CN103285480B - An intelligent control system and control method for an adaptive oxygen inhaler - Google Patents

Abstract

The invention discloses an intelligent control system of a self-adaptive oxygen inhalation machine, which comprises an oxygen inhalation machine (3) connected with a respiratory system of an oxygen inhalation person (1) through an oxygen inhalation hose, a physiological index monitor (2) connected with the oxygen inhalation person (1) and used for monitoring physiological indexes of the oxygen inhalation person (1), the physiological index monitor (2) is also connected with the oxygen inhalation machine (3) and used for regulating and controlling the oxygen inhalation machine (3), an intelligent terminal (4) is respectively and electrically connected with the oxygen inhalation machine (3) and the physiological index monitor (2), and the intelligent terminal (4) receives signals of the physiological index monitor (2) and controls the oxygen inhalation machine (3) to operate. In addition, the scheme also discloses an intelligent control method of the self-adaptive oxygen inhalation machine. The intelligent control system of the self-adaptive oxygen inhalation machine provided by the invention can remotely monitor the physiological condition of an oxygen inhaler in real time and respond, has a wide application range, saves human resources and greatly improves the safety of the oxygen inhalation process.

Description

An intelligent control system and control method for an adaptive oxygen inhaler

technical field

The invention relates to an oxygen inhaler, in particular to an intelligent control system and control method for an adaptive oxygen inhaler.

Background technique

In the hospital wards, we often see doctors or nurses shuttling to check the physiological state of oxygen inhaled patients, and even emergency rescue or death of patients often occur due to failure to monitor the oxygen inhaled state of patients in time. Due to the increasing needs of doctors and patients, environmental factors and the increasing awareness of medical care, people have gradually begun to pay attention to the requirements for the use of oxygen inhalation devices. At present, oxygen inhalers on the market are very common, and the principle of oxygen production is almost mature. There are mainly oxygen tank type, portable and centralized oxygen inhalation devices in form, and there are mainly two types of household and medical use in the application occasions. . Most of these oxygen inhalation devices only provide oxygen inhalation function, and most of them adopt the oxygen inhalation method of manual monitoring. They do not provide the monitoring of the user's physiological indicators, and at the same time, they cannot realize remote intelligent monitoring. It is very inconvenient to waste manpower when using them.

Based on the above, it is necessary to develop an adaptive oxygen inhaler intelligent control system that can realize dynamic automatic adjustment of oxygen inhalation, and can remotely monitor and manage dynamic and intelligent control.

Contents of the invention

The purpose of the present invention is to provide an intelligent control system for an adaptive oxygen inhaler to solve the related limitation problems of traditional manual adjustment of oxygen inhalation and human monitoring. This self-adaptive oxygen inhaler intelligent control system can realize self-adaptive intelligent control and remote dynamic management, and can help users realize dynamic and automatic adjustment of oxygen inhalation in any environment. This oxygen inhaler can be monitored by using the intelligent terminal of the Internet of Things, so that one person can remotely monitor the oxygen inhalation status of multiple patients and respond in time to improve the control rate of oxygen inhalation.

The invention provides an intelligent control system for an adaptive oxygen inhaler, comprising: an oxygen inhaler 3 connected to the respiratory system of an oxygen inhaler 1 through an oxygen inhaler hose; a physiological index monitor 2 connected to the oxygen inhaler 1, and In monitoring the physiological index of the oxygen inhaler 1, the physiological index monitor 2 is also connected with the oxygen inhaler 3 for regulating the oxygen inhaler 3; the intelligent terminal 4 is connected with the oxygen inhaler 3 and the physiological index. The index monitors 2 are electrically connected respectively, and the intelligent terminal 4 receives the signal of the physiological index monitor 2 and controls the operation of the oxygen inhaler 3 at the same time.

Preferably, the intelligent control system for an adaptive oxygen inhaler, wherein the oxygen inhaler 3 includes an adjustable oxygen supply module and an intelligent information processing module, and the intelligent information processing module controls the adjustable The oxygen supply module controls the oxygen concentration, oxygen flow rate and oxygen supply time.

Preferably, the intelligent control system for an adaptive oxygen inhaler, wherein the physiological index monitor 2 includes a blood oxygen saturation monitoring module, a pulse monitoring module, a body temperature monitoring module and a first data information sending module, Wherein the first data information sending module sends data to the intelligent information processing module.

Preferably, the intelligent control system for an adaptive oxygen inhaler, wherein the intelligent terminal 4 includes a data information receiving module, a data information processing module and a second data information sending module; wherein the data information receiving module , the data information processing module and the second data information sending module are connected in sequence; the data information receiving module receives data information from the first data information sending module, and the second data information sending module sends data information to the intelligent information processing module.

Preferably, in the intelligent control system for an adaptive oxygen inhaler, the intelligent processing module or intelligent terminal 4 includes an alarm device or an alarm response device.

The present invention also provides an intelligent control method for an adaptive oxygen inhaler, comprising the following steps: 1) connecting the oxygen inhaler 3 with the physiological index monitor 2 and the oxygen inhaler 1, and monitoring the oxygen inhaler through the physiological index The instrument 2 reads the current physiological index of the oxygen inhaler 1; 2) according to the current physiological index and past medical history of the oxygen inhaler 1, an instruction is set on the intelligent terminal 4, and the intelligent terminal 4 transmits the setting instruction to the inhaler. Oxygen machine 3 intelligent processing module; 3) The adjustable oxygen supply module of the oxygen inhaler 3 is turned on, the physiological index monitor 2 continuously monitors and sends the result to the intelligent processing module, and the intelligent processing module according to the data information Make timely adjustments; at the same time, the physiological index monitor 2 also sends the physiological index data to the intelligent terminal 4 for data recording and remote management; closure.

Preferably, the intelligent control method of an adaptive oxygen inhaler, wherein, the intelligent information processing module receives the data information of the physiological index monitor 2 and makes different responses: 1) the data information floats within a normal range , the intelligent information processing module continues to maintain the current instruction; 2) the data information exceeds the normal range, the intelligent information processing module alarms or sends an alarm signal to the intelligent terminal 4 and adjusts the instruction; 3) the intelligent information in special circumstances The processing module receives the instruction sent by the smart terminal 4 .

Preferably, in the intelligent control method of an adaptive oxygen inhaler, the data information receiving module receives the instructions sent by the man-machine interface and the data information of the physiological index monitor 2, and at the same time receives the signal of the oxygen inhaler The data information processing module processes the monitoring indicators and draws trend graphs, and also processes and responds to the oxygen provider's signal; the second data information sending module sends instructions to the adjustable oxygen supply module.

The invention provides an intelligent control system and control method for an adaptive oxygen inhaler, and its beneficial effects include: 1) Strong adaptive intelligence, capable of remotely monitoring and responding to the physiological conditions of the oxygen inhaler at any time; 2) Wide application range , easy to use, and can be used in homes and hospitals; 3) Remote dynamic management can save human resources, improve oxygen inhalation efficiency, and ensure the highest safety in the oxygen inhalation process.

Description of drawings

Fig. 1 is a schematic diagram of an intelligent control system for an adaptive oxygen inhaler according to the present invention.

detailed description

The present invention will be further described in detail below in conjunction with the accompanying drawings, so that those skilled in the art can implement it with reference to the description.

As shown in Figure 1, the present invention provides an intelligent control system for an adaptive oxygen inhaler, including an oxygen inhaler 3 connected to the respiratory system of an oxygen inhaler 1 through an oxygen inhaler hose; a physiological index monitor 2 connected to an oxygen inhaler Connected with the oxygen inhaler 1 for monitoring the physiological index of the oxygen inhaler 1, the physiological index monitor 2 is also connected with the oxygen inhaler 3 for regulating the oxygen inhaler 3; the intelligent terminal 4 is connected with the oxygen inhaler 3 and the physiological index monitor 2 are respectively electrically connected, and the intelligent terminal 4 receives the signal of the physiological index monitor 2 and controls the operation of the oxygen inhaler 3 at the same time.

Among them, oxygen inhalers 1 include: office workers, students, pregnant women, middle-aged and elderly people, and special patients;

Physiological indicator monitor 2, comprises blood oxygen saturation monitoring module, pulse monitoring module, body temperature monitoring module, and first data information sending module; Described first data information sending module is the blood oxygen saturation monitoring module, pulse monitoring module and the monitoring data of the body temperature monitoring module are sent to the intelligent information processing module of the oxygen inhaler 3 and the data information receiving module of the intelligent terminal 4, and the sending form can be bluetooth or wireless network;

Oxygen inhaler 3 includes an adjustable oxygen supply module, the adjustable oxygen supply module receives instructions from the intelligent information processing module, thereby controlling the supply of oxygen concentration, oxygen flow and oxygen supply time, and the intelligent information processing module receives physiological indicators The relevant physiological index information sent by the first data information sending module of the monitor 2 is used to judge at any time whether the oxygen inhalation parameter range set by the doctor or nurse makes the corresponding monitoring index within the normal floating range, and if so, adjust the oxygen supply module Continuous and stable oxygen supply according to the parameter requirements; if not, the intelligent information processing module will send an alarm command (including sound and light alarm, remote sending to the intelligent terminal 4 alarm), and at the same time send the adjustment of corresponding parameters to the adjustable oxygen supply module Instructions to promote the return of the patient's physiological indicators to the normal range by changing the oxygen supply method. In addition, under special conditions, the intelligent information processing module also directly receives the instruction information sent by the second data information sending module of the intelligent terminal 4, so that the intelligent terminal 4 can directly control the oxygen supply mode of the adjustable oxygen supply module, thereby quickly solving the patient's possible problems. emergencies;

The smart terminal 4 includes a data information receiving and processing module and a second data information sending module. The data information receiving module can directly receive instructions issued by doctors or nurses by means of keyboard, touch screen or voice control and other similar intelligent terminal 4 input configurations, and receive the first data information sending module from the physiological index monitor 2. At the same time, it can receive corresponding help information from the patient side; the data information processing module processes the received monitoring index information and makes a trend line, which is convenient for doctors or nurses to predict and judge the patient's physiological condition in advance , to prevent unnecessary dangers, in addition, it can also process the help information from the patient side, and make a related response similar to the alarm; the second data information sending module sends a corresponding command response from the doctor, for example, it can be used to control the adjustable oxygen supply module on the one hand On the one hand, it achieves communication between doctors and nurses or patients. The setting of the intelligent terminal 4 can help the doctor perform remote management better, and realize that one person can control the conditions of multiple patients, which can save manpower and improve efficiency.

specific embodiment

1) Wear the oxygen inhalation hose on the nasal cavity of the oxygen inhaler 1, and wear the physiological index monitor 2 on the wrist or fingers;

2) Turn on the intelligent control system of the self-adaptive oxygen inhaler 3, and the physiological index monitor 2 first starts to monitor the physiological index status of the oxygen inhaler 1, and the doctor or nurse will monitor the oxygen inhaler 1’s medical record and current physiological index status according to the intelligent control system. The command is given on the terminal 4 and transmitted to the intelligent processing module in the oxygen inhaler 3 to complete the setting of the oxygen concentration, flow range, oxygen inhalation time and suitable physiological index range suitable for the needs of the oxygen inhaler 1, and then turn on the oxygen inhaler 3 oxygen supply modes;

3) As the oxygen inhaler 1 continues to inhale oxygen, the physiological indicator monitor 2 will continue to monitor the physiological indicators, and send the monitored results to the intelligent processing module of the oxygen inhaler 3 and the intelligent terminal 4 respectively. The purpose of sending to the intelligent processing module in the oxygen inhaler 3 is to form a continuously adjusted suitable oxygen inhalation cycle between 1, 2, and 3 according to the oxygen concentration and flow range set in step 2); the purpose of sending to the intelligent terminal 4 It is to record all data records that occur during the use of the oxygen inhaler 3, and realize remote dynamic management;

4) When the set oxygen inhalation time is over, the oxygen inhaler 3 of the intelligent control system of the self-adaptive oxygen inhaler 3 will shut down the supply of oxygen, thereby completing the whole oxygen inhalation process.

Although the embodiment of the present invention has been disclosed as above, it is not limited to the use listed in the specification and implementation, it can be applied to various fields suitable for the present invention, and it can be easily understood by those skilled in the art Therefore, the invention is not limited to the specific details and examples shown and described herein without departing from the general concept defined by the claims and their equivalents.

Claims (4)

1. a self adaptation oxygen absorption machine intelligence control system, is characterized in that, comprise,

Oxygen absorption machine (3), is connected described oxygen absorption machine (3) with oxygen therapic patient (1) respiratory system by oxygen uptake flexible pipeComprise adjustable oxygen supply module and Intelligent Information Processing module, and described Intelligent Information Processing module is by controllingDescribed adjustable oxygen supply module controls oxygen concentration, oxygen flow and oxygen supply time;

Physical signs monitor (2), is connected with oxygen therapic patient (1), for monitoring oxygen therapic patient (1) physiologyIndex, described physical signs monitor (2) is also connected and is used for regulating and controlling described suction with described oxygen absorption machine (3)Oxygen machine (3);

Intelligent terminal (4), with described oxygen absorption machine (3) and described physical signs monitor (2) electricity respectivelyConnect, described intelligent terminal (4) receives described physical signs monitor (2) signal, controls institute simultaneouslyState oxygen absorption machine (3) operation; Described intelligent terminal (4) comprises data message receiver module, data messageProcessing module and the second data message sending module; Wherein said data message receiver module, described dataMessage processing module and described the second data message sending module are connected successively; Described the second data message is sent outSend module to send data message to described Intelligent Information Processing module place;

Wherein, according to the current physical signs of oxygen therapic patient (1) and passing medical history in described intelligent terminal (4)Upper setting instruction, described intelligent terminal (4) will be set command to described oxygen absorption machine (3) intelligence letterBreath processing module;

Described Intelligent Information Processing module receives described physical signs monitor (2) data message and makes notWith responding: 1) data message floats in normal range (NR), described Intelligent Information Processing module continues to keep working asFront instruction; 2) data message exceeds normal range (NR), and described Intelligent Information Processing module is reported to the police or sent warningSignal is to described intelligent terminal (4) and adjust instruction; 3) Intelligent Information Processing mould described in when special circumstancesPiece receives the instruction that described intelligent terminal (4) sends.

2. a kind of self adaptation oxygen absorption machine intelligence control system as claimed in claim 1, is characterized in that,Described physical signs monitor (2) comprises blood oxygen saturation monitoring module, monitoring of pulse module, body temperature prisonSurvey module and the first data message sending module, wherein said the first data message sending module is by dataBe sent to described Intelligent Information Processing module place.

3. a kind of self adaptation oxygen absorption machine intelligence control system as claimed in claim 2, is characterized in that,Described data message receiver module receives the data message from described the first data message sending module.

4. a kind of self adaptation oxygen absorption machine intelligence control system as claimed in claim 1, is characterized in that,Described Intelligent Information Processing module or intelligent terminal (4) comprise warning device or alarm response device.