CN212845175U

CN212845175U - Intelligent sensor for oxygenerator

Info

Publication number: CN212845175U
Application number: CN202021340908.4U
Authority: CN
Inventors: 吕合奇; 李明
Original assignee: Shenzhen Winpower Technology Co ltd
Current assignee: Shenzhen Winpower Technology Co ltd
Priority date: 2020-07-09
Filing date: 2020-07-09
Publication date: 2021-03-30
Anticipated expiration: 2030-07-09

Abstract

The utility model discloses an oxygen generator uses intelligent sensor, it includes ultrasonic wave gas concentration and flow detection module, blood oxygen receiving module, electron flowmeter control module, wireless communication module and monitoring module. The utility model can collect the oxygen output concentration and the oxygen output flow of the oxygen generator, the blood oxygen concentration of the user and other information, and the real-time adjustment of the oxygen output flow of the oxygen generator can be realized by feeding back the information to the control module of the electronic flow meter through the monitoring module; and the user oxygen uptake information can be received and transmitted through the wireless communication module, so that the intelligent interaction of the user oxygen uptake information is realized.

Description

Intelligent sensor for oxygenerator

Technical Field

The utility model relates to a sensor technical field for the oxygenerator, concretely relates to can provide interactive intelligent sensor for user and oxygenerator producer.

Background

In the prior art, what generally the oxygen generator on the market uses the ultrasonic gas sensor is only the oxygen and concentration real-time state monitoring of the oxygen generator.

In the prior art, the ultrasonic gas sensor only simply collects the machine data of the oxygen generator, cannot collect user data, does not have comprehensive data analysis capability, and cannot complete information interaction among the oxygen generator, a user, an oxygen generator manufacturer and the like. When a user inhales oxygen, the user does not know the correlation between the current blood oxygen state and the state of the oxygen generator, and abnormal blood oxygen state of the user caused by insufficient air outlet flow of the oxygen generator may occur.

Conventional oxygenerator can set up flow control knob and supply the user to go to independently adjust oxygenerator flow size, and some users can be equipped with blood oxygen probe and be used for monitoring physiological information such as the blood oxygen of oneself, and this kind of mode that needs artificial intervention has very big inconvenience in fact to many users, for example can't participate in oxygenerator operating condition and self physiological signal's acquirement and abnormal analysis at all during the oxygen uptake state of user sleep, causes very big potential safety hazard.

In the prior art, the ultrasonic sensor for the oxygen generator on the market does not have the capacity of flow intelligent regulation and data acquisition uploading cloud. The common ultrasonic gas sensor in the field of oxygen generators is only used as a concentration and flow detection module of the oxygen generator, and the function of oxygen generation is greatly limited.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a function is various, convenient to use just can improve oxygenerator safety in utilization's intelligent sensor for oxygenerator.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an intelligent sensor for an oxygen generator comprises an ultrasonic gas concentration and flow detection module, a blood oxygen receiving module, an electronic flow meter control module, a wireless communication module and a monitoring module, wherein the monitoring module is simultaneously connected with the ultrasonic gas concentration and flow detection module, the blood oxygen receiving module, the electronic flow meter control module and the wireless communication module;

the ultrasonic gas concentration and flow detection module: the system is used for detecting the oxygen output concentration and the oxygen output flow of the oxygen generator in real time and feeding back the detected oxygen output concentration and the detected oxygen output flow of the oxygen generator to the monitoring module in real time;

the blood oxygen receiving module: the blood oxygen monitoring module is used for receiving the physiological information of the blood oxygen concentration, the pulse and the like of the user fed back by the blood oxygen probe in real time and feeding back the received physiological information of the blood oxygen concentration, the pulse and the like of the user to the monitoring module in real time;

the electronic flow meter control module: used for controlling the oxygen output flow of the oxygen generator;

the wireless communication module: the system is used for information interaction with an external terminal;

the monitoring module: the oxygen absorption monitoring system is used for receiving and monitoring information data fed back by the ultrasonic gas concentration and flow detection module and the blood oxygen receiving module in real time, analyzing and judging the oxygen absorption effect of a user by combining the blood oxygen concentration of the user and the current oxygen output concentration and oxygen output flow of the oxygen generator and judging whether the oxygen absorption amount needs to be adjusted or not, adjusting the oxygen output flow of the oxygen generator in real time through the electronic flow meter control module, and simultaneously carrying out information interaction on the oxygen output concentration, the oxygen output flow and other equipment data of the oxygen generator and the blood oxygen concentration, pulse and other user data of the user and an external terminal through the wireless communication module.

Further, the aforesaid intelligence sensor for oxygenerator, wherein: the wireless communication module is one or more of a WIFI module, a Bluetooth module, an NB-IOT module, an LORA module and an infrared module.

Through the implementation of the above technical scheme, the beneficial effects of the utility model are that: (1) the oxygen output concentration and the oxygen output flow of the oxygen generator and the physiological information of the user such as the blood oxygen concentration and the like can be automatically monitored, the oxygen inhalation flow of the user can be intelligently adjusted by integrating the information, and the oxygen inhalation information of the user and the physiological information of the user such as the blood oxygen and the like capable of reflecting the oxygen inhalation effect are uploaded to the cloud server through the wireless communication module, so that the use is more convenient; (2) the system has comprehensive data analysis capability and can complete information interaction among the oxygenerator, a user, an oxygenerator manufacturer and the like; the user can know the correlation between the current blood oxygen state and the oxygen generator state when inhaling oxygen, so that the abnormal blood oxygen state of the user caused by insufficient air outlet flow of the oxygen generator is avoided, and the use safety of the oxygen generator is improved; (3) the oxygen generator is convenient to use, and can realize the acquisition and abnormal analysis of the working state of the oxygen generator and the physiological signals of the user even when the user is in a sleep oxygen inhalation state, so that the use safety is high; (4) possess flow intelligent regulation and gather the function that data uploaded the high in the clouds server, user or doctor can follow the high in the clouds server and guardianship user's oxygen uptake state in real time, and the oxygenerator producer also can follow machine information such as the work log of high in the clouds server acquisition correspondence simultaneously, helps better improvement product and reinforcing product and user's viscidity.

Drawings

Fig. 1 is a schematic diagram of the structural principle of an intelligent sensor for an oxygen generator.

Detailed Description

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1, the intelligent sensor for an oxygen generator comprises an ultrasonic gas concentration and flow rate detection module 1, a blood oxygen receiving module 2, an electronic flow meter control module 3, a wireless communication module 4 and a monitoring module 5, wherein the monitoring module 5 is connected with the ultrasonic gas concentration and flow rate detection module 1, the blood oxygen receiving module 2, the electronic flow meter control module 3 and the wireless communication module 4 at the same time;

the ultrasonic gas concentration and flow detection module 1: the oxygen outlet pipeline is connected with an internal gas circuit of the oxygen generator, is connected in parallel or in series with the oxygen outlet pipeline of the oxygen generator, is used for detecting the oxygen outlet concentration and the oxygen outlet flow of the oxygen generator in real time and feeding back the detected oxygen outlet concentration and the detected oxygen outlet flow of the oxygen generator to the monitoring module 5 in real time;

the blood oxygen receiving module 2: the blood oxygen probe used by the user is connected with the monitoring module 5 in a wired or wireless way and used for receiving the physiological information of the blood oxygen concentration, the pulse and the like of the user fed back by the blood oxygen probe in real time and feeding back the received physiological information of the blood oxygen concentration, the pulse and the like of the user to the monitoring module 5 in real time;

the electronic flow meter control module 3: is connected with an electronic flowmeter arranged in the oxygen generator and is used for controlling the oxygen output flow of the oxygen generator;

the wireless communication module 4: the method is used for information interaction with an external terminal, namely: the wireless communication module 4 can send data to an external terminal and also can receive data from the external terminal, so that the remote control and adjustment of the oxygen outlet flow of the oxygen generator by the external terminal are realized, and the bidirectional communication is realized; in practical application, the wireless communication module can be one or more of a WIFI module, a Bluetooth module, an NB-IOT module, an LORA module and an infrared module, so that information interaction between the intelligent sensor and an external terminal is facilitated;

the monitoring module 5: the system is used for receiving and monitoring information data fed back by the ultrasonic gas concentration and flow detection module 1 and the blood oxygen receiving module 2 in real time, analyzing and judging the oxygen inhalation effect of a user and whether the oxygen inhalation amount needs to be adjusted or not by combining the blood oxygen concentration of the user and the current oxygen output concentration and oxygen output flow of the oxygen generator, adjusting the oxygen output flow of the oxygen generator in real time through the electronic flow meter control module 3, and simultaneously performing information interaction on equipment data of the oxygen output concentration, the oxygen output flow and the like of the oxygen generator, user data of the blood oxygen concentration, pulse and the like of the user and an external terminal through the wireless communication module 4;

when the monitoring module 5 judges that the oxygen output concentration and the oxygen output flow of the oxygen generator are abnormal through analysis and judgment by the ultrasonic gas concentration and flow detection module 1 at the moment, and judges that the oxygen generator breaks down, the abnormality of the oxygen generator is described, the monitoring module 5 can report an error code to an external terminal (namely a cloud server) through the wireless communication module 4 at the moment, and an oxygen generator manufacturer can obtain machine information such as a working log of the corresponding oxygen generator from the cloud server at the moment, so that the product can be better improved, the viscosity of the product and a user can be enhanced, and the after-sale of the oxygen generator manufacturer is facilitated;

when the monitoring module 5 judges through analysis that the oxygen output concentration and the oxygen output flow of the oxygen generator monitored by the ultrasonic gas concentration and flow detection module 1 are abnormal, and meanwhile, the blood oxygen receiving module 2 monitors that the blood oxygen concentration of the user is relatively low, and judges that the oxygen output flow of the oxygen generator needs to be properly adjusted, the monitoring module 5 sends an adjusting instruction to the electronic flow meter control module 3, and the electronic flow meter control module 3 properly adjusts the oxygen output flow of the oxygen generator according to the instruction information of the monitoring module 5, so that the oxygen generator generates the oxygen output flow suitable for the user;

when the monitoring module 5 monitors that the blood oxygen concentration of the user is abnormal through the blood oxygen receiving module 2 and the blood oxygen concentration of the user is still abnormal after being adjusted by the electronic flowmeter control module 3, the monitoring module 5 uploads information to an external terminal (namely, a cloud server) through the wireless communication module 4, and at the moment, the user or a doctor can monitor the oxygen inhalation state of the user in real time from the cloud server to remind the user of abnormal content. During actual installation, the intelligent sensor for the oxygenerator is connected with the oxygenerator mainboard through the winding displacement, realizes power supply and communication.

The utility model has the advantages that: (1) the oxygen output concentration and the oxygen output flow of the oxygen generator and the physiological information of the user such as the blood oxygen concentration and the like can be automatically monitored, the oxygen inhalation flow of the user can be intelligently adjusted by integrating the information, and the oxygen inhalation information of the user and the physiological information of the user such as the blood oxygen and the like capable of reflecting the oxygen inhalation effect are uploaded to the cloud server through the wireless communication module, so that the use is more convenient; (2) the system has comprehensive data analysis capability and can complete information interaction among the oxygenerator, a user, an oxygenerator manufacturer and the like; the user can know the correlation between the current blood oxygen state and the oxygen generator state when inhaling oxygen, so that the abnormal blood oxygen state of the user caused by insufficient air outlet flow of the oxygen generator is avoided; (3) the oxygen generator is convenient to use, and can realize the acquisition and abnormal analysis of the working state of the oxygen generator and the physiological signals of the user even when the user is in a sleep oxygen inhalation state, so that the use safety is high; (4) possess flow intelligent regulation and gather the function that data uploaded the high in the clouds server, user or doctor can follow the high in the clouds server and guardianship user's oxygen uptake state in real time, and the oxygenerator producer also can follow machine information such as the work log of high in the clouds server acquisition correspondence simultaneously, helps better improvement product and reinforcing product and user's viscidity.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. An intelligent sensor for an oxygen generator, characterized in that: the system comprises an ultrasonic gas concentration and flow detection module, a blood oxygen receiving module, an electronic flow meter control module, a wireless communication module and a monitoring module, wherein the monitoring module is simultaneously connected with the ultrasonic gas concentration and flow detection module, the blood oxygen receiving module, the electronic flow meter control module and the wireless communication module;

the blood oxygen receiving module: the blood oxygen concentration and pulse physiological information of the user fed back by the blood oxygen probe in real time are received in real time, and the received blood oxygen concentration and pulse physiological information of the user are fed back to the monitoring module in real time;

the monitoring module: the oxygen absorption device is used for receiving and monitoring information data fed back by the ultrasonic gas concentration and flow detection module and the blood oxygen receiving module in real time, analyzing and judging the oxygen absorption effect of a user by combining the blood oxygen concentration of the user and the current oxygen output concentration and oxygen output flow of the oxygen generator, and judging whether the oxygen absorption amount needs to be adjusted or not, adjusting the oxygen output flow of the oxygen generator in real time through the electronic flow meter control module, and performing information interaction on the oxygen output concentration of the oxygen generator, the oxygen output flow device data, the blood oxygen concentration of the user and pulse user data and an external terminal through the wireless communication module.

2. The intelligent sensor for an oxygen generator as set forth in claim 1, wherein: the wireless communication module is one or more of a WIFI module, a Bluetooth module, an NB-IOT module, an LORA module and an infrared module.

3. The intelligent sensor for an oxygen generator as set forth in claim 1, wherein: the ultrasonic gas concentration and flow detection module is connected in parallel or in series with an oxygen outlet pipeline of the oxygen generator, so that the oxygen outlet concentration and the oxygen outlet flow of the oxygen generator can be detected in real time.

4. The intelligent sensor for an oxygen generator as set forth in claim 1, wherein: the blood oxygen receiving module is connected with the blood oxygen probe used by the user in a wired or wireless mode, so that the blood oxygen concentration and the pulse physiological information of the user fed back by the blood oxygen probe in real time are received in real time.