Utility model content
The purpose of this utility model is to provide a kind of wearable oxygen-enriched apparatus of oxygen supply, it is easy with solving the prior art to making
User causes the problem of burden.
In order to solve the above-mentioned technical problem, the utility model provides a kind of oxygen-enriched wearable apparatus of oxygen supply, including independence
Oxygen permeable membrane mould group, vacuum pump mould group, battery modules and the oxygen uptake part of setting;The oxygen permeable membrane mould group is equipped with air vent, the richness
Oxygen film mould group is oxygen-enriched for being isolated using oxygen permeable membrane;The vacuum pump mould group is equipped with air inlet and venthole, the air inlet
Conducting is connect with the air vent, the vacuum pump mould group is used to extract from the oxygen permeable membrane mould group oxygen-enriched defeated through the venthole
Out;The battery modules are with the oxygen permeable membrane mould group for being electrically connected, and the battery modules are also with the vacuum pump mould group for being electrically connected
It connects;The oxygen uptake part connect conducting with the venthole, and the oxygen uptake part is oxygen-enriched for exporting.
Wherein, the battery modules be equipped with the first feeder ear, the oxygen permeable membrane mould group be equipped with the second feeder ear and first by
Electric end, the vacuum pump mould group are equipped with the second receiving end;First feeder ear and first receiving end are electrically connected, described
Second feeder ear and second receiving end are electrically connected;The oxygen permeable membrane mould group can receive the electricity through first receiving end
The electric energy of Chi Mo group output, and received part electric energy is sent through second feeder ear to the vacuum pump mould group.
Wherein, the wearable oxygen-enriched apparatus of oxygen supply further includes the first power transmission line, and the both ends of first power transmission line are all provided with
There is the first electrical connector, a described first electrical connector couples with first feeder ear plug, another described first electricity
Property the plug of connector and first receiving end couple.
Wherein, the wearable oxygen-enriched apparatus of oxygen supply further includes the second power transmission line, and the both ends of second power transmission line are all provided with
There is the second electrical connector, a described second electrical connector couples with second feeder ear plug, another described second electricity
Property the plug of connector and second receiving end couple.
Wherein, the wearable oxygen-enriched apparatus of oxygen supply further includes air inlet pipe, and the both ends of the air inlet pipe are equipped with first and change
Gas connector, two it is described first ventilation connectors be connected with the air inlet pipe, one of them it is described first take a breath connector with it is described
Air vent plug connection, another described first ventilation connector couple with air inlet plug.
Wherein, the wearable oxygen-enriched apparatus of oxygen supply further includes escape pipe, one end of the escape pipe and the oxygen uptake part
Connection conducting, the other end of the escape pipe are equipped with the second ventilation connector, and the second ventilation connector is connected with the escape pipe,
The second ventilation connector couples with venthole plug.
Wherein, the wearable oxygen-enriched apparatus of oxygen supply further includes waistband, is set on the waistband there are three storage pocket, three institutes
Storage pocket separation arrangement is stated, the oxygen permeable membrane mould group, the vacuum pump mould group and the battery modules are respectively placed in three institutes
It states in storage pocket.
Wherein, the oxygen permeable membrane mould group is additionally provided with oxygen concentration detector and the first display screen, the oxygen concentration detection
Device is used to detect the oxygen concentration of the oxygen permeable membrane mould group delivery air, and first display screen is for showing the oxygen concentration inspection
Survey the testing result of device.
Wherein, the oxygen permeable membrane mould group is additionally provided with height above sea level detector and second display screen, the height above sea level detection
Device is for detecting height above sea level locating for the oxygen permeable membrane mould group, and the second display screen is for showing the height above sea level detection
The testing result of device.
Wherein, the oxygen permeable membrane mould group is additionally provided with blood oxygen concentration detector and third display screen, the blood oxygen concentration detection
Device is used to detect user's blood oxygen concentration of the wearable oxygen-enriched apparatus of oxygen supply, and the third display screen is for showing the blood
The testing result of oxygen concentration detector.
The beneficial effects of the utility model are as follows:
Since the wearable oxygen-enriched apparatus of oxygen supply of the utility model includes the oxygen permeable membrane mould group being independently arranged, vacuum pump mould
Group, battery modules and oxygen uptake part, so in application process, oxygen permeable membrane mould group, vacuum pump mould group and battery modules can be distinguished
It is placed in the different location of user waist, to disperse the more of user waist for the weight of wearable oxygen-enriched apparatus of oxygen supply
A place avoids weight bearing concentrations and causes uncomfortable or damage to the muscle of user.
Detailed description of the invention
It, below will be to attached needed in embodiment in order to illustrate more clearly of the technical solution of the utility model
Figure is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the utility model, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.
Fig. 1 is that the preferred embodiments of the present invention provide the connection of battery modules, oxygen permeable membrane mould group and vacuum pump mould group
Relation schematic diagram;
Fig. 2 is the Waistband structure schematic diagram that the preferred embodiments of the present invention provide;
Fig. 3 is the oxygen uptake part structural schematic diagram that the preferred embodiments of the present invention provide.
Appended drawing reference is as follows:
1, battery modules;11, Battery Indicator Light;
2, oxygen permeable membrane mould group;21, the first display screen;22, second display screen;23, third display screen;24, power switch;
3, vacuum pump mould group;
4, oxygen uptake part;
5, air inlet pipe;51, the first ventilation connector;
6, escape pipe;61, the second ventilation connector;
7, the first power transmission line;71, the first electrical connector;
8, the second power transmission line;81, the second electrical connector;
9, waistband;91, storage pocket.
Specific embodiment
Below in conjunction with the attached drawing in the utility model embodiment, to the technical solution in the utility model embodiment
It is clearly and completely described.
From Fig. 1 to 3 it is found that wearable oxygen-enriched apparatus of oxygen supply described in the utility model embodiment includes:
Battery modules 1, the shape of battery modules 1 are in flat elliptic cylindrical shape body, are equipped on the left of the upper surface of battery modules 1
Battery Indicator Light 11, Battery Indicator Light 11 are used to show the remaining capacities of battery modules 1, and the left side of battery modules 1 is equipped with the
One feeder ear (blocks place by the first electrical connector 71), and the electric energy of battery modules 1 can be exported through the first feeder ear, wherein battery mould
The inside of group 1 uses lithium electricity rechargable battery as power supply.
Oxygen permeable membrane mould group 2, the shape of oxygen permeable membrane mould group 2 are in flat elliptic cylindrical shape body.
Inside in relation to oxygen permeable membrane mould group 2 is equipped with oxygen permeable membrane, central processing unit, oxygen concentration detector, height above sea level
Detector and blood oxygen concentration detector, oxygen concentration detector, height above sea level detector and blood oxygen concentration detector with center
Processor is electrically connected, and central processing unit can receive the testing result of each detector, wherein oxygen concentration detector can
The oxygen concentration of 2 delivery air of oxygen permeable membrane mould group is detected, height above sea level detector is able to detect height above sea level locating for oxygen permeable membrane mould group 2
Degree, blood oxygen concentration detector are able to detect user's blood oxygen concentration of wearable oxygen-enriched apparatus of oxygen supply.
Upper surface in relation to oxygen permeable membrane mould group 2 is successively arranged air vent from left to right and (is blocked by the first ventilation connector 51
Place), the first display screen 21, second display screen 22, third display screen 23 and power switch 24;Wherein, the first display screen 21, second
Display screen 22 and third display screen 23 are electrically connected with the central processing unit, so central processing unit can be by corresponding testing result
It send to each display screen and is shown, specifically, the first display screen 21 can show the testing result of oxygen concentration detector, the
Two display screens 22 can show the testing result of height above sea level detector, and third display screen 23 can show blood oxygen concentration detector
Testing result;And oxygen-enriched only after oxygen-enriched UF membrane can just be exported through air vent.
Left and right side in relation to oxygen permeable membrane mould group 2, right side surface are equipped with the second feeder ear (by the first electrical connector 71
Block place), left side surface is equipped with the first receiving end (blocking place by the second electrical connector 81), in use, oxygen-enriched
Film mould group 2 can receive electric energy by the first receiving end, and the output of electric energy is carried out by the second feeder ear.
Vacuum pump mould group 3, the shape of vacuum pump mould group 3 are in flat elliptic cylindrical shape body;The upper surface of vacuum pump mould group 3 is right
Side is successively arranged venthole (by the second ventilation 61 place of blocking of connector) from left to right, air inlet (is blocked by the first ventilation connector 51
Place) and the second receiving end (place is blocked by the second electrical connector 81), in use, vacuum pump mould group 3 can pass through second
Receiving end receives electric energy, and extracts oxygen-enriched air from oxygen permeable membrane mould group 2 by its internal vacuum pump and export through venthole.
The shape of oxygen uptake part 4, oxygen uptake part 4 is substantially similar to tee tube, on the upside of two ports for being inserted into user
Two nostrils in, on the downside of a port for connecting conducting with venthole.
Air inlet pipe 5, the both ends of air inlet pipe 5 are equipped with the first ventilation connector 51, and two first ventilation connectors 51 are and air inlet
Pipe 5 is connected, and the first ventilation connector 51 in left side couples with air inlet plug, and the first ventilation connector 51 and air vent on right side plug
Connection.
Escape pipe 6, the upper end of escape pipe 6 connect conducting with the lower port of oxygen uptake part 4, and the lower end of escape pipe 6 is equipped with second
Ventilation connector 61, the second ventilation connector 61 and escape pipe 6 are connected, and the second ventilation connector 61 is plugged with venthole to be coupled.
First power transmission line 7, the both ends of the first power transmission line 7 are equipped with the first electrical connector 71, the electrical connector of the first of right side
71 couple with the plug of the first feeder ear, and the electrical connector 71 of the first of left side couples with the plug of the first receiving end.
Second power transmission line 8, the both ends of the second power transmission line 8 are equipped with the second electrical connector 81, the electrical connector of the second of right side
81 couple with the plug of the second feeder ear, and the electrical connector 81 of the second of left side couples with the plug of the second receiving end.
Waistband 9, sets that there are three storage pocket 91, three separation arrangements of storage pockets 91, battery modules 1, oxygen permeable membrane mould on waistband
Group 2 and vacuum pump mould group 3 are respectively placed in three storage pockets 91.
Its use process approximately as:
1, waistband 9 is tied to the loins of user, then divides battery modules 1, oxygen permeable membrane mould group 2 and vacuum pump mould group 3
It is not placed in three storage pockets 91, and realizes three by air inlet pipe 5, escape pipe 6, the first power transmission line 7 and the second power transmission line 81
Person's assembles;
2, battery modules 1 are that oxygen permeable membrane mould group 2 and 3 groups of vacuum pump mould are powered, and vacuum pump mould group 3 is to oxygen permeable membrane mould group
2 are evacuated, since air can realize separation after oxygen permeable membrane, so oxygen can be made after repeating the operation several times
Concentration is higher oxygen-enriched, thus pump to the oxygen-enriched air of vacuum pump mould group 3 will can be sent through oxygen uptake part 4 it is internal to user;
3, carried out in moving process in user, can be learnt in time by oxygen permeable membrane mould group 2 current oxygen output concentration,
The information such as height above sea level and blood oxygen concentration, so that user judges whether to be suitble to continue to move ahead in time.
In summary, wearable oxygen-enriched apparatus of oxygen supply described in the utility model embodiment at least has the advantages that
1. the experience effect of user is improved, specifically: a kind of wearable oxygen-enriched apparatus of oxygen supply, including what is be independently arranged
Oxygen permeable membrane mould group 2, vacuum pump mould group 3, battery modules 1 and oxygen uptake part 4;The oxygen permeable membrane mould group 2 is equipped with air vent, described oxygen-enriched
Film mould group 2 is oxygen-enriched for being isolated using oxygen permeable membrane;The vacuum pump mould group 3 is equipped with air inlet and venthole, the air inlet
Conducting is connect with the air vent, the vacuum pump mould group 3 is oxygen-enriched through the venthole for extracting from the oxygen permeable membrane mould group 2
Output;The battery modules 1 with the oxygen permeable membrane mould group 2 for being electrically connected, the battery modules 1 also with the vacuum pump mould group 3
For electrical connection;The oxygen uptake part 4 connect conducting with the venthole, and the oxygen uptake part 4 is oxygen-enriched for exporting.Meeting this structure
Afterwards, 1 oxygen permeable membrane mould group 2 of battery modules and vacuum pump mould group 3 can be respectively placed in the different location of user waist, thus will
The weight of wearable oxygen-enriched apparatus of oxygen supply is scattered in multiple places of user waist, avoid weight bearing concentrations and to user
Muscle cause uncomfortable or damage.
2. the brief introduction degree of wiring is improved, specifically: the battery modules 1 are equipped with the first feeder ear, the oxygen permeable membrane
Mould group 2 is equipped with the second feeder ear and the first receiving end, and the vacuum pump mould group 3 is equipped with the second receiving end;First feeder ear
It is electrically connected with first receiving end, second feeder ear and second receiving end are electrically connected;The oxygen permeable membrane mould
Group 2 can receive the electric energy that the battery modules 1 export through first receiving end, and by received part electric energy through described the
Two feeder ears are sent to the vacuum pump mould group 3.After meeting this structure, battery modules 1 are electrically connected without drawing two electric wires
It connects, can be avoided electric wire around being electrically connected again with vacuum pump mould group 3 after oxygen permeable membrane mould group 2, to reduce cable winds
Chance, so that the entirety more concision and compact of wearable oxygen-enriched apparatus of oxygen supply.
3. the assembling convenience of battery modules 1 Yu oxygen permeable membrane mould group 2 is improved, specifically: the wearable oxygen-enriched oxygen supply
Device further includes the first power transmission line 7, and the both ends of first power transmission line 7 are equipped with the first electrical connector 71, and one described first
Electrical connector 71 couples with first feeder ear plug, another described first electrical connector 71 is inserted with first receiving end
Pull out connection.After meeting this structure, it can realize that plug connects by the first power transmission line 7 between battery modules 1 and oxygen permeable membrane mould group 2
It connects, this connection type is simple and convenient, can greatly improve the assembling speed and disassembly speed of battery modules 1 and oxygen permeable membrane mould group 2
Degree.
4. the assembling convenience of oxygen permeable membrane mould group 2 Yu vacuum pump mould group 3 is improved, specifically: the wearable oxygen-enriched confession
Oxygen device further includes the second power transmission line 8, and the both ends of second power transmission line 8 are equipped with the second electrical connector 81, and one described the
Two electrical connectors 81 couple with second feeder ear plug, another the described second electrical connector 81 and second receiving end
Plug connection.After meeting this structure, it can be realized and be inserted by the second power transmission line 8 between oxygen permeable membrane mould group 2 and vacuum pump mould group 3
Pull out connection, this connection type is simple and convenient, can greatly improve oxygen permeable membrane mould group 2 and vacuum pump mould group 3 assembling speed and
Dismounting speed.
5. the assembling convenience of oxygen permeable membrane mould group 2 Yu vacuum pump mould group 3 is improved, specifically: the wearable oxygen-enriched confession
Oxygen device further includes air inlet pipe 5, and the both ends of the air inlet pipe 5 are equipped with the first ventilation connector 51, and two first ventilations connect
First 51 are connected with the air inlet pipe 5, one of them described first ventilation connector 51 and described air vent, which plug, to be coupled, and in addition one
A first ventilation connector 51 couples with air inlet plug.After meeting this structure, oxygen permeable membrane mould group 2 and vacuum pump mould
Plug connection can be realized between group 3 by air inlet pipe 5, this connection type is simple and convenient, can greatly improve oxygen permeable membrane mould
The assembling speed and dismounting speed of group 2 and vacuum pump mould group 3.
6. the assembling convenience of oxygen uptake part 4 Yu vacuum pump mould group 3 is improved, specifically: the wearable oxygen-enriched oxygen supply dress
Setting further includes escape pipe 6, and one end of the escape pipe 6 connect conducting with the oxygen uptake part 4, and the other end of the escape pipe 6 is set
There is the second ventilation connector 61, the second ventilation connector 61 and the escape pipe 61 are connected, the second ventilation connector 61 and institute
State venthole plug connection.After meeting this structure, it can be realized and be inserted by escape pipe 6 between oxygen uptake part 4 and vacuum pump mould group 3
Connection is pulled out, this connection type is simple and convenient, can greatly improve assembling speed and the disassembly of oxygen uptake part 6 and vacuum pump mould group 3
Speed.
7. the carrying convenience of wearable oxygen-enriched apparatus of oxygen supply is improved, specifically: the wearable oxygen-enriched apparatus of oxygen supply
Further include waistband 9, is set on the waistband 9 there are three storage pocket 91, three separation of storage pocket 91 are arranged, the oxygen permeable membrane mould
Group 2, the vacuum pump mould group 3 and the battery modules 1 are respectively placed in three storage pockets 91.Meeting this structure
Afterwards, as long as waistband 9 is tied up the waist in user, battery modules 1, oxygen permeable membrane mould group 2 and vacuum pump mould group 3 can be taken
Band, use process is simple and convenient, substantially increases the usage experience of user.
8. increase oxygen concentration detection function, specifically: the oxygen permeable membrane mould group 2 be additionally provided with oxygen concentration detector and
First display screen 21, the oxygen concentration detector are used to detect the oxygen concentration of 2 delivery air of oxygen permeable membrane mould group, and described the
One display screen 21 is used to show the testing result of the oxygen concentration detector.After meeting this structure, user can be at any time
Learning the air of wearable oxygen-enriched apparatus of oxygen supply gas supply, whether oxygen is sufficient, provides important guarantor safely for the life of user
Barrier.
9. increase height above sea level detection function, specifically: the oxygen permeable membrane mould group 2 be additionally provided with height above sea level detector and
Second display screen 22, the height above sea level detector is for detecting height above sea level locating for the oxygen permeable membrane mould group 2, and described second
Display screen 22 is used to show the testing result of the height above sea level detector.After meeting this structure, user can obtain at any time
Locating height above sea level is known, so that user judges current environment.
10. blood oxygen concentration detection function is increased, specifically: the oxygen permeable membrane mould group 2 is additionally provided with blood oxygen concentration detector
With third display screen 23, user's blood oxygen that the blood oxygen concentration detector is used to detect the wearable oxygen-enriched apparatus of oxygen supply is dense
Degree, the third display screen 23 are used to show the testing result of the blood oxygen concentration detector.After meeting this structure, user
Whether the physical condition that oneself can be derived from any time is good, provides important leverage safely for the life of user.
The above is preferred embodiments of the present invention, it is noted that for the ordinary skill of the art
For personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these are improved and profit
Decorations are also considered as the protection scope of the utility model.