CN108182763B - Sharing oxygenerator - Google Patents

Abstract

The invention discloses a shared oxygenerator, which comprises an oxygenerator, an oxygenerator local management terminal, an oxygenerator base station management terminal, electronic information input equipment, a background information system, an information collection system and a remote diagnosis and treatment terminal, wherein the oxygenerator local management terminal is connected with the base station management terminal through a network; the system comprises an oxygenerator, an oxygenerator local management end, an information collection system, an electronic information input device, an information collection system and a background information system, wherein the oxygenerator local management end is arranged in the oxygenerator, interacts information with an oxygenerator base station management terminal through the information collection system, and a remote diagnosis and treatment end is connected with the oxygenerator local management end through the information collection system. The shared oxygen generator can automatically realize different working states matched with the physical sign parameters of the user according to the physical sign monitoring result, can realize data sharing and payment of different devices through the client, and realizes the internet of things and big data intellectualization of the oxygen generator.

Description

Sharing oxygenerator

Technical Field

The invention belongs to the field of shared equipment, and particularly relates to a shared oxygen generator.

Background

In modern life, people can easily form a ubiquitous closed oxygen-deficient environment such as an air-conditioned room, a closed automobile, a gymnasium, a pub, a singing hall, an office place, a classroom and the like while improving the living and working environments. For the staff engaged in mental work, such as company staff, students, etc., the oxygen deficiency symptom is easy to appear in the closed oxygen deficiency environment, which causes the problems of low working efficiency, low learning efficiency, etc. At present, most people begin to use the oxygen generator to supplement enough oxygen, and particularly, the working efficiency of employees and the learning efficiency of students can be effectively improved.

However, the existing oxygen generator is poor in combination with the internet, the operation mode is not flexible enough, the function is single, and the use convenience is to be further improved.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a shared oxygen generator.

The shared oxygenerator comprises an oxygenerator, an oxygenerator local management terminal, an oxygenerator base station management terminal, electronic information input equipment, a background information system, an information collection system and a remote diagnosis and treatment terminal;

the system comprises an oxygenerator, an oxygenerator base station management terminal, an information acquisition system, a remote diagnosis and treatment terminal, an information acquisition system, a background information system and a remote diagnosis and treatment terminal, wherein the oxygenerator is internally provided with an oxygenerator local management terminal which interacts information with the oxygenerator base station management terminal through the information acquisition system;

the local management end of the oxygen generator is used for controlling the oxygen generator to complete action instructions input by a user and diagnosis and treatment instructions sent by the remote diagnosis and treatment end, and sending action information fed back by the oxygen generator to the base station management terminal of the oxygen generator through the information collection system;

the base station management terminal of the oxygen generator is used for monitoring the working parameters of each oxygen generator, uploading the parameters to the background information system and realizing information interaction with local management terminals of the oxygen generators in different base stations of the oxygen generator through the client;

the electronic information input equipment is used for being in butt joint with the client to realize electronic payment and information interaction between the client and the local management terminal of the oxygen generator;

the background information system is used for analyzing the working parameters uploaded by the base station management terminal of the oxygen generator and feeding back the analysis result to the base station management terminal of the oxygen generator after storage;

the remote diagnosis and treatment terminal is internally provided with a sign parameter database, the oxygen generator local management terminal uploads sign monitoring parameters of a user detected by the oxygen generator to the remote diagnosis and treatment terminal through the information collection system for parameter matching, and a parameter matching result is sent to the oxygen generator local management terminal.

Furthermore, the local management terminal of the oxygen generator comprises a local terminal wireless communication module, a base station data sharing module, an electronic payment unit, an integrated controller and a plurality of unit execution controllers connected with the integrated controller;

the local management terminal of the oxygen generator is connected with the local management terminals of different oxygen generators of the same base station through a local wireless communication module;

the local management terminals of different oxygen generators of the same base station realize data sharing through a base station data sharing module;

the base station data sharing module realizes information interaction of local management ends of different oxygenerators of different base stations through a background information system;

the electronic payment unit is connected with the APP module and the public number module which are arranged in the integrated controller.

Further, the base station data sharing module includes:

an identity information acquisition module;

a file configuration module;

the network data downloading module is used for downloading the network weighting data and the network configuration data which are encrypted by the public key from the server of the oxygen generator operator;

and the key bank is used for storing a private key matched with the public key of the oxygen generator operator server.

Furthermore, each oxygenerator base station management terminal comprises an oxygenerator base station management terminal server, a wireless communication module and a position locking module, wherein the wireless communication module and the position locking module are respectively connected with the oxygenerator base station management server, and the oxygenerator base station management server is associated with the control node and the operation maintenance node of each oxygenerator base station through the wireless communication module.

Further, the oxygen generator comprises an oxygen generation module, an atomization module and a physical sign monitoring module which are connected with a unit execution controller at the local management end of the oxygen generator;

the physical sign detection module comprises an auscultation head, a body temperature monitoring module, a pulse monitoring module, a muscle tension monitoring module and a brain wave sensing module;

the brain wave sensing module comprises: a multi-brain wave processing unit and a plurality of brain wave sensors configured to detect brain waves of a user wearing the brain wave detecting device and generate brain wave signals when in use.

Further, the network data downloading module comprises:

the data interception repeater component is connected with the oxygenerator base station management terminal server, and performs lossless or lossy compression after nondestructively intercepting data information in the oxygenerator base station management terminal server;

and the network security transmission component is connected with the data interception repeater component and is used for decrypting and encrypting the data information received from the data interception repeater component.

The shared oxygen generator can automatically realize different working states matched with the physical sign parameters of the user according to the physical sign monitoring result, can realize data sharing and payment of different devices through the client, and realizes the internet of things and big data intellectualization of the oxygen generator.

Drawings

Fig. 1 is a schematic structural diagram of a shared oxygen generator provided in an embodiment of the present invention;

in the figure: 1. an oxygen generator; 1-1, an oxygen generation module; 1-2, an atomization module; 1-3, a physical sign monitoring module; 1-3-1, a stethoscope head; 1-3-2, a body temperature monitoring module; 1-3-3, a pulse monitoring module; 1-3-4, a muscle tension monitoring module; 1-3-5, a brain wave sensing module; 2. a local management terminal of the oxygen generator; 2-1, a local end wireless communication module; 2-2, a base station data sharing module; 2-3, an electronic payment unit; 2-4, integrating a controller; 2-5, a unit execution controller; 3. an oxygenerator base station management terminal; 4. an electronic information entry device; 5. a background information system; 6. an information collection system; 7. remote diagnosis and treatment terminal.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

The structure of the present invention will be described in detail below with reference to the accompanying drawings.

A shared oxygenerator comprises an oxygenerator 1, an oxygenerator local management terminal 2, an oxygenerator base station management terminal 3, an electronic information input device 4, a background information system 5, an information collection system 6 and a remote diagnosis and treatment terminal 7;

an oxygenerator local management end 2 is arranged in the oxygenerator 1, the oxygenerator local management end 2 interacts information with an oxygenerator base station management terminal 3 through an information collection system 6, an electronic information input device 4 is installed on the oxygenerator local management end 2, the oxygenerator base station management terminal 3 interacts information with a background information system 5 through the information collection system 6, and a remote diagnosis and treatment end 7 is connected with the oxygenerator local management end 2 through the information collection system 6;

the local oxygen generator management terminal 2 is used for controlling the oxygen generator 1 to complete an action instruction input by a user and a diagnosis and treatment instruction sent by the remote diagnosis and treatment terminal 7, and sending action information fed back by the oxygen generator 1 to the oxygen generator base station management terminal 3 through the information collection system 6;

the base station management terminal 3 of the oxygen generator is used for monitoring the working parameters of each oxygen generator 1, uploading the parameters to the background information system 5 and realizing information interaction with the local management terminal 2 of the oxygen generators in different base stations of the oxygen generators through the client;

the local management terminal 2 of the oxygen generator, the base station management terminal 3 of the oxygen generator, the electronic information input device 4, the background information system 5, the information collection system 6 and the telemedicine terminal 7 adopt a Browser/Server system (Browser/Server is abbreviated as B/S) structure, a user sends a request to a Server of each module through a mobile client or a Browser built in the oxygen generator, the Server processes the request of the Browser and returns information required by the user to the Browser, and other work such as data request, processing, result return, dynamic webpage generation, access to a database, execution of an application program and the like are all completed by a Web Server.

The electronic information input equipment 4 is used for being in butt joint with the client to realize electronic payment and information interaction between the client and the local management terminal 2 of the oxygen generator, and the electronic information input equipment can adopt a GPRS wireless data transmission module to provide a wireless long-distance data transmission function for a user by utilizing a GPRS network;

the background information system 5 is used for analyzing the working parameters uploaded by the base station management terminal 3 of the oxygen generator and feeding back the analysis result to the base station management terminal 3 of the oxygen generator after storage;

the remote diagnosis and treatment terminal 7 is internally provided with a sign parameter database, the oxygen generator local management terminal 2 uploads sign monitoring parameters of a user detected by the oxygen generator to the remote diagnosis and treatment terminal 7 through the information collection system 6 for parameter matching, and a parameter matching result is sent to the oxygen generator local management terminal 2.

When the physical sign parameter database is designed, a three-layer C/S system structure can be adopted: namely CLIENT, middle tier (application SERVER) and SERVER. The SERVER layer is a data layer, stores and manages various client service information, encapsulates access to a database, and is a uniform interface for accessing other data sources by a system. The physical device corresponding to the data layer is a database server, and a high-performance PCSERVER server can be adopted. The system can be divided into two subsystems of a client system and a server system. In order to be suitable for different computer operating systems, the client system is realized by using a JavaAPPLET program and runs on a client WWW browser. The server end system is realized by JAVAapplication program and runs in a computer system where the WWW server is located. The doctor accesses the patient's database to obtain a diagnosis report through the client system using the interactive remote consultation system.

The local management terminal 2 of the oxygen generator comprises a local terminal wireless communication module 2-1, a base station data sharing module 2-2, an electronic payment unit 2-3, an integrated controller 2-4 and a plurality of unit execution controllers 2-5 connected with the integrated controller 2-4;

each oxygenerator has a unique two-dimensional code, if the machine can not be connected with WIFI normally for working, a user can automatically prompt that the machine has a fault and can not be used for payment by scanning the two-dimensional code with a mobile phone, when the machine is powered on normally, guests scan the two-dimensional code with the mobile phone to enter a public number, the public number has a time-length selection picture for use, the machine can be started for use normally after clicking payment successfully after the user selects the machine, the machine enters countdown for working, the machine stops working after the time is up, if the machine stops temporarily in the using process, the timing work is continued after restarting, a plurality of mobile payment modes such as WeChat and Paibao can be adopted for payment after the work is finished, a background information system can inquire the machine using condition of each oxygenerator base. The background information system can set different prices for the machines in different areas, can modify the charging standard of each time length at any time, and can set preferential date and price of the promotion activity. The machine can be continuously used accumulatively after power is suddenly cut off and power is supplied, and the machine can be automatically reset when the machine is not used for more than a certain number of hours.

The local oxygen generator management terminal 2 is connected with different local oxygen generator management terminals 2 of the same base station through a local terminal wireless communication module 2-1;

the local management terminals 2 of different oxygen generators of the same base station realize data sharing through the base station data sharing module 2-2;

the base station data sharing module 2-2 realizes information interaction of different oxygenerator local management terminals 2 of different base stations through a background information system 5;

the electronic payment unit 2-3 is connected with the APP module and the public number module which are arranged in the integrated controller 2-4.

The user who logs in for use can generate a shared login code through the APP module, and services such as data sharing, electronic payment and the like can be realized by sharing the shared login code with different oxygenerator users of the same base station or different oxygenerator users of different base stations;

the unit execution controller 2-5 connected with the integrated controller 2-4 controls the action of an execution mechanism in the oxygenerator by reading the parameter matching result of the remote diagnosis and treatment end 7 so as to adjust different oxygen supply quantity, oxygen supply pressure and oxygen supply time, and can also add related therapeutic drugs into the atomization module to realize atomization therapy, such as asthma, cough and the like, and the integrated controller and the unit execution controller are realized by adopting an embedded framework;

the base station data sharing module 2-2 comprises:

an identity information acquisition module;

a file configuration module;

the network data downloading module is used for downloading the network weighting data and the network configuration data which are encrypted by the public key from the server of the oxygen generator operator;

and the key bank is used for storing a private key matched with the public key of the oxygen generator operator server.

Each oxygenerator base station management terminal 3 comprises an oxygenerator base station management terminal server, and a wireless communication module and a position locking module which are respectively connected with the oxygenerator base station management server, and the oxygenerator base station management server is associated with the control node and the operation maintenance node of each oxygenerator base station through the wireless communication module.

The oxygen generator 1 comprises an oxygen generation module 1-3-1, an atomization module 1-3-2 and a physical sign monitoring module 1-3-3 which are connected with a unit execution controller 2-5 of the local management end 2 of the oxygen generator;

the physical sign detection module comprises an auscultation head 1-3-1, a body temperature monitoring module 1-3-2, a pulse monitoring module 1-3-3, a muscle tension monitoring module 1-3-4 and a brain wave sensing module 1-3-5;

the brain wave sensing module comprises a plurality of brain wave sensors which are configured to detect brain waves of a user wearing the brain wave detection device when in use and generate brain wave signals, a brain wave processing unit which is used for amplifying and filtering the collected analog brain wave signals to obtain analog brain wave signals including α waves, β waves, theta waves and delta waves within the range of 0.5Hz-100Hz, carrying out analog-to-digital conversion on the analog brain wave signals to obtain Fourier spectrums of α waves, β waves, theta waves and delta waves respectively after carrying out Fourier transform on the analog brain wave signals to digital brain wave signals, and transforming the signals from a spatial domain to a frequency domain, carrying out Keyzing window processing on the digital brain wave signals including α waves, β waves, theta waves and delta waves, and obtaining index parameters of the brain wave signals through amplitude analysis, time domain analysis and frequency domain analysis.

The network data downloading module comprises:

the data interception repeater component is connected with the oxygenerator base station management terminal server, and performs lossless or lossy compression after nondestructively intercepting data information in the oxygenerator base station management terminal server;

and the network security transmission component is connected with the data interception repeater component and is used for decrypting and encrypting the data information received from the data interception repeater component.

Random number rkey generated by oxygen generator operator server_idComputing its corresponding public key rPK using an elliptic curve cryptography algorithm_id，rPK_id=rkey_idX G, G is an elliptic curveWill rPK_idAnd the user identification UID is externally sent, and the key generation system generates a random number rkey_KMCComputing its corresponding public key rPK using an elliptic curve cryptography algorithm_KMCWherein, rPK_KMC=rkey_KMCX G, and is recorded as gamma_id=rPK_id＋rPK_KMC;

Computing an identity private key using a user identity UID_idAnd an identification public key R_idThe method specifically comprises the following steps:

generating a private key matrix and a public key matrix, wherein the private key matrix and the public key matrix are m multiplied by h, and m and h are positive integers;

calculating a hash value of the user identifier UID by using a hash algorithm by using the user identifier UID, dividing the hash value into m sections, and using the m sections as column mapping values map [ i ], i =0,1,2.... m-1 of a private key matrix and a public key matrix;

and (3) calculating:

r_i,map[i]is an element in the private key matrix;

X_i,map[i]is an element in the public key matrix;

n is the order of the elliptic curve.

The shared oxygen generator can automatically realize different working states matched with the physical sign parameters of the user according to the physical sign monitoring result, can realize data sharing and payment of different devices through the client, and realizes the internet of things and big data intellectualization of the oxygen generator.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims (5)

1. A shared oxygenerator is characterized by comprising an oxygenerator, an oxygenerator local management terminal, an oxygenerator base station management terminal, electronic information input equipment, a background information system, an information collection system and a remote diagnosis and treatment terminal; the system comprises an oxygenerator, an oxygenerator base station management terminal, an information acquisition system, a remote diagnosis and treatment terminal, an information acquisition system, a background information system and a remote diagnosis and treatment terminal, wherein the oxygenerator is internally provided with an oxygenerator local management terminal which interacts information with the oxygenerator base station management terminal through the information acquisition system;

the local management end of the oxygen generator is used for controlling the oxygen generator to complete action instructions input by a user and diagnosis and treatment instructions sent by the remote diagnosis and treatment end, and sending action information fed back by the oxygen generator to the base station management terminal of the oxygen generator through the information collection system;

the base station management terminal of the oxygen generator is used for monitoring the working parameters of each oxygen generator, uploading the parameters to the background information system and realizing information interaction with local management terminals of the oxygen generators in different base stations of the oxygen generator through the client;

the electronic information input equipment is used for being in butt joint with the client to realize electronic payment and information interaction between the client and the local management terminal of the oxygen generator;

the background information system is used for analyzing the working parameters uploaded by the base station management terminal of the oxygen generator and feeding back the analysis result to the base station management terminal of the oxygen generator after storage;

the remote diagnosis and treatment terminal is internally provided with a sign parameter database, the oxygen generator local management terminal uploads sign monitoring parameters of a user detected by the oxygen generator to the remote diagnosis and treatment terminal through the information collection system for parameter matching, and a parameter matching result is sent to the oxygen generator local management terminal;

the local management terminal of the oxygen generator comprises a local terminal wireless communication module, a base station data sharing module, an electronic payment unit, an integrated controller and a plurality of unit execution controllers connected with the integrated controller;

the local management terminal of the oxygen generator is connected with the local management terminals of different oxygen generators of the same base station through a local wireless communication module;

the local management terminals of different oxygen generators of the same base station realize data sharing through a base station data sharing module;

the base station data sharing module realizes information interaction of local management ends of different oxygenerators of different base stations through a background information system;

the electronic payment unit is connected with the APP module and the public number module which are arranged in the integrated controller.

2. The shared oxygen generator of claim 1, wherein the base station data sharing module comprises: an identity information acquisition module;

a file configuration module;

the network data downloading module is used for downloading the network weighting data and the network configuration data which are encrypted by the public key from the server of the oxygen generator operator;

and the key bank is used for storing a private key matched with the public key of the oxygen generator operator server.

3. The shared oxygen generator of claim 2, wherein each oxygen generator base station management terminal comprises an oxygen generator base station management terminal server and a wireless communication module and a position locking module respectively connected with the oxygen generator base station management terminal server, and the oxygen generator base station management terminal server is associated with the control node and the operation maintenance node of each oxygen generator base station through the wireless communication module.

4. The shared oxygen generator of claim 1, wherein the oxygen generator comprises an oxygen generation module, an atomization module, and a physical sign monitoring module connected to a unit execution controller at a local management end of the oxygen generator;

the physical sign monitoring module comprises an auscultation head, a body temperature monitoring module, a pulse monitoring module, a muscle tension monitoring module and a brain wave sensing module;

the brain wave sensing module includes: the electroencephalogram processing unit and the plurality of electroencephalogram sensors are configured to detect electroencephalograms of a user wearing the electroencephalogram detection device when in use and generate electroencephalogram signals.

5. The shared oxygen generator of claim 3, wherein the network data download module comprises:

the data interception repeater component is connected with the oxygenerator base station management terminal server, and performs lossless or lossy compression after nondestructively intercepting data information in the oxygenerator base station management terminal server;

and the network security transmission component is connected with the data interception repeater component and is used for decrypting and encrypting the data information received from the data interception repeater component.

Images