CN104906671A - Self-adaptive altitude stress eliminating system - Google Patents

Abstract

The invention discloses a self-adaptive altitude stress eliminating system. The self-adaptive altitude stress eliminating system comprises a pressurizing device, cavities, a inhaling device, a user state acquiring module, a reference database and a control unit, wherein the cavities are connected with the pressurizing device and the inhaling device, the control unit is connected with the user state acquiring module and the reference database, a reference value of a corresponding oxygen inhaling amount of user state information is stored in the reference database, the user stat acquiring module is used for acquiring set information of a user, and the control unit is used for acquiring user information of the user state acquiring module and controlling the oxygen inhaling amount according to the reference database. The self-adaptive altitude stress eliminating system is capable of controlling oxygen supply according to the user state and increasing comfort for the user.

Description

A kind of self adaptation altitude sickness eliminates system

Technical field

The invention belongs to portable inhalation device technical field, relate to a kind of pressure charging system, particularly relate to a kind of self adaptation altitude sickness and eliminate system.

Background technology

On plateau due to rarefaction of air, a lot of people has altitude sickness.The various pathologic reactions that altitude sickness produces after to be that human body is radical be exposed to hypobaric hypoxia environment are the exclusive commonly encountered diseases in highlands.Common symptom has headache, insomnia, and loss of appetite is tired, dyspnea etc.Headache is modal symptom, be often forehead and pair temples jumping pain, night or morning WA pain increase the weight of.Pulmonary ventilation increases as used mouth breathing, and gentle activity etc. can make headache alleviate.

Chinese patent 200610104868.1 discloses a kind of portable and convenient type high-altitude breathing oxygen enhancing apparatus and application thereof, this device long-time continuous can provide oxygen supplement in cold environments, round-the-clockly can use, by the improvement to face shield, can further improve the oxygenation effect of human body high-altitude breathing.This oxygen-increasing device comprises face shield, automatic aerator and buffering conduit, described automatic aerator comprise a supercharger, one to be electrically connected with supercharger and by the power supply of on-off control, the inlet communication air of described supercharger, one end of outlet buffering conduit, the other end of buffering conduit is communicated with face shield, be characterized in, when ambient temperature is lower than-18 DEG C, battery can be taken off from battery compartment, after connecting extension lead, battery can be put into human body underwear position, utilize body temperature to keep battery to power continuously.The program from the effect to a certain degree serving oxygen supplement, but exports and automatically cannot regulate according to different crowd.

In view of this, nowadays eliminating system in the urgent need to designing a kind of new self adaptation altitude sickness, overcoming the above-mentioned defect of existing pressure charging system.

Summary of the invention

Technical problem to be solved by this invention is: provide a kind of self adaptation altitude sickness to eliminate system, can control the supply of oxygen, improve the comfort level of user according to the state of user.

For solving the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of self adaptation altitude sickness eliminates system, and described system comprises: control unit, pressurizer, at least two cavitys, suction apparatus, and each cavity is connected with pressurizer, suction apparatus respectively by pipeline and valve;

Described system also comprises: valve positioner, environment information acquisition module, User Status acquisition module, cavity environment parameter acquisition module, reference database; Control unit connects pressurizer, valve positioner, environment information acquisition module, User Status acquisition module, reference database respectively;

The reference value of storage environment information, the corresponding oxygen suction volume of user state information in described reference database;

Described environment information acquisition module, in order to obtain the ambient parameter of periphery, comprises height above sea level, temperature, air pressure, humidity; Described environment information acquisition module comprises altitude sensor, barometric pressure sensor, Dynamic Oxygen partial pressure sensor;

Described User Status acquisition module is in order to obtain body temperature, palmic rate, respiratory frequency, the blood oxygen saturation of user; User Status acquisition module comprises body temperature trans, palmic rate sensor, respiratory frequen, oximetry sensor;

Described cavity environment parameter acquisition module is in order to obtain temperature, pressure, the partial pressure of oxygen in cavity;

Described valve positioner is in order to ambient parameter, the information of User Status acquisition module acquisition, the information of cavity environment parameter acquisition module acquisition of environmentally data obtaining module acquisition, corresponding oxygen suction volume is selected from reference database, thus control unlatching or the closedown of each valve, if open, control it and open size;

When oxygen index in a certain cavity meets the requirements, by this cavity for user provides oxygen, pressurizer is that this cavity is or/and other cavity superchargings; When oxygen index in this cavity is undesirable, by switch valve, by other cavitys for user provides oxygen, this cavity, as treating supercharging cavity, waits for that pressurizer is its supercharging;

Described control unit obtains height above sea level by described altitude sensor, the oxygen content in blood is obtained by Dynamic Oxygen partial pressure sensor, measured the oxygen carrying capacity of respective user hemoglobin by oximetry sensor, obtain ambient temperature by temperature sensor; Then in conjunction with the working strength of Data Control pressurizer corresponding in reference database, control corresponding valve opening size by valve positioner simultaneously.

A kind of self adaptation altitude sickness eliminates system, and described system comprises: pressurizer, cavity, suction apparatus, parameter acquisition module, control unit;

Described cavity connects pressurizer, suction apparatus respectively; Control unit is Connecting quantity acquisition module respectively;

Described parameter acquisition module in order to obtain external environment or/and the set information of user; The external environment that control unit obtains according to parameter acquisition module is or/and user information control oxygen suction volume.

As a preferred embodiment of the present invention, described system also comprises reference database, stores the reference value of the corresponding oxygen suction volume of user state information in described reference database;

Described control unit connects reference database, the external environment that control unit obtains according to parameter acquisition module or/and user profile, in conjunction with reference database control oxygen suction volume.

As a preferred embodiment of the present invention, described parameter acquisition module comprises User Status acquisition module, in order to obtain body temperature, palmic rate, the respiratory frequency of user.

As a preferred embodiment of the present invention, described system comprises at least two cavitys;

When oxygen index in a certain cavity meets the requirements, by this cavity for user provides oxygen, pressurizer is that this cavity is or/and other cavity superchargings; When oxygen index in this cavity is undesirable, by switch valve, by other cavitys for user provides oxygen, this cavity, as treating supercharging cavity, waits for that pressurizer is its supercharging.

As a preferred embodiment of the present invention, described cavity is connected with pressurizer, suction apparatus respectively by pipeline and valve, and described system also comprises the valve positioner be connected with control unit;

The information of described valve positioner in order to obtain according to User Status acquisition module, selects corresponding oxygen suction volume, thus controls unlatching or the closedown of each valve from reference database, if open, controls it and opens size.

As a preferred embodiment of the present invention, described parameter acquisition module comprises environment information acquisition module;

Described environment information acquisition module, in order to obtain the ambient parameter of periphery, comprises height above sea level, temperature, air pressure, humidity;

The reference value of storage environment information, the corresponding oxygen suction volume of user state information in described reference database;

Described control unit is the ambient parameter of data obtaining module acquisition, the user profile of User Status acquisition module acquisition environmentally, controls suction volume in conjunction with reference database.

As a preferred embodiment of the present invention, described environment information acquisition module comprises altitude sensor, barometric pressure sensor, Dynamic Oxygen partial pressure sensor;

Described User Status acquisition module comprises oximetry sensor.

As a preferred embodiment of the present invention, described suction apparatus is nasal obstruction.

Beneficial effect of the present invention is: the self adaptation altitude sickness that the present invention proposes eliminates system, can control the supply of oxygen, improve the comfort level of user according to the state of user.

Accompanying drawing explanation

Fig. 1 is the composition schematic diagram that self adaptation altitude sickness of the present invention eliminates system.

Fig. 2 is the control circuit figure of present system.

Detailed description of the invention

The preferred embodiments of the present invention are described in detail below in conjunction with accompanying drawing.

Embodiment one

Refer to Fig. 1, present invention is disclosed a kind of self adaptation altitude sickness and eliminate system, described system comprises: control unit, pressurizer 1, at least two cavitys 2, suction apparatus 3, each cavity 2 is connected with pressurizer 1, suction apparatus 3 respectively by pipeline and valve 4.Control circuit as shown in Figure 2.

Described system also comprises: valve positioner 5, environment information acquisition module 6, User Status acquisition module 7, cavity environment parameter acquisition module, reference database 8.Control unit connects pressurizer, valve positioner, environment information acquisition module, User Status acquisition module, reference database respectively.

The reference value of storage environment information, the corresponding oxygen suction volume of user state information in described reference database 8;

Described environment information acquisition module 6, in order to obtain the ambient parameter of periphery, comprises height above sea level, temperature, air pressure, humidity; Described environment information acquisition module comprises altitude sensor, barometric pressure sensor, Dynamic Oxygen partial pressure sensor.

Described User Status acquisition module 7 is in order to obtain body temperature, palmic rate, respiratory frequency, the blood oxygen saturation of user; User Status acquisition module comprises body temperature trans, palmic rate sensor, respiratory frequen, oximetry sensor.

Described cavity environment parameter acquisition module is in order to obtain temperature, pressure, the partial pressure of oxygen in cavity.

Described valve positioner 5 is in order to ambient parameter, the information of User Status acquisition module 7 acquisition, the information of cavity environment parameter acquisition module acquisition of environmentally data obtaining module 6 acquisition, corresponding oxygen suction volume is selected from reference database 8, thus control unlatching or the closedown of each valve, if open, control it and open size.

When oxygen index in a certain cavity meets the requirements, by this cavity for user provides oxygen, pressurizer is that this cavity is or/and other cavity superchargings; When oxygen index in this cavity is undesirable, by switch valve, by other cavitys for user provides oxygen, this cavity, as treating supercharging cavity, waits for that pressurizer is its supercharging.

Described control unit obtains height above sea level by described altitude sensor, the oxygen content in blood is obtained by Dynamic Oxygen partial pressure sensor, measured the oxygen carrying capacity of respective user hemoglobin by oximetry sensor, obtain ambient temperature by temperature sensor; Then in conjunction with the working strength of Data Control pressurizer corresponding in reference database, control corresponding valve opening size by valve positioner simultaneously.

Embodiment two

A kind of self adaptation altitude sickness eliminates system, and described system comprises: pressurizer, cavity, suction apparatus, parameter acquisition module, control unit;

Described cavity connects pressurizer, suction apparatus respectively; Control unit is Connecting quantity acquisition module respectively;

Described parameter acquisition module in order to obtain external environment or/and the set information of user; The external environment that control unit obtains according to parameter acquisition module is or/and user information control oxygen suction volume.

In sum, the self adaptation altitude sickness that the present invention proposes eliminates system, can control the supply of oxygen, improve the comfort level of user according to the state of user.

Here description of the invention and application is illustrative, not wants by scope restriction of the present invention in the above-described embodiments.Distortion and the change of embodiment disclosed are here possible, are known for the replacement of embodiment those those of ordinary skill in the art and the various parts of equivalence.Those skilled in the art are noted that when not departing from spirit of the present invention or substitutive characteristics, the present invention can in other forms, structure, layout, ratio, and to realize with other assembly, material and parts.When not departing from the scope of the invention and spirit, can other distortion be carried out here to disclosed embodiment and change.

Claims (9)

1. self adaptation altitude sickness eliminates a system, and it is characterized in that, described system comprises: control unit, pressurizer, at least two cavitys, suction apparatus, and each cavity is connected with pressurizer, suction apparatus respectively by pipeline and valve;

Described system also comprises: valve positioner, environment information acquisition module, User Status acquisition module, cavity environment parameter acquisition module, reference database; Control unit connects pressurizer, valve positioner, environment information acquisition module, User Status acquisition module, reference database respectively;

The reference value of storage environment information, the corresponding oxygen suction volume of user state information in described reference database;

Described environment information acquisition module, in order to obtain the ambient parameter of periphery, comprises height above sea level, temperature, air pressure, humidity; Described environment information acquisition module comprises altitude sensor, barometric pressure sensor, Dynamic Oxygen partial pressure sensor;

Described User Status acquisition module is in order to obtain body temperature, palmic rate, respiratory frequency, the blood oxygen saturation of user; User Status acquisition module comprises body temperature trans, palmic rate sensor, respiratory frequen, oximetry sensor;

Described cavity environment parameter acquisition module is in order to obtain temperature, pressure, the partial pressure of oxygen in cavity;

Described valve positioner is in order to ambient parameter, the information of User Status acquisition module acquisition, the information of cavity environment parameter acquisition module acquisition of environmentally data obtaining module acquisition, corresponding oxygen suction volume is selected from reference database, thus control unlatching or the closedown of each valve, if open, control it and open size;

When oxygen index in a certain cavity meets the requirements, by this cavity for user provides oxygen, pressurizer is that this cavity is or/and other cavity superchargings; When oxygen index in this cavity is undesirable, by switch valve, by other cavitys for user provides oxygen, this cavity, as treating supercharging cavity, waits for that pressurizer is its supercharging;

Described control unit obtains height above sea level by described altitude sensor, the oxygen content in blood is obtained by Dynamic Oxygen partial pressure sensor, measured the oxygen carrying capacity of respective user hemoglobin by oximetry sensor, obtain ambient temperature by temperature sensor; Then in conjunction with the working strength of Data Control pressurizer corresponding in reference database, control corresponding valve opening size by valve positioner simultaneously.

2. self adaptation altitude sickness eliminates a system, and it is characterized in that, described system comprises: pressurizer, cavity, suction apparatus, parameter acquisition module, control unit;

Described cavity connects pressurizer, suction apparatus respectively; Control unit is Connecting quantity acquisition module respectively;

Described parameter acquisition module in order to obtain external environment or/and the set information of user; The external environment that control unit obtains according to parameter acquisition module is or/and user information control oxygen suction volume.

3. self adaptation altitude sickness according to claim 2 eliminates system, it is characterized in that:

Described system also comprises reference database, stores the reference value of the corresponding oxygen suction volume of user state information in described reference database;

Described control unit connects reference database, the external environment that control unit obtains according to parameter acquisition module or/and user profile, in conjunction with reference database control oxygen suction volume.

4. self adaptation altitude sickness according to claim 2 eliminates system, it is characterized in that:

Described parameter acquisition module comprises User Status acquisition module, in order to obtain body temperature, palmic rate, the respiratory frequency of user.

5. self adaptation altitude sickness according to claim 2 eliminates system, it is characterized in that:

Described system comprises at least two cavitys;

When oxygen index in a certain cavity meets the requirements, by this cavity for user provides oxygen, pressurizer is that this cavity is or/and other cavity superchargings; When oxygen index in this cavity is undesirable, by switch valve, by other cavitys for user provides oxygen, this cavity, as treating supercharging cavity, waits for that pressurizer is its supercharging.

6. self adaptation altitude sickness according to claim 2 eliminates system, it is characterized in that:

Described cavity is connected with pressurizer, suction apparatus respectively by pipeline and valve, and described system also comprises the valve positioner be connected with control unit;

The information of described valve positioner in order to obtain according to User Status acquisition module, selects corresponding oxygen suction volume, thus controls unlatching or the closedown of each valve from reference database, if open, controls it and opens size.

7. self adaptation altitude sickness according to claim 3 eliminates system, it is characterized in that:

Described parameter acquisition module comprises environment information acquisition module;

Described environment information acquisition module, in order to obtain the ambient parameter of periphery, comprises height above sea level, temperature, air pressure, humidity;

The reference value of storage environment information, the corresponding oxygen suction volume of user state information in described reference database;

Described control unit is the ambient parameter of data obtaining module acquisition, the user profile of User Status acquisition module acquisition environmentally, controls suction volume in conjunction with reference database.

8. self adaptation altitude sickness according to claim 6 eliminates system, it is characterized in that:

Described environment information acquisition module comprises altitude sensor, barometric pressure sensor, Dynamic Oxygen partial pressure sensor;

Described User Status acquisition module comprises oximetry sensor.

9. self adaptation altitude sickness according to claim 2 eliminates system, it is characterized in that:

Described suction apparatus is nasal obstruction.