CN110787359A

CN110787359A - Intelligent head nursing method and system based on data processing and analysis

Info

Publication number: CN110787359A
Application number: CN201910901251.XA
Authority: CN
Inventors: 徐建红
Original assignee: Suzhou Bao Business Mdt Infotech Ltd
Current assignee: Suzhou Bao Business Mdt Infotech Ltd
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-02-14

Abstract

An intelligent head nursing method based on data processing and analysis and a system thereof comprise: controlling the infrared proximity sensor to start and analyzing whether the distance between the head of the user and the top end of the head care helmet is smaller than a preset distance or not; if yes, whether the user wears the head care helmet or not is analyzed; if yes, controlling the LED lamp strip to be started and controlling the color camera to be started; analyzing whether the head of the user has folliculitis in real time; if the inner wall moving mechanism is controlled to be started, data identification is carried out on the position of the folliculitis on the head of the user; arranging all the data identifications to generate a moving route comprising a stopping point, controlling the inner wall moving mechanism to move at the position of the inner wall track group according to the moving route, and stopping after reaching the stopping point; after the inner wall moving mechanism stops, the ointment applying mechanism is controlled to extend out of the scalp with folliculitis corresponding to the stopping point to be applied with the treatment ointment in a butting mode, and after the application of the treatment ointment is finished, the ointment applying mechanism is controlled to be completely contracted.

Description

Intelligent head nursing method and system based on data processing and analysis

Technical Field

The invention relates to the field of head care, in particular to an intelligent head care method and system based on data processing and analysis.

Background

The helmet is a harness for protecting the head, is a hat worn by soldiers in training and fighting, is an indispensable tool in people's traffic, is mostly semicircular, and mainly comprises a shell, a lining and a suspension device, wherein the shell is respectively made of special steel, glass fiber reinforced plastic, leather, nylon and other materials to resist the head injury caused by bullets, shrapnel and other striking objects, the ancient Chinese is called as a harness, a first armor, a pocket an ancient pot or a head an ancient pot, the helmet is required to be used in more and more fields, the position of the helmet in daily life of people is more and more important, the helmet can play a role of protection when the head of people is accidentally injured, and the quality of the helmet determines the fate of the head injury.

Therefore, how to combine big data, image recognition and a helmet, after recognizing that a user wears the helmet, the device intelligently recognizes the folliculitis disease of the scalp of the user, identifies the position data of the disease, and then generates a corresponding moving route, so that the device for applying the medicine in the helmet is moved to the position of the scalp disease of the user to apply the ointment for treatment, and monitors the side effect of ointment application, which is a problem to be solved urgently at present.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the disadvantages in the background art, embodiments of the present invention provide an intelligent head care method and system based on data processing and analysis, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent head care method based on data processing analysis, the method comprising the steps of:

s1, controlling an infrared proximity sensor arranged on the inner surface of the head care helmet to start to acquire infrared sensing information in real time, and analyzing whether the distance between the head of a user and the top end of the head care helmet is smaller than a preset distance or not according to the infrared sensing information;

s2, if yes, analyzing whether the user wears the head care helmet or not according to infrared induction information acquired by the infrared proximity sensor in real time;

s3, if yes, controlling an LED lamp bar arranged on the inner wall of the head care helmet to start to enter an illumination state and controlling a color camera arranged on the inner wall of the head care helmet to start to capture a color image of the head of a user in real time;

s4, analyzing whether folliculitis exists on the head of the user in real time according to the head color image;

s5, if yes, controlling an inner wall moving mechanism located at the position of the inner wall track group of the head care helmet to start and carrying out data identification on the position of folliculitis of the head of the user according to the head color image;

s6, arranging all the data identifications to generate a moving route containing a stopping point, controlling the inner wall moving mechanism to move at the position of the inner wall track group according to the head color image and stop after reaching the stopping point;

s7, after the inner wall moving mechanism stops, controlling the ointment applying mechanism arranged below the inner wall moving mechanism to stretch out the scalp with folliculitis corresponding to the stopping point to be abutted against and applied with the treatment ointment according to the head color image, and after the application of the treatment ointment is finished, controlling the ointment applying mechanism to completely contract.

As a preferred mode of the present invention, after S7, the method further includes the steps of:

s70, after the ointment smearing mechanism is completely contracted, controlling the inner wall moving mechanism to continue moving according to the moving route at the position of the inner wall track group according to the head color image, and stopping after reaching a stopping point;

s71, monitoring the scalp area coated with the treatment ointment in real time according to the head color image and analyzing whether the scalp area coated with the treatment ointment generates an allergic reaction in real time;

and S72, if yes, sending the allergy reminding and the allergy processing method information to the user terminal keeping the connection relation.

s73, after the ointment applying mechanism is completely contracted and the inner wall moving mechanism continues to move, controlling the massage moving mechanism arranged at the position of the inner wall track group of the head care helmet to start, controlling the massage moving mechanism to move at the position of the inner wall track group according to the head color image according to the moving route, and stopping after reaching a stopping point;

and S74, after the massage moving mechanism stops, controlling the vibration massage mechanism arranged below the massage moving mechanism to extend out to collide with the scalp area coated with the treatment ointment to enter a massage state with preset time according to the head color image.

As a preferred mode of the present invention, after S2, the method further includes the steps of:

s20, controlling a switch mechanism arranged at the position of the vent hole of the head care helmet to open the vent hole;

and S21, controlling a fan mechanism arranged in the vent hole to start to enter a ventilation state.

As a preferred mode of the present invention, after S3, the method further includes the steps of:

s30, comparing the head color image with scalp disease information in the connected remote database and analyzing whether other skin diseases exist on the head of the user;

and S31, if yes, extracting scalp images containing other skin diseases in the head color images and treatment methods corresponding to the skin diseases in a remote database, and transmitting the extracted scalp images and treatment methods to a user terminal keeping a connection relation.

An intelligent head nursing system based on data processing and analysis uses an intelligent head nursing method based on data processing and analysis, and comprises a helmet body, an induction device, a nursing device, a remote database and a processor, wherein the helmet body is provided with vent holes, a switch mechanism and a fan mechanism, and the vent holes are uniformly arranged at the position of the helmet body and used for improving the ventilation performance of the helmet body; the switch mechanism is arranged in the vent hole and used for switching the vent hole; the fan mechanism is arranged in the ventilation hole and used for ventilating the helmet body;

the sensing device comprises an infrared proximity sensor, an LED lamp bar and a color camera, wherein the infrared proximity sensor is arranged at the top end inside the helmet body and used for acquiring infrared distance sensing information between the top of the helmet body and the head of a user; the LED lamp strip is arranged on the inner wall of the helmet body and used for providing an illumination function; the color camera is arranged on the inner wall of the helmet body and used for acquiring a color image of the head of a user;

the nursing device comprises an inner wall track group, an inner wall moving mechanism, an ointment smearing mechanism, a massage moving mechanism and a vibration massage mechanism, wherein the inner wall track group is arranged on the inner wall of the helmet body and used for providing movement for the inner wall moving mechanism and the massage moving mechanism; the inner wall moving mechanism is positioned at the position of the inner wall track and is used for moving the inner wall track group according to a planned moving route; the ointment smearing mechanism is arranged below the inner wall moving mechanism and is used for extruding ointment to a scalp disease area of a user after extending out; the massage moving mechanism is positioned at the position of the inner wall track and is used for moving on the inner wall track group according to a planned moving route; the vibration massage mechanism is arranged at the position below the massage moving mechanism and is used for massaging the scalp area coated with the ointment by the user after extending out;

the remote database is connected with the processor and is used for storing head skin disease information;

the processor is respectively connected with the helmet body, the switch mechanism, the fan mechanism, the infrared proximity sensor, the LED lamp strip, the color camera, the inner wall moving mechanism, the ointment smearing mechanism, the massage moving mechanism and the vibration massage mechanism; the processor includes:

the wireless module is used for being in wireless connection with the user terminal, the remote database and the network respectively;

the infrared control module is used for controlling the infrared proximity sensor to be started or closed;

the information analysis module is used for processing and analyzing the information according to the specified information;

the illumination control module is used for controlling the LED lamp strip to be started or closed;

the image shooting module is used for controlling the color camera to be started or closed;

the inner wall moving module is used for controlling the inner wall moving mechanism to execute set operation according to set steps;

the disease identification module is used for carrying out data identification on the position of the folliculitis of the head of the user according to the head color image;

the route arrangement module is used for arranging the data identifications to generate a moving route containing stop points;

and the ointment smearing module is used for controlling the ointment smearing mechanism to execute set operation according to the set steps.

As a preferred mode of the present invention, the processor further includes:

the image monitoring module is used for monitoring the scalp area coated with the treatment ointment in real time according to the color image of the head;

and the information transmission module is used for transmitting the specified information to the specified object.

As a preferred mode of the present invention, the processor further includes:

the massage control module is used for controlling the massage moving mechanism to execute set operation according to set steps;

and the massage vibration module is used for controlling the vibration massage mechanism to execute set operation according to set steps.

As a preferred mode of the present invention, the processor further includes:

the ventilation switch module is used for controlling the switch mechanism to open or close the ventilation hole;

and the ventilation control module is used for controlling the fan mechanism to be started or closed.

As a preferred mode of the present invention, the processor further includes:

the disease comparison module is used for comparing the head color image with scalp disease information in the remote database and acquiring a comparison result;

and the disease extraction module is used for extracting scalp images containing other skin diseases in the head color images and treatment methods corresponding to the skin diseases in the remote database.

The invention realizes the following beneficial effects:

1. after the intelligent head nursing system is started, infrared induction information between the helmet body and the head of a user is monitored in real time, after the fact that the user wears the helmet body is analyzed, scalp information of the head of the user is scanned, folliculitis of the head of the user is analyzed, if folliculitis of the head of the user is analyzed, all positions of the head of the user with folliculitis are obtained, a moving route containing corresponding stop points is generated according to the positions, then the inner wall moving mechanism is controlled to move at the inner wall track position according to the moving route and stop after the inner wall moving mechanism reaches the stop points, then the ointment applying mechanism is controlled to extend out to be in contact with the position of the folliculitis of the user to apply corresponding therapeutic ointment, after the ointment is applied, the ointment applying mechanism is controlled to completely retract and the inner wall moving mechanism is controlled to stop at the next stop point in front of the moving route, and the rest is done in the same, until all the folliculitis positions of the head of the user are coated with the ointment.

2. After ointment is applied to the folliculitis position of the head of the user, the folliculitis position of the user with the ointment applied is monitored in real time, and if an allergic reaction is identified, a processing method corresponding to the allergic reaction and an allergic area image are sent to a user terminal for intelligent reminding.

3. After the ointment smearing mechanism finishes shrinking and the inner wall moving mechanism moves forwards to a next stopping point, controlling the massage moving mechanism to move forwards to the stopping point position smeared with the ointment according to the moving route and controlling the vibration massage mechanism to stretch out to abut against the scalp position smeared with the ointment and carry out vibration massage for preset time after the massage moving mechanism arrives, promoting medicine absorption, and then controlling the vibration massage mechanism to shrink completely and controlling the massage moving mechanism to move forwards to the next stopping point position smeared with the ointment according to the moving route after the massage time arrives; and repeating the steps until all the folliculitis positions of the head of the user coated with the ointment are massaged.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of an intelligent head-care method provided by one example of the present invention;

FIG. 2 is a flow chart of an allergy monitoring and identification process provided by one example of the present invention;

fig. 3 is a flow chart of a scalp vibration massage method according to an example of the present invention;

fig. 4 is a flowchart of a method for controlling ventilation of a helmet body according to an example of the present invention;

FIG. 5 is a flow chart of another head skin disease identification processing method according to an example of the present invention;

FIG. 6 is a connection diagram of an intelligent head-care system provided by one example of the present invention;

fig. 7 is a schematic view of one example of the present invention providing a helmet body;

FIG. 8 is a schematic partial cross-sectional view of an area where vents are provided according to an example of the present invention;

fig. 9 is a partially sectional schematic view of an area where the inner wall moving mechanism and the massage moving mechanism are provided for one example of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1, shown in fig. 4-9.

Specifically, the present embodiment provides an intelligent head care method based on data processing and analysis, which is characterized in that the method includes the following steps:

s1, controlling the infrared proximity sensor 20 arranged on the inner surface of the head care helmet to start to acquire infrared sensing information in real time and analyzing whether the distance between the head of the user and the top end of the head care helmet is smaller than a preset distance or not according to the infrared sensing information;

s2, if yes, analyzing whether the user wears the head care helmet or not according to infrared induction information acquired by the infrared proximity sensor 20 in real time;

s3, if yes, controlling the LED light bar 21 arranged on the inner wall of the head care helmet to start to enter an illumination state and controlling the color camera 22 arranged on the inner wall of the head care helmet to start to capture the color image of the head of the user in real time;

s5, if yes, controlling the inner wall moving mechanism 31 located at the inner wall track group 30 position of the head care helmet to start and carrying out data identification on the folliculitis position of the head of the user according to the head color image;

s6, arranging all the data marks to generate a moving path including a stopping point, and controlling the inner wall moving mechanism 31 to move at the position of the inner wall track group 30 according to the head color image and stop after reaching the stopping point;

s7, after the inner wall moving mechanism 31 stops, controlling the ointment applying mechanism 32 arranged below the inner wall moving mechanism 31 to extend out of the scalp with folliculitis corresponding to the stopping point to be abutted against and applied with the treatment ointment according to the head color image, and controlling the ointment applying mechanism 32 to completely contract after the application of the treatment ointment is finished.

In S1, specifically after the helmet body 1 is started, the infrared control module 51 included in the processor 5 controls the infrared proximity sensor 20 disposed on the inner surface of the head care helmet to start to acquire infrared sensing information in real time and transmit the received infrared sensing information to the information analysis module 52, and after the information analysis module 52 included in the processor 5 receives the infrared sensing information, the information analysis module analyzes whether the distance between the head of the user and the top end of the head care helmet is smaller than a preset distance according to the infrared sensing information in real time, that is, whether the user wears the helmet body 1 is analyzed; the preset distance is the distance between the head of the user and the top end inside the helmet after the user wears the helmet body 1, and is preferably 5 cm in the embodiment, that is, after the user wears the helmet body 1, the distance between the top end of the inner wall of the helmet body 1 and the head of the user is 5 cm.

In S2, specifically, after the information analysis module 52 analyzes that the distance between the head of the user and the top end of the head care helmet is smaller than the preset distance, that is, the user wears the helmet body 1, the information analysis module 52 analyzes whether the user wears the head care helmet according to the infrared sensing information acquired by the infrared proximity sensor 20 in real time, that is, analyzes whether the distance information included in the real-time infrared sensing information has a stop change.

In S3, after the information analysis module 52 analyzes that the user wears the head care helmet, that is, it analyzes that the distance information included in the real-time infrared sensing information stops changing, the illumination control module 53 included in the processor 5 controls the LED light bar 21 disposed at the inner wall position of the head care helmet to start to enter an illumination state, and the image capturing module 54 included in the processor 5 controls the color camera 22 disposed at the inner wall position of the head care helmet to start to capture the color image of the head of the user in real time.

In S4, specifically, after the LED light bar 21 is started and the color camera 22 is started, the information analysis module 52 analyzes whether folliculitis exists on the head of the user in real time according to the head color image, that is, whether suppurative inflammation occurs in the area of the head of the user is analyzed.

At S5, specifically, after the information analysis module 52 analyzes that the head of the user has a region with suppurative inflammation, the inner wall moving module 55 of the processor 5 controls the first moving housing located at the inner wall track set 30 of the head care helmet to start, and at the same time, the disease identification module 56 of the processor 5 performs data identification on the position of folliculitis existing on the head of the user according to the head color image and transmits the spatial coordinate data of the data identification to the route arrangement module 57, that is, the spatial coordinate data for identifying the position of the scalp where the folliculitis exists.

In S6, specifically, after the route arrangement module 57 included in the processor 5 receives the spatial coordinate data of the data identifier, the route arrangement module 57 arranges the spatial coordinate data included in all the data identifiers to generate a moving route including a stopping point, where the stopping point is a position of scalp spatial coordinate data where folliculitis exists, and transmits the moving route to the inner wall moving module 55 after the route arrangement module 57 finishes the arrangement, and the inner wall moving module 55 controls, according to the head color image, the first moving motor inside the first moving housing to drive the first moving housing to move on the inner wall track group 30 according to the moving route, and stops after reaching the stopping point.

In S7, specifically, after the first movable housing is stopped, the ointment applying module 58 included in the processor 5 controls, according to the color image of the head, the first telescopic support connected to the second telescopic motor inside the first movable housing below to drive the applicator head to protrude and abut against the scalp with folliculitis corresponding to the stop point, while the first telescopic support protrudes, the ointment applying module 58 controls the applicator head to open and extrude the ointment stored in the ointment storage bin through the medicine delivery pipeline, and after the first telescopic support protrudes and abuts against the scalp with folliculitis, the ointment applying module 58 controls the first telescopic support connected to the second telescopic motor to drive the applicator head to completely contract.

The application can also be used for treating other head skin diseases by only correspondingly replacing the ointment stored in the ointment storage bin and then inputting the information of the corresponding skin diseases into the processor 5; the method and the device are suitable for short-hair users.

s20, controlling the switch mechanism 11 arranged at the position of the vent hole 10 of the head-care helmet to open the vent hole 10.

Specifically, after the information analysis module 52 analyzes that the user wears the head care helmet, the ventilation switch module 63 included in the processor 5 controls the first telescopic motor disposed at the position of the ventilation hole 10 of the head care helmet to drive the connected telescopic partition plate to fully retract, so as to open the ventilation hole 10.

S21, the fan mechanism 12 provided inside the ventilation hole 10 is controlled to start to enter the ventilation state.

Specifically, after the vent hole 10 is completely opened, the ventilation control module 64 included in the processor 5 controls the ventilation fan, which is driven and connected by the fan motor and disposed inside the vent hole 10, to start to enter a helmet ventilation state, so as to prevent the user from worsening skin diseases caused by the helmet in a long time.

and S30, comparing the head color image with scalp disease information in the connected remote database 4 and analyzing whether other skin diseases exist on the head of the user.

Specifically, after the color camera 22 starts to capture a color image of the head in real time, the disease comparison module 65 included in the processor 5 compares the color image of the head with scalp disease information in the connected remote database 4 to obtain a comparison result, and sends the obtained comparison result to the information analysis module 52, and the information analysis module 52 receives the comparison result and then analyzes whether other skin diseases exist on the head of the user.

And S31, if yes, extracting scalp images containing other skin diseases in the head color images and treatment methods corresponding to the skin diseases in the remote database 4, and transmitting the extracted scalp images and treatment methods to a user terminal keeping a connection relationship.

Specifically, after the information analysis module 52 analyzes that there are other skin diseases on the head of the user, the disease extraction module 66 extracts a scalp image containing other skin diseases in the head color image and a treatment method corresponding to the skin diseases in the remote database 4 and transmits the extracted scalp image and the treatment method to the information transmission module 60, and the information transmission module 60 included in the processor 5 transmits the extracted scalp image and the treatment method to a user terminal that maintains a connection relationship, so as to provide the user with viewing and corresponding treatment.

Example two

Referring to fig. 2, fig. 6-9.

Specifically, this embodiment is substantially the same as the first embodiment, except that in this embodiment, after S7, the method further includes the following steps:

and S70, after the ointment applying mechanism 32 is completely contracted, controlling the inner wall moving mechanism 31 to continue moving along the moving route at the position of the inner wall track group 30 according to the head color image, and stopping after reaching the stopping point.

Specifically, after the first telescopic strut in driving connection with the second telescopic motor completely shrinks the coating head, the inner wall moving module 55 controls the first track roller in driving connection with the first moving motor according to the head color image to drive the first housing to continue to move at the position of the inner wall track group 30 according to the moving route, and stops after reaching the next stop point.

And S71, monitoring the scalp area coated with the treatment ointment in real time according to the head color image and analyzing whether the scalp area coated with the treatment ointment generates an allergic reaction in real time.

Specifically, when the first movable housing continues to move along the movement route, the image monitoring module 59 included in the processor 5 monitors the scalp area coated with the treatment ointment in real time according to the head color image and transmits real-time monitoring information to the information analysis module 52, and after the information analysis module 52 receives the real-time monitoring information, the information analysis module 52 analyzes whether the scalp area coated with the treatment ointment generates an allergic reaction in real time according to the monitoring information; the anaphylactic reaction includes but is not limited to erythema, urticaria, erythra and the like in the drug-coated area.

Specifically, after the information analysis module 52 analyzes that there is an allergic reaction in the scalp area coated with the treatment ointment, the information transmission module 60 included in the processor 5 sends an allergic reaction prompt and allergic treatment method information to the user terminal that maintains the connection relationship, so that the user can check the allergic reaction prompt and stop applying the medicine in time or go to a hospital for a doctor, and the like.

EXAMPLE III

Referring to fig. 3, shown in fig. 6-9.

and S73, after the ointment applying mechanism 32 is completely contracted and the inner wall moving mechanism 31 continues to move, controlling the massage moving mechanism 33 arranged at the position of the inner wall track group 30 of the head care helmet to start, controlling the massage moving mechanism 33 to move at the position of the inner wall track group 30 according to the head color image according to the moving route, and stopping after reaching the stopping point.

Specifically, after the first telescopic strut in the second telescopic motor driving connection is completely contracted and the first moving housing continues to move according to the moving route, the massage control module 61 included in the processor 5 controls the second moving housing arranged at the position of the inner wall track group 30 of the head care helmet to start, and after the second moving housing is started, the massage control module 61 controls the second track roller in the second moving housing in the second moving motor driving connection according to the color head image to drive the second moving housing to move according to the moving route at the position of the inner wall track group 30 and stop after reaching the stop point; i.e. along the movement trajectory of the first movable housing, and stopping after reaching each stopping point.

And S74, after the massage moving mechanism 33 stops, controlling the vibration massage mechanism 34 arranged at the lower position of the massage moving mechanism 33 to extend out to be abutted against the scalp area coated with the treatment ointment to enter a massage state with preset time according to the head color image.

Wherein the preset time can be 1S-15 minutes, and is preferably 3 minutes in the embodiment.

Specifically, after the second mobile housing is stopped, the massage vibration module 62 included in the processor 5 controls a second telescopic strut in driving connection with a third telescopic motor inside the second mobile housing according to the color image of the head to extend the massage head to collide with the scalp area coated with the treatment ointment, and after the massage head collides with the scalp area, the massage vibration module 62 controls a vibration motor inside the massage head to start to enter a vibration massage state for 3 minutes, so as to promote the scalp area of the user to absorb the medicine and accelerate the treatment; and does not interfere with the ulcerated areas of the skin.

Specifically, after the time of the vibration massage state of the massage head is over, the second telescopic strut in driving connection with the third telescopic motor is controlled to completely contract the massage head, and then the second moving motor is controlled to drive the second track roller to drive the second moving shell to move to the next stop point area coated with the treatment ointment in front of the moving route.

Example four

As shown with reference to fig. 6-9.

Specifically, the embodiment provides an intelligent head care system based on data processing and analysis, which uses an intelligent head care method based on data processing and analysis, and comprises a helmet body 1, an induction device 2, a care device 3, a remote database 4 and a processor 5, wherein the helmet body 1 is provided with vent holes 10, a switch mechanism 11 and a fan mechanism 12, and the vent holes 10 are uniformly arranged at the position of the helmet body 1 and used for improving the ventilation performance of the helmet body 1; the switch mechanism 11 is arranged inside the vent hole 10 and used for switching on and off the vent hole 10; the fan mechanism 12 is arranged in the ventilation hole 10 and used for ventilating the helmet body 1;

the sensing device 2 comprises an infrared proximity sensor 20, an LED light bar 21 and a color camera 22, wherein the infrared proximity sensor 20 is arranged at the top end position inside the helmet body 1 and used for acquiring infrared distance sensing information between the top of the helmet body 1 and the head of a user; the LED lamp strip 21 is arranged on the inner wall of the helmet body 1 and used for providing an illumination function; the color camera 22 is arranged on the inner wall of the helmet body 1 and is used for acquiring a color image of the head of a user;

the nursing device 3 comprises an inner wall track group 30, an inner wall moving mechanism 31, an ointment applying mechanism 32, a massage moving mechanism 33 and a vibration massage mechanism 34, wherein the inner wall track group 30 is arranged on the inner wall of the helmet body 1 and used for providing movement for the inner wall moving mechanism 31 and the massage moving mechanism 33; the inner wall moving mechanism 31 is located at the position of the inner wall track and is used for moving the inner wall track group 30 according to a planned moving route; the ointment applying mechanism 32 is arranged below the inner wall moving mechanism 31 and is used for extruding ointment to a scalp disease area of a user after extending out; the massage moving mechanism 33 is located at the position of the inner wall track and is used for moving on the inner wall track group 30 according to a planned moving route; the vibration massage mechanism 34 is arranged below the massage moving mechanism 33 and is used for massaging the scalp area coated with the ointment by the user after extending out;

the remote database 4 is connected with the processor 5 and is used for storing head skin disease information;

the processor 5 is respectively connected with the helmet body 1, the switch mechanism 11, the fan mechanism 12, the infrared proximity sensor 20, the LED lamp strip 21, the color camera 22, the inner wall moving mechanism 31, the ointment smearing mechanism 32, the massage moving mechanism 33 and the vibration massage mechanism 34; the processor 5 includes:

a wireless module 50, for wireless connection with the user terminal, the remote database 4 and the network respectively;

the infrared control module 51 is used for controlling the infrared proximity sensor 20 to be started or closed;

an information analysis module 52, configured to perform information processing and analysis according to the specified information;

the illumination control module 53 is used for controlling the LED lamp strip 21 to be turned on or off;

an image capturing module 54 for controlling the color camera 22 to be turned on or off;

an inner wall moving module 55 for controlling the inner wall moving mechanism 31 to execute the set operation according to the set steps;

the disease identification module 56 is used for carrying out data identification on the position of the folliculitis of the head of the user according to the head color image;

a route arranging module 57, configured to arrange the data identifiers to generate a moving route including the stopping point;

and the ointment applying module 58 is used for controlling the ointment applying mechanism 32 to execute the set operation according to the set steps.

As a preferred mode of the present invention, the processor 5 further includes:

the image monitoring module 59 is used for monitoring the scalp area coated with the treatment ointment in real time according to the head color image;

and an information transmission module 60 for transmitting the designation information to the designated object.

As a preferred mode of the present invention, the processor 5 further includes:

a massage control module 61 for controlling the massage moving mechanism 33 to perform a set operation according to the set steps;

and a massage vibration module 62 for controlling the vibration massage mechanism 34 to perform the set operation according to the set steps.

As a preferred mode of the present invention, the processor 5 further includes:

the ventilation switch module 63 is used for controlling the switch mechanism 11 to open the ventilation hole 10 or close the ventilation hole 10;

and a ventilation control module 64 for controlling the fan mechanism 12 to turn on or off.

As a preferred mode of the present invention, the processor 5 further includes:

a disease comparison module 65, configured to compare the head color image with scalp disease information in the remote database 4 and obtain a comparison result;

the disease extraction module 66 is used for extracting scalp images containing other skin diseases in the head color images and treatment methods corresponding to the skin diseases in the remote database 4.

The switch mechanism 11 comprises a first telescopic motor and a telescopic partition plate, wherein the first telescopic motor is arranged in the helmet body 1 in the area of the vent hole 10, is connected with the telescopic partition plate and is used for driving the connected telescopic partition plate to stretch; the telescopic partition plate is arranged in the helmet body 1 in the area where the vent hole 10 is located and used for opening and closing the vent hole 10; the fan mechanism 12 comprises a fan motor and a ventilation fan, wherein the fan motor is arranged in the helmet body 1 in the area where the vent hole 10 is located, is connected with the ventilation fan and is used for driving the connected ventilation fan to start; the ventilation fan is disposed inside the ventilation hole 10 to provide a ventilation function.

The inner wall moving mechanism 31 includes a first moving housing, a first moving motor and a first track roller, the first moving housing is located at the position of the inner wall track group 30, and the first moving motor is arranged at an inner position of the first moving housing, connected with the first track roller and used for driving the connected first track roller to operate; the first track roller is arranged above the first movable shell and used for driving the first movable shell to move at the position of the inner wall track.

The ointment smearing mechanism 32 comprises a second telescopic motor, a first telescopic support, an ointment storage bin, an ointment delivery pipeline and an ointment smearing head, wherein the second telescopic motor is arranged at the inner position of the first movable shell, is connected with the first telescopic support and is used for driving the first telescopic support connected with the second telescopic motor to stretch; the first telescopic strut is arranged at the position below the first movable shell; the ointment storage bin is arranged at the inner position of the first movable shell and used for storing the treatment ointment; the medicine delivery pipeline is respectively connected with the ointment storage bin and the medicine applying head and is used for guiding the therapeutic ointment in the ointment storage bin into the medicine applying head; the medicine coating head is arranged at the front end of the first telescopic support and is used for extruding the therapeutic ointment led in by the medicine conveying pipeline.

The massage moving mechanism 33 includes a second moving housing, a second moving motor and a second track roller, the second moving housing is located at the position of the inner wall track group 30, the second moving motor is arranged at the inner position of the second moving housing and connected with the second track roller for driving the connected two track rollers to run; the second track roller is arranged above the second movable shell and used for driving the second movable shell to move at the position of the inner wall track; the vibration massage mechanism 34 comprises a third telescopic motor, a second telescopic strut, a massage head and a vibration motor, wherein the third telescopic motor is arranged at an inner position below the second movable shell, is connected with the second telescopic strut and is used for driving the second telescopic strut connected with the third telescopic motor to stretch; the second telescopic strut is arranged at the position below the second movable shell; the massage head is arranged at the front end of the second telescopic strut and connected with the second telescopic strut and is used for massaging the scalp area of a user coated with the therapeutic ointment; the vibrating motor is arranged in the inner position of the massage head and used for providing a vibrating massage function.

It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to the third embodiments), and is not described in detail here.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. An intelligent head care method based on data processing analysis, characterized in that the method comprises the following steps:

2. An intelligent head-care method based on data processing analysis according to claim 1, wherein after S7, the method further comprises the steps of:

3. An intelligent head-care method based on data processing analysis according to claim 1, wherein after S7, the method further comprises the steps of:

4. An intelligent head-care method based on data processing analysis according to claim 1, wherein after S2, the method further comprises the steps of:

5. An intelligent head-care method based on data processing analysis according to claim 1, wherein after S3, the method further comprises the steps of:

6. An intelligent head care system based on data processing and analysis, which uses the intelligent head care method based on data processing and analysis as claimed in any one of claims 1-5, and comprises a helmet body, a sensing device, a nursing device, a remote database and a processor, wherein the helmet body is provided with vent holes, a switch mechanism and a fan mechanism, the vent holes are uniformly arranged at the position of the helmet body and used for improving the ventilation performance of the helmet body; the switch mechanism is arranged in the vent hole and used for switching the vent hole; the fan mechanism is arranged in the ventilation hole and used for ventilating the helmet body;

7. An intelligent head-care system based on data processing analysis according to claim 6, wherein said processor further comprises:

8. An intelligent head-care system based on data processing analysis according to claim 6, wherein said processor further comprises:

9. An intelligent head-care system based on data processing analysis according to claim 6, wherein said processor further comprises:

10. An intelligent head-care system based on data processing analysis according to claim 6, wherein said processor further comprises: