CN109107006B - Intelligent atomizer, use method thereof and atomization management system - Google Patents

Abstract

The invention provides an intelligent atomizer, a using method thereof and an atomization management system, wherein the intelligent atomizer comprises the following components: the atomizer comprises an atomizer body, an interaction module, a control module and a display module; the interaction module is used for outputting first voice prompt information when receiving a voice starting instruction, and sending a starting signal to the control module so as to enable the control module to pop out an atomizing cup in the atomizer body; when the voice atomization information is received, the voice atomization information is read repeatedly, converted into text atomization information and displayed through a display module; when receiving pronunciation atomizing instruction, send text atomizing information and the time of receiving pronunciation atomizing information for at least one outside intelligent terminal as the atomizing time to send atomizing signal to control module, so that it detects whether atomizing cup is on the throne, if yes, then control atomizer body atomizing, wherein, pronunciation atomizing information includes: user information, drug name, and drug dosage. This scheme can reduce the fear when children atomize and feel.

Description

Intelligent atomizer, use method thereof and atomization management system

Technical Field

The invention relates to the technical field of medical equipment, in particular to an intelligent atomizer, a using method thereof and an atomization management system.

Background

The aerosol inhalation therapy is an important and effective treatment method in the treatment method of respiratory system diseases, the atomizer is adopted to atomize the liquid medicine into tiny particles, and the medicine enters the respiratory tract and the lung for deposition in a respiratory inhalation mode, thereby achieving the aim of painless, rapid and effective treatment.

At present, for children suffering from respiratory diseases, if the children can be matched with atomization therapy in time, the course of disease can be greatly shortened, the number of injection and medicine taking is reduced, and the pain of the children is reduced.

However, most children have a fear of aerosol therapy with an atomizer, and thus cry and cry, atomization rejection, and the like may occur.

Disclosure of Invention

The embodiment of the invention provides an intelligent atomizer, a using method thereof and an atomization management system, which can reduce the fear of children during atomization.

In a first aspect, an embodiment of the present invention provides an intelligent atomizer, including: the atomizer comprises an atomizer body, an interaction module, a control module and a display module;

the interaction module and the display module are both arranged outside the atomizer body;

the control module is arranged inside the atomizer body;

the interaction module is used for sending a starting signal to the control module and outputting first voice prompt information when receiving a voice starting instruction input by a user; when receiving voice atomization information input by the user according to the first voice prompt information, rereading the voice atomization information, converting the voice atomization information into text atomization information, and displaying the text atomization information through the display module; when receiving the voice atomization instruction input by the user, sending an atomization signal to the control module, and sending the text atomization information and the time of receiving the voice atomization information to at least one external intelligent terminal as atomization time, so that the at least one external intelligent terminal displays the received voice information and the atomization time, wherein the voice atomization information comprises: user information, drug name and drug dose;

the control module is used for popping up an atomizing cup in the atomizer body when receiving the starting signal sent by the interaction module; when receiving the atomizing signal that interactive module sent, detect whether the atomizing cup is located the atomizer body is internal, if yes, control atomizer body atomizing.

Preferably, the first and second electrodes are formed of a metal,

the interaction module is further used for sending the voice playing request to an external server when receiving the voice playing request input by the user, and displaying the multimedia through the display module when receiving the multimedia corresponding to the voice playing request returned by the external server.

Preferably, the first and second electrodes are formed of a metal,

the interaction module is further used for sending the atomization duration to the control module when the atomization duration input by the user is received; when a feedback signal sent by the control module is received, outputting second voice prompt information, and displaying text prompt information corresponding to the second voice prompt information through the display module;

the control module is used for executing:

s0: determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2;

s1: dividing the drug dose by the nebulization duration to obtain a current nebulization rate, and executing S3;

s2: performing S3 with the preset spraying rate as the current spraying rate;

s3: and controlling the atomizer body to atomize according to the current atomizing rate, and sending the feedback signal to the interaction module.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a detection module;

the interaction module is further used for triggering the detection module after outputting second voice prompt information, and controlling the display module to display the animation corresponding to the pressure signal when receiving the pressure signal sent by the detection module;

the detection module is arranged in the atomizer body and used for detecting the pressure signal generated when the user inhales through the atomizer body under the triggering of the interaction module and sending the pressure signal to the interaction module.

Preferably, the first and second electrodes are formed of a metal,

the interaction module is further used for sending a fog amount adjusting signal corresponding to the voice fog amount adjusting instruction to the control module when receiving the voice fog amount adjusting instruction input by the user;

and the control module is further used for adjusting the current spraying rate according to the fog amount adjusting signal and controlling the atomizer body to atomize according to the adjusted current spraying rate when receiving the fog amount adjusting signal sent by the interaction module.

Preferably, the first and second electrodes are formed of a metal,

the interaction module is further configured to generate and store an electronic medical record of the user, where the electronic medical record of nebulization includes: and when receiving an externally input voice query request, the text atomization information and the atomization time display the electronic atomization medical record corresponding to the voice query request through the display module.

Preferably, the interaction module is further configured to send the electronic atomized medical record to the at least one external intelligent terminal, so that the at least one external intelligent terminal displays the received electronic atomized medical record.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a connecting member;

the display module is connected with the atomizer body through the connecting piece;

when external force is applied to the display module, the relative position of the display module and the atomizer body is changed through the connecting piece.

In a second aspect, an embodiment of the present invention provides a method for using an intelligent atomizer, where an interaction module and a display module are previously disposed outside an atomizer body, and a control module is disposed inside the atomizer body, and the method further includes:

when receiving a voice starting instruction input by a user, the interaction module sends a starting signal to the control module and outputs first voice prompt information;

popping up an atomizing cup in the atomizer body when the control module receives the starting signal sent by the interaction module;

utilizing the interaction module to re-read the voice atomization information when receiving the voice atomization information input by the user according to the first voice prompt information, converting the voice atomization information into text atomization information, and displaying the text atomization information through the display module, wherein the voice atomization information comprises: user information, drug name and drug dose;

when the interaction module receives a voice atomization instruction input by the user, an atomization signal is sent to the control module, and the text atomization information and the time of receiving the voice atomization information are sent to at least one external intelligent terminal as atomization time, so that the at least one external intelligent terminal displays the received voice information and the received atomization time;

and when the control module receives the atomization signal sent by the interaction module, whether the atomization cup is positioned in the atomizer body is detected, and if so, the atomization of the atomizer body is controlled.

Preferably, the first and second electrodes are formed of a metal,

after the receiving, by the interaction module, a voice start instruction input by a user, further comprising:

and when receiving a voice playing request input by the user, the interaction module sends the voice playing request to an external server, and when receiving multimedia corresponding to the voice playing request returned by the external server, the multimedia is displayed through the display module.

Preferably, the first and second electrodes are formed of a metal,

before the controlling the atomizer body to atomize, further comprising:

sending the atomization duration to the control module by utilizing the interaction module when the atomization duration input by the user is received;

the control atomizer body atomizing includes:

with the control module, performing:

s0: determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2;

s1: dividing the drug dose by the nebulization duration to obtain a current nebulization rate, and executing S3;

s2: performing S3 with the preset spraying rate as the current spraying rate;

s3: controlling the atomizer body to atomize according to the current atomizing rate, and sending the feedback signal to the interaction module;

after the controlling the atomizer body to atomize, further comprising:

and outputting second voice prompt information when the interaction module receives a feedback signal sent by the control module, and displaying text prompt information corresponding to the second voice prompt information through the display module.

In a third aspect, an embodiment of the present invention provides an atomization management system, including: at least one intelligent terminal and at least one intelligent nebulizer of any one of the first aspects;

and the intelligent terminal is used for storing and displaying the received text atomization information and the received atomization time when receiving the text atomization information and the atomization time sent by any one of the intelligent atomizers.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a server side;

and the server is used for analyzing the voice playing request, acquiring corresponding semantics, acquiring multimedia corresponding to the semantics and sending the multimedia to the intelligent atomizer when receiving the voice playing request sent by the intelligent atomizer.

In the embodiment of the invention, when the interaction module receives a voice starting instruction input by a user, the interaction module can determine that the user needs to carry out atomization treatment, so that a starting signal needs to be sent to the control module, and the control module pops up an atomizing cup in the atomizer body, so that the user can conveniently inject medicine into the atomizing cup; outputting a first voice prompt message, enabling a user to input corresponding voice atomization message, increasing the interaction of the user, further reducing the fear of the child user during atomization, repeatedly reading the voice atomization message, and displaying the corresponding text atomization message on a display module, so that the user can determine whether the atomization message is wrong through the text message and the voice message, when receiving the voice atomization instruction input by the user, determining that the user needs to perform atomization treatment, and therefore, sending the text atomization message and the time of receiving the voice atomization instruction as atomization time to an external intelligent terminal, so that the received atomization time and the text atomization message can be displayed through the external intelligent terminal, other users can know the atomization details of the user, and meanwhile, the control module needs to send an atomization signal to the control module, so that the control module detects an atomization cup in the atomizer body, and controlling the atomizer body to atomize.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent atomizer according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another intelligent atomizer provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another intelligent atomizer provided in an embodiment of the present invention;

FIG. 4 is a flow chart of a method of using an intelligent atomizer in accordance with an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an atomization management system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another atomization management system provided in an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another atomization management system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an intelligent atomizer, including: the atomizer comprises an atomizer body 101, an interaction module 102, a control module 103 and a display module 104;

the interaction module 102 and the display module 104 are both disposed outside the nebulizer body 101;

the control module 103 is arranged inside the atomizer body 101;

the interaction module 102 is configured to send a start signal to the control module 102 and output first voice prompt information when receiving a voice start instruction input by a user; when receiving the voice atomization information input by the user according to the first voice prompt information, rereading the voice atomization information, converting the voice atomization information into text atomization information, and displaying the text atomization information through the display module 104; when receiving the voice atomization instruction input by the user, sending an atomization signal to the control module, and sending the text atomization information and the time of receiving the voice atomization information to at least one external intelligent terminal as atomization time, so that the at least one external intelligent terminal displays the received voice information and the atomization time, wherein the voice atomization information comprises: user information, drug name and drug dose;

the control module 103 is configured to pop up an atomizing cup in the atomizer body when receiving the start signal sent by the interaction module 102; when the atomization signal sent by the interaction module 102 is received, whether the atomization cup is located in the atomizer body is detected, and if so, the atomizer body 101 is controlled to atomize.

In the embodiment of the invention, when the interaction module receives a voice starting instruction input by a user, the interaction module can determine that the user needs to carry out atomization treatment, so that a starting signal needs to be sent to the control module, and the control module pops up an atomizing cup in the atomizer body, so that the user can conveniently inject medicine into the atomizing cup; outputting a first voice prompt message, enabling a user to input corresponding voice atomization message, increasing the interaction of the user, further reducing the fear of the child user during atomization, repeatedly reading the voice atomization message, and displaying the corresponding text atomization message on a display module, so that the user can determine whether the atomization message is wrong through the text message and the voice message, when receiving the voice atomization instruction input by the user, determining that the user needs to perform atomization treatment, and therefore, sending the text atomization message and the time of receiving the voice atomization instruction as atomization time to an external intelligent terminal, so that the received atomization time and the text atomization message can be displayed through the external intelligent terminal, other users can know the atomization details of the user, and meanwhile, the control module needs to send an atomization signal to the control module, so that the control module detects an atomization cup in the atomizer body, and controlling the atomizer body to atomize.

It should be noted that the smart terminal may be a smart phone, a tablet computer, a notebook computer, a desktop computer, and the like, but is not limited thereto. The intelligent atomizer can be a micro-mesh atomizer, an ultrasonic atomizer and an air compression atomizer.

In an embodiment of the present invention, the interaction module is further configured to send the voice playing request to an external server when receiving the voice playing request input by the user, and display the multimedia through the display module when receiving the multimedia corresponding to the voice playing request returned by the external server.

In the embodiment of the present invention, when the interaction module receives a voice playing request input by a user (for example, a voice playing request for playing a crayon novelty cartoon, playing a piggy peclet cartoon, or playing a XXX song), the voice playing request needs to be sent to the external server, so that the external server searches for corresponding multimedia according to the voice playing request and returns the multimedia to the interaction module, and the interaction module can display the multimedia through the display module, so as to divert the attention of a child user during atomization, reduce the fear of the child during atomization, and play a role in stabilizing emotion for the child with easy emotional restlessness.

In an embodiment of the present invention, the interaction module is further configured to send the atomization duration to the control module when the atomization duration input by the user is received; when a feedback signal sent by the control module is received, outputting second voice prompt information, and displaying text prompt information corresponding to the second voice prompt information through the display module;

the control module is used for executing:

s0: determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2;

s1: dividing the drug dose by the nebulization duration to obtain a current nebulization rate, and executing S3;

s2: performing S3 with the preset spraying rate as the current spraying rate;

s3: and controlling the atomizer body to atomize according to the current atomizing rate, and sending the feedback signal to the interaction module.

In the embodiment of the invention, after receiving the atomization time length input by the user, the interaction module needs to send the atomization time length to the control module, so that the control module determines the current atomization rate according to the atomization time length set by the user and controls the atomizer body to atomize according to the current atomization rate. And the control module does not receive the atomization time length sent by the interaction module within the preset starting time length, the atomization of the atomizer body is controlled according to the preset atomization rate, and a feedback signal is sent to the interaction module, so that when the interaction module receives the feedback signal, the control module is determined to control the atomization of the atomizer body, and therefore the second voice prompt information can be output, and the text prompt information corresponding to the second voice prompt information is displayed through the display module, so that a user is prompted to start atomization treatment in different modes.

It is understood that the nebulization time period received by the interaction module may be a voice nebulization time period, or may be a nebulization time period corresponding to information input by the user (for example, the nebulization time period input by a key included in the interaction module).

Based on the intelligent atomizer shown in fig. 1, as shown in fig. 2, in an embodiment of the present invention, the intelligent atomizer further includes: a detection module 201;

the interaction module 102 is further configured to trigger the detection module 201 after outputting the second voice prompt message, and control the display module to display an animation corresponding to the pressure signal when receiving the pressure signal sent by the detection module;

the detection module 201 is disposed inside the nebulizer body 101, and is configured to detect the pressure signal generated when the user inhales through the nebulizer body under the trigger of the interaction module 102, and send the pressure signal to the interaction module 102.

In the embodiment of the invention, after the interactive module outputs the voice prompt information, the detection module can be triggered to detect the pressure signal generated when the user inhales through the atomizer body, and the interactive module can control the display module to display the corresponding animation according to the pressure signal (for example, the deeper the inhalation is, the larger the balloon displayed by the display module is), so that the interactive feeling of the user is enhanced, the joy of the user during atomization is further increased, the fear of the child user during atomization is reduced, and meanwhile, the user performs the deep breathing action to help inhale the medicine.

In an embodiment of the present invention, the interaction module is further configured to send a fog amount adjusting signal corresponding to the voice fog amount adjusting instruction to the control module when receiving the voice fog amount adjusting instruction input by the user;

and the control module is further used for adjusting the current spraying rate according to the fog amount adjusting signal and controlling the atomizer body to atomize according to the adjusted current spraying rate when receiving the fog amount adjusting signal sent by the interaction module.

In the embodiment of the invention, a user can input a voice fog amount adjusting instruction according to actual requirements, for example, the fog amount is adjusted to be small or large, and the interactive module can send a fog amount adjusting signal to the control module when receiving the voice fog amount adjusting instruction, so that the control module adjusts the current spraying rate according to the fog amount adjusting signal and controls the atomizer body to atomize according to the adjusted current spraying rate, the fog amount requirements of the current user are met, and the use experience of the user is improved.

In an embodiment of the present invention, the interaction module is further configured to generate and store an electronic medical record of the user, where the electronic medical record of the user includes: and when receiving an externally input voice query request, the text atomization information and the atomization time display the electronic atomization medical record corresponding to the voice query request through the display module.

In the embodiment of the invention, the interaction module can store each text atomization information and atomization time and generate the electronic atomization medical record of the user, and the electronic atomization medical record can comprise information such as name, age, name of atomized medicine, medicine dosage and the like in the user information, so that when the electronic atomization medical record is inquired externally (for example, children, parents of the children and doctors), the electronic atomization medical record is displayed, and the atomization details of the user can be known externally through the electronic atomization medical record. For example, parents and doctors of children can check the electronic atomization medical records of the users through the intelligent atomizer, and can know user information such as names and ages of the users through the checked electronic atomization medical records, and can also know atomization information such as atomized medicine dosage and medicine names of the users, so that the atomization conditions of the users can be known.

In an embodiment of the present invention, the interaction module is further configured to send the electronic atomized medical record to the at least one external intelligent terminal, so that the at least one external intelligent terminal displays the received electronic atomized medical record.

In the embodiment of the invention, similarly, the interaction module can also send the generated electronic atomization medical records to each external intelligent terminal, so that parents and doctors of the child user can check the received electronic atomization medical records through the external intelligent terminals, and the atomization information such as the atomized medicine dose and the medicine name of the user can be conveniently known, so that the atomization condition of the user can be known.

Based on the intelligent atomizer shown in fig. 1, as shown in fig. 3, in an embodiment of the present invention, the intelligent atomizer further includes: a connecting member 301;

the display module 104 is connected with the atomizer body 101 through the connecting piece 301;

when external force is applied to the display module 301, the relative position of the display module 301 to the atomizer body 101 is changed through the connecting member 301.

In the embodiment of the invention, the display module is not fixed on the atomizer body, but is connected with the atomizer body through the connecting piece, so that a user applies external force to the display module according to actual requirements to adjust the relative position of the display module and the atomizer body, namely, the user adjusts the display position of the display module through rotation, up, down, left and right, so that the user can conveniently watch information displayed by the display module.

As shown in fig. 4, an embodiment of the present invention provides a method for using an intelligent atomizer, including:

step 401: the method comprises the steps that an interaction module and a display module are arranged outside an atomizer body in advance, and a control module is arranged inside the atomizer body;

step 402: when receiving a voice starting instruction input by a user, the interaction module sends a starting signal to the control module and outputs first voice prompt information;

step 403: popping up an atomizing cup in the atomizer body when the control module receives the starting signal sent by the interaction module;

step 404: utilizing the interaction module to re-read the voice atomization information when receiving the voice atomization information input by the user according to the first voice prompt information, converting the voice atomization information into text atomization information, and displaying the text atomization information through the display module, wherein the voice atomization information comprises: user information, drug name and drug dose;

step 405: when the interaction module receives a voice atomization instruction input by the user, an atomization signal is sent to the control module, and the text atomization information and the time of receiving the voice atomization information are sent to at least one external intelligent terminal as atomization time, so that the at least one external intelligent terminal displays the received voice information and the received atomization time;

step 406: and when the control module receives the atomization signal sent by the interaction module, whether the atomization cup is positioned in the atomizer body is detected, and if so, the atomization of the atomizer body is controlled.

In the embodiment of the invention, when the interactive module is used for receiving a voice starting instruction input by a user, the user can be determined to need to carry out atomization treatment, so that a starting signal is required to be sent to the control module, the control module pops out an atomizing cup in the atomizer body, the user can conveniently inject medicine into the atomizing cup, the first voice prompt message is output, the user can input corresponding voice atomization message, the interaction sense of the user is increased, the fear sense of the child user during atomization is further reduced, the voice atomization message is repeatedly read, and the corresponding text atomization message is displayed on the display module, so that the user can conveniently determine whether the atomization message is wrong or not through the text message and the voice message, when the voice atomization instruction input by the user is received, the user can be determined to need to carry out atomization treatment, and therefore, the text atomization message and the time of receiving the voice atomization instruction can be used as atomization time to be sent to an external intelligent terminal, so that show received atomizing time and text atomizing information through outside intelligent terminal, other users can know this user's atomizing details, still need send atomizing signal to control module simultaneously to make control module after detecting this internal atomizing cup of atomizer, control atomizer body atomizes.

In an embodiment of the present invention, after the receiving, by the interaction module, a voice start instruction input by a user, the method further includes:

and when receiving a voice playing request input by the user, the interaction module sends the voice playing request to an external server, and when receiving multimedia corresponding to the voice playing request returned by the external server, the multimedia is displayed through the display module.

In an embodiment of the present invention, before the controlling the atomizer body to atomize, the method further includes:

sending the atomization duration to the control module by utilizing the interaction module when the atomization duration input by the user is received;

the control atomizer body atomizing includes:

with the control module, performing:

s0: determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2;

s1: dividing the drug dose by the nebulization duration to obtain a current nebulization rate, and executing S3;

s2: performing S3 with the preset spraying rate as the current spraying rate;

s3: controlling the atomizer body to atomize according to the current atomizing rate, and sending the feedback signal to the interaction module;

after the controlling the atomizer body to atomize, further comprising:

and outputting second voice prompt information when the interaction module receives a feedback signal sent by the control module, and displaying text prompt information corresponding to the second voice prompt information through the display module.

As shown in fig. 5, an embodiment of the present invention provides an atomization management system, including: at least one intelligent terminal 501 and at least one intelligent nebulizer 502 as described in any of the above embodiments;

the intelligent terminal 501 is configured to store and display the received text atomization information and the received atomization time when receiving the text atomization information and the atomization time sent by any one of the intelligent atomizers 502.

In the embodiment of the invention, when receiving a voice starting instruction input by a user, an interaction module of the intelligent atomizer can determine that the user needs to carry out atomization treatment, so that a starting signal needs to be sent to a control module of the intelligent atomizer, so that the control module pops up an atomizing cup in an atomizer body, and the user can conveniently inject medicine into the atomizing cup; outputting a first voice prompt message to enable a user to input corresponding voice atomization message, increasing the interaction of the user, further reducing the fear of the child user during atomization, repeatedly reading the voice atomization message, and displaying the corresponding text atomization message on a display module of the intelligent atomizer, so that the user can determine whether the atomization message is wrong through the text message and the voice message, and when receiving the voice atomization command input by the user, determining that the user needs atomization treatment, therefore, the text atomization message and the time of receiving the voice atomization command can be sent to the intelligent terminal as atomization time, so that the received atomization time and the text atomization message can be displayed through the intelligent terminal, other users can know the atomization details of the user, and simultaneously, the control module needs to send an atomization signal to the control module, so that the control module can detect the atomization cup in the atomizer body, and controlling the atomizer body to atomize.

Based on the atomization management system shown in fig. 5, as shown in fig. 6, in an embodiment of the present invention, the atomization management system further includes: a server 601;

the server 601 is configured to, when receiving a voice playing request sent by any one of the intelligent atomizers 502, parse the voice playing request, obtain corresponding semantics, obtain multimedia corresponding to the semantics, and send the multimedia to the intelligent atomizer 502 that sent the voice playing request.

In order to more clearly illustrate the technical solutions and advantages of the present invention, an intelligent atomizer Q, an intelligent terminal Z and a server D are taken as examples below to describe in detail an atomization management system provided by an embodiment of the present invention, as shown in fig. 7, which specifically includes:

and the interaction module of the intelligent atomizer Q701 is used for sending a starting signal to the control module and outputting first voice prompt information when receiving a voice starting instruction input by a user.

Specifically, the user carries out aerosol treatment as required, can be to intelligent atomizer Q input voice start instruction (for example, call intelligent atomizer Q's name xxx, the voice start instruction that I will begin aerosol treatment), set up the outside interactive module at intelligent atomizer Q body, can be when receiving the voice start instruction of user's input, send actuating signal to the control module that sets up at intelligent atomizer Q body inside, so that control the internal atomizing cup of intelligent atomizer Q and pop out, so that the user injects the medicine into the atomizing cup, still need export first voice prompt information simultaneously (for example, the voice prompt information that the output owner please provide the atomizing details), in order to increase user's interactive sense, reduce the fear when children user atomizes.

And the control module of the intelligent atomizer Q701 is used for popping up the atomizing cup in the intelligent atomizer Q701 body when receiving the starting signal sent by the interaction module.

Intelligence atomizer Q701's interactive module for when receiving the pronunciation atomizing information that the user input according to first voice prompt information, the pronunciation atomizing information is rereaded, and text atomizing information is converted into with pronunciation atomizing information, and demonstrates text atomizing information through the display module, wherein, pronunciation atomizing information includes: user information, drug name, and drug dosage.

Specifically, intelligent atomizer Q's interactive module is when receiving the pronunciation atomization information of user input, like user's name, age, the medicine name, during the medicine dose, this pronunciation atomization information of needs rereading, and show the text atomization information that pronunciation atomization information corresponds through the display module that sets up in intelligent atomizer Q body inside, whether correct so that the mode suggestion user confirms the atomizing detail through the difference, simultaneously can also increase the interactive effect with the user, realize reducing the purpose that the sense of fear was felt when children's user atomizes atomizing, improve user's use and experience.

And the interaction module of the intelligent atomizer Q701 is used for sending an atomization signal to the control module when receiving a voice atomization instruction input by a user, and sending the text atomization information and the time of receiving the voice atomization information to the intelligent terminal Z702 as atomization time.

Specifically, when receiving a voice atomization instruction input by a user, the interaction module of the intelligent atomizer Q can determine that the user is ready for atomization therapy, and therefore can send an atomization signal to the control module, so that the control module performs atomization operation, and meanwhile, the time for sending text atomization information corresponding to the voice atomization information and receiving the voice atomization information to the intelligent terminal Z is used as atomization time, so that other users (for example, parents of children) can know atomization details of the user through the received information displayed by the intelligent terminal Z, and thus atomization details of the user can be managed.

And the intelligent terminal Z702 is used for storing and displaying the received text atomization information and the received atomization time when receiving the text atomization information and the atomization time sent by the intelligent atomizer Q701.

And the interaction module of the intelligent atomizer Q701 is used for sending the atomization duration to the control module when the atomization duration input by a user is received.

Specifically, the user can set up the atomizing duration according to actual demand, and the interactive module of intelligent atomizer Q is long when receiving the atomizing of the speech form of user input, or through touching the atomizing duration that the button that interactive module includes produced, need send the atomizing duration for control module to make control module control atomizing operation according to user's demand.

The control module of intelligence atomizer Q701 for when receiving the atomizing signal that interactive module sent, whether the detection atomizing cup is located the atomizer body, if yes, carry out:

s0: and determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2.

S1: the drug dose is divided by the nebulization period to obtain the current nebulization rate, and S3 is performed.

S2: with the preset spraying rate as the current spraying rate, S3 is performed.

S3: and controlling the atomizer body to atomize according to the current atomizing rate, and sending a feedback signal to the interaction module.

Specifically, when the control module of intelligent atomizer Q receives the atomizing signal that interactive module sent, whether need confirm earlier that the atomizing cup is located intelligent atomizer Q originally internally, avoid intelligent atomizer Q idle running to influence its life-span. If the atomizing cup is determined to be in the body of the intelligent atomizer Q, whether the atomizing duration sent by the interaction module is received in the preset starting duration needs to be determined, so that the corresponding current atomizing rate is determined according to the atomizing duration set by the user when the atomizing duration is received, the atomizing operation is controlled according to the preset atomizing rate when the atomizing duration is determined not to be received, and a feedback signal is sent to the interaction module, so that the interaction module prompts the user to start the atomizing operation.

And the interaction module of the intelligent atomizer Q701 is used for outputting second voice prompt information when receiving the feedback signal sent by the control module, triggering the detection module and displaying the text prompt information corresponding to the second voice prompt information through the display module.

Specifically, when the interaction module of the intelligent atomizer Q receives the feedback signal sent by the control module, it may be determined that the control module has started atomizing operation, so that the user may be prompted in a voice form and in a text form that the user has started atomizing, for example, a voice prompt message of "start atomizing" is output, and a text prompt message of "start atomizing" is displayed by the display module. Simultaneously, still need trigger the detection module who sets up in intelligent atomizer Q body inside to make detection module return corresponding pressure signal.

The detection module of intelligent atomizer Q701 sets up in the inside of atomizer body for under interactive module's triggering, the pressure signal that produces when detecting the user and breathing in through the atomizer body, and send pressure signal for interactive module.

Specifically, because the detection module setting of intelligent atomizer Q is in the inside of intelligent atomizer Q body, and the user when breathing in through intelligent atomizer Q body, the inside certain negative pressure that can produce of intelligent atomizer Q body, consequently, the detection module of intelligent atomizer Q can detect pressure signal when being triggered, sends this pressure signal for interactive module again, and interactive module can control the animation that the display screen show corresponds to the enjoyment when making the improvement user atomizes.

And the interaction module of the intelligent atomizer Q701 is used for controlling the display module to display the animation corresponding to the pressure signal when receiving the pressure signal sent by the detection module.

Specifically, when the interaction module of the intelligent nebulizer Q receives the pressure signal, it may determine that the user is performing the aerosol inhalation operation, and therefore, the display module may be controlled to display the animation corresponding to the pressure signal, for example, the larger the pressure signal is, the higher the bird displayed by the display module flies, which is helpful for performing the deep breathing action, and the more the bird gets into being helpful for inhaling the medicine.

And the interaction module of the intelligent atomizer Q701 is used for sending a fog amount adjusting signal corresponding to the voice fog amount adjusting instruction to the control module when receiving the voice fog amount adjusting instruction input by a user.

And the control module of the intelligent atomizer Q701 is used for adjusting the current spraying rate according to the fog amount adjusting signal and controlling the atomizer body to atomize according to the adjusted current spraying rate when receiving the fog amount adjusting signal sent by the interaction module.

Specifically, a user may determine whether the mist amount needs to be adjusted according to the current mist amount, and if the mist amount is too large, a voice mist amount adjustment instruction may be input (for example, the mist amount is adjusted to be small), and after receiving the voice mist amount adjustment instruction, the interaction module of the intelligent atomizer Q may send a corresponding mist amount adjustment signal to the control module, so that the control module adjusts the current spraying rate (for example, reduces the current spraying rate) according to the mist amount adjustment signal.

Intelligent atomizer Q701's interactive module for generate and store user's electronic atomization case history, wherein, electronic atomization case history includes: text atomization information and atomization time are sent to the intelligent terminal Z702, and when a voice query request input from the outside is received, the electronic atomization medical record corresponding to the voice query request is displayed through the display module.

Specifically, each text atomization information of conversion and the pronunciation atomization information's that this text atomization information corresponds atomization time of receiving can be stored to intelligent atomizer Q's interactive module, and generate the user's electron atomization case history including the text atomization information of storage and the atomization time that corresponds, and send for intelligent terminal Z, like this children user, children user's father and mother or doctor, can look over user's electron atomization case history through intelligent terminal Z, can know user's name through this electron atomization case history, age, atomizing medicine dose, atomizing information such as medicine name, so that know user's the atomizing condition. Similarly, children user's parents or doctor can also be through intelligent atomizer Q inquiry user's atomizing information, can look over user's electronic atomization case history equally through intelligent atomizer Q, know user's the atomizing condition.

The interaction module of the intelligent atomizer Q701 is used for sending a voice playing request to the server D703 when receiving the voice playing request input by a user.

And the server D703 is used for analyzing the voice playing request, acquiring corresponding semantics, acquiring multimedia corresponding to the semantics and sending the multimedia to the intelligent atomizer when receiving the voice playing request sent by the intelligent atomizer Q701.

And the interaction module of the intelligent atomizer Q701 is used for displaying multimedia through the display module when the multimedia corresponding to the voice playing request returned by the server D703 is received.

Specifically, the intelligent atomizer Q may further have a function of playing multimedia, and therefore, a user may input a voice playing request to the intelligent atomizer Q, for example, "please play a voice playing request of the tomassas cartoon and his friend's 5 th set", when receiving the voice playing request, the interaction module of the intelligent atomizer Q may forward the voice playing request to the server D, and the server D may search for the multimedia corresponding to the voice playing request and return the multimedia to the interaction module of the intelligent atomizer Q, so that the interaction module displays the multimedia through the display module for the user to enjoy.

It should be noted that, the display module of the intelligent atomizer Q can be connected with the intelligent atomizer Q body through a connecting piece arranged on the intelligent atomizer Q body. So that the user can adjust the display module of the intelligent atomizer Q to a required position through external force according to the requirement.

The embodiments of the invention have at least the following beneficial effects:

1. in an embodiment of the invention, when receiving a voice starting instruction input by a user, the interaction module can determine that the user needs to perform atomization treatment, and therefore needs to send a starting signal to the control module, so that the control module pops up an atomizing cup in an atomizer body, and the user can conveniently inject medicine into the atomizing cup; outputting a first voice prompt message, enabling a user to input corresponding voice atomization message, increasing the interaction of the user, further reducing the fear of the child user during atomization, repeatedly reading the voice atomization message, and displaying the corresponding text atomization message on a display module, so that the user can determine whether the atomization message is wrong through the text message and the voice message, when receiving the voice atomization instruction input by the user, determining that the user needs to perform atomization treatment, and therefore, sending the text atomization message and the time of receiving the voice atomization instruction as atomization time to an external intelligent terminal, so that the received atomization time and the text atomization message can be displayed through the external intelligent terminal, other users can know the atomization details of the user, and meanwhile, the control module needs to send an atomization signal to the control module, so that the control module detects an atomization cup in the atomizer body, and controlling the atomizer body to atomize.

2. In an embodiment of the present invention, when the interaction module receives a voice playing request input by a user (for example, a voice playing request for playing a crayon novelty cartoon, playing a pig peclet cartoon, or playing a XXX song), the voice playing request needs to be sent to the external server, so that the external server searches for corresponding multimedia according to the voice playing request and returns the multimedia to the interaction module, and the interaction module can display the multimedia through the display module, so as to divert the attention of a child user during atomization, reduce the fear of the child during atomization, and play a role in stabilizing emotion for a child who is easily agitated in sexual conditions.

3. In an embodiment of the present invention, after receiving the atomization duration input by the user, the interaction module needs to send the atomization duration to the control module, so that the control module determines the current atomization rate according to the atomization duration set by the user, and controls the atomizer body to atomize according to the current atomization rate. And the control module does not receive the atomization time length sent by the interaction module within the preset starting time length, the atomization of the atomizer body is controlled according to the preset atomization rate, and a feedback signal is sent to the interaction module, so that when the interaction module receives the feedback signal, the control module is determined to control the atomization of the atomizer body, and therefore the second voice prompt information can be output, and the text prompt information corresponding to the second voice prompt information is displayed through the display module, so that a user is prompted to start atomization treatment in different modes.

4. In an embodiment of the invention, after the interaction module outputs the voice prompt information, the detection module may be triggered to detect a pressure signal generated when the user inhales through the nebulizer body, and the interaction module may control the display module to display a corresponding animation according to the pressure signal (for example, the deeper the inhalation is, the larger the balloon displayed by the display module is), so as to enhance the interaction feeling of the user and further increase the joy of the user during nebulization, thereby reducing the fear of the child user during nebulization, and simultaneously, the user performs a deep breathing action to help inhale a medicine.

5. In an embodiment of the present invention, a user may input a voice mist quantity adjusting instruction according to an actual requirement, for example, adjust the mist quantity to a small degree or adjust the mist quantity to a large degree, and the interaction module may send a mist quantity adjusting signal to the control module when receiving the voice mist quantity adjusting instruction, so that the control module adjusts the current spraying rate according to the mist quantity adjusting signal and controls the atomizer body to atomize according to the adjusted current spraying rate, so as to meet the mist quantity requirement of the current user and improve the user experience.

6. In an embodiment of the present invention, the interaction module may store each text atomization information and atomization time, so that when an external query (for example, a parent query of a child) is made, the external required information is searched from the stored data, and the external required information is displayed through the display module, so as to facilitate the external understanding of the atomization details.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. An intelligent atomizer, comprising: the atomizer comprises an atomizer body, an interaction module, a control module and a display module;

the interaction module and the display module are both arranged outside the atomizer body;

the control module is arranged inside the atomizer body;

the interaction module is used for sending a starting signal to the control module and outputting first voice prompt information when receiving a voice starting instruction input by a user; when receiving voice atomization information input by the user according to the first voice prompt information, rereading the voice atomization information, converting the voice atomization information into text atomization information, and displaying the text atomization information through the display module; when receiving the voice atomization instruction input by the user, sending an atomization signal to the control module, and sending the text atomization information and the time of receiving the voice atomization information to at least one external intelligent terminal as atomization time, so that the at least one external intelligent terminal displays the received voice atomization information and the received atomization time, wherein the voice atomization information comprises: user information, drug name and drug dose;

the control module is used for popping up an atomizing cup in the atomizer body when receiving the starting signal sent by the interaction module; when the atomization signal sent by the interaction module is received, detecting whether the atomization cup is positioned in the atomizer body, and if so, controlling the atomizer body to atomize;

further comprising: a detection module;

the interaction module is further used for triggering the detection module after outputting second voice prompt information, and controlling the display module to display the animation corresponding to the pressure signal when receiving the pressure signal sent by the detection module;

the detection module is arranged in the atomizer body and used for detecting the pressure signal generated when the user inhales through the atomizer body under the triggering of the interaction module and sending the pressure signal to the interaction module.

2. The intelligent atomizer according to claim 1,

the interaction module is further used for sending the voice playing request to an external server when receiving the voice playing request input by the user, and displaying the multimedia through the display module when receiving the multimedia corresponding to the voice playing request returned by the external server.

3. The intelligent atomizer according to claim 1,

the interaction module is further used for sending the atomization duration to the control module when the atomization duration input by the user is received; when a feedback signal sent by the control module is received, outputting second voice prompt information, and displaying text prompt information corresponding to the second voice prompt information through the display module;

the control module is used for executing:

s0: determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2;

s1: dividing the drug dose by the nebulization duration to obtain a current nebulization rate, and executing S3;

s2: performing S3 with the preset spraying rate as the current spraying rate;

s3: and controlling the atomizer body to atomize according to the current atomizing rate, and sending the feedback signal to the interaction module.

4. The intelligent atomizer of claim 3,

the interaction module is further used for sending a fog amount adjusting signal corresponding to the voice fog amount adjusting instruction to the control module when receiving the voice fog amount adjusting instruction input by the user;

and the control module is further used for adjusting the current spraying rate according to the fog amount adjusting signal and controlling the atomizer body to atomize according to the adjusted current spraying rate when receiving the fog amount adjusting signal sent by the interaction module.

5. The intelligent atomizer according to any one of claims 1 to 4,

the interaction module is further configured to generate and store an electronic medical record of the user, where the electronic medical record of nebulization includes: when a voice query request input from the outside is received, the text atomization information and the atomization time display the electronic atomization medical record corresponding to the voice query request through the display module;

and/or the presence of a gas in the gas,

the interaction module is further configured to send the electronic atomization medical record to the at least one external intelligent terminal, so that the at least one external intelligent terminal displays the received electronic atomization medical record;

and/or the presence of a gas in the gas,

further comprising: a connecting member;

the display module is connected with the atomizer body through the connecting piece;

when external force is applied to the display module, the relative position of the display module and the atomizer body is changed through the connecting piece.

6. A method for using the intelligent atomizer according to any one of claims 1 to 5, wherein the interaction module and the display module are previously disposed outside the atomizer body, and the control module is disposed inside the atomizer body, further comprising:

when receiving a voice starting instruction input by a user, the interaction module sends a starting signal to the control module and outputs first voice prompt information;

popping up an atomizing cup in the atomizer body when the control module receives the starting signal sent by the interaction module;

utilizing the interaction module to re-read the voice atomization information when receiving the voice atomization information input by the user according to the first voice prompt information, converting the voice atomization information into text atomization information, and displaying the text atomization information through the display module, wherein the voice atomization information comprises: user information, drug name and drug dose;

when the interaction module receives a voice atomization instruction input by the user, an atomization signal is sent to the control module, and the text atomization information and the time of receiving the voice atomization information are sent to at least one external intelligent terminal as atomization time, so that the at least one external intelligent terminal displays the received voice atomization information and the received atomization time;

and when the control module receives the atomization signal sent by the interaction module, whether the atomization cup is positioned in the atomizer body is detected, and if so, the atomization of the atomizer body is controlled.

7. The method of using an intelligent atomizer according to claim 6,

after the receiving, by the interaction module, a voice start instruction input by a user, further comprising:

and when receiving a voice playing request input by the user, the interaction module sends the voice playing request to an external server, and when receiving multimedia corresponding to the voice playing request returned by the external server, the multimedia is displayed through the display module.

8. The method of using an intelligent atomizer according to claim 6,

before the controlling the atomizer body to atomize, further comprising:

sending the atomization duration to the control module by utilizing the interaction module when the atomization duration input by the user is received;

the control atomizer body atomizing includes:

with the control module, performing:

s0: determining whether the atomization time length sent by the interaction module is received within a preset starting time length, if so, executing S1, otherwise, executing S2;

s1: dividing the drug dose by the nebulization duration to obtain a current nebulization rate, and executing S3;

s2: performing S3 with the preset spraying rate as the current spraying rate;

s3: controlling the atomizer body to atomize according to the current atomizing rate, and sending a feedback signal to the interaction module;

after the controlling the atomizer body to atomize, further comprising:

and outputting second voice prompt information when the interaction module receives a feedback signal sent by the control module, and displaying text prompt information corresponding to the second voice prompt information through the display module.

9. An atomization management system, comprising: at least one intelligent terminal and at least one intelligent nebulizer of any one of claims 1 to 5;

and the intelligent terminal is used for storing and displaying the received text atomization information and the received atomization time when receiving the text atomization information and the atomization time sent by any one of the intelligent atomizers.

10. The fogging management system of claim 9, further comprising: a server side;

and the server is used for analyzing the voice playing request, acquiring corresponding semantics, acquiring multimedia corresponding to the semantics and sending the multimedia to the intelligent atomizer when receiving the voice playing request sent by the intelligent atomizer.

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