CN114053538A - Monitoring and managing device and system for large oxygen inhalation service - Google Patents

Abstract

The invention discloses a monitoring and managing device and a system for a large-scale oxygen inhalation service, which comprise a central monitoring system, a regional management system and an oxygen terminal for a user; the user oxygen terminal is used for oxygen inhalation of a user, detecting the concentration and flow of oxygen and feeding monitoring information back to the area management system in real time; the area management system is used for displaying state information related to the oxygen inhalation process of the user, including the current flow and the oxygen inhalation duration of each oxygen inhalation terminal, and feeding back the information to the central monitoring system in real time; the central monitoring system is used for collecting and storing data sent by each area management system; compared with the prior patent, the invention provides the method for establishing the correlation between the physical sign data and the oxygen inhalation data by utilizing the algorithm through big data analysis, and provides the optimal treatment scheme for the individual oxygen inhalation process.

Description

Monitoring and managing device and system for large oxygen inhalation service

Technical Field

The invention relates to the technical field of respiratory therapy equipment, in particular to a monitoring and management device and a monitoring and management system for a large-scale oxygen inhalation service.

Background

Oxygen inhalation can correct oxygen deficiency, improve partial pressure of blood oxygen and oxygen saturation level of artery, promote metabolism, is one of important methods for assisting in treating various diseases, and at present, oxygen inhalation systems are commonly equipped in camps of hospitals, Tibet and other areas, and comprise large oxygen generators and pipelines, and oxygen inhalation services are provided for users in a terminal in a mode of nasal plugs or nasal catheters. At present, an original oxygen inhalation system generally lacks monitoring and management functions, and cannot monitor and control through data feedback and provide better oxygen inhalation service for users.

The existing technical scheme, for example, patent CN205198626 "an oxygen therapy monitoring and control module and a quality management system thereof" proposes a module system for single oxygen therapy, but lacks of a large-scale oxygen inhalation service monitoring and management system applied to camps in hospitals, tibetans and other areas, and includes functions of pipelines for concentrated discharge of oxygen, monitoring of oxygen concentration in the whole area (non-pipelines), status display and control in each area, power-off protection, and reference therapy scheme provided by big data learning, which leads to certain defects.

Therefore, a large oxygen inhalation service monitoring and managing device and a large oxygen inhalation service monitoring and managing system are provided.

Disclosure of Invention

The invention aims to provide a large oxygen inhalation service monitoring and managing device and a large oxygen inhalation service monitoring and managing system, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the large oxygen inhalation service monitoring and managing device comprises a central monitoring system, a regional management system and an oxygen terminal for a user;

the user oxygen terminal is used for oxygen inhalation of a user, detecting the concentration and flow of oxygen and feeding monitoring information back to the area management system in real time;

the area management system is used for displaying state information related to the oxygen inhalation process of the user, including the current flow and the oxygen inhalation duration of each oxygen inhalation terminal, and feeding back the information to the central monitoring system in real time;

the central monitoring system is used for collecting and storing data sent by each area management system.

As a further scheme of the invention: the oxygen terminal is used to the user includes oxygen inhalation mask, ultrasonic flowmeter and wearable monitoring facilities, and oxygen inhalation mask connects on oxygen therapy pipeline for the user wears the oxygen uptake, ultrasonic flowmeter establishes on the oxygen pipeline of oxygen inhalation mask input for measure oxygen concentration and flow, wearable monitoring facilities is used for monitoring the sign of user in the oxygen uptake process, including the monitoring to the rhythm of the heart of oxygen inhalation user, blood oxygen and body temperature, can increase the detection of other human sign information such as monitoring respiration, electrocardio in addition.

As a still further scheme of the invention: and the oxygen pipelines at the input end of the oxygen mask are provided with breathing regulators for regulating the oxygen inlet amount of the oxygen mask.

As a still further scheme of the invention: and the air outlet end of the oxygen inhalation mask is communicated with an air outlet pipeline and is used for intensively leading out the air breathed by each user.

As a still further scheme of the invention: the regional management system comprises an industrial control all-in-one machine, an information manager, a fresh air machine and an oxygen concentration monitoring assembly, wherein the industrial control all-in-one machine is used for displaying state information related to the oxygen inhalation process of a user on a display screen, and controlling an electromagnetic valve on an oxygen pipeline through a circuit board connected with the industrial control all-in-one machine, so that oxygen is cut off when the oxygen inhalation time is too long, the information manager is used for managing personal information input of each oxygen inhalation user through a graphical interface of an upper computer, the oxygen concentration monitoring assembly is used for detecting indoor oxygen concentration, and the fresh air machine is used for conveying fresh air to the indoor.

As a still further scheme of the invention: the regional management system comprises an industrial control all-in-one machine, an information manager, a fresh air machine and an oxygen concentration monitoring assembly, wherein the industrial control all-in-one machine is used for displaying state information related to the oxygen inhalation process of a user on a display screen, and controlling an electromagnetic valve on an oxygen pipeline through a circuit board connected with the industrial control all-in-one machine, so that oxygen is cut off when the oxygen inhalation time is too long, the information manager is used for managing personal information input of each oxygen inhalation user through a graphical interface of an upper computer, the oxygen concentration monitoring assembly is used for detecting indoor oxygen concentration, and the fresh air machine is used for conveying fresh air to the indoor.

As a still further scheme of the invention: the utility model discloses a central monitoring system, including central monitoring system, intelligent oxygenerator and mobile terminal, the operation has the host computer in the server host computer for look over various types of statistical information and regional management system's equipment operational aspect, the intelligent oxygenerator is used for making oxygen and carries the oxygen mask respectively through oxygen pipeline and shunt, mobile terminal looks over each item information of statistics in the central management system through the mode of cell-phone App, provide UPS outage protector on the server host computer for guarantee when the outage maintain equipment operation and keep safe.

As a still further scheme of the invention: the wearable monitoring equipment transmits data to the industrial control all-in-one machine through Bluetooth.

Compared with the prior art, the invention has the beneficial effects that:

1. compared with the prior patent, the invention provides a centralized oxygen discharge system pipeline to prevent the problems of fire and the like caused by overhigh oxygen concentration in the environment because oxygen-rich gas flows indoors.

2. Compared with the prior patent, the invention provides an oxygen concentration monitoring device in the whole area (room) to prevent the increase of the oxygen concentration in the air of the whole area from causing symptoms such as danger or intoxication.

3. Compared with the prior patent, the invention provides the power-off protection function of the whole system, and the equipment is kept running safely during power-off.

4. Compared with the prior patent, the invention provides the method for establishing the correlation between the physical sign data and the oxygen inhalation data by utilizing the algorithm through big data analysis, and provides the optimal treatment scheme for the individual oxygen inhalation process.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of a user oxygen terminal according to the present invention.

Fig. 3 is a schematic diagram of a zone management system according to the present invention.

FIG. 4 is a schematic diagram of a central control system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, in the embodiment of the present invention, a large oxygen inhalation service monitoring and managing apparatus includes a central monitoring system, a regional management system, and a user oxygen terminal; a central monitoring system is arranged in a hospital/camp, and a regional management system is arranged in each room, wherein each regional management system corresponds to a plurality of user oxygen terminals.

The monitoring and management of the oxygen inhalation process are completed through the whole set of control system and the user interface based on the sensor, and a better treatment scheme is provided on the basis of data statistics of the oxygen inhalation process through a big data algorithm and the like.

The user oxygen terminal is used for oxygen inhalation of a user, detecting the concentration and flow of oxygen and feeding monitoring information back to the area management system in real time; the oxygen terminal for the user comprises an oxygen inhalation mask, an ultrasonic flowmeter and wearable monitoring equipment, the oxygen inhalation mask is connected to the oxygen delivery pipeline and used for the user to wear to inhale oxygen, the traditional nasal obstruction or nasal catheter is replaced by the oxygen inhalation mask to inhale oxygen, the partial pressure of oxygen in the human body is obviously improved after the mask inhales oxygen, the physical dissolved oxygen is also improved more relatively by the nasal obstruction or nasal catheter to inhale oxygen, and the oxygen inhalation effect is better.

The ultrasonic flowmeter is arranged on an oxygen pipeline at the input end of the oxygen mask and used for measuring oxygen concentration and flow, the ultrasonic flowmeter with digital signal output is used for replacing a traditional flowmeter, the traditional flowmeter can only know the current gas flow condition in a mode of manually checking scales, the ultrasonic flowmeter can simultaneously measure the oxygen concentration and flow, information in the oxygen inhalation process is fed back to an area management system, the gas flow condition in the oxygen inhalation process of each user is displayed on a screen in real time, and the abnormal condition is given an alarm in real time. Meanwhile, the problem of whether air leakage exists in the pipeline or not is monitored by comparing the sum of the air flow conditions of each user with the air flow conditions of the main pipeline.

The wearable monitoring equipment is used for monitoring the physical signs of the user in the oxygen inhalation process, including monitoring the heart rate, blood oxygen and body temperature of the oxygen inhalation user, and can additionally detect other human body physical sign information such as monitoring respiration and electrocardio; the wearable monitoring equipment transmits data to the industrial control all-in-one machine through Bluetooth; can use the form of integral type bracelet or wearable equipment, the former is dressed and is used more conveniently, and the latter measurement accuracy is higher relatively, and the oxygen uptake user sign information of gathering passes through the bluetooth and in real time with data transfer to management system, shows real-time status on the screen.

The oxygen pipelines at the input end of the oxygen mask are provided with breathing regulators for regulating the oxygen inlet amount of the oxygen mask;

the air outlet end of the oxygen inhalation mask is communicated with an air outlet pipeline and is used for intensively leading out the air breathed by each user; the air breathed by each user is led out in a concentrated mode through the exhaust pipeline, and the problems that the oxygen-enriched air flows indoors, so that the oxygen concentration in the environment is too high, fire disasters are caused and the like are solved.

The regional management system comprises an industrial personal computer, an information manager, a new fan and an oxygen concentration monitoring assembly, wherein the industrial personal computer is used for displaying state information related to the oxygen inhalation process of a user on a display screen, and a solenoid valve on a circuit board control oxygen pipeline connected with the industrial personal computer is used for cutting off oxygen transportation when the oxygen inhalation time is too long, displaying the state information related to the oxygen inhalation process of the user on the screen of the industrial personal computer, and the regional management system comprises the current flow of each terminal, the oxygen inhalation time and the like, can check real-time sign data of the user, provides functions of sound alarm, digital automatic color change alarm and the like for abnormal data, and is convenient for a manager to check in real time. And the administrator completes the function configuration in a touch manner through a graphical user interface of the touch screen. The circuit board connected with the industrial personal computer controls the electromagnetic valve on the gas pipeline, so that oxygen inhalation service is provided according to recommended duration, oxygen delivery is cut off when oxygen inhalation time is too long, and the like.

The information manager is used for managing after inputting the personal information of each oxygen inhalation user through the graphical interface of the upper computer, grasping the physical condition of each oxygen inhalation user, and being capable of checking the corresponding history, physical sign change and the like of the oxygen inhalation users through the management interface.

The oxygen concentration monitoring assembly is used for detecting the indoor oxygen concentration, and the fresh air machine is used for conveying fresh air to the room. The oxygen concentration monitoring assembly comprises a negative pressure pipeline, the negative pressure pipeline is laid in a room, a negative pressure pump used for enabling the pipeline to generate negative pressure is connected to the negative pressure pipeline, and an oxygen sensor used for monitoring oxygen concentration is further arranged on the negative pressure pipeline.

Oxygen concentration monitoring subassembly still includes the monitoring of oxygen concentration in the pipeline from the oxygenerator input, can in time discover to the problem in the oxygenerator work to and through the monitoring to indoor oxygen concentration like the mode of fig. 3, collect the gas of different positions in whole room and detect through the oxygen meter through the negative pressure pipeline, provide the warning when indoor oxygen concentration exceeds 23.5%, and open the new trend system simultaneously, until indoor oxygen concentration resumes normal range.

The central monitoring system comprises a server host, an intelligent oxygen generator and a mobile terminal, wherein the server host is operated with an upper computer and used for checking various types of statistical information and equipment running conditions of a regional management system, the intelligent oxygen generator is used for manufacturing oxygen and respectively conveys oxygen masks through an oxygen pipeline and a shunt, and the intelligent oxygen generator passes through an intelligent control system and uses oxygen consumption and oxygen pressure as control targets, a plurality of sets of intelligent management are started and stopped, the working time of each machine is balanced, and the system response speed is increased and the energy conservation and consumption reduction are realized on the premise of ensuring the oxygen supply.

The mobile terminal checks various information counted in the central management system in a mobile phone App mode, and is convenient for remotely mastering the overall condition of the system. And data is sent through the virtual private network, so that the data security is ensured.

The server host is provided with a UPS power-off protector for ensuring that the equipment is kept running safely during power-off; after the power is cut off, the system (without the oxygen generator) can continuously keep running for more than half an hour, and the recording function of data is kept. The device establishes the association between the physical sign data and the oxygen inhalation data by performing big data analysis on the statistical data and adopting a deep learning algorithm based on a neural network, and provides a reference treatment scheme for the oxygen inhalation process of an individual.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. Although the present description is described in terms of embodiments, not every embodiment includes only one technical solution, and such description of the embodiments is merely for clarity, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims (9)

1. Large-scale oxygen uptake service monitoring management device, its characterized in that: comprises a central monitoring system, a region management system and an oxygen terminal for a user;

the user oxygen terminal is used for oxygen inhalation of a user, detecting the concentration and flow of oxygen and feeding monitoring information back to the area management system in real time;

the area management system is used for displaying state information related to the oxygen inhalation process of the user, including the current flow and the oxygen inhalation duration of each oxygen inhalation terminal, and feeding back the information to the central monitoring system in real time;

the central monitoring system is used for collecting and storing data sent by each area management system.

2. The large oxygen inhalation service monitoring and managing device according to claim 1, wherein the oxygen terminal for the user comprises an oxygen inhalation mask, an ultrasonic flow meter and a wearable monitoring device, the oxygen inhalation mask is connected to the oxygen delivery pipeline and is used for the user to wear the oxygen inhalation, the ultrasonic flow meter is arranged on the oxygen pipeline at the input end of the oxygen inhalation mask and is used for measuring the oxygen concentration and flow, the wearable monitoring device is used for monitoring the physical signs of the user in the oxygen inhalation process, including monitoring the heart rate, blood oxygen and body temperature of the oxygen inhalation user, and additionally, the monitoring of other human body physical sign information of respiration and electrocardio is increased.

3. The monitoring and managing device for the large oxygen inhalation service according to claim 2, wherein the oxygen pipelines at the input ends of the oxygen inhalation masks are provided with breathing regulators for regulating the oxygen intake of the oxygen inhalation masks.

4. The large oxygen inhalation service monitoring and managing device according to claim 2, wherein the exhaust outlet end of the oxygen inhalation mask is communicated with an exhaust pipeline for leading out the gas breathed by each user in a centralized manner.

5. The large oxygen inhalation service monitoring and managing device according to claim 1, wherein the area management system comprises an industrial control all-in-one machine, an information manager, a fresh air machine, and an oxygen concentration monitoring assembly, wherein the industrial control all-in-one machine is used for displaying state information related to the oxygen inhalation process of a user on a display screen, controlling an electromagnetic valve on an oxygen pipeline through a circuit board connected with the industrial control all-in-one machine, and cutting off oxygen delivery when the oxygen inhalation time is too long, the information manager is used for managing personal information of each oxygen inhalation user after inputting the personal information through a graphical interface of an upper computer, the oxygen concentration monitoring assembly is used for detecting the indoor oxygen concentration, and the fresh air machine is used for delivering fresh air to the indoor.

6. The large oxygen inhalation service monitoring and managing device according to claim 5, wherein the oxygen concentration monitoring assembly comprises a negative pressure pipeline, the negative pressure pipeline is laid in a room, a negative pressure pump for generating negative pressure is connected to the negative pressure pipeline, and an oxygen sensor for monitoring oxygen concentration is further arranged on the negative pressure pipeline.

7. The large oxygen inhalation service monitoring and managing device according to claim 1, wherein the central monitoring system comprises a server host, an intelligent oxygen generator and a mobile terminal, wherein an upper computer is operated in the server host and used for checking various types of statistical information and equipment operation conditions of the regional management system, the intelligent oxygen generator is used for producing oxygen and respectively delivering the oxygen to an oxygen mask through an oxygen pipeline and a splitter, the mobile terminal checks various types of information counted in the central management system in a mobile phone App mode, and a UPS power-off protector is provided on the server host and used for ensuring that equipment operation is kept safe when power is off.

8. The large oxygen inhalation service monitoring and management device according to claim 2, wherein the wearable monitoring device transmits data to the industrial personal computer via bluetooth.

9. A large oxygen inhalation service monitoring system, characterized by comprising the large oxygen inhalation service monitoring and managing device according to any one of claims 1 to 8.

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