CN215309352U - Portable oxygen generator for increasing oxygen humidity - Google Patents

Abstract

The utility model provides a portable oxygen generator for increasing oxygen humidity, which relates to the technical field of oxygen generators and comprises a water tank, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the water inlet pipe is connected with the water tank; the storage assembly is used for storing oxygen produced by the oxygen machine; the humidifying component is used for humidifying the oxygen stored in the storage component and increasing the water content in the oxygen; the control assembly is used for controlling the beginning and the end of air outlet of the storage assembly; the detection assembly is used for detecting the inspiration state of a user, when the user inhales, the control assembly is used for controlling the storage assembly to start to give out air, and when the user does not inhale, the control assembly is used for controlling the storage assembly to finish giving out air. Can be to the oxygen humidification processing, make to contain a certain amount of moisture in the oxygen that oxygenerator discharged, no longer dry, increased user's oxygen uptake comfort level, also do not influence the oxygenerator simultaneously and to user's breathing pulse's detection, do not influence the sensitivity that detects breathing.

Description

Portable oxygen generator for increasing oxygen humidity

Technical Field

The utility model relates to the technical field of oxygen generators, in particular to a portable oxygen generator for increasing oxygen humidity.

Background

The humidification bottle bought at present can not be used on the portable oxygenerator because there is water in the humidification bottle, and the air inlet of humidification bottle is inserted in water, and the gas outlet of humidification bottle is discharged gas. Therefore, the prior portable pulse oxygen generator does not have the function of oxygen humidification, so that the discharged oxygen is very dry, and the long-term oxygen inhalation can cause nasal dryness, even nasal congestion, bleeding and the like, so that people inhaling oxygen are very uncomfortable. Therefore, the portable oxygen generator for increasing oxygen humidity in the scheme is provided.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a portable oxygen generator for increasing oxygen humidity.

The utility model solves the technical problems through the following technical means: a portable oxygen generator for increasing oxygen humidity comprises; the storage assembly is used for storing oxygen produced by the oxygen machine; the humidifying component is used for humidifying the oxygen stored in the storage component and increasing the water content in the oxygen; the control assembly is used for controlling the beginning and the end of air outlet of the storage assembly; the detection assembly is used for detecting the inspiration state of a user, when the user inhales, the control assembly is used for controlling the storage assembly to start to give out air, and when the user does not inhale, the control assembly is used for controlling the storage assembly to finish giving out air.

Further, the humidifying subassembly includes the humidifying box, the inside of humidifying box is formed with the cavity, and the inside atomizing humidification device that has held of cavity for carry out moist to oxygen, the top outside cover of humidifying box is fixed with the humidifying box lid, the inside of humidifying box has held the medical sponge of PVA, the top of the medical sponge of PVA is provided with the silica gel sealing washer, the silica gel sealing washer is located the junction of humidifying box and humidifying box.

Further, the storage component comprises a gas storage box, a containing chamber for containing gas is formed inside the gas storage box, an oxygen concentration sensor is arranged above the gas storage box, the oxygen concentration sensor detects the oxygen concentration sprayed out of the gas storage box, and a gas circuit integrated block is arranged on the top end of the gas storage box and used for controlling the gas outlet speed of the gas storage box.

Further, the control assembly comprises an electromagnetic valve, the electromagnetic valve is arranged below the gas circuit integrated block, a one-way valve is arranged at a position adjacent to the electromagnetic valve, a micro-pressure sensor is arranged on one side of the electromagnetic valve and used for acquiring pressure data of gas outlet of the gas storage box, and the pressure data is obtained by the gas circuit integrated block.

Further, the detection component comprises a pulse cavity, the pulse cavity is used for accommodating a pulse detection device, the pulse detection device is a breathing pulse detection sensor and is used for detecting the breathing of the nasal cavity of the user, and the top end of the pulse cavity is communicated with an oxygen outlet nozzle.

Further, the humidifying component comprises a humidifying box socket, and the humidifying box socket is positioned on one side of the humidifying component close to the storage component.

Further, be provided with the second silica gel connecting pipe between humidifying box and the pulse cavity, the second silica gel connecting pipe is in the same place humidifying box and pulse cavity intercommunication, be provided with the third silica gel connecting pipe between pulse cavity and the minute-pressure sensor, the third silica gel connecting pipe links together minute-pressure sensor and pulse cavity, be provided with first silica gel connecting pipe between humidifying box and the oxygen concentration sensor, first silica gel connecting pipe links together humidifying box and oxygen concentration sensor.

Furthermore, the inner diameters of the first silica gel connecting pipe, the third silica gel connecting pipe and the second silica gel connecting pipe are consistent.

Furthermore, the inner bottom surface of the humidification box cover is provided with two protruding parts at the upward sunken positions, and the two protruding parts are symmetrically distributed on the top surface of the humidification box cover.

The utility model has the beneficial effects that:

the oxygen generator is provided with the oxygen humidifying device, so that oxygen can be humidified, oxygen discharged by the oxygen generator contains a certain amount of moisture, the moisture is not dried, the comfort level of oxygen inhalation of a user is improved, the detection of the oxygen generator on the breathing pulse of the user is not influenced, and the sensitivity of breathing detection is not influenced.

Drawings

FIG. 1 is a schematic view of a composition structure of an oxygen generator according to the present invention;

FIG. 2 is a schematic perspective view of an oxygen generator according to the present invention;

fig. 3 is another schematic structural diagram of the oxygen generator of the present invention.

In the figure: 10. a humidifying assembly; 11. humidifying the box cover; 12. a silica gel seal ring; 13. PVA medical sponge; 14. a humidifying box; 15. a humidifying box socket; 20. a storage component; 21. a gas storage box; 22. an oxygen concentration sensor; 23. a first silica gel connecting pipe; 24. the gas circuit integrated block; 30. a control component; 31. a one-way valve; 32. an electromagnetic valve; 33. a micro-pressure sensor; 40. a detection component; 41. a second silica gel connecting pipe; 42. a pulse cavity; 43. an oxygen outlet nozzle; 44. and a third silica gel connecting pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Examples

As shown in fig. 1, the portable oxygen generator for increasing oxygen humidity of the present embodiment comprises a storage assembly 20 for storing oxygen generated by the oxygen generator;

the humidifying component 10 is used for humidifying the oxygen stored in the storage component 20 and increasing the water content in the oxygen;

a control module 30 for controlling the start and end of the air discharge from the storage module 20;

and the detection component 40 is used for detecting the inspiration state of the user, controlling the storage component 20 to start air outlet by using the control component 30 when the user inhales, and controlling the storage component 20 to finish air outlet by using the control component 30 when the user does not inhale.

During the use, the oxygenerator is with oxygen output and save inside storage component 20, when detecting component 40 detects that there is the user to be close to and begin to breathe in, then utilize control component 30 control storage component 20 to begin to input the oxygen of storage in humidifying component 10, after the oxygen in storage component 20 was inputed to interior, humidifying component 10 did the humidification to the oxygen of storage component 20 input, until the oxygen of humidification lets in user's nasal cavity, after the user finishes breathing in, then control component 30 finishes storage component 20 again and gives vent to anger.

For current oxygenerator, the oxygenerator in this scheme has configured the oxygen humidifying device, can handle the oxygen humidifying, contains a certain amount of moisture in making oxygenerator exhaust oxygen, and is no longer dry, has increased the comfort level of user's oxygen uptake, does not influence the oxygenerator simultaneously and does not influence the respiratory sensitivity of detection to user's breathing pulse.

Referring to fig. 3, the humidification assembly 10 includes a humidification cartridge 14, the humidification cartridge 14 has a cavity formed therein, and the cavity has an atomizing humidification device therein for exciting moisture into mist, such as a humidifier or an atomizer, for humidifying oxygen. The top outside cover of humidification box 14 is fixed with humidification box cover 11, prevents that the inside impurity of sneaking into of humidification box 14, and the inside of humidification box 14 holds medical sponge 13 of PVA, and the top of medical sponge 13 of PVA is provided with silica gel sealing washer 12, and silica gel sealing washer 12 is located humidification box 14 and humidification box 14's junction, plays sealed effect, prevents that humidification box 14 from producing and reveals.

During the use, after storage component 20 output oxygen, oxygen gets into the inside of humidifying box 14, holds the atomizing humidification device in humidifying box 14 inside cavity and handles the oxygen humidification of getting into humidifying box 14, makes the moisture content in the oxygen increase, and not excessive drying is convenient for the user and inhales.

Referring to fig. 3, the inner bottom surface of the humidification box cover 11 is recessed upwards to form two protruding portions, and the two protruding portions are symmetrically distributed on the top surface of the humidification box cover 11.

When in use, the volume of the humidifying box 14 is increased, and the humidifying box is convenient for a user to hold.

Referring to fig. 3, the storage module 20 includes a gas storage box 21, a receiving chamber for receiving gas is formed inside the gas storage box 21, an oxygen concentration sensor 22 is disposed above the gas storage box 21 and detects the oxygen concentration sprayed from the gas storage box 21, and a gas circuit integrated block 24 is disposed at the top end of the gas storage box 21 and is used for controlling the speed of gas outlet of the gas storage box 21.

During the use, oxygen generator is after producing oxygen, holds in the inside of gas storage box 21, utilizes oxygen concentration sensor 22 to detect the concentration of oxygen, makes gas storage box 21 can output the oxygen that concentration is suitable, and the user of being convenient for breathes.

Referring to fig. 3, the control assembly 30 includes an electromagnetic valve 32, the electromagnetic valve 32 is disposed below the gas circuit integrated block 24, the electromagnetic valve 32 is used for controlling the opening and closing of the gas storage box 21, a one-way valve 31 is disposed at a position adjacent to the electromagnetic valve 32, so that oxygen flows in a one-way manner and backflow is avoided, a micro-pressure sensor 33 is disposed at one side of the electromagnetic valve 32, the micro-pressure sensor is used for acquiring pressure data of gas outlet of the gas storage box 21, and the pressure data is obtained by the gas circuit integrated block 24.

During the use, utilize solenoid valve 32 to control opening and close of gas storage box 21, for manual control, degree of automation is high, utilizes gas circuit manifold block 24 to transfer the pressure data of oxygen output simultaneously, controls the speed of giving vent to anger of gas storage box 21, makes the respiratory experience of user feel better.

Referring to fig. 3, the detecting assembly 40 includes a pulse cavity 42, the pulse cavity 42 is used for accommodating a pulse detecting device, the pulse detecting device is a breath pulse detecting sensor and detects the breathing of the nasal cavity of the user, and an oxygen outlet nozzle 43 is communicated with the top end of the pulse cavity 42 and is used for outputting oxygen to the nasal cavity of the user.

In use, the pulse chamber 42 is used to detect whether a user inhales near the oxygen outlet nozzle 43.

Referring to FIG. 3, the humidifying assembly 10 includes a humidifying box socket 15, and the humidifying box socket 15 is located on one side of the humidifying assembly 10 close to the storage assembly 20.

When the humidifying component is used, the humidifying component 10 is communicated with the storage component 20 and the humidifying component 10 is communicated with the detection component 40 through the humidifying box socket 15, so that oxygen generated by the storage component 20 can be humidified and exhausted conveniently.

Referring to fig. 3, a second silica gel connecting pipe 41 is arranged between the humidification box 14 and the pulse cavity 42, the humidification box 14 and the pulse cavity 42 are communicated together by the second silica gel connecting pipe 41, a third silica gel connecting pipe 44 is arranged between the pulse cavity 42 and the micro-pressure sensor 33, the micro-pressure sensor 33 and the pulse cavity 42 are connected together by the third silica gel connecting pipe 44, a first silica gel connecting pipe 23 is arranged between the humidification box 14 and the oxygen concentration sensor 22, and the humidification box 14 and the oxygen concentration sensor 22 are connected together by the first silica gel connecting pipe 23.

During the use, through humidifying box 14 and second silica gel connecting pipe 41, with minute-pressure sensor 33 and pulse cavity 42 to and link together first silica gel connecting pipe 23 and humidifying box 14, make the oxygen transmission in the oxygenerator smooth.

Referring to fig. 3, the first silica gel connecting tube 23, the third silica gel connecting tube 44 and the second silica gel connecting tube 41 have the same inner diameter.

When the oxygen inhalation device is used, the inner diameters of the first silica gel connecting pipe 23, the third silica gel connecting pipe 44 and the second silica gel connecting pipe 41 are the same, so that the pressure of oxygen passing through the first silica gel connecting pipe 23, the third silica gel connecting pipe 44 and the second silica gel connecting pipe 41 is kept consistent, and the oxygen inhalation device is convenient for a user to inhale.

The working principle is as follows:

during the use, the oxygen that the oxygenerator was made is stored in the gas receiver 21, when breathing pulse detection sensor detected user's nasal cavity and breathed, then opened the switch of solenoid valve 32, makes the oxygen of storage in the gas receiver 21 input in humidifying subassembly 10 through solenoid valve 32 for humidifying box 14 is to the oxygen humidification, and the oxygen of humidification is let in the nasal cavity.

It is to be understood that, in this document, relational terms such as first and second, and the like, if any, are used solely to distinguish one from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A portable oxygen generator for increasing oxygen humidity is characterized by comprising;

a storage assembly (20) for storing oxygen produced by the oxygen machine;

the humidifying component (10) is used for humidifying the oxygen stored by the storage component (20) so as to increase the water content in the oxygen;

a control component (30) for controlling the beginning and the end of the air outlet of the storage component (20);

the detection component (40) is used for detecting the inspiration state of a user, when the user inhales, the control component (30) is used for controlling the storage component (20) to start air outlet, and when the user does not inhale, the control component (30) is used for controlling the storage component (20) to finish air outlet.

2. The portable oxygen generator for increasing oxygen humidity of claim 1, wherein: humidifying subassembly (10) are including humidifying box (14), the inside of humidifying box (14) is formed with the cavity, and the inside atomizing humidification device that holds of cavity for carry out the humidification to oxygen, the top outside cover of humidifying box (14) is fixed with humidifying box lid (11), the inside of humidifying box (14) holds medical sponge (13) of PVA, the top of medical sponge (13) of PVA is provided with silica gel sealing washer (12), silica gel sealing washer (12) are located the junction of humidifying box (14) and humidifying box (14).

3. The portable oxygen generator for increasing oxygen humidity of claim 1, wherein: storage component (20) include gas storage box (21), the inside of gas storage box (21) is formed with the room that holds gas, the top of gas storage box (21) is provided with oxygen concentration sensor (22), detects gas storage box (21) spun oxygen concentration, the top of gas storage box (21) is provided with gas circuit manifold block (24) for the speed of giving vent to anger of control gas storage box (21).

4. A portable oxygen generator for increasing oxygen humidity according to claim 3, wherein: control assembly (30) include solenoid valve (32), solenoid valve (32) set up in the below of gas circuit manifold block (24), with be provided with check valve (31) on the position that solenoid valve (32) are adjacent, one side of solenoid valve (32) is provided with minute-pressure sensor (33) for acquire the pressure data that gas storage box (21) were given vent to anger, pressure data by gas circuit manifold block (24) are transferred and are got.

5. The portable oxygen generator for increasing oxygen humidity of claim 1, wherein: detection element (40) are including pulse cavity (42), pulse cavity (42) are used for holding pulse detection device, pulse detection device is respiratory pulse detection sensor for detect user's nasal cavity and breathe, the top intercommunication of pulse cavity (42) has oxygen to go out tuyere (43).

6. A portable oxygen generator for increasing oxygen humidity according to claim 3, wherein: the humidifying component (10) comprises a humidifying box socket (15), and the humidifying box socket (15) is positioned on one side of the humidifying component (10) close to the storage component (20).

7. The portable oxygen generator for increasing oxygen humidity of claim 2, wherein: be provided with second silica gel connecting pipe (41) between humidifying box (14) and pulse cavity (42), second silica gel connecting pipe (41) is in the same place humidifying box (14) and pulse cavity (42) intercommunication, be provided with third silica gel connecting pipe (44) between pulse cavity (42) and minute pressure sensor (33), third silica gel connecting pipe (44) link together minute pressure sensor (33) and pulse cavity (42), be provided with first silica gel connecting pipe (23) between humidifying box (14) and oxygen concentration sensor (22), first silica gel connecting pipe (23) link together humidifying box (14) and oxygen concentration sensor (22).

8. The portable oxygen generator for increasing oxygen humidity of claim 7, wherein: the inner diameters of the first silica gel connecting pipe (23), the third silica gel connecting pipe (44) and the second silica gel connecting pipe (41) are consistent.

9. The portable oxygen generator for increasing oxygen humidity of claim 2, wherein: the inner bottom surface of the humidification box cover (11) is provided with two protruding parts at the upward sunken positions, and the two protruding parts are symmetrically distributed on the top surface of the humidification box cover (11).

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