Next, the technical solutions in the embodiments of the present invention will be apparent from the embodiment of the present invention, and it is clearly described, and it is understood that the described embodiments are merely embodiments of the present invention, not all of the embodiments. Based on the embodiments in the present invention, those of ordinary skill in the art will belong to the scope of the present invention in the scope of the present invention without any other embodiments obtained without creative labor.
 See figure 1 As shown, the present invention is an intelligent hyperbaric health care system based on physical training, including intelligent hypoxic generating devices, multimedia interactive control devices, cloud analysis platforms, open masks, and physiological index detection devices.
 Intelligent hypoxic generating device includes air filter, air compressor, compressed air storage tank, fine filter equipment, electronically controlled valve, heater, membrane separation unit, regulated gas storage tank, control valve And flow meter; the output of the flow meter is connected to the open mask; a heat sink is mounted on the line between the air compressor and the compressed air storage tank; the heat sink is used to dissipate the air compressor during compressed air. Heat; low oxygen concentration detecting device on the regulator gas storage tank; a pressure gauge is installed on the electrical control valve;
 The working principle of the intelligent hypoxic generating device is as follows: Turn on the power switch of the intelligent hypoxic generator, the air compressor starts, and the external air is pressed by the air filter, and the air compressor is compressed to form high pressure air to be stored to the compressed air storage. In the gas tank, the fine filter equipment further filters further filtration in high pressure air; connecting the pressure gauge on the conduit for the time to monitor the gas pressure in the conduit, and the high pressure air is input to the membrane separation. The unit is separated, and the product gas is collected into the regulator gas storage tank to be used; at the same time, the low oxygen gas concentration detecting means detects the oxygen concentration of the steady pressure gas storage tank, and in the gas storage tank When the oxygen concentration is greater than the preset value, the nitrogen generator is activated into nitrogen into the regulator gas storage tank until the oxygen concentration in the regulator gas storage tank reaches the preset value.
 Intelligent hypoxia generating device is in use: the user's face is on the open mask, and the pipelines the pipelines, the control valve on the pipe, controls the flow rate of low oxygen in the gas storage tank, and put the pipe The flowmeter time monitors the flow rate of low oxygen to continuously input the low oxygen input to the mask for use, and the compensation sac is attached to the open mask, and the compensation cap can be taken into the native, the exhaled gas enters the compensation blade and stores And when the human body is inhaled, the product can be replenished in time in time; avoid waste of product gas, reducing training costs.
 The physiological index testing device is fixedly installed on the trainer, which is used to detect the physical indicators of the physical training under low oxygen.
 The output of the multimedia interactive control device is electrically connected to the electrical control valve, a heater, a membrane separation unit and a control valve;
 The cloud analysis platform is used to collect work data of intelligent hypoxia generating devices and the physiological indicators data of trained personnel, and statistical analysis.
 The Working principle of the cloud analysis platform is as follows: The cloud analysis platform receives the upload of the intelligent hypoxic generating device, and the physiological index detection device uploads the physiological indicators data of the training personnel. The cloud analysis platform is cleaned to the uploaded data, remove extra , Abnormal data, training big data analysis, generate training programs with expert library system; when the next user receives training, the cloud analysis platform calls the user's training method, controlling the proportion of intelligent hypoxia generating devices to penetrate nitrogen oxygen. User training is used, or made into a tank for users to use. The present invention adopts the personal mask air supply method, which can accurately control the proportion of nitrogen ingredients of the output product gas, easy to carry, to avoid the mixing of the fixed hypoxic indoor training gas, the low oxygen index control accuracy, and repeat the human body exhalation Carbon dioxide, is not conducive to human physiological and health, and energy consumption.
 Among them, the open mask is provided with a compensation capable in which the product gas can be stored; the compensation cap can be taken into the compensation blance and store it in the human body, and when the human body is inhaled, the product can be replenished in time. Human body suction.
 Among them, the regulator gas storage tank is also connected to nitrogen generator; low oxygen concentration detecting device is used to detect oxygen concentrations in the gas storage tank, when the oxygen concentration is greater than the preset value, activate nitrogen generation mechanism to regulating Nitrogen gas in the gas storage tank to reduce the oxygen concentration in the regulator gas storage tank.
 Among them, the cloud analysis platform acquires the work data of intelligent hypoxic generating devices and the physical indicators of the training personnel, and screened and analyzes the summary data through artificial intelligence algorithms, and the physical training guidance scheme is obtained. The specific steps are as follows:
Step S1: The cloud analysis platform collects user basic data, physiological data, and low oxygen generating units;
 Step S2: Judging whether the acquired data is useful data;
 Step S3: Cleaning the data to get useful data and store;
 Step S4: Call the expert library system for training big data analysis, generate training programs;
 Step S5: Push the training scheme to the multimedia interactive control device.
 Wherein, the membrane separation unit is a hollow fiber membrane; the hollow fiber membrane is used to control the oxygen partial pressure when the product gas passes through the hollow fiber membrane.
 It is worth noting that in the above system embodiment, the respective units included are divided according to functional logic, but is not limited to the above-described division, as long as the corresponding function can be achieved; in addition, the specific name of each function unit It is also only for convenience of distinguishing between each other and is not intended to limit the scope of the invention.
 In addition, one of ordinary skill in the art will appreciate that all or some of the steps in the above-described embodiments are hardware that can be correlated by the program to direct instructions, and the corresponding programs can be stored in a computer readable storage medium.
 The preferred embodiments of the present invention disclosed above are merely used to help illustrate the invention. The preferred embodiment does not detail all details, nor does not limit the embodiments of the invention. Obviously, according to the content of this specification, many modifications and changes can be made. These embodiments are selected and specifically described in this specification, in order to better explain the principles and practical applications of the present invention, so that those skilled in the art can understand and utilize the present invention well. The present invention is only limited by the claims and the entire range and equivalents.