CN210764321U - Oxygen generation system with intelligent data monitoring self-adjusting and self-adapting functions - Google Patents

Abstract

The utility model relates to an oxygen system with intelligent data monitoring self-interacting self-adaptation function belongs to the oxygenerator field. The system is provided with a system controller, a frequency conversion/pressure transformation control unit, an air compression unit and an oxygen generation adsorption tower, wherein the system controller transmits control data after operation to the frequency conversion/pressure transformation control unit, the frequency conversion/pressure transformation control unit controls the air compression unit to output gas of an air source interface to the oxygen generation adsorption tower, and is characterized in that a signal input end of the system controller is connected with an environmental parameter monitoring sensor which is used for monitoring environmental temperature, humidity and altitude data, and simultaneously the system controller also outputs a control signal to an oxygen generation process control system which outputs a signal to control the desorption and adsorption oxygen generation process time of the oxygen generation adsorption tower, oxygen generated by the oxygen generation adsorption tower is transmitted to an oxygen storage unit/pipeline, and an oxygen concentration analyzer transmits the concentration data of the generated oxygen to the system controller, the system controller is also connected with a communication and power interface.

Description

Oxygen generation system with intelligent data monitoring self-adjusting and self-adapting functions

Technical Field

The utility model relates to an oxygenerator field, in particular to an oxygenerator system with intelligent data monitoring self-interacting self-adaptation function.

Background

As is well known, the urban area of the plateau in China occupies more than 25 percent of the national area of China, and more people travel or go on business to the Qinghai-Tibet plateau along with the construction of the Qinghai-Tibet railway and the vigorous development of the nation in recent years. And the population living in plain areas will have altitude reaction, i.e. altitude disease, when the altitude reaches more than 3000 m. The mild altitude disease causes headache, limb weakness, heart deficiency and short breath, and the severe altitude disease causes fatal reactions such as high altitude cerebral edema, pulmonary edema and the like, and finally dies. The most effective method for avoiding altitude sickness and relieving altitude reaction is to use an oxygen generator to absorb oxygen. The oxygen generators in the current market are divided into plain machines and plateau machines. The oxygen generator in plain is used for health care oxygen inhalation at altitude of 2000 m or below 2500 m, the plateau model is designed aiming at altitude of plateau and is generally used at altitude of 2500 m or above 3000 m, for people who frequently go back and forth, the oxygen generator in plain is brought to plateau for use, the oxygen concentration and the output both do not meet the standard requirements, and the oxygen inhalation effect is influenced. After the plateau model is brought to the plain, the valve body and the like burst due to the problems of air supply and the like of the compressor, and the compressor fails and cannot be normally used for a long time. Finally, the impression that the reliability of the oxygen generator is too poor is brought to users, and the normal healthy development of the industry of the oxygen generator is influenced.

Disclosure of Invention

In order to overcome the not enough of prior art, the utility model provides an oxygen system with self-interacting self-adaptation, through monitoring temperature, humidity, height above sea level environmental data after, according to the operating condition of each part in temperature, humidity, the height above sea level data automatic adjustment system and the switching time isoparametric of absorption system oxygen, the operating parameter who ensures oxygen system carries out autonomic adjustment at local height above sea level, avoids breaking down.

The utility model provides a technical scheme that its technical problem adopted is: a self-adjusting self-adapting oxygen making system is provided with a system controller, a frequency conversion/pressure transformation control unit, an air compression unit and an oxygen making adsorption tower, wherein the system controller transmits the control data after operation to the frequency conversion/pressure transformation control unit which controls the air compression unit to output the gas of a gas source interface to the oxygen making adsorption tower, and is characterized in that the signal input end of the system controller is connected with an environmental parameter monitoring sensor which is used for monitoring environmental temperature, humidity and altitude data and simultaneously outputs a control signal to an oxygen making process control system which outputs a signal to control the desorption and adsorption oxygen making process time of the oxygen making adsorption tower, oxygen generated by the oxygen making adsorption tower is transmitted to an oxygen storage unit/pipeline, an oxygen concentration analyzer transmits the concentration data of the generated oxygen to the system controller, the system controller is also connected with a communication and power interface.

The utility model discloses still can realize through following measure: the communication and power supply interface and the air source interface are connected with the interface of the expansion unit, the expansion unit is provided with the communication interface, the communication interface is connected with the system controller, the system controller transmits data to the communication control unit, the communication control unit controls the expansion unit air compression unit in the expansion unit to start and stop, and after the expansion unit air compression unit is started, the generated compressed air is connected with the air source interface through the air source interface of the expansion unit. The system controller controls the sewage draining device to drain water separated from the compressed air by the air compression unit and the expansion unit.

The beneficial effects of the utility model are that, through presetting of data, can normally work in plain area, when plateau district installation, do not need professional debugging personnel, equipment can carry out parameter adjustment according to ambient condition automatically, has saved manufacturing factory's human cost.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

In the figure, 1, an environmental parameter monitoring sensor, 2, a system controller, 3, a frequency conversion/pressure change control unit, 4, an air compression unit, 5, an oxygen generation process control system, 6, an oxygen generation adsorption tower, 7, an oxygen concentration analyzer, 8, an oxygen storage unit/pipeline, 9, a communication and power supply interface, 10, an air source interface, 11, an expansion unit, 12, a communication interface, 13, a communication control unit, 14, an expansion unit air compression unit, 15, an expansion unit air source interface and 16, a sewage discharge device.

Detailed Description

In the figure, the utility model discloses environmental parameter monitoring sensor 1 is used for monitoring data such as ambient temperature, humidity, height above sea level to in data input system controller 2, system controller 2 carries the control data after the operation to frequency conversion/vary voltage control unit 3, and frequency conversion/vary voltage control unit 3 control air compression unit 4 outputs the gas of suitable flow and pressure for making oxygen adsorption tower 6; meanwhile, the system controller 2 also outputs control signals to the oxygen generation process control system 5, and the oxygen generation process control system 5 controls the oxygen generation process time of desorption, adsorption and the like of the oxygen generation adsorption tower 6 according to the signal requirements; oxygen generated by the oxygen generation adsorption tower 6 is sent to an oxygen storage unit/pipe 8, and the concentration data of the generated oxygen is sent to the system controller 2 through an oxygen concentration analyzer 7. For small oxygen making equipment, in order to facilitate automatic switching between plains and highlands, an interface of an expansion unit 11 is reserved on the equipment main body and is in butt joint with a communication and power supply interface 9 and an air source interface 10. The expansion unit 11 is provided with a communication interface 12, the communication interface 12 is connected with the system controller 2 and transmits data to a communication control unit 13, the communication control unit 13 controls the expansion unit air compression unit 14 in the expansion unit 11 to start and stop, after the expansion unit air compression unit 14 is started, the generated compressed air is connected with an air source interface 10 of the host machine through an expansion unit air source interface 15 and is used for supplementing the plateau produced air of the air compression unit 4, and a sewage discharge device 16 is used for discharging water separated from a compressed air system.

When the environmental data acquisition monitoring sensor 1 transmits detected data into the system controller 2, the system controller 2 reads the data and compares the data with preset data, and when the environmental data is detected to be changed, the system is adjusted, for example, when the altitude change is detected (usually, the system controller 2 is designed to make a change every 500 meters when the altitude exceeds 2000 meters), the system controller 2 outputs signals to the frequency conversion/voltage transformation control unit 3 and the oxygen production process control system 5 respectively. The air compression unit 4 and the oxygen making adsorption tower 6 work under the optimal operation environment by adjusting the operation data of the variable frequency/variable pressure control unit 3 and the oxygen making process control system 5. Meanwhile, the system controller 2 continuously reads the oxygen concentration data of the oxygen storage unit/pipeline 8 from the oxygen concentration analyzer 7, and the working state of the system can be monitored in time.

When the small-sized movable or portable oxygen generating system is used for a plateau system, and the air compression unit 4 still cannot meet the requirement when working at full load, the plateau expansion unit 11 can be added, and the added expansion unit air compression unit 14 is controlled to supplement air for the original air compression unit 4 through the communication with the system controller 2, so that the air supply requirement of the system is finally met.

When the environmental data acquisition monitoring sensor 1 detects that the ambient temperature is too high, if still continue to use and can influence the life-span of equipment, equipment can send the chimes of doom, reminds the user to pay attention to automatic shutdown system after certain time.

When environmental data acquisition monitoring sensor 1 monitored ambient temperature and was low excessively, the water of separation can freeze after the air supply compression in the system, and leads to the dewatering not thorough or block up the pipeline, and leads to equipment to damage, can be through reminding automatic shutdown behind the user, or increase the use of auxiliary heating accessory in order to be fit for low temperature environment.

When the environmental data acquisition monitoring sensor 1 monitors that the environmental humidity is too high, the starting period of the sewage draining device 16 can be automatically shortened so as to accelerate the separation and discharge of water after air compression.

When the environmental data acquisition monitoring sensor 1 monitors that the environmental humidity is lower than the set value, the start-up of the sewage draining device 16 can be prolonged or even closed, so that the waste of compressed air while discharging the waste water is saved.

When the device is used in practice, the temperature, the humidity and the altitude of a use environment can be automatically and intelligently switched through data real-time monitoring and the built-in formula programs under different conditions, and the whole system has no devices or factors harmful to human bodies.

In use, whether the plateau expansion unit 11 (including the communication interface 12, the communication control unit 13, the expansion unit air compression unit 14 and the expansion unit air source interface 15) is used or not can be adjusted and selected according to the actual altitude and the model of the user.

Claims (3)

1. An oxygen generation system with intelligent data monitoring self-adjusting self-adapting function, which is provided with a system controller, a frequency conversion/pressure transformation control unit, an air compression unit and an oxygen generation adsorption tower, wherein the system controller transmits the control data after operation to the frequency conversion/pressure transformation control unit which controls the air compression unit to output the gas of an air source interface to the oxygen generation adsorption tower, and is characterized in that the signal input end of the system controller is connected with an environmental parameter monitoring sensor which is used for monitoring environmental temperature, humidity and altitude data, and simultaneously the system controller also outputs a control signal to an oxygen generation process control system which outputs a signal to control the desorption and adsorption oxygen generation process time of the oxygen generation adsorption tower, oxygen generated by the oxygen generation adsorption tower is transmitted to an oxygen storage unit/pipeline, and an oxygen concentration analyzer transmits the concentration data of the generated oxygen to the system controller, the system controller is also connected with a communication and power interface.

2. The oxygen generation system with the intelligent data monitoring self-adjustment self-adaptation function as claimed in claim 1, wherein the communication and power supply interface and the air supply interface are connected with interfaces of the expansion unit, the expansion unit is provided with a communication interface, the communication interface is connected with the system controller, the system controller transmits data to the communication control unit, the communication control unit controls the expansion unit air compression unit in the expansion unit to start and stop, and after the expansion unit air compression unit is started, the generated compressed air is connected with the air supply interface through the air supply interface of the expansion unit.

3. The oxygen generation system with intelligent data monitoring and self-adjusting self-adaptive function as claimed in claim 1 or 2, wherein the system controller controls the sewage discharge device to discharge water separated from the compressed air by the air compression unit and the expansion unit.

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