CN108853661B

CN108853661B - Interaction system for working data of compression type atomizer

Info

Publication number: CN108853661B
Application number: CN201810472433.5A
Authority: CN
Inventors: 江松林
Original assignee: Suzhou Beishu Medical Technology Co ltd
Current assignee: Suzhou Beishu Medical Technology Co ltd
Priority date: 2018-05-17
Filing date: 2018-05-17
Publication date: 2020-12-29
Anticipated expiration: 2038-05-17
Also published as: CN108853661A

Abstract

The invention discloses an interactive system of working data of a compression type atomizer, which comprises a compression type atomizer host, wherein the compression type atomizer host comprises a motor and an air pump, and a data module, a microprocessor and a communication module are also arranged in the compression type atomizer host; the system also comprises a user intelligent terminal and a doctor intelligent terminal; the microprocessor is used for converting the acquired temperature into a characteristic value Ti of the atomization scheme and a motor load characteristic curve Ci; the atomization scheme Ni and the occurrence time thereof and the atomizer ID information which are cross mapped by the characteristic value Ti and the motor load characteristic curve Ci are transmitted to the intelligent user terminal through the communication module, the invention establishes the one-to-one correspondence of the atomization scheme and the atomization event which a specific patient belongs to, can identify the specific family atomization scheme, and provides specific data information for a doctor to evaluate the state of an illness and adjust the treatment scheme; the invention provides a technical basis for realizing household atomization and saves social diagnosis and treatment resources; provides a new means for preventing and controlling the chronic respiratory diseases.

Description

Interaction system for working data of compression type atomizer

Technical Field

The invention relates to the technical field of inhalation drug administration medical instruments, in particular to an interactive system for working data of a compression type atomizer.

Background

Nebulization is an important and effective inhalation therapy for the treatment of respiratory diseases, while home nebulization is increasingly popular due to its convenience and the tendency to overcome cross-contamination in hospital nebulization, but home nebulization is performed by patient-independent compliance, and if doctors can obtain data on patient compliance with prescribed prescriptions, it will undoubtedly provide very important information for the follow-up, and the advantages of inhalation therapy will be further exploited.

At present, an existing device for acquiring working data of an atomization device is an atomization information monitoring device of an atomizer, which is disclosed in a Chinese utility model patent with an authorization publication number of CN204840552U, and the device utilizes an acceleration sensor to acquire a vibration acceleration value of the atomizer, and takes a motion event as core information; the acceleration sensor can acquire motion event information of the motor, but the motion event information can only be used as the basis for judging whether the atomizer works or not, when a single person adopts different atomization schemes or a plurality of persons use the same equipment, the motion event cannot identify a specific atomization scheme, so that when a patient independently completes atomization treatment at home, a doctor cannot establish a one-to-one correspondence relationship between the atomization scheme and the atomization event to which the specific patient belongs, the prescription execution condition cannot be effectively evaluated, and subsequent intervention and adjustment lose the foundation.

Disclosure of Invention

The invention aims to provide an interactive system of compressed atomizer working data, which has simple structure, can establish the one-to-one correspondence between the atomization scheme and the atomization event of a specific patient, realizes doctor-patient interaction, and provides basis for doctors to evaluate the execution condition of a prescription and subsequent intervention and adjustment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the interaction system for the working data of the compressed atomizer comprises a compressed atomizer host, wherein the compressed atomizer host comprises a motor and an air pump, a data module, a microprocessor module and a communication module which are sequentially and electrically connected are further arranged in the compressed atomizer host, the compressed atomizer host also comprises a user intelligent terminal, a cloud storage module and a doctor intelligent terminal, the user intelligent terminal can be in communication connection with the communication module, and the cloud storage module is used for being in communication with the user intelligent terminal and the doctor intelligent terminal;

the data module comprises a temperature sensor and is used for detecting the winding temperature of the motor and transmitting the detected data to the microprocessor;

the microprocessor is used for transmitting the motor operation data acquired by the data module, the atomization scheme Ni matched with the motor operation data, the generation time of the atomization scheme Ni and the ID information of the host of the compression atomizer to the user intelligent terminal through the communication module;

the user intelligent terminal receives the data transmitted by the communication module and transmits the data to the cloud;

and the doctor intelligent terminal receives the data transmitted by the cloud end and transmits the doctor suggestion to the user intelligent terminal through the cloud end.

Further, the method comprises the following steps: the motor operation data comprises a characteristic value Ti and a motor load characteristic curve Ci of a atomization scheme converted from the temperature collected by the data module, and the characteristic value Ti and the motor load characteristic curve Ci correspond to the atomization scheme Ni in a one-to-one mode, namely Ni → Ti and Ci;

the characteristic value Ti of the atomization scheme is the integral of temperature and time in a period of time

The motor load characteristic curve Ci is t within a period of time_iThe winding temperature T of the electric machine corresponding to the time_iCurve f (t);

wherein t is₀To correspond to the motorInitial temperature value T of winding₀Time of (t)_maxFor a maximum temperature value T of the corresponding motor winding_maxCi is a period of time t_iThe winding temperature T of the electric machine corresponding to the time_iCurve f (t) of (d).

Further, the method comprises the following steps: the intelligent terminal comprises a user intelligent terminal and a doctor intelligent terminal, and is characterized by further comprising a peak value flow meter used for detecting sign information, wherein the user intelligent terminal receives information detected by the peak value flow meter and transmits the information to the doctor intelligent terminal through a cloud.

Further, the method comprises the following steps: the communication module is a Bluetooth module or a wifi module.

Further, the method comprises the following steps: the user intelligent terminal with be provided with the APP module in the doctor intelligent terminal, the user intelligent terminal with the doctor intelligent terminal passes through the APP module and communicates with high in the clouds and communication module.

Further, the method comprises the following steps: a set { N } of common atomization schemes Ni, a set { T } of characteristic values Ti of the common atomization schemes Ni and a set { C } of motor load characteristic curves Ci are arranged in the microprocessor; the common atomization scheme is one or more of the following medicaments: the content of the pramipexole is less than or equal to 2 ml; the volume of the product is less than or equal to 2 ml; the bolikangni is less than or equal to 2 ml; the Aiquanle is less than or equal to 2 ml; the normal saline is less than or equal to 2 ml; mushutan is less than or equal to 2 ml; the quantity of the fulvestrant is less than or equal to 2ml, and the quantity of the rubicin is less than or equal to 2.5 ml.

Further, the method comprises the following steps: the user intelligent terminal and the doctor intelligent terminal comprise mobile phones, computers or tablets.

The invention has the beneficial effects that:

1. the invention establishes the one-to-one correspondence relationship between the atomization scheme and the atomization event to which the specific patient belongs, and can identify the specific household atomization scheme.

2. The invention realizes the comparison of the atomization scheme and the sign information after atomization through the peak flow meter, and provides specific data information for doctors to evaluate the illness state and adjust the treatment scheme.

3. The invention provides a technical basis for realizing household atomization and saves social diagnosis and treatment resources; provides a new means for preventing and controlling the chronic respiratory diseases.

Drawings

Fig. 1 is a schematic diagram of an interactive system for operating data of a miniature atomizer.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

The interaction system for the working data of the compressed atomizer shown in fig. 1 comprises a compressed atomizer host, wherein the compressed atomizer host comprises a motor and an air pump, a data module, a microprocessor module and a communication module which are sequentially and electrically connected are further arranged in the compressed atomizer host, the interaction system further comprises a user intelligent terminal which can be in communication connection with the communication module, a cloud storage module and a doctor intelligent terminal, and the cloud storage module is used for being in communication with the user intelligent terminal and the doctor intelligent terminal; the data module comprises a temperature sensor and is used for detecting the winding temperature of the motor and transmitting the detected data to the microprocessor; the microprocessor is used for transmitting the motor operation data acquired by the data module, the atomization scheme Ni matched with the motor operation data, the generation time of the atomization scheme Ni and the ID information of the host of the compression atomizer to the user intelligent terminal through the communication module; the user intelligent terminal receives the data transmitted by the communication module and transmits the data to the cloud; the doctor intelligent terminal receives data transmitted by the cloud end and transmits doctor suggestions to the user intelligent terminal through the cloud end;

the motor operation data comprises a characteristic value Ti and a motor load characteristic curve Ci which are converted from the temperature collected by the data module into the atomization scheme, and the characteristic value Ti and the motor load characteristic curve Ci correspond to the mapped atomization scheme Ni one by one, namely Ni → Ti, Ci;

The motor load characteristic curve Ci is t within a period of time_iThe winding temperature T of the electric machine corresponding to the time_iCurve f (t); wherein t is₀For corresponding motor winding initial temperature value T₀Time of (t)_maxFor a maximum temperature value T of the corresponding motor winding_maxTime of (c), CiIs a period of time t_iThe winding temperature T of the electric machine corresponding to the time_iCurve f (t);

specifically, when the host is powered on, the temperature sensor in the data module starts to work, and if the winding temperature rise T is more than or equal to 10 ℃ within T < 5min, the microprocessor judges that an atomization event occurs; recording 60min after the temperature sensor starts to work as an independent atomization event (the above-mentioned 60min is only an example time, and other time can be set as an independent atomization event according to different requirements), because different atomization schemes are matched with different medicines, the load of a motor is different during atomization, a curve of temperature rise in a working period is a characteristic curve, an integral from an initial temperature to a maximum value of the temperature rise is a characteristic value, and the characteristic curve are cross-mapped to a specific atomization scheme; characteristic value T under different atomization schemes_iComposition characteristic value set { T } and motor load characteristic curve C_iA motor load characteristic curve { C } is formed, and different medicine compatibility schemes Ni form an atomization scheme set { N }, and the Ni → T_i、C_iThe mapping relation is transmitted to the microprocessor in advance, and then the atomization scheme of the medical advice is written in advance under the ID in combination with the registered atomizer ID, the characteristic data is transmitted to the doctor intelligent terminal through the communication module in time, and the doctor can judge whether the atomization scheme executed under the ID is consistent with the prescription of the medical advice.

On the basis, the system also comprises a peak value flowmeter, wherein the peak value flowmeter is used for detecting sign information such as self-test peak flow velocity, one-second rate, forced vital capacity and the like; the user intelligent terminal receives information detected by the peak flow meter and transmits the information to the doctor intelligent terminal through the cloud, and sign information such as peak flow meter self-test peak flow rate (PEF), one-second rate (FEV1), Forced Vital Capacity (FVC) and the like is given according to medical advice after atomization every time, so that the doctor can evaluate atomization treatment effect in time, and adjustment of diagnosis and treatment in the next step is facilitated.

On the basis, communication module is bluetooth module or wifi module, and the usable model of above-mentioned bluetooth module is CSR8670, 8675 etc. and the usable model of above-mentioned wifi module is RTL8188EUS, BCM43217 etc..

On the basis, APP modules are arranged in the user intelligent terminal and the doctor intelligent terminal, the user intelligent terminal and the doctor intelligent terminal are communicated with a cloud end and a communication module through the APP modules, and the user intelligent terminal receives data transmitted by the communication module and transmits the data to the cloud end through the APP modules arranged in the user intelligent terminal; the doctor intelligent terminal receives data transmitted by the cloud end through an APP module arranged in the doctor intelligent terminal, and transmits doctor suggestions to the user intelligent terminal through the cloud end; the user intelligent terminal and the doctor intelligent terminal comprise mobile phones or computers or tablets, so that timely communication can be carried out between a doctor and a user.

Specifically, when the system is used, ID information of each atomization device is written into the microprocessor in advance, then the device is brought back by a patient, and when the patient logs in the special ID and starts the device, the communication between the device and the intelligent terminal of the microprocessor user is started; before a certain ID in the user intelligent terminal is brought back, the medical staff inputs corresponding medical orders comprising an atomization scheme, atomization time, atomization frequency, self-monitoring lung function parameter frequency and the like, after the equipment works, the communication module transmits back data, when the atomization scheme and the medical advice scheme executed by the patient are different, the difference can refer to the atomization scheme, and can also refer to other information such as atomization frequency, and the doctor can intervene in the atomization process in time to realize real-time interaction of doctors and patients, the invention further uploads the body information of the lung function parameters, such as peak flow rate (PEF), one second rate (FEV1), Forced Vital Capacity (FVC) and the like, obtained by the peak value flowmeter to the wireless communication module under the system, then synchronize to the APP module of user intelligent terminal and doctor intelligent terminal together with atomizer working data, provide supplementary evidences for assessing patient's state of an illness and atomizing treatment effect.

On the basis, the common atomization scheme Ni is one or more of the following medicines: the content of the pramipexole is less than or equal to 2 ml; the volume of the product is less than or equal to 2 ml; the bolikangni is less than or equal to 2 ml; the Aiquanle is less than or equal to 2 ml; the normal saline is less than or equal to 2 ml; mushutan is less than or equal to 2 ml; 2ml or less of fulvestrant and 2.5ml or less of rubicin, and possibly other common drugs, which are used by way of example only and do not include all drugs used in nebulization regimens.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an interactive system of compression atomizer working data, includes compression atomizer host computer, compression atomizer host computer includes motor and air pump, its characterized in that: the compressed atomizer host is also internally provided with a data module, a microprocessor module and a communication module which are sequentially and electrically connected, and further comprises a user intelligent terminal which can be mutually communicated and connected with the communication module, a cloud storage module and a doctor intelligent terminal, wherein the cloud storage module is used for mutually communicating with the user intelligent terminal and the doctor intelligent terminal;

2. The interactive system for operational data of a compression atomizer of claim 1, wherein: the motor operation data comprises a characteristic value Ti and a motor load characteristic curve Ci of a atomization scheme converted from the temperature collected by the data module, and the characteristic value Ti and the motor load characteristic curve Ci correspond to the atomization scheme Ni in a one-to-one mode, namely Ni → Ti and Ci;

the characteristic value Ti of the atomization scheme is temperature in a period of timeIntegral of degree over time

wherein t is₀For corresponding motor winding initial temperature value T₀Time of (t)_maxFor a maximum temperature value T of the corresponding motor winding_maxCi is a period of time t_iThe winding temperature T of the electric machine corresponding to the time_iCurve f (t) of (d).

3. The interactive system for operational data of a compression atomizer of claim 1, wherein: the intelligent terminal comprises a user intelligent terminal and a doctor intelligent terminal, and is characterized by further comprising a peak value flow meter used for detecting sign information, wherein the user intelligent terminal receives information detected by the peak value flow meter and transmits the information to the doctor intelligent terminal through a cloud.

4. The interactive system for operational data of a compression atomizer of claim 1, wherein: the communication module is a Bluetooth module or a wifi module.

5. The interactive system for operational data of a compression atomizer of claim 1, wherein: the user intelligent terminal with be provided with the APP module in the doctor intelligent terminal, the user intelligent terminal with the doctor intelligent terminal passes through the APP module and communicates with high in the clouds and communication module.

6. The interactive system for operational data of a compression atomizer of claim 2, wherein: a set { N } of common atomization schemes Ni, a set { T } of characteristic values Ti of the common atomization schemes Ni and a set { C } of motor load characteristic curves Ci are arranged in the microprocessor; the common atomization scheme is one or more of the following medicaments: the content of the pramipexole is less than or equal to 2 ml; the volume of the product is less than or equal to 2 ml; the bolikangni is less than or equal to 2 ml; the Aiquanle is less than or equal to 2 ml; the normal saline is less than or equal to 2 ml; mushutan is less than or equal to 2 ml; the quantity of the fulvestrant is less than or equal to 2ml, and the quantity of the rubicin is less than or equal to 2.5 ml.

7. The interactive system for operational data of a compression atomizer of claim 1, wherein: the user intelligent terminal and the doctor intelligent terminal comprise mobile phones, computers or tablets.