intelligent underwear control method includes:

when receiving a working signal, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes;

and after the first preset time duration is prolonged, controlling the pulse generating module to stop inputting the pulse current to the array electrode.

Optionally, the peripheral circuit device of the smart undergarment uses one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and the step of controlling the pulse generating module to intermittently input pulse current to the array electrodes comprises:

the peripheral circuit equipment of the intelligent underwear takes a first electrode of a first area of an array electrode as a cathode, at least one second electrode of a second area and a third area as a common anode, and a control pulse generation module inputs pulse currents to the first electrode and the second electrode;

after the second preset time period is continued, a first electrode of the second area of the array electrode is switched to serve as a cathode, at least one second electrode of the first area and at least one second electrode of the third area serve as a common anode, and a control pulse generating module inputs pulse currents to the first electrode and the second electrode;

after the second preset time period is continued, switching a first electrode of the third area of the array electrode to serve as a cathode, at least one second electrode of the first area and the second area serves as a common anode, and controlling a pulse generating module to input pulse currents to the first electrode and the second electrode;

and after the second preset time period is continued, returning to the step of executing the pulse current input by the pulse generation module to the first electrode and the second electrode by the peripheral circuit equipment of the intelligent underwear, wherein the first electrode in the first area of the array electrode is used as a cathode, at least one second electrode in the second area and the third area is used as a common anode.

Optionally, when receiving the working signal, the peripheral circuit device of the smart undergarment takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and the step of controlling the pulse generating module to intermittently input pulse current to the array electrodes comprises the following steps:

receiving a working signal, and acquiring a working mode corresponding to the working signal, wherein the working mode comprises at least one of a health monitoring mode, a breast physiotherapy mode and a muscle training mode;

and when the working mode is the breast physiotherapy mode, executing the step that when a working signal is received, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controlling the pulse generating module to intermittently input pulse current to the array electrodes.

Optionally, after the step of receiving the working signal and obtaining the working mode corresponding to the working signal, the method further includes:

when the working mode is the muscle training mode, the peripheral circuit equipment takes one electrode plate in the annular electrode as a cathode, at least one other electrode plate as a common anode, and controls the pulse generating module to input pulse current to the array electrode;

and after the third preset time period is continued, controlling the pulse generating module to stop inputting the pulse current to the annular electrode.

Optionally, after the step of receiving the working signal and obtaining the working mode corresponding to the working signal, the method further includes:

when the working mode is the health monitoring mode, the peripheral circuit equipment takes one electrode of the array electrodes as a cathode and the other electrode as an anode, and controls the pulse generating module to input pulse current to the array electrodes;

acquiring voltage data between the array electrode and the annular electrode through a voltage detection module of the peripheral circuit equipment;

inputting the voltage data into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast;

and monitoring the internal tissue structure of the breast according to the electrical impedance image.

In addition, in order to achieve the above object, the present invention also provides a smart undergarment including a memory, a processor, and a smart undergarment control program stored on the memory and executable on the processor, the smart undergarment control program implementing the steps of the smart undergarment control method as described above when executed by the processor.

In addition, in order to achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon a smart undergarment control program which, when executed by a processor, implements the steps of the smart undergarment control method as described above.

The embodiment of the invention provides an intelligent underwear, an intelligent underwear control method and a computer-readable storage medium. When receiving a working signal, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes; and after the first preset time duration is prolonged, controlling the pulse generating module to stop inputting the pulse current to the array electrode. Therefore, when a woman wears the intelligent underwear, the electric stimulation physiotherapy can be carried out on the breasts, so that the breast ducts are dredged, the extension of the breast ducts is promoted, the effects of enlarging breasts and preventing hyperplasia of breasts are achieved, and the breast feeding quality is improved during the pregnancy of the woman. Therefore, based on the proposal provided by the embodiment, the effect of making the underwear have health care function is realized.

Drawings

FIG. 1 is a schematic diagram of a terminal structure of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic view of a smart undergarment according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an array electrode distribution according to an embodiment of the present invention;

FIG. 4 is a flow chart of an embodiment of a smart undergarment control method of the present invention;

FIG. 5 is a flow chart of another embodiment of the smart undergarment control method of the present invention;

FIG. 6 is a flow chart of a smart undergarment control method of another embodiment of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the related art, the female underwear is formed by cutting and splicing cloth, only has the functions of heat preservation and chest support, and has no health care function.

In order to enable the underwear to have a health care function, the embodiment of the invention provides an intelligent underwear, an intelligent underwear control method and a computer readable storage medium, wherein the method mainly comprises the following steps:

when receiving a working signal, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes;

and after the first preset time duration is prolonged, controlling the pulse generating module to stop inputting the pulse current to the array electrode.

Therefore, when the female wears the underwear, the electric stimulation physiotherapy can be carried out on breasts, so that the breast ducts are dredged, the extension of the breast ducts is promoted, the effects of enlarging breasts and preventing hyperplasia of breasts are achieved, the breast feeding quality is improved during the pregnancy of the female, and the underwear has a health care function.

The invention as claimed is described in detail below with reference to the attached drawing figures.

As shown in fig. 1, fig. 1 is a schematic diagram of a terminal structure of a hardware running environment according to an embodiment of the present invention.

The terminal of the embodiment of the invention can be intelligent underwear.

As shown in fig. 1, the terminal may include: a processor 1001, such as a CPU, a memory 1003, and a communication bus 1002. Wherein the communication bus 1002 is used to enable connected communication between these components. The memory 1003 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1003 may alternatively be a storage device separate from the processor 1001 described above.

It will be appreciated by those skilled in the art that the terminal structure shown in fig. 1 is not limiting of the terminal and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

As shown in fig. 1, an operating system and a smart undergarment control program may be included in a memory 1003, which is a kind of computer storage medium.

In the terminal shown in fig. 1, the processor 1001 may be configured to call a smart undergarment control program stored in the memory 1003 and perform the following operations:

when receiving a working signal, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes;

and after the first preset time duration is prolonged, controlling the pulse generating module to stop inputting the pulse current to the array electrode.

Further, the processor 1001 may call the smart undergarment control program stored in the memory 1003, and further perform the following operations:

the peripheral circuit equipment of the intelligent underwear takes a first electrode of a first area of an array electrode as a cathode, at least one second electrode of a second area and a third area as a common anode, and a control pulse generation module inputs pulse currents to the first electrode and the second electrode;

after the second preset time period is continued, a first electrode of the second area of the array electrode is switched to serve as a cathode, at least one second electrode of the first area and at least one second electrode of the third area serve as a common anode, and a control pulse generating module inputs pulse currents to the first electrode and the second electrode;

after the second preset time period is continued, switching a first electrode of the third area of the array electrode to serve as a cathode, at least one second electrode of the first area and the second area serves as a common anode, and controlling a pulse generating module to input pulse currents to the first electrode and the second electrode;

and after the second preset time period is continued, returning to the step of executing the pulse current input by the pulse generation module to the first electrode and the second electrode by the peripheral circuit equipment of the intelligent underwear, wherein the first electrode in the first area of the array electrode is used as a cathode, at least one second electrode in the second area and the third area is used as a common anode.

Further, the processor 1001 may call the smart undergarment control program stored in the memory 1003, and further perform the following operations:

receiving a working signal, and acquiring a working mode corresponding to the working signal, wherein the working mode comprises at least one of a health monitoring mode, a breast physiotherapy mode and a muscle training mode;

and when the working mode is the breast physiotherapy mode, executing the step that when a working signal is received, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, and controlling the pulse generating module to intermittently input pulse current to the array electrodes.

Further, the processor 1001 may call the smart undergarment control program stored in the memory 1003, and further perform the following operations:

when the working mode is the muscle training mode, the peripheral circuit equipment takes one electrode plate in the annular electrode as a cathode, at least one other electrode plate as a common anode, and controls the pulse generating module to input pulse current to the array electrode;

and after the third preset time period is continued, controlling the pulse generating module to stop inputting the pulse current to the annular electrode.

Further, the processor 1001 may call the smart undergarment control program stored in the memory 1003, and further perform the following operations:

when the working mode is the health monitoring mode, the peripheral circuit equipment takes one electrode of the array electrodes as a cathode and the other electrode as an anode, and controls the pulse generating module to input pulse current to the array electrodes;

acquiring voltage data between the array electrode and the annular electrode through a voltage detection module of the peripheral circuit equipment;

inputting the voltage data into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast;

and monitoring the internal tissue structure of the breast according to the electrical impedance image.

In general, the female population often needs more living goods than men, and in particular, female underwear, which is an essential living goods for most women, has a high frequency of use. With lifestyle changes, women have increasingly demanded quality and function of female undergarments.

Common female underwear is formed by cutting and splicing cloth, only has the functions of keeping warm, supporting the chest and the like, but does not greatly help the health of female breasts, and has no health care function.

It follows that the above-mentioned drawbacks are present in the relevant feminine undergarment. In order to solve the defects, the embodiment of the invention provides an intelligent underwear control method applied to intelligent underwear, aiming at realizing the effect of enabling the underwear to have a health care function.

The following is a description of what is claimed in the claims of the present invention by means of specific exemplary embodiments, so that those skilled in the art can better understand the scope of the claims of the present invention. It should be understood that the following exemplary embodiments do not limit the scope of the present invention, but are only used to illustrate the present invention.

Illustratively, referring to fig. 2 and 3, in one embodiment of the smart undergarment 100 of the present invention, the smart undergarment 100 comprises: the underwear body 10, the array electrode 30 and the external circuit device 50, the underwear body 10 can be formed by cutting and splicing cloth, the shape is not limited, the underwear body 10 can be formed by stacking a plurality of materials layer by layer, including cotton cloth, silica gel, gauze and the like, the underwear body 10 comprises two cups 20, and the two cups on the underwear body are hollow hemispheres which can cover human breasts. The array electrodes 30 are distributed inside the cup 20 and are in direct contact with the skin of the human body, and the array electrodes 30 are array units formed by a plurality of electrodes and are radially distributed around the center of the cup 20. The peripheral circuit device 50, the peripheral circuit device 50 is disposed in the underwear body 10, and may be disposed on the outermost layer of the underwear body 10 to improve the comfort of the smart underwear 100, and the peripheral circuit device 50 includes a pulse generating module that may generate a pulse current or convert a direct current into a pulse current, and is electrically connected with the array electrode 30.

Optionally, the smart undergarment 100 further includes at least two electrode pads, collectively referred to as ring electrodes, in one cup, as shown in fig. 2, the electrode pads 70, 71, 72 are ring electrodes, which are located inside the cup 20 and directly contact with the skin of the human body, so as to improve the effect of current stimulation, the ring electrodes are disposed along the outer edges of the array electrodes 30, and the ring electrodes are electrically connected with the pulse generating module. The electrode plates 70 are positioned corresponding to the upper beam dead points of the pectoral large muscle of the human body, the electrode plates 70 and 71 are positioned corresponding to the upper beam dead points of the pectoral large muscle of the human body, along the muscle texture, the region enriched in fat and mammary glands is avoided, and the electrode plates are placed in the lower beam of the muscle, so that the effect of muscle exercise can be better realized after pulse current is connected.

Optionally, the smart undergarment 100 further includes a battery 60, the battery 60 being detachable, the battery 60 being connected to the pulse generating module of the external circuit device 50, the direct current output from the battery being converted into a pulse current by the pulse generating module and input into the array electrode 30.

Optionally, the peripheral circuit device 50 further includes a multiplexing module, where the pulse generating module and the array electrode 30 are connected by the multiplexing module, and the multiplexing module may be a gate for selectively switching on a target electrode in the array electrode 30 to correctly send a corresponding pulse current to the target electrode, and the pulse generating module may also be connected to the ring electrode by the multiplexing module.

Optionally, the peripheral circuit device 50 further includes a voltage detection module, where the voltage detection module is connected to the ring electrode and the array electrode 30, and it is understood that when the smart undergarment 100 works, the human breast corresponds to a conductor, and each position may have movement of electrons, and the voltage between each electrode in the array electrode 30, the voltage between each electrode sheet of the ring electrode, and the voltage between a certain electrode in the array 30 and a certain electrode sheet in the ring electrode may be detected by the voltage detection module.

Optionally, the peripheral circuit device 50 further includes a controller, where the controller is connected to the pulse generating module and the voltage detecting module, and can control the pulse voltage module to connect to the predetermined array electrode 30 or the ring electrode within a predetermined period of time, generate a pulse current with a certain magnitude, receive data measured by the voltage detecting module and process the data, and perform wireless connection (bluetooth, WIFI, ZIgBee, etc.) with a terminal device or a server.

Alternatively, because the electrode sheets of the array electrode 30 and the ring electrode are flexible materials and can be fabric-based flexible dry electrodes, the electrodes have ventilation and certain sweat absorption capabilities, so that the intelligent underwear has both working stability and wearing comfort. The electrode is embedded into the underwear, so that the underwear is easy and convenient to wear, no professional assistance is needed, and meanwhile, the equipment is low in manufacturing cost and power consumption, and is suitable for daily health care application of individuals.

Optionally, referring to fig. 3, the array electrodes are uniformly arranged in radial form around the breast in N (n=2, 3, 4) circles, and the M-th circle uniformly places 3 x 2M-1 dot electrodes, where the first circle is disposed inside the cup corresponding to the areola, and the N-th circle is disposed inside the cup corresponding to the root of the breast.

The embodiment discloses among the technical scheme, intelligent underwear includes underwear body, array electrode and peripheral circuit equipment, including the pulse in the peripheral circuit equipment and produce the module, the pulse produces the module and is connected with the array electrode electricity, for it provides pulse current, make the underwear can outwards produce the electric current like this, when wearing intelligent underwear, can carry out the electrostimulation physiotherapy to the breast, thereby the extension of mediation breast duct, promote the breast duct has the effect of enlarging breast, preventing hyperplasia of mammary glands, be favorable to promoting breast feeding quality at female pregnancy, make the underwear can have health care function.

Optionally, referring to fig. 4, in an embodiment of the smart undergarment control method of the present invention, based on any one of the above embodiments, the smart undergarment control method includes:

s1, when a working signal is received, peripheral circuit equipment of the intelligent underwear takes one electrode of an array electrode as a cathode, at least one other electrode as a common anode, and a control pulse generation module intermittently inputs pulse current to the array electrode;

in this embodiment, the main body for executing the control method of the intelligent underwear is the intelligent underwear, before the intelligent underwear receives the working signal, the intelligent underwear needs to be started and is in a to-be-connected state after being started, after the peripheral circuit equipment is connected with the terminal equipment, a user can manually select a working mode through the terminal equipment, the user can set an automatic switching working mode at the client, after the terminal equipment determines the working mode, the working signal is sent to the intelligent underwear, the intelligent underwear receives the working signal, and the working mode corresponding to the working signal is acquired, wherein the working mode comprises a health monitoring mode, a mammary gland physiotherapy mode and a muscle training mode. When receiving the corresponding working signal of the mammary gland physiotherapy mode, the peripheral circuit equipment of the intelligent underwear takes the power supply electrode in the array electrode as a cathode, at least one other electrode as a common anode, pulse current is intermittently input to the array electrode based on the electric connection between the pulse generating module and the array electrode, and the current can pass through the breast of a human body to perform electric stimulation physiotherapy, so that the mammary gland duct is dredged and the extension of the mammary gland duct is promoted.

In an alternative embodiment, referring to fig. 3, the array electrode is uniformly divided into three areas, and upon receiving the operation signal, a pulse current may be input to the array electrode in the following manner. The peripheral circuit device of the intelligent underwear takes a first electrode (r 1) of a first area of the array electrode as a cathode, at least one second electrode (r 13-r 19) of a second area and at least one second electrode of a third area as a common anode, and controls the pulse generating module to input pulse current to the first electrode and the second electrode, wherein the pulse current is different according to the time period (non-menstrual period, proliferation period and secretion period) of females, and can be customized by users; after the second preset time period is continued, a first electrode (r 2) of a second area of the array electrode is switched to serve as a cathode, at least one second electrode (at least one of r11-r 17) of the first area and the third area serves as a common anode, and a control pulse generating module inputs pulse current to the first electrode and the second electrode, wherein the pulse current can be the same as the current when r1 serves as the cathode; after the second preset time period is continued, a first electrode (r 3) in a third area of the array electrode is switched to serve as a cathode, at least one second electrode (at least one of r15-r 21) in the first area and the second area serves as a common anode, and a control pulse generating module inputs pulse current to the first electrode and the second electrode, wherein the pulse current can be the same as the current when r1 serves as the cathode; and after the second preset time period, returning to the step of executing the pulse generation module to input pulse current to the first electrode and the second electrode by the peripheral circuit equipment of the intelligent underwear, wherein the first electrode (r 1) of the first area of the array electrode is used as a cathode, at least one second electrode (r 13-r 19) of the second area and the third area is used as a common anode.

Alternatively, the pulsed current may be a biphasic balanced pulsed current.

And S2, after the first preset duration is continued, controlling the pulse generation module to stop inputting the pulse current to the array electrode.

In this embodiment, the peripheral circuit device of the smart undergarment uses one of the array electrodes as the cathode, at least one other electrode as the common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes, and after a first preset period of time is continued, controls the pulse generating module to stop inputting the pulse current to the array electrodes, where the first preset period of time is determined according to the working signal, and the working signal corresponds to the working mode, and the first preset period of time may be a default working period of the breast physiotherapy working mode, a self-defined working period of time when the user selects the working mode, or a manually stopped period of time when the user manually stops.

Optionally, the second preset duration is smaller than the first preset duration. The second preset time length is the power-on time length of the electrode of each area. And stopping inputting the pulse current to the array electrode when the accumulated time length of the second preset time lengths reaches the first preset time length.

For example: the second preset duration is 1 minute, and the first preset duration is 15 minutes. And after the three areas are sequentially switched, electrifying for at least 3 minutes, and thus, electrifying for at least 5 times from the first area to the third area in a sequentially and circularly switching mode. There may be an interval between each cycle, and if there is an interval, the number of times the cycle switch is powered on may be less than 5. It can be understood that in fig. 3, the first area is a sector area where the electrode r1 is located, the second area is a sector area where r2 is located, the third area is a sector area where r3 is located, electrodes around areola are used as cathodes in each period, electrodes around the root of the breast are used as anodes, and pulse currents are input through continuously and circularly selecting different electrodes, so that electric stimulation on uniformity and circularity of the breast of a human body can be realized.

In the technical scheme disclosed in this embodiment, when receiving a working signal, the peripheral circuit device of the intelligent underwear takes one of the array electrodes as a cathode and at least one other electrode as a common anode, and controls the pulse generating module to intermittently input pulse current to the array electrodes; and after the first preset time duration is prolonged, controlling the pulse generating module to stop inputting the pulse current to the array electrode. The pulse current of peripheral circuit equipment is input to the array electrode, so that the electric stimulation physiotherapy can be performed, thereby dredging the breast ducts, promoting the extension of the breast ducts, having the functions of enlarging breast, enriching breast and preventing hyperplasia of mammary glands, being beneficial to improving breast feeding quality during pregnancy of females, and realizing the effect of having health care function of underwear.

Optionally, referring to fig. 5, in another embodiment of the smart undergarment control method of the present invention, based on any one of the embodiments described above, the smart undergarment control method comprises:

s10, when the working mode is the muscle training mode, the peripheral circuit equipment takes one electrode plate in the annular electrode as a cathode, at least one other electrode plate as a common anode, and controls the pulse generating module to input pulse current to the array electrode;

and S20, after the third preset time duration, controlling the pulse generation module to stop inputting the pulse current to the annular electrode.

In the technical scheme disclosed in the embodiment, the intelligent underwear receives the working signal, acquires the working mode corresponding to the working signal, and when the working mode is a mammary gland physiotherapy mode, controls the peripheral circuit equipment of the intelligent underwear to take one electrode sheet in the annular electrodes as a cathode and at least one other electrode sheet as a common anode, controls the pulse generation module to input pulse current to the array electrode, and a user can adjust current parameters including current frequency, size and the like through the client side of the terminal equipment.

Alternatively, referring to fig. 2, in the muscle training mode, the external circuit device controls the pulse generating module to input a certain pulse current to the ring electrode with the electrode sheet 70 of the ring electrode as a cathode and the electrode sheets 71, 72 as a common anode. The user is fine-tuned to feel comfortable and the strength that the muscle is not contracted by oneself through the client side to carry out muscle warm-up or the user is fine-tuned to the strength that the muscle is contracted and feels not painful by oneself, and pulse current lasts for a period of time for the muscle receives the stimulus and carries out muscle training. During the period, the user performs active adduction expansion and lifting training according to the action guidance on the client.

In the technical scheme provided by the embodiment, the cathode and the common anode of the annular electrode are selected through the external circuit equipment, the pulse current is input to the annular electrode by the control pulse generating module, the annular electrode is arranged around the array electrode, the corresponding annular electrode is near the breast muscle, the texture distribution of the pectoral muscle is stimulated, the region where the breast and fat are enriched is avoided, the annular electrode is utilized to apply electric stimulation, and actions of adduction, external expansion, lifting and the like are matched, so that the pectoral muscle can be effectively trained, the breast sagging is prevented, and the breast enlarging effect to a certain extent is achieved.

Optionally, referring to fig. 6, in yet another embodiment of the smart undergarment control method of the present invention, based on any one of the embodiments described above, the smart undergarment control method includes:

s100, when the working mode is the health monitoring mode, the peripheral circuit equipment takes one electrode of the array electrodes as a cathode and the other electrode as an anode, and controls the pulse generating module to input pulse current to the array electrodes;

s200, acquiring voltage data between the array electrode and the annular electrode through a voltage detection module of the peripheral circuit equipment;

s300, inputting the voltage data into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast;

s400, monitoring the internal tissue structure of the breast according to the electrical impedance image.

In this embodiment, the smart undergarment receives a working signal, acquires a working mode corresponding to the working signal, when the working mode is a breast physiotherapy mode, the peripheral circuit device uses one of the array electrodes as a cathode, the other electrode as an anode, the control pulse generating module inputs pulse current to the array electrodes, the current passes through the breast and peripheral parts of the human body, the current is possibly generated due to the flow of electrons at each position, the voltage detecting module can measure the voltage between the array electrodes and the annular electrodes, and the measured voltage is actually the voltage between the chest skin parts corresponding to the electrodes. The more electrodes of the array electrodes, the more voltage data is obtained and the more accurate the results will be. ,

after the voltage data is acquired, the voltage data is input into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast, and the internal tissue structure of the breast can be determined according to the electrical impedance imaging. The basic principle of electrical impedance imaging is to apply small safe driving current/voltage to a human body by various methods according to different resistances/conductivities of different tissues in the human body under different physiological and pathological states, and reconstruct an image of resistivity distribution or change thereof in the human body through measurement response information of the driving current or voltage in the human body. The electrical impedance of the breast is a group of numerical values related to the spatial position, the correlation between the voltage data comprises information of the electrical impedance distribution condition of the breast at the moment, the information can be used for determining imaging by combining a plurality of known information such as current parameters, tissue conductivity and the like, the electrical impedance imaging model is an image reconstruction algorithm model, and an electrical impedance image of the breast can be constructed based on the electrical impedance imaging model and a plurality of measured voltage data. It will be appreciated that the more data the higher the image resolution (sharpness), the more accuracy can be improved if more data is obtained by varying the frequency of the current.

Alternatively, in addition to adding data by adding electrodes, data can be added by measuring different time, different cathode, anode. In order to better illustrate the present embodiment, a specific application scenario is provided, please refer to fig. 3, in the health monitoring mode, the smart undergarment can uniformly select 8 time points for electrical impedance measurement in the time period of each day in the awake state of the female, and micro-current with amplitude of 2mA is added between the electrode (r 1) corresponding to the periphery of the areola and the electrode (r 16) corresponding to the periphery of the breast root, and meanwhile, voltages between the electrode sheet 71 and other electrode sheets are measured; microcurrents are then applied between the electrodes r2 and r20, r3 and r12 and the measurement steps described above are repeated. It will be appreciated that when electrical impedance measurements are made, there are three current paths in total, namely, between r1 and r16, r2 and r20, and r3 and r12, which do not operate simultaneously.

When the data is abnormal, the data is possibly caused by the displacement of the underwear, the intelligent underwear can remind a user to adjust the underwear through the client and readjust the data, finally, eight groups of data sets are subjected to intra-group inspection, the abnormal values are removed and then averaged to be used as voltage measurement data of the same day to be stored, and the three-dimensional imaging of the corresponding internal tissue structure is obtained through an electrical impedance imaging model and fed back to the client of the terminal equipment so as to monitor the internal tissue structure of the breast.

Furthermore, the health monitoring mode takes the first day of female menstruation as a starting and stopping time point, takes a menstrual cycle as a monitoring period, takes data of one menstrual cycle as one sample, can monitor whether the increasing and eliminating condition of breast tissues accords with a normal rhythm through transverse comparison among samples of each month, and can be matched with the result of a psychological emotion scale to improve the accuracy rate.

In the technical scheme disclosed in the embodiment, voltage data between the array electrode and the annular electrode is acquired through a voltage detection module of the peripheral circuit equipment; inputting the voltage data into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast; and monitoring the internal tissue structure of the breast according to the electrical impedance image. Thus, the internal tissue structure of the breast can be monitored in real time, and the health condition of the breast can be detected based on the internal structure of the breast. Meanwhile, the electrode is embedded into the underwear, so that the underwear is easy and convenient to wear, no professional assistance is needed, meanwhile, the equipment is low in manufacturing cost and low in power consumption, a user is helped to find abnormal growth of breast tissues in time, an early warning effect is achieved on various breast diseases, and long-term and continuous detection of female breast health conditions is achieved.

In addition, the embodiment of the invention also provides a smart underwear, which comprises a memory, a processor and a smart underwear control program stored on the memory and capable of running on the processor, wherein the steps of the smart underwear control method described in each embodiment are realized when the smart underwear control program is executed by the processor.

In addition, the embodiment of the invention also provides a computer readable storage medium, wherein the computer readable storage medium is stored with a smart underwear control program, and the smart underwear control program realizes the steps of the smart underwear control method in each embodiment when being executed by a processor.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising several instructions for causing the smart undergarment to perform the method according to the various embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (5)

1. A method of controlling a smart undergarment, the method being applied to a smart undergarment, the smart undergarment comprising: the underwear body comprises a cup; the array electrodes are distributed on the inner side of the cup and are radially distributed around the center of the cup; the peripheral circuit equipment is arranged in the underwear body and comprises a pulse generation module, and the pulse generation module is electrically connected with the array electrode; the annular electrode comprises at least two electrode plates, the annular electrode is positioned at the inner side of the cup and arranged along the outer edge of the array electrode, the annular electrode is electrically connected with the pulse generating module, and the annular electrode is respectively arranged at the upper beam dead point of pectoral large muscle of a human body, and is arranged near the lower beam of the muscle along the muscle texture from the upper beam dead point so as to avoid fat and mammary gland enrichment areas; the peripheral circuit equipment further comprises a voltage detection module, the voltage detection module is connected with the annular electrode and the array electrode, the voltage detection module is used for acquiring voltage data between the array electrode and the annular electrode, so that the voltage data is input into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast, and the internal tissue structure of the breast is monitored according to the electrical impedance image, and the intelligent underwear control method comprises the following steps:

receiving a working signal, and acquiring a working mode corresponding to the working signal, wherein the working mode comprises at least one of a health monitoring mode, a breast physiotherapy mode and a muscle training mode;

when the working mode is the breast physiotherapy mode, the peripheral circuit equipment of the intelligent underwear takes one electrode of the array electrodes as a cathode, at least one other electrode as a common anode, controls the pulse generation module to intermittently input pulse current to the array electrodes, and controls the pulse generation module to stop inputting the pulse current to the array electrodes after a first preset duration;

when the working mode is the health monitoring mode, the peripheral circuit equipment takes one electrode of the array electrodes as a cathode, the other electrode as an anode, the pulse generating module is controlled to input pulse current to the array electrodes, the health monitoring mode takes a first day of female menstruation as a starting and stopping time point, takes a menstrual cycle as a monitoring period, takes data of one menstrual cycle as one sample, monitors whether the increase and elimination condition of breast tissue accords with a normal rhythm through transverse comparison among samples of each month, and acquires voltage data between the array electrodes and an annular electrode through a voltage detecting module of the peripheral circuit equipment; inputting the voltage data into a preset electrical impedance imaging model to obtain an electrical impedance image of the breast, and monitoring the internal tissue structure of the breast according to the electrical impedance image;

when the working mode is the muscle training mode, the peripheral circuit equipment takes one electrode plate in the annular electrode as a cathode, at least one other electrode plate as a common anode, controls the pulse generating module to input pulse current to the annular electrode, and controls the pulse generating module to stop inputting the pulse current to the annular electrode after a third preset duration.

2. The smart undergarment control method of claim 1 wherein the peripheral circuit device of the smart undergarment has one of the array electrodes as a cathode and at least one other electrode as a common anode, the step of controlling the pulse generating module to intermittently input a pulse current to the array electrodes comprising:

the peripheral circuit equipment of the intelligent underwear takes a first electrode of a first area of an array electrode as a cathode, at least one second electrode of a second area and a third area as a common anode, and a control pulse generation module inputs pulse currents to the first electrode and the second electrode;

after the second preset time period is continued, a first electrode of the second area of the array electrode is switched to serve as a cathode, at least one second electrode of the first area and at least one second electrode of the third area serve as a common anode, and a control pulse generating module inputs pulse currents to the first electrode and the second electrode;

after the second preset time period is continued, switching a first electrode of the third area of the array electrode to serve as a cathode, at least one second electrode of the first area and the second area serves as a common anode, and controlling a pulse generating module to input pulse currents to the first electrode and the second electrode;

and after the second preset time period is continued, returning to the step of executing the pulse current input by the pulse generation module to the first electrode and the second electrode by the peripheral circuit equipment of the intelligent underwear, wherein the first electrode in the first area of the array electrode is used as a cathode, at least one second electrode in the second area and the third area is used as a common anode.

3. A smart undergarment, the smart undergarment comprising: a memory, a processor, and a smart undergarment control program stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the smart undergarment control method of any one of claims 1 to 2.

4. A smart undergarment according to claim 3 wherein said smart undergarment peripheral circuit device further comprises a multiplexing module, said pulse generating module and said array electrode being connected by said multiplexing module.

5. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a smart undergarment control program which, when executed by a processor, implements the steps of the smart undergarment control method of any one of claims 1 to 2.