CN114939211A - Intelligent atomization system - Google Patents

Abstract

The invention relates to the field of atomization equipment, in particular to an intelligent atomization system, which comprises an input module, an atomization module, a control module, an acquisition module, an identification module and an interaction module, wherein the input module is used for inputting a control signal; the input module is used for inputting atomization parameters and sending the atomization parameters to the control module; the control module controls the atomization module to start working according to the atomization parameters of the input module; the atomization module atomizes the liquid medicine according to the control of the control module; the acquisition module is used for acquiring the state information of the patient and sending the state information to the control module, and the control module sends the behavior information acquired from the acquisition module to the identification module; the identification module identifies the real-time state of the state information acquired from the control module and feeds the real-time state back to the control module, and the control module sends prompting information for guiding the atomization process to the interaction module according to the sleep state and the atomization parameters; and the interaction module prompts the atomization process according to the prompt information. The invention reduces the probability of the patient falling asleep in the atomization process and improves the utilization rate of the liquid medicine particles.

Description

Intelligent atomization system

Technical Field

The invention relates to the field of atomization equipment, in particular to an intelligent atomization system.

Background

The nebulizer is a device for treating various upper and lower respiratory diseases, and is used for treating diseases such as common cold, fever, cough, asthma, sore throat, pharyngitis, rhinitis, bronchitis, pneumoconiosis, and other diseases occurring in the trachea, bronchus, and chest by allowing a patient to inhale by nebulization. The aerosol inhalation therapy is an effective therapy method in the respiratory system disease therapy, the method atomizes the liquid medicine into tiny particles through an atomizer, and the medicine enters respiratory tract, lung and other parts for deposition in a respiratory inhalation mode, thereby achieving the purpose of painless, rapid and effective therapy.

The existing atomizer equipment is fixedly installed at a preset place and used by a patient, the atomizer equipment atomizes liquid medicine and moisture and then supplies the atomized liquid medicine to the patient for inhalation, and meanwhile, a monitoring module is arranged to monitor the liquid level of the liquid medicine in real time and supplement or replace the liquid medicine in time. However, because the atomization may cause discomfort to the child, some children may cry easily during the atomization process, which results in a discontinuous atomization process; and part of children are tired due to crying and are easy to be in a sleep state during atomization, so that the breathing frequency of adsorbing liquid medicine particles during atomization is reduced, and the liquid medicine particles are accumulated and have low utilization rate.

Disclosure of Invention

The invention aims to provide an intelligent atomization system, which is used for prompting a part of patients in a sleep state in atomization in time and keeping the frequency of breathing liquid medicine particles of the patients.

The intelligent atomization system comprises an input module, an atomization module and a control module;

the input module is used for inputting atomization parameters and sending the atomization parameters to the control module;

the control module is used for controlling the starting work of the atomization module according to the atomization parameters of the input module;

the atomization module is used for atomizing the liquid medicine according to the control of the control module;

the system also comprises an acquisition module, an identification module and an interaction module;

the control module is used for sending the behavior information acquired from the acquisition module to the identification module;

the identification module is used for identifying the real-time state of the state information acquired from the control module and feeding back the real-time state to the control module, wherein the real-time state comprises an active state and a sleep state, and the control module sends prompting information of atomization process guidance to the interaction module according to the sleep state and the atomization parameters;

and the interaction module is used for prompting the atomization process according to the prompt information.

The beneficial effect of this scheme is:

when the patient atomizes, corresponding atomization parameters such as starting time, duration and the like are input through the input module, and the control module acquires the atomization parameters to control the atomization module so as to atomize the liquid medicine for the patient to inhale; meanwhile, the state information of the patient is acquired through the acquisition module, the identification module identifies the real-time state from the state information, and the control module controls the interaction module to prompt atomization process guidance according to the real-time state and the atomization parameters. Let the suggestion operation more have timeliness and pertinence, and can awaken the patient who sleeps up, reduce the probability that the patient sleeps at the atomizing in-process, guarantee atomizing required breathing frequency, improve the utilization ratio of liquid medicine granule.

Further, the control module controls the interaction module to play inquiry information of the patient to the interaction target information, the acquisition module acquires voice information of the patient as state information, the identification module identifies keywords responding to the inquiry information from the state information, the identification module is in an active real-time state when the keywords are identified, and the identification module is in a sleep state when the keywords are not identified.

The beneficial effects are that: by playing the inquiry information, then acquiring the voice information of the patient, identifying the keywords responding to the inquiry information from the voice information, determining the corresponding real-time state according to whether the keywords are identified, so that the judgment of the real-time state is more accurate, and meanwhile, the probability of sleeping of the patient can be reduced by the inquiry and answer mode, and the respiratory frequency required by the atomization process is ensured.

Further, the atomization parameters comprise atomization starting time, atomization duration and atomization ending time, and the control module acquires video information with equal duration according to the atomization duration and sends the video information to the interaction module for display at the starting time.

The beneficial effects are that: in the atomizing process, through the video information of when the interactive module shows waiting for time, can play certain warning suggestion effect when atomizing and contacting, avoid the patient too to be lost and lead to postponing the atomizing time because of seeing the video.

Further, the control module controls the interaction module to play question and answer information of the age of the patient at the starting time, the recognition module recognizes the age value in the voice information as a keyword, the control module generates a video type according to the age value, and the control module acquires video information with equal duration according to the video type.

The beneficial effects are that: the age value of the patient is obtained through the play question-answering information, the patient is not directly obtained from the atomizing parameters, the simple question can be interacted with the child patient, the child patient cannot answer the question, the interactivity is higher, the video type of the video information is determined according to the age value, different video information is displayed for different age groups, the video information is accurately displayed for the patient, and the pertinence of the patient pacifying or sending time is improved through the play of the video information.

Further, when the state information is in an active state, the control module sends prompt information for strengthening the atomization process to the interaction module, and when the atomization parameter is the end time, the control module carries out prompt information for strengthening the atomization process sequentially by the end of the current atomization process and the continuation of the next atomization process.

The beneficial effects are that: when the patient is in an active state, corresponding enhancement prompt is carried out, and when the atomization is finished, the current end and the next atomization process are started, and the sequentially enhanced prompt is carried out to show that the atomization treatment can be continued when the user continuously watches the video, so that the probability that the child does not want to leave because the child is immersed in the video information is reduced.

Further, when the keyword is not identified, the control module matches the voice information with preset crying sound information, and when the voice information is the crying sound information, the control module acquires the video information again according to the age value and sends the video information to the interaction module.

The beneficial effects are that: when the keywords are not identified, whether the voice information is crying of the child patient is judged, the video information is replaced at the moment, and the effect of soothing the emotion of the child patient through the video information is improved.

Further, the control module acquires the sex information of the patient, and the control module acquires the video information with the highest preset watching rate according to the age value and the sex information and reacquires the video information.

The beneficial effects are that: the accuracy of reacquiring the video information is improved, and the pacifying effect after the video information is displayed is improved.

Further, the control module acquires the voice information again after acquiring the video information again for a preset time, matches and verifies the acquired voice information and the crying sound again, when the voice information and the crying sound are matched again to be the same, the control module sends the favorite acquisition information to the interaction module, acquires the favorite information of the acquisition module aiming at the favorite acquisition information, and acquires the video information again according to the favorite information and sends the video information to the interaction module.

The beneficial effects are that: after the video information is replaced again, whether the child patient cries or not is confirmed again, if yes, the favorite information is collected again, the video information is obtained according to the favorite information, the pacifying target of the child patient is more accurate through the video information, and the effect of pacifying the child patient is improved.

The atomization process monitoring device comprises an interaction module and a monitoring module, wherein the interaction module is used for carrying out interaction on liquid medicine in the atomization module, the monitoring module is used for detecting the residual weight of the liquid medicine in the atomization module, the control module obtains the residual weight according to a preset frequency, the control module carries out difference on adjacent residual weights according to a time sequence to obtain a difference value, the control module compares the difference value with a threshold value, and when the difference value is smaller than the threshold value, the control module sends an atomization process interruption prompt to the interaction module.

The beneficial effects are that: gather the remaining weight of liquid medicine in the atomizing module according to preset frequency, make the difference through the remaining weight to liquid medicine in the atomizing module, judge whether the difference is less than the threshold value, if, when liquid medicine is not consumed, probably the atomizing process has the condition of interrupt, indicate this moment, can in time accurately know the abnormality of atomizing process to in time handle, keep the validity of atomizing process.

Further, when the difference value is smaller than the threshold value, the control module controls the interaction module to flicker and display the atomization process interruption prompt under the condition that the video information is continuously displayed.

The beneficial effects are that: the display of the video information is not stopped, the child patient is not noticed when the atomization process is interrupted, the child patient is always in the state of being adaptive to the atomization state, and the crying probability of the child patient when the child patient receives the atomization treatment again is reduced.

Drawings

Fig. 1 is a schematic block diagram of a first embodiment of the intelligent atomization system.

Detailed Description

The following is a more detailed description of the present invention by way of specific embodiments.

Example one

Intelligent atomization system, as shown in fig. 1: the system comprises an input module, an atomization module, a control module, a collection module, an identification module and an interaction module.

The input module is used for inputting atomization parameters and sending the atomization parameters to the control module, the input module can be a mobile terminal, the input module can input the atomization parameters in a two-dimensional code scanning mode, the atomization parameters comprise basic information of a patient, atomization starting time, atomization duration and atomization ending time, the basic information of the patient comprises name, sex and symptoms, for example, the starting time is 9:30, the atomization duration is 1.5 hours, the atomization ending time is 11:00, the atomization parameters can also be atomization frequency, particle size and the like, and the atomization parameters are set according to actual requirements.

The control module is used for controlling the atomization module to start according to the atomization parameters of the input module, and the control module can use the existing STM series single chip microcomputer. The atomizing module is used for atomizing the liquid medicine according to control module's control, and atomizing module available current medical atomizing device, for example the atomizing device of current ultrasonic wave principle or compressed air principle, the principle that control module control atomizing module starts work is current, and no longer gives unnecessary details here.

The acquisition module is used for acquiring the state information of a patient and sending the state information to the control module, the control module controls the interaction module to play inquiry information of the patient on the interaction target information, the inquiry information can be 'asking what program the patient likes to watch', 'asking for a program A' and the like, and the acquisition module acquires voice information of the patient answering the inquiry information as the state information, such as 'liking to watch BB cartoon' and the like.

The control module sends the behavior information acquired from the acquisition module to the identification module, the identification module is used for carrying out real-time state identification on the state information acquired from the control module, the identification module identifies keywords for responding to inquiry information from the state information, the identification module carries out keyword identification through existing sample-based keyword identification or existing news platform identification, the real-time state comprises an active state and a sleep state, the identification module is in the active state when identifying the keywords, the identification module is in the sleep state when not identifying the keywords, and the identification module feeds back the real-time state to the control module. The control module sends prompting information of guiding the atomization process to the interaction module according to the sleep state and the atomization parameters, for example, the prompting of starting atomization is carried out according to the starting time of the atomization parameters, the prompting of not sleeping is carried out at equal intervals according to the atomization duration of the atomization parameters, the prompting of ending atomization is carried out according to the ending time of the atomization parameters, the interaction module is used for prompting the atomization process according to the prompting information, and the interaction module can use the existing HMI man-machine interaction module.

The control module obtains video information with equal duration according to the atomization duration and sends the video information to the interaction module for display at the beginning time, the video information can be animation films or health announcement videos and the like, the control module controls the interaction module to play question and answer information of the age of a patient at the beginning time, for example, after the atomization is prompted to begin, question and answer information which is used as the age and asks for children is played, then the acquisition module acquires voice information of the question and answer information of the patient, the identification module identifies the age value in the voice information as a keyword, for example, the keyword of five years old, the control module generates a video type according to the age value, the corresponding relation between the age value and the video type is unique, for example, the video type corresponding to the five years old is a cognitive animation type, the video information corresponding to the cognitive animation type is BB animation, and the control module obtains the video information with equal duration according to the video type, i.e. the playing time of the video information is the same as the fogging time.

When the state information is in an active state, the control module sends prompt information for enhancing the atomization process to the interaction module, for example, the sound decibel of the prompt information is increased to be used as a means for enhancing, and when the atomization parameter is the end time, the control module finishes the current atomization process and continues the next atomization process to sequentially enhance the prompt information, for example, the prompt information of 'the atomization process of the medicine A of the patient X is finished, namely the atomization process of the medicine C of the patient Y is about to be carried out'.

When the keywords are not identified, the control module matches the voice information with preset crying sound information, the matching of the voice information and the crying sound information is carried out by using an existing audio similarity detection system based on a multi-dimensional mixed characteristic parameter, when the voice information is the crying sound information, namely when the similarity between the voice information and the prestored crying sound is larger than a set value, the voice information and the prestored crying sound are the same, the control module reacquires video information according to the age value and sends the video information to the interaction module, the control module acquires gender information of a patient, the gender information can be directly acquired from the atomization parameter, and the control module acquires video information with the highest preset watching rate according to the age value and the gender information and reacquires the video information, for example, a five-year-old girl corresponds to an animation or a baby song video and the like.

The specific implementation process is as follows:

before starting atomization, atomization parameters are input through the input module, the control module obtains the atomization parameters to control the atomization process of the atomization module, and therefore liquid medicine is atomized and then is inhaled by a patient. Meanwhile, the control module controls the interaction module to play inquiry information of a patient to the interaction target information, the acquisition module acquires voice information fed back by the inquiry information, the recognition module recognizes keywords responded by the inquiry information in the voice information, the real-time state is determined according to whether the keywords are recognized, and the control module controls the interaction module to prompt process guidance according to the atomization parameters and the sleep state of the real-time state. When the atomization is finished, prompting of enhancing the atomization process is carried out, and the child patient is prevented from being addicted in watching the video information.

In the atomization process, the age is obtained from the voice information in a question-answering mode, the video type is generated according to the age value, the control module obtains the video information with equal duration according to the video type and the atomization duration, and the video information is displayed by the interaction module at the starting time to attract the attention of the child patient and sooth the emotion of the child patient. Synchronously, when the keywords are not identified, the gender is obtained from the atomization parameters, the voice information is matched with the preset crying sound information, and when the voice information is the crying sound information, the video information is obtained again by the control module according to the age and the gender, so that the accuracy of the video information for placating the child patient is improved.

Compare with current fixed point suggestion, this embodiment is according to the collection of patient relevant information to at atomizing whole in-process, remind according to the patient's that gathers relevant information, let the suggestion operation more have timeliness and pertinence, and can awaken up the patient who sleeps, reduce the probability that the patient sleeps in atomizing process, guarantee atomizing required breathing frequency, improve the utilization ratio of liquid medicine granule.

Example two

The intelligent atomization system is different from the first embodiment in that the control module acquires the voice information again at a preset time after acquiring the video information again, the preset time is set according to the time capable of soothing the emotion of the patient, for example, the preset time can be set to ten minutes, the control module matches and verifies the voice information acquired again and the crying sound, when the voice information and the crying sound are matched again to be the same, the control module sends favorite collection information to the interaction module, favorite information of the collection module aiming at the favorite collection information is acquired, the favorite information can be a name of a good-liked specific cartoon, and the control module acquires the video information again according to the favorite information and sends the video information to the interaction module.

Because after the video information is replaced again, a period of time is needed for calming the emotion, and whether the replaced video information is favorite of the patient and the aim of calming the emotion is achieved is unknown, at the moment, the favorite information of the patient is collected again, the video information is obtained according to the favorite information instead of obtaining the video information in the mode of collecting the favorite information of the patient at the beginning, the efficiency of displaying the video information to achieve the aim of calming the emotion can be improved, and the atomization process is effectively carried out.

EXAMPLE III

The intelligent atomization system is different from the first embodiment in that the monitoring module is used for detecting the residual weight of the liquid medicine in the atomization module, the monitoring module can use the existing weight sensor capable of measuring, the monitoring module detects the weight of the medicine cup in the atomization module, the control module acquires the residual weight according to the preset frequency, the preset frequency can be set according to the detection of the liquid medicine consumed by atomization, for example, the preset frequency is to collect the remaining weight once every five minutes, the control module obtains a difference value by differentiating the adjacent remaining weights according to the time sequence, the control module compares the difference value with a threshold value, the threshold value is set according to the lowest consumption liquid medicine amount during atomization in a period of time, for example, the threshold value can be set to be 1mg, when the difference value is smaller than the threshold value, the control module sends an atomization process interruption prompt to the interaction module, and the control module controls the interaction module to flicker to display the atomization process interruption prompt under the condition that the video information is continuously displayed.

Because when the inside unusual trouble that produces of atomizing module, can't directly perceivedly understand from the outward appearance fast, lead to easily that the atomizing process breaks down and discover in time to influence the aerosol treatment. This embodiment is through according to the surplus weight of liquid medicine in the frequency collection atomizing module of predetermineeing, makes the difference through the surplus weight to liquid medicine in the atomizing module, judges whether the difference is less than the threshold value, if, when liquid medicine is not consumed promptly, probably the atomizing process has the condition of interrupt, reminds this moment, can in time accurately know the abnormality of atomizing process to and handle in time, keep the validity of atomizing process.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. An intelligent atomization system comprises an input module, an atomization module and a control module;

the input module is used for inputting atomization parameters and sending the atomization parameters to the control module;

the control module is used for controlling the starting work of the atomization module according to the atomization parameters of the input module;

the atomization module is used for atomizing the liquid medicine according to the control of the control module; the method is characterized in that:

the system also comprises an acquisition module, an identification module and an interaction module;

the control module is used for sending the behavior information acquired from the acquisition module to the identification module;

the identification module is used for identifying the real-time state of the state information acquired from the control module and feeding the real-time state back to the control module, wherein the real-time state comprises an active state and a sleep state, and the control module sends prompting information of atomization process guidance to the interaction module according to the sleep state and the atomization parameters;

and the interaction module is used for prompting the atomization process according to the prompt information.

2. The intelligent atomization system of claim 1, wherein: the control module controls the interaction module to play inquiry information of a patient to the interaction target information, the acquisition module acquires voice information of the patient as state information, the identification module identifies keywords responding to the inquiry information from the state information, the identification module is in an active real-time state when the keywords are identified, and the identification module is in a sleep state when the keywords are not identified.

3. The intelligent atomization system of claim 2 wherein: the atomization parameters comprise atomization starting time, atomization duration and end time, and the control module acquires video information with equal duration according to the atomization duration and sends the video information to the interaction module for display at the starting time.

4. The intelligent atomization system of claim 3 wherein: the control module controls the interaction module to play question and answer information of the age of the patient at the starting time, the recognition module recognizes the age value in the voice information as a keyword, the control module generates a video type according to the age value, and the control module acquires video information with equal duration according to the video type.

5. The intelligent atomization system of claim 4 wherein: when the state information is in an active state, the control module sends prompting information for strengthening the atomization process to the interaction module, and when the atomization parameter is the end time, the control module carries out sequential strengthening prompting information by finishing the current atomization process and continuing the next atomization process.

6. The intelligent atomization system of claim 5 wherein: when the keywords are not identified, the control module matches the voice information with preset crying sound information, and when the voice information is the crying sound information, the control module acquires the video information again according to the age value and sends the video information to the interaction module.

7. The intelligent atomization system of claim 6 wherein: the control module acquires the sex information of the patient, and the control module acquires the video information with the highest preset watching rate according to the age value and the sex information and acquires the video information again.

8. The intelligent atomization system of claim 6, wherein: the control module acquires the voice information again in the preset time after acquiring the video information again, matches and verifies the acquired voice information and the crying sound, sends the favorite acquisition information to the interaction module when the voice information and the crying sound are matched again to be the same, acquires the favorite information of the acquisition module aiming at the favorite acquisition information, and acquires the video information again according to the favorite information and sends the video information to the interaction module.

9. The intelligent atomization system of claim 3 wherein: the atomization device comprises an atomization module and a control module, wherein the atomization module is used for atomizing the liquid medicine in the liquid medicine, the control module is used for detecting the residual weight of the liquid medicine in the atomization module, the control module obtains the residual weight according to a preset frequency, the control module makes a difference between adjacent residual weights according to a time sequence to obtain a difference value, the control module compares the difference value with a threshold value, and when the difference value is smaller than the threshold value, the control module sends an atomization process interruption prompt to the interaction module.

10. The intelligent atomization system of claim 9 wherein: and when the difference value is smaller than the threshold value, the control module controls the interaction module to flicker and display the atomization process interruption prompt under the condition that the video information is continuously displayed.

Images