CN117101010A

CN117101010A - Skin data intelligent customization-based special AI probe for magnetic quantum and control method

Info

Publication number: CN117101010A
Application number: CN202311307013.9A
Authority: CN
Inventors: 晏勇如
Original assignee: Suyan Tianyi Shenzhen Technology Co ltd
Current assignee: Suyan Tianyi Shenzhen Technology Co ltd
Priority date: 2023-10-10
Filing date: 2023-10-10
Publication date: 2023-11-24
Anticipated expiration: 2043-10-10

Abstract

The invention discloses an AI probe special for a magnetic quantum based on intelligent customization of skin data and a control method, comprising an installation shell, a probe main body installed on the installation shell and an integrated controller arranged in the installation shell, wherein the probe main body is connected with the integrated controller, and the integrated controller is also connected with a power supply device and an intelligent platform; the integrated controller comprises an instruction input module, a skin data control processing module, a 5D magnetic flux sub-module and a transmission module, wherein the instruction input module, the transmission module and the 5D magnetic flux sub-module are electrically connected with the skin data control processing module, and the transmission module is further connected with the intelligent platform. According to the invention, the skin data control processing module is arranged, various control data are output based on real-time skin state data, the 5D magnetic quantity submodule adjusts magnetic field characteristics from multiple dimensions according to the control data, personalized adjustment and dynamic feedback adjustment are realized, high safety is realized, and the intelligent platform and the built-in storage unit are arranged, so that long-term analysis and tracking can be realized.

Description

Skin data intelligent customization-based special AI probe for magnetic quantum and control method

Technical Field

The invention relates to the technical field of beauty probes, in particular to an AI probe special for a magnetic quantum intelligently customized based on skin data and a control method.

Background

Along with the progress of science and technology and the improvement of living standard, people are not required to meet the external decoration beauty of the body any more, and pay more attention to the natural beauty displayed by the body, so that the beauty industry is rapidly developed.

With the increase of people's attention to beauty, the variety of beauty instrument also shows the trend of growing gradually, and the probe part as one of the main parts of beauty instrument also has appeared the probe that satisfies various different demands along with the development of beauty instrument is the iteration constantly, but traditional probe has certain limitation when using:

1. the universality is not enough: the energy output mode of the traditional probe fixation cannot be adjusted in a personalized way according to individual skin characteristics and requirements, and the application range is limited;

2. lack of dynamic feedback regulation: the traditional probe lacks a real-time monitoring and feedback mechanism, cannot be dynamically adjusted according to the skin state, cannot respond to skin changes in time in the using process, cannot accurately control the energy output level, and is easy to cause excessive stimulation or insufficient stimulation;

3. The security risk is high: because of the lack of real-time monitoring and intelligent regulation functions, potential safety hazards easily occur in the treatment process of the traditional probe, and the excessively high or excessively low energy output easily causes stimulation, damage or other adverse reactions to the skin;

4. data recording and analysis capabilities are limited: the traditional probe cannot record and store key skin parameter data, lacks analysis and tracking capabilities of long-term data, limits comprehensive understanding of skin state changes, and cannot provide effective basis or scheme for personalized adjustment of users.

Disclosure of Invention

In view of the above, the present invention aims at overcoming the drawbacks of the prior art, and its main objective is to provide an AI probe and a control method dedicated to magnetic quantum intelligently customized based on skin data, which solve the technical problems of insufficient versatility, lack of dynamic feedback adjustment, high safety risk, and limited data recording and analysis capability of the conventional probe.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the invention discloses an intelligent customized magnetic quantum special AI probe based on skin data, which comprises an installation shell, a probe main body and an integrated controller, wherein the integrated controller is arranged in the installation shell, the probe main body is installed on the installation shell and is connected with the integrated controller through the installation shell, and the integrated controller is also connected with an intelligent platform;

The integrated controller comprises a 5D magnetic flux sub-module, wherein the 5D magnetic flux sub-module comprises, but is not limited to, a magnetic flux sub-unit, a vibration unit, a heat source unit and a light source unit;

the magnetic quantity subunit comprises a magnetic field generator, and a spin structure regulating layer is arranged in the magnetic field generator.

As a preferable scheme, the integrated controller is further connected with a power supply device, and further comprises an instruction input module, a skin data control processing module and a transmission module, wherein the instruction input module, the transmission module and the 5D magnetic flux submodule are electrically connected with the skin data control processing module, and the transmission module is further connected with the intelligent platform;

the transmission module is a multidirectional transmission element and comprises a wired transmission device and a wireless transmission device;

the magnetic measuring unit, the vibration unit, the heat source unit and the light source unit are all connected with the skin data control processing module, a plurality of LED integrated light sources are further arranged at one end, close to the probe body, of the mounting shell, the light source unit is further electrically connected with the LED integrated light sources, an imaging device is further arranged at one end, close to the LED integrated light sources, of the mounting shell, the imaging device is connected with the skin data control processing module, and the magnetic measuring unit, the vibration unit and the heat source unit are also all connected with the probe body;

The magnetic measuring subunit further comprises a micro-control element and a magnetic field sensor, the skin data control processing module, the magnetic field generator and the magnetic field sensor are all connected with the micro-control element, the magnetic field generator is further provided with a magnetic measuring sub-output interface, and the magnetic measuring sub-output interface is connected with the probe main body.

As a preferable scheme, the skin data control processing module comprises a central control unit, a data acquisition unit, an analysis processing unit and a classification processing unit which are sequentially connected, the skin data control processing module further comprises a calling unit and a built-in storage unit, the built-in storage unit comprises a data storage subunit and a parameter storage subunit, the data storage subunit, the parameter storage subunit, the central control unit, the analysis processing unit and the transmission module are all connected with the calling unit, the data storage subunit and the transmission module are also connected with the data acquisition unit, the data acquisition unit is also connected with the imaging device and the probe main body, and the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit are all connected with the classification processing unit;

the built-in storage unit is a pluggable memory;

The light source unit comprises a light source controller, and the light source controller is electrically connected with the LED integrated light source;

the heat source unit comprises a heating controller and a plurality of heating elements, the heating elements are electrically connected with the heating controller, and the heating elements are also connected with the probe main body;

the vibration unit comprises a vibration controller and a miniature vibration element, the miniature vibration element is electrically connected with the vibration controller, and the miniature vibration element is also connected with the probe main body;

the micro-control element, the light source controller, the heating controller and the vibration controller are also connected with the classification processing unit.

As a preferable scheme, the data acquisition unit comprises an imaging processing subunit, an instruction conversion subunit, a skin sensing subunit, a signal amplifying subunit and a data coding subunit which are sequentially connected, wherein the analysis processing unit, the transmission module and the data storage subunit are all connected with the data coding subunit, the data acquisition unit further comprises a voice subunit, the voice subunit and the central control unit are both connected with the imaging processing subunit, the imaging processing subunit is further connected with the imaging device, and the skin sensing subunit is further connected with the probe main body;

The skin sensing subunit includes, but is not limited to, a temperature sensor, a humidity sensor, a resistance sensor, a spectrum sensor, a pressure sensor.

As a preferable scheme, the intelligent platform comprises an AI intelligent module, a database module and a report generation module, wherein the AI intelligent module comprises a data analysis unit and an AI algorithm unit, the database module comprises an original data unit, a result data unit and a big data unit, and the report generation module comprises a data converging unit and a transmitting unit;

the AI algorithm unit is connected with the big data unit, the data analysis unit and the result data unit, the result data unit is also connected with the data converging unit, the data converging unit is also connected with the transmitting unit, and the transmitting unit is also connected with a handheld terminal.

As a preferred scheme, the one end that the installation casing kept away from the probe main part is equipped with the handle, the handle pass through the mounting with the installation casing is connected, be equipped with input device on the handle, input device with instruction input module electric connection, the handle is kept away from the one end of installation casing still is equipped with first interface and second interface, first interface with power supply unit connects, the second interface with intelligent platform connects.

The control method of the intelligent customized magnetic quantum special AI probe based on skin data comprises the following steps:

s1: inputting a starting instruction in the instruction input module;

s2: the skin data control processing module receives and identifies the starting instruction, and acquires or invokes skin state data in real time based on the starting instruction;

s3: the skin data control processing module transmits the skin state data to the intelligent platform through the transmission module, and the intelligent platform periodically outputs an evaluation analysis report form based on the skin state data and transmits the evaluation analysis report form to the handheld terminal;

s4: the skin data control processing module is also used for generating the skin result data in real time based on the skin state data, storing and classifying the skin result data, and outputting various control data;

s5: the 5D magnetic quantity sub-module receives the control data, regulates and controls the starting sequence and output energy of the magnetic quantity sub-unit, the vibration unit, the heat source unit and the light source unit based on the control data, changes the lattice structure, the charge distribution or the spin arrangement of the spin structure regulating layer, and changes the magnetic field characteristic.

As a preferred aspect, the start-up instructions include, but are not limited to, a first enable instruction, no built-in store instruction, no peripheral status instruction.

As a preferred solution, the data storage subunit is configured to store the skin state data acquired last time;

the parameter storage subunit stores a plurality of groups of skin standard parameters;

the original data unit is used for storing the skin state data acquired each time;

the big data unit stores skin state judgment data, and the skin state judgment data is in a dynamically updated state;

the central control unit is used for receiving the starting instruction and sending out a control instruction based on the starting instruction;

the retrieving unit is used for receiving the control instruction, retrieving the latest skin state data, a plurality of groups of skin standard parameters and the skin state judging data based on the control instruction, and transmitting the latest skin state data, the skin standard parameters and the skin state judging data to the analysis processing unit;

the central control unit is also used for receiving the latest skin state data which is called by the calling unit from the data storage subunit and the original data unit, and outputting a memory triggering instruction based on the latest skin state data;

The imaging processing subunit is used for receiving the control instruction, controlling the imaging device to perform imaging processing on the skin surface or a specific area to be acted on based on the control instruction, and outputting a movement planning instruction;

the imaging processing subunit is further used for receiving the memory trigger instruction and outputting a memory moving instruction based on the memory trigger instruction;

the voice subunit is used for receiving the movement planning instruction or the memory movement instruction and transmitting a voice signal based on the movement planning instruction or the memory movement instruction;

the instruction conversion subunit is used for converting the movement planning instruction or the memory movement instruction into a trigger instruction and transmitting the trigger instruction to the skin sensing subunit;

the skin sensing subunit is used for receiving the trigger instruction, collecting the skin initial data and generating a skin state initial signal based on the skin initial data;

the signal amplifying subunit is used for receiving the skin state initial signal, amplifying the skin state initial signal and generating a skin state amplified signal;

the data encoding subunit is configured to receive the skin state amplified signal and generate the skin state data based on the skin state amplified signal;

The analysis processing unit is used for receiving the skin state data, the skin standard parameters and the skin state judgment data, proportioning the skin state data with the skin standard parameters or the skin state judgment data and outputting skin result data;

the classifying processing unit is used for classifying the skin result data, outputting various control data and respectively transmitting the control data to the magnetic measuring subunit, the vibration unit, the heat source unit and the light source unit;

the data analysis unit is used for retrieving and processing the skin state data stored in the original data unit and outputting key judgment parameters;

the AI algorithm unit is used for receiving the key judgment parameters, retrieving the skin state judgment data from the big data unit, outputting judgment result data based on the proportion of the key judgment parameters and the skin state judgment data, and transmitting the judgment result data to the result data unit;

the result data unit is used for storing the evaluation result data;

the data converging unit is used for periodically extracting and summarizing the evaluation result data, outputting an evaluation analysis report based on the evaluation result data and transmitting the evaluation analysis report to the transmitting unit;

The transmitting unit is used for receiving the evaluation analysis report and transmitting the evaluation analysis report to the handheld terminal.

As a preferred solution, the magnetic measuring subunit is configured to output a controllable stabilizing magnetic field and apply the stabilizing magnetic field to the skin surface or a specific location;

the micro control unit is used for receiving the control data and adjusting the frequency and intensity of the magnetic field output by the magnetic field generator based on the control data;

the light source controller receives the control data, controls the LED integrated light source to emit light rays with specific wavelengths based on the control data, and regulates and controls the output of light energy;

the heating controller receives the control data and regulates and controls the heat output of a plurality of heating elements based on the control data, and the plurality of heating elements transfer the heat energy to the probe body through heat transfer;

the vibration controller receives the control data and regulates and controls mechanical vibration output by the micro vibration element based on the control data, and the micro vibration element transmits the mechanical vibration to the probe main body.

Compared with the prior art, the invention has obvious advantages and beneficial effects, in particular, the technical proposal is that the skin sensor subunit is arranged to collect skin initial data, the skin state data is output in real time by matching with the data coding subunit, the analysis processing unit generates real-time skin result data based on the real-time skin state data and processes and outputs various control data to the 5D magnetic sub-module by the classification processing unit, the magnetic sub-unit, the vibration unit, the heat source unit and the light source unit realize the real-time regulation and control of the starting sequence and the output energy according to the control data, thereby not only realizing the change of magnetic field characteristics from multiple dimensions, but also meeting the requirements of different stimulus sources on skin beauty, adapting to different user groups and realizing personalized regulation and dynamic feedback regulation; the output energy is controllable, the risk of over-stimulation or insufficient stimulation is reduced, and the safety is high; the intelligent platform and the built-in storage unit can realize intelligent long-term analysis and tracking, help a user to know the change of skin conditions, and provide more effective basis and scheme for individual adjustment.

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is an exploded schematic view of a magnetic quantum AI-specific probe intelligently tailored based on skin data with a handle in accordance with an embodiment of the invention;

FIG. 2 is a schematic block diagram of a magnetic quantum AI-specific probe intelligently tailored based on skin data in accordance with an embodiment of the invention;

FIG. 3 is a flow chart of a control method of a magnetic quantum specific AI probe intelligently tailored based on skin data in accordance with an embodiment of the invention.

Reference numerals illustrate:

10. a mounting shell; 11. an LED integrated light source; 12. an imaging device;

20. an integrated controller;

30. a probe body;

40. a handle; 41. an input device;

50. and a fixing piece.

Detailed Description

For the purpose of making the technical solution and advantages of the present invention more apparent, the present invention will be further described in detail below with reference to the accompanying drawings and examples of implementation. 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.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Referring to fig. 1 to 3, embodiments 1 to 3 of the present invention provide an AI probe dedicated to magnetic scale intelligently customized based on skin data and a control method applied to the AI probe dedicated to magnetic scale intelligently customized based on skin data, the AI probe dedicated to magnetic scale intelligently customized based on skin data includes a mounting housing 10, a probe body 30, and an integrated controller 20, the integrated controller 20 is disposed in the mounting housing 10, the probe body 30 is mounted on the mounting housing 10 and connected to the integrated controller 20 through the mounting housing 10, and the integrated controller 20 is also connected with an intelligent platform; the integrated controller 20 includes a 5D magnetic flux sub-module, the 5D magnetic flux sub-module including, but not limited to, a magnetic flux sub-unit, a vibration unit, a heat source unit, a light source unit; the magnetic quantity subunit comprises a magnetic field generator, a spin structure regulating layer is arranged in the magnetic field generator, and through the adjustment of the functional units of the vibration unit, the heat source unit and the light source unit, the requirements of different stimulus sources on skin cosmetology are met, the spin structure regulating layer can be influenced, the purpose of accurately controlling the magnetic field characteristics is achieved, and the requirements of different users are met.

The integrated controller 20 is further connected with a power supply device, the integrated controller 20 further comprises an instruction input module, a skin data control processing module and a transmission module, the instruction input module, the transmission module and the 5D magnetic flux submodule are electrically connected with the skin data control processing module, and the transmission module is further connected with the intelligent platform; the transmission module is a multidirectional transmission element and comprises a wired transmission device and a wireless transmission device; the magnetic measuring subunit, the vibration unit, the heat source unit and the light source unit are all connected with the skin data control processing module, a plurality of LED integrated light sources 11 are further arranged at one end, close to the probe main body 30, of the installation shell 10, the light source unit is further electrically connected with the plurality of LED integrated light sources 11, an imaging device 12 is further arranged at one end, close to the LED integrated light sources 11, of the installation shell 10, the imaging device 12 is connected with the skin data control processing module, and the magnetic measuring subunit, the vibration unit and the heat source unit are further connected with the probe main body 30; the magnetic quantity subunit further comprises a micro-control element and a magnetic field sensor, the skin data control processing module, the magnetic field generator and the magnetic field sensor are all connected with the micro-control element, the magnetic field generator is further provided with a magnetic quantity output interface, and the magnetic quantity output interface is connected with the probe main body 30, so that the magnetic field can act on the skin surface or a specific part to achieve a cosmetic effect.

Further, the skin data control processing module comprises a central control unit, a data acquisition unit, an analysis processing unit and a classification processing unit which are sequentially connected, the skin data control processing module further comprises a calling unit and a built-in storage unit, the built-in storage unit comprises a data storage subunit and a parameter storage subunit, the data storage subunit, the parameter storage subunit, the central control unit, the analysis processing unit and a transmission module are all connected with the calling unit, the data storage subunit and the transmission module are also connected with the data acquisition unit, the data acquisition unit is also connected with the imaging device 12 and the probe main body 30, and the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit are all connected with the classification processing unit; the built-in storage unit is a pluggable memory; the light source unit comprises a light source controller, and the light source controller is electrically connected with the LED integrated light source 11; the heat source unit includes a heating controller and a plurality of heating elements electrically connected to the heating controller, the plurality of heating elements being further connected to the probe body 30; the vibration unit comprises a vibration controller and a micro vibration element, the micro vibration element is electrically connected with the vibration controller, and the micro vibration element is also connected with the probe main body 30; the micro-control element, the light source controller, the heating controller and the vibration controller are also connected with the classification processing unit.

The data acquisition unit comprises an imaging processing subunit, an instruction conversion subunit, a skin sensing subunit, a signal amplification subunit and a data coding subunit which are sequentially connected, wherein the analysis processing unit, the transmission module and the data storage subunit are all connected with the data coding subunit, the data acquisition unit further comprises a voice subunit, the voice subunit and the central control unit are all connected with the imaging processing subunit, the imaging processing subunit is further connected with the imaging device 12, and the skin sensing subunit is further connected with the probe main body 30; the skin sensing subunit comprises, but is not limited to, a temperature sensor, a humidity sensor, a resistance sensor, a spectrum sensor and a pressure sensor, and can acquire parameters such as skin humidity, temperature, PH value, grease secretion amount and the like, determine the sign of a user and serve as a data base for subsequent analysis and processing.

Further, the intelligent platform comprises an AI intelligent module, a database module and a report generation module, wherein the AI intelligent module comprises a data analysis unit and an AI algorithm unit, the database module comprises an original data unit, a result data unit and a big data unit, and the report generation module comprises a data merging unit and a transmitting unit; the data processing system comprises a transmission module, an AI algorithm unit, a data merging unit, a transmitting unit, a handheld terminal, a data analysis unit and a data merging unit, wherein the original data unit and the big data unit are both connected with the transmission module, the original data unit is also connected with the data analysis unit, the AI algorithm unit is connected with the big data unit, the data analysis unit and the result data unit, the result data unit is also connected with the data merging unit, the data merging unit is also connected with the transmitting unit, and the transmitting unit is also connected with the handheld terminal; the one end that installation casing 10 kept away from probe main part 30 is equipped with handle 40, and handle 40 passes through mounting 50 and is connected with installation casing 10, is equipped with input device 41 on the handle 40, and input device 41 and instruction input module electric connection, the one end that installation casing 10 was kept away from to handle 40 still are equipped with first interface and second interface, and first interface is connected with power supply unit, and the second interface is connected with intelligent platform.

The control method of the magnetic quantum special AI probe based on the intelligent customization of skin data comprises the following steps:

s1: inputting a starting instruction in an instruction input module;

s2: the skin data control processing module receives and recognizes a starting instruction, and acquires or invokes skin state data in real time based on the starting instruction;

s4: the skin data control processing module is also used for generating skin result data in real time based on the skin state data, storing and classifying the skin result data, and outputting various control data;

s5: the 5D magnetic quantity sub-module receives control data, regulates and controls the starting sequence and output energy of the magnetic quantity sub-unit, the vibration unit, the heat source unit and the light source unit based on the control data, realizes the accurate control of the spin structure regulating layer, changes the lattice structure, the charge distribution or the spin arrangement of the spin structure regulating layer, and changes the magnetic field characteristics.

Here, the startup instructions include, but are not limited to, a first enable instruction, no built-in store instruction, no peripheral status instruction.

Further, the data storage subunit is used for storing the latest collected skin state data; the parameter storage subunit stores a plurality of groups of skin standard parameters; the original data unit is used for storing skin state data acquired each time; the big data unit stores skin state judgment data which are in a dynamically updated state; the central control unit is used for receiving the starting instruction and sending out a control instruction based on the starting instruction; the retrieving unit is used for receiving the control instruction, retrieving the latest skin state data, a plurality of groups of skin standard parameters and skin state judging data based on the control instruction, and transmitting the latest skin state data, the plurality of groups of skin standard parameters and the skin state judging data to the analysis processing unit; the central control unit is also used for receiving the latest skin state data which is called by the calling unit from the data storage subunit and the original data unit, and outputting a memory triggering instruction based on the latest skin state data; the imaging processing subunit is configured to receive the control instruction, control the imaging device 12 to perform imaging processing on the skin surface or the specific area to be acted on based on the control instruction, and output a movement planning instruction; the imaging processing subunit is also used for receiving the memory trigger instruction and outputting a memory moving instruction based on the memory trigger instruction; the voice subunit is used for receiving the movement planning instruction or the memory movement instruction and transmitting a voice signal based on the movement planning instruction or the memory movement instruction; the instruction conversion subunit is used for converting the movement planning instruction or the memory movement instruction into a trigger instruction and transmitting the trigger instruction to the skin sensing subunit; the skin sensing subunit is used for receiving the trigger instruction, collecting skin initial data and generating a skin state initial signal based on the skin initial data; the signal amplifying subunit is used for receiving the skin state initial signal, amplifying the skin state initial signal and generating a skin state amplified signal; the data encoding subunit is used for receiving the skin state amplified signal and generating skin state data based on the skin state amplified signal; the analysis processing unit is used for receiving the skin state data, the skin standard parameters and the skin state judgment data, proportioning the skin state data with the skin standard parameters or the skin state judgment data and outputting skin result data; the classifying processing unit is used for classifying the skin result data, outputting various control data and respectively transmitting the control data to the magnetic measuring subunit, the vibration unit, the heat source unit and the light source unit; the data analysis unit is used for retrieving and processing the skin state data stored in the original data unit and outputting key judgment parameters; the AI algorithm unit is used for receiving the key judgment parameters, retrieving the skin state judgment data from the big data unit, outputting judgment result data based on the proportion of the key judgment parameters and the skin state judgment data, and transmitting the judgment result data to the result data unit; the result data unit is used for storing the judgment result data; the data converging unit is used for periodically extracting and summarizing the judgment result data, outputting an evaluation analysis report based on the judgment result data and transmitting the evaluation analysis report to the transmitting unit; the transmitting unit is used for receiving the evaluation analysis report and transmitting the evaluation analysis report to the handheld terminal.

The magnetic sub-unit is used for outputting a controllable stable magnetic field and applying the stable magnetic field to the surface of the skin or a specific part; the micro control unit is used for receiving the control data and adjusting the frequency and intensity of the magnetic field output by the magnetic field generator based on the control data; the light source controller receives control data, controls the LED integrated light source 11 to emit light rays with specific wavelengths based on the control data, regulates and controls the output of the light energy, and excites the electronic transition of the spin structure regulating layer through the LED integrated light source 11 with different wavelengths to induce photoinduced phase change, change the magnetic field characteristics and realize the regulation of the magnetic field; the heating controller receives the control data and regulates and controls the heat output of the heating elements based on the control data, the heating elements transmit heat energy to the probe main body 30 through heat transmission, and the temperature changes, so that the nano particles of the spin structure regulating layer are arranged in a spin mode, the magnetic field characteristics are changed, and the regulation of the magnetic field is realized; the vibration controller receives the control data and regulates and controls the mechanical vibration output by the micro vibration element based on the control data, the micro vibration element transmits the mechanical vibration to the probe main body 30, when the skin is contacted with the probe main body 30, the skin surface is stimulated by vibration, the magnetic quantity subunit responds to the vibration, and the nano particles of the spin structure regulating layer interact with each other due to the vibration, so that the strength is changed, and the magnetism is regulated.

By changing the magnetic field characteristics from multiple dimensions, the requirements of different stimulus sources on skin cosmetology are met, the accurate regulation and control of the magnetic field characteristics can be realized, the safety is high, and the requirements of dynamic feedback regulation are met.

According to the scheme of the invention, the probe main body 30 is matched with the integrated controller 20 to acquire skin initial state data of a user, the skin state result data is formed through data accumulation and comparison, and control data is continuously output according to the real-time condition and corresponding sign change of the skin, so that different stimulus sources can adjust the starting sequence and output energy according to the real-time control data, and the magnetic field characteristics of the 5D magnetic sub-module are changed.

The collected or called skin state data comprise information such as time points, skin state values and the like, are arranged according to a time sequence and are stored in a data storage subunit and an original data unit; the analysis processing unit compares and analyzes the latest skin state data containing the information such as time points, skin state values and the like with a plurality of groups of skin standard parameters or skin state judgment data and outputs skin result data. For example, the difference value between the current skin state data and the skin standard parameters or the skin state judging data can be calculated and analyzed, the change condition of the skin state is known by analyzing the rising or the falling of the difference value, the skin result data is output to the classification processing unit, the classification processing unit judges the stimulus source required by the 5D magnetic sub-module according to the rising or the falling condition of the difference value of the skin result data, and the corresponding control data is transmitted to the corresponding stimulus source, so that different stimulus sources are controlled, namely the starting sequence of each functional unit, and the output energy is determined according to the rising or the falling condition of the difference value.

The specific analysis and calculation method of the whole control process is different from application scene, is not limited herein, and only one is listed, and the specific steps are as follows:

a. the analysis processing unit obtains a difference value at the moment according to the matching comparison result of the latest skin state data containing information such as time points, skin state values and the like and a plurality of groups of skin standard parameters or skin state judgment data, and confirms the change condition of the skin state to generate skin result data; the skin standard parameter or the skin condition evaluation data are both standard skin threshold data, have a fixed evaluation range, and the skin condition at a certain point in time is determined by determining whether the collected skin condition data fall within the evaluation range, for example, the oil secretion amount per square centimeter of the skin surface is considered to be a normal range between 0.6 and 1.5 microliter, and if the oil secretion amount exceeds 1.5 microliter, the oil skin is determined to be less than 0.3 microliter, and the dry skin is determined to be dry skin.

b. The classification processing unit receives the skin result data, determines an output suggestion of the beauty treatment energy according to the change condition of the skin state, and outputs control data; for example, when the skin care process is performed, it is clarified that the detected oil secretion amount is in the normal range at a certain moment based on the skin result data, and the skin condition is improved, the corresponding control data is outputted.

c. Outputting the calculated and analyzed control data to a 5D magnetic flux sub-module, determining a corresponding energy output level by the 5D magnetic flux sub-module according to the skin state change result in the control data, and determining the starting sequence of the light source unit, the vibration unit and the heating unit according to the index type of the skin state change result, such as the grease secretion amount and the PH value; for example, after receiving control data based on the grease secretion index, the 5D magnetic flux submodule determines a corresponding energy output level according to the grease secretion, starts a corresponding functional unit, changes magnetic field characteristics, realizes beauty and skin from multiple dimensions, and regulates the grease secretion.

It should be noted that the specific implementation may vary depending on the application scenario, instrumentation, algorithms, and the like.

Furthermore, the skin state data stored in the intelligent platform is matched with the AI intelligent module, so that the intelligent AI cosmetic model can be used for comprehensively judging the output time and density of the magnetic quanta, data pushing is carried out by the handheld terminal, operation suggestions and corresponding control schemes of corresponding scenes are provided for users, and large data classification including data of skin types, age signs and the like of the users can be carried out by matching with the AI intelligent module through continuous data accumulation of the peripheral platform, so that the intelligent AI cosmetic model can be established and perfected, and the model can be used for predicting the cosmetic requirements and risks of the users, providing personalized cosmetic suggestions and schemes for the users and presenting by the handheld terminal.

The following are just one specific implementation of the smart AI cosmetic model listed:

the skin data control processing module is used for collecting skin state data of a user, wherein the skin state data comprise parameters such as humidity, temperature, PH value, oil secretion amount and the like, and characteristic data such as skin type, age, gender and the like of the user; based on an intelligent platform, the collected data are subjected to operations such as cleaning, de-duplication, filling of missing values, standardized processing and the like by using a big data analysis technology so as to improve the quality and accuracy of the data; classifying and storing the processed data according to different characteristics to prepare for further model training and analysis, such as skin type, age group, gender, etc., for subsequent use; the collected skin state data is statistically processed and analyzed by using a data analysis unit, for example, an average value, a standard deviation, a correlation and the like are calculated to evaluate the distribution and the rule of the data, and a key judgment parameter is output. Calculating a scene risk probability value and a scene operation frequency value according to the key judgment parameters output by processing, for example, judging the use probability and the operation frequency of the instrument according to parameters such as skin type, skin state data and the like; more data can be acquired through networking after data acquisition, and the use situations further comprise weather conditions, humiture, climate temperature, seasons and the like; and matching records with higher scene risk probability values and higher using frequency risk values in the historical data by combining various data of the user, which are obtained in real time through the magnetic quantum AI special probe, according to the calculated scene risk probability values and using frequency risk values, and predicting the functional operation risk probability to be executed by the user under the current scene, thereby evaluating the risk of using the instrument.

In embodiment 1, the integrated controller 20 is connected to the intelligent platform, and the built-in memory unit is a pluggable memory, and the built-in memory unit is not unplugged; the input device 41 is used for inputting a first starting command to the command input module, the central control unit is used for receiving the first starting command, generating a control command based on the first starting command and transmitting the control command to the imaging processing subunit, the imaging processing subunit is used for controlling the imaging device 12 to perform imaging processing on the skin surface or a specific area needing to act on based on the control command, outputting a movement planning command, transmitting the movement planning command to the voice subunit and the command conversion subunit respectively, the voice subunit is used for receiving an output voice signal based on the movement planning command, a user can perform movement operation on the skin surface or the specific area according to the prompt of the voice signal, ensuring that the skin surface or the specific area needing to act on can be covered on the whole surface, the command conversion subunit is used for generating a trigger command based on the movement planning command and transmitting the trigger command to the skin sensing subunit, the skin sensing subunit is used for receiving the trigger command, acquiring skin initial data in real time on the skin surface or the specific area needing to act on the basis of the control command, generating a skin state initial signal based on the real-time acquired skin initial data, the signal amplifying subunit is used for receiving the skin state initial signal, amplifying the skin state initial signal, generating a skin state amplifying signal, the skin state amplifying signal, and transmitting the skin state amplifying signal, the skin state data to the skin state amplifying unit and the skin state data to the skin state amplifying unit are respectively, and the skin state data and the real-time data processing module are transmitted to the skin state data and the real-time analyzing module and the skin state data and the data processing unit are respectively.

In this embodiment, the data storage subunit stores the latest skin state data, and waits for the call of the calling unit; the analysis processing unit receives real-time skin state data, and invokes a plurality of groups of skin standard parameters from the parameter storage subunit through the invoking unit, the real-time skin state data is proportioned with the skin standard parameters, real-time skin result data is output, the classification processing unit receives the real-time skin result data, classifies the skin result data, outputs various control data, and respectively transmits the control data to the magnetic subunit, the vibration unit, the heat source unit and the light source unit according to the types of the control data, so that the activation sequence of the magnetic subunit, the vibration unit, the heat source unit and the light source unit and the real-time dynamic regulation and control of output energy are realized, the magnetic field characteristics are changed from a plurality of dimensions, and the requirements of different stimulus sources on skin beauty are met; the transmission module receives the skin state data and sends the skin state data to the original data unit, and the original data unit stores the skin state data of each time; the data analysis unit extracts skin state data from the raw data unit and processes and outputs key judgment parameters based on the skin state data.

Further, the AI algorithm unit receives the key judgment parameters, retrieves the skin state judgment data from the big data unit, outputs the judgment result data based on the proportion of the key judgment parameters and the skin state judgment data, and transmits the judgment result data to the result data unit for storage; the data converging unit is used for calling the judgment result data from the result data unit, outputting an evaluation analysis report based on the judgment result data and transmitting the evaluation analysis report to the transmitting unit; the transmitting unit receives the evaluation analysis report and transmits the evaluation analysis report to the handheld terminal, so as to provide a personalized scheme for the user.

In embodiment 2, the integrated controller 20 is disconnected from the intelligent platform, the built-in storage unit is a plug-in memory, and the built-in storage unit is not plugged out; the no-peripheral state instruction is input to the instruction input module through the input device 41, the central control unit receives the no-peripheral state instruction, generates a control instruction based on the no-peripheral state instruction, and transmits the control instruction to the calling unit and the imaging processing subunit.

In this embodiment, the retrieving unit retrieves the skin standard parameter and the latest skin state data from the parameter storage subunit and the data storage subunit, respectively, and transmits the skin standard parameter and the latest skin state data to the analysis processing unit, the analysis processing unit receives the latest skin state data and the latest skin standard parameter, and matches the latest skin state data with the skin standard parameter, outputs skin result data, the classification processing unit receives the skin result data and classifies the skin result data, outputs various control data, and transmits the skin result data to the magnetic subunit, the vibration unit, the heat source unit and the light source unit, respectively, and primarily determines the starting sequence and the output energy of the magnetic subunit, the vibration unit, the heat source unit and the light source unit based on the control data; the calling unit also feeds back the latest skin state data called from the data storage subunit to the central control unit, and the central control unit outputs a memory trigger instruction based on the latest skin state data and transmits the memory trigger instruction to the imaging processing subunit; the imaging processing subunit receives the memory trigger instruction and generates a memory movement instruction based on the memory trigger instruction, the imaging device 12 does not need to perform repeated imaging processing on the skin surface or the specific area to be acted on; the voice subunit receives the memory movement instruction and outputs a voice signal, and a user carries out movement operation on the skin surface or a specific part according to the prompt of the voice signal so as to ensure that the skin surface or the specific part with the required action can be covered on the whole surface; the command conversion subunit receives the memory moving command, converts the memory moving command to generate a trigger command, transmits the trigger command to the skin sensing subunit, receives the trigger command, acquires skin initial data on the skin surface or a specific area needing to act in real time, continuously generates skin state initial signals based on the skin initial data acquired in real time, receives the skin state initial signals by the signal amplification subunit, amplifies the skin state initial signals to generate skin state amplified signals, receives the skin state amplified signals by the data encoding subunit, generates real-time skin state data, transmits the real-time skin state data to the analysis processing unit, generates real-time skin result data based on the real-time skin state data, receives the real-time skin result data by the analysis processing unit, classifies the real-time skin result data, outputs various control data, and transmits the control data to the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit respectively, realizes real-time regulation and control on the basis of starting sequence and output energy of the control data of the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit, and the control unit realize real-time change of multiple dimensions, and real-time adjustment of magnetic field characteristics, and meet the requirements of different stimulus sources on skin.

Further, the latest skin state data stored by the data storage subunit is updated; when the intelligent platform is connected with the integrated controller 20, the calling unit can automatically synchronize the latest skin state data stored in the data storage subunit to the intelligent platform through the transmission module, and store the latest skin state data in the original data unit to provide a data base for generating the personalized scheme.

In embodiment 3, the integrated controller 20 is connected to the intelligent platform, and the built-in memory unit is a plug-in memory, and the built-in memory unit is plugged out; and inputting a built-in storage-free instruction at the instruction input module, receiving the built-in storage-free instruction by the central control unit, generating a control instruction based on the built-in storage-free instruction, and transmitting the control instruction to the calling unit and the imaging processing subunit.

In this embodiment, the retrieving unit retrieves the skin state evaluation data and the latest skin state data from the big data unit and the original data unit through the transmission module, and transmits the skin state evaluation data and the latest skin state data to the analysis processing unit, the analysis processing unit receives the skin state evaluation data and the latest collected skin state data, and performs proportioning, outputs skin result data, the classification processing unit receives skin result data and classifies the skin result data, outputs various control data, and transmits the control data to the magnetic sub-unit, the vibration unit, the heat source unit and the light source unit respectively based on the types of the control data, and primarily determines the starting sequence and the output energy of the magnetic sub-unit, the vibration unit, the heat source unit and the light source unit based on the control data; the calling unit also feeds back the latest skin state data called from the original data unit to the central control unit, and the central control unit outputs a memory trigger instruction based on the latest skin state data and transmits the memory trigger instruction to the imaging processing subunit; the imaging processing subunit receives the memory trigger instruction and generates a memory movement instruction based on the memory trigger instruction, the imaging device 12 does not need to perform repeated imaging processing on the skin surface or the specific area to be acted on; the voice subunit receives the memory movement instruction and outputs a voice signal, and a user carries out movement operation on the skin surface or a specific part according to the prompt of the voice signal, so that the skin surface or the specific part with the required action can be covered completely.

Further, the command conversion subunit receives the memory moving command, converts the memory moving command to generate a trigger command, and transmits the trigger command to the skin sensing subunit, the skin sensing subunit receives the trigger command, collects skin initial data on the skin surface or a specific area to be acted on in real time, continuously generates skin state initial signals based on the skin initial data collected in real time, the signal amplification subunit receives the skin state initial signals, amplifies the skin state initial signals to generate skin state amplified signals, the data encoding subunit receives the skin state amplified signals to generate real-time skin state data, transmits the real-time skin state data to the analysis processing unit, the analysis processing unit generates real-time skin result data based on the real-time skin state data, the classification processing unit receives and classifies the real-time skin result data, outputs various control data and transmits the control data to the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit respectively, realizes real-time dynamic regulation and control on the basis of starting sequence and output energy of the control data of the magnetic quantity subunit, and real-time regulation of multiple dimensions, can real-time regulation of magnetic field characteristics, and satisfies the requirements of different skin stimulation sources on beauty treatment; the collected skin state data is also transmitted to the original data unit for storage in real time via the transmission module.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the invention, but any modifications, equivalents, improvements, etc. within the principles of the present invention should be included in the scope of the present invention.

Claims

1. An AI probe special for magnetic quantum based on skin data intelligence customization, its characterized in that: the intelligent probe comprises a mounting shell (10), a probe body (30) and an integrated controller (20), wherein the integrated controller (20) is arranged in the mounting shell (10), the probe body (30) is mounted on the mounting shell (10) and is connected with the integrated controller (20) through the mounting shell (10), and the integrated controller (20) is also connected with an intelligent platform;

the integrated controller (20) comprises a 5D magnetic sub-module, wherein the 5D magnetic sub-module comprises, but is not limited to, a magnetic sub-unit, a vibration unit, a heat source unit and a light source unit;

2. The smart customized magnetic quantum dedicated AI probe based on skin data of claim 1, wherein: the integrated controller (20) is further connected with a power supply device, the integrated controller (20) further comprises an instruction input module, a skin data control processing module and a transmission module, the instruction input module, the transmission module and the 5D magnetic flux submodule are electrically connected with the skin data control processing module, and the transmission module is further connected with the intelligent platform;

the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit are all connected with the skin data control processing module, one end of the installation shell (10) close to the probe main body (30) is further provided with a plurality of LED integrated light sources (11), the light source unit is further electrically connected with the LED integrated light sources (11), one end of the installation shell (10) close to the LED integrated light sources (11) is further provided with an imaging device (12), the imaging device (12) is connected with the skin data control processing module, and the magnetic quantity subunit, the vibration unit and the heat source unit are further connected with the probe main body (30);

the magnetic measuring subunit further comprises a micro-control element and a magnetic field sensor, the skin data control processing module, the magnetic field generator and the magnetic field sensor are all connected with the micro-control element, the magnetic field generator is further provided with a magnetic measuring sub-output interface, and the magnetic measuring sub-output interface is connected with the probe main body (30).

3. The smart customized magnetic quantum dedicated AI probe based on skin data of claim 2, wherein: the skin data control processing module comprises a central control unit, a data acquisition unit, an analysis processing unit and a classification processing unit which are sequentially connected, the skin data control processing module further comprises a calling unit and a built-in storage unit, the built-in storage unit comprises a data storage subunit and a parameter storage subunit, the data storage subunit, the parameter storage subunit, the central control unit, the analysis processing unit and a transmission module are all connected with the calling unit, the data storage subunit and the transmission module are also connected with the data acquisition unit, the data acquisition unit is also connected with an imaging device (12) and a probe main body (30), and the magnetic quantity subunit, the vibration unit, the heat source unit and the light source unit are all connected with the classification processing unit;

The built-in storage unit is a pluggable memory;

the light source unit comprises a light source controller, and the light source controller is electrically connected with the LED integrated light source (11);

the heat source unit comprises a heating controller and a plurality of heating elements, wherein the heating elements are electrically connected with the heating controller and are also connected with the probe main body (30);

the vibration unit comprises a vibration controller and a miniature vibration element, wherein the miniature vibration element is electrically connected with the vibration controller and is also connected with the probe main body (30);

4. The smart customized magnetic quantum dedicated AI probe based on skin data of claim 3, wherein: the data acquisition unit comprises an imaging processing subunit, an instruction conversion subunit, a skin sensing subunit, a signal amplification subunit and a data coding subunit which are sequentially connected, wherein the analysis processing unit, the transmission module and the data storage subunit are all connected with the data coding subunit, the data acquisition unit further comprises a voice subunit, the voice subunit and the central control unit are both connected with the imaging processing subunit, the imaging processing subunit is further connected with the imaging device (12), and the skin sensing subunit is further connected with the probe main body (30);

5. The smart customized magnetic quantum dedicated AI probe based on skin data of claim 2, wherein: the intelligent platform comprises an AI intelligent module, a database module and a report generation module, wherein the AI intelligent module comprises a data analysis unit and an AI algorithm unit, the database module comprises an original data unit, a result data unit and a big data unit, and the report generation module comprises a data converging unit and a transmitting unit;

6. The smart customized magnetic quantum dedicated AI probe based on skin data of claim 2, wherein: the utility model discloses a probe, including installation casing (10), probe main part (30), handle (40) are equipped with to one end of installation casing (10) keep away from probe main part (30), handle (40) pass through mounting (50) with installation casing (10) are connected, be equipped with input device (41) on handle (40), input device (41) with instruction input module electric connection, handle (40) are kept away from one end of installation casing (10) still is equipped with first interface and second interface, first interface with power supply unit connects, the second interface with intelligent platform connects.

7. A control method of a magnetic quantum dedicated AI probe intelligently customized based on skin data, the magnetic quantum dedicated AI probe intelligently customized based on skin data according to any one of claims 1 to 6, characterized by comprising the steps of:

s1: inputting a starting instruction in the instruction input module;

8. The control method of the magnetic quantum dedicated AI probe intelligently customized based on skin data according to claim 7, wherein: the start instruction includes, but is not limited to, a first enable instruction, no built-in store instruction, no peripheral status instruction.

9. The control method of the magnetic quantum dedicated AI probe intelligently customized based on skin data according to claim 7, wherein: the data storage subunit is used for storing the skin state data acquired at the latest time;

the imaging processing subunit is used for receiving the control instruction, controlling the imaging device (12) to perform imaging processing on the skin surface or a specific area to be acted on based on the control instruction, and outputting a movement planning instruction;

The result data unit is used for storing the evaluation result data;

10. The control method of the magnetic quantum dedicated AI probe intelligently customized based on skin data according to claim 7, wherein: the magnetic quantity subunit is used for outputting a controllable stable magnetic field and applying the stable magnetic field to the surface of the skin or a specific part;

the light source controller receives the control data, controls the LED integrated light source (11) to emit light rays with specific wavelengths based on the control data, and regulates and controls the output of light energy;

the heating controller receives the control data and regulates and controls the heat output of a plurality of heating elements based on the control data, and the plurality of heating elements transfer the heat energy to the probe body (30) through heat transfer;

The vibration controller receives the control data and regulates and controls mechanical vibration output by the micro-vibration element based on the control data, and the micro-vibration element transmits the mechanical vibration to the probe body (30).