CN220046748U - Oxygenerator with humidification function - Google Patents

Abstract

The utility model relates to the technical field of oxygenerators, in particular to an oxygenerator with a humidifying function, which comprises an oxygenerator main body, wherein a vent pipe penetrates out of the oxygenerator main body, one end of the vent pipe is provided with a connector, one side of the outer wall of the oxygenerator main body is provided with an assembly shell, a mounting plate is fixed above the inside of the assembly shell, and a water storage tank is arranged below the inside of the assembly shell. The vent pipe of the utility model simultaneously passes through the main body of the oxygenerator and the assembly shell, is convenient to connect with equipment such as an external oxygen mask and the like through the connector, is convenient to draw a water source of the water storage tank through the operation of the pump, is conveyed to the upper part of the vent pipe through the water pipe, is uniformly sprayed out to form fine particles through the atomizing nozzle, is contacted with oxygen through the circulation groove formed in the vent pipe, and avoids discomfort to a wearer caused by excessively dry oxygen, and the assembly shell is convenient to limit the spraying range through the mounting plate, so that water drops are prevented from being excessively dispersed and cannot be attached to the oxygen.

Description

Oxygenerator with humidification function

Technical Field

The utility model relates to the technical field of oxygenerators, in particular to an oxygenerator with a humidifying function.

Background

The medical oxygenerator is a novel device for extracting oxygen from air based on a Pressure Swing Adsorption (PSA) technology, molecular sieve is filled in the oxygenerator by utilizing molecular sieve physical adsorption and desorption technology, nitrogen in the air can be adsorbed when the oxygenerator is pressurized, the rest unabsorbed oxygen is collected, and the oxygen with high purity can be obtained after purification treatment.

An oxygenerator with humidifying function as disclosed in publication No. CN115990307A, comprising an oxygenerator body for preparing oxygen; the water storage cylinder is connected with the oxygenerator body and used for storing purified water; the sealing cover is connected with the water storage cylinder and is used for sealing the water storage cylinder; the air inlet pipe is connected with the sealing cover and used for communicating the oxygenerator body with the water storage cylinder; one end of the communicating pipe is communicated with the air inlet pipe, and the remaining end of the communicating pipe is spliced at the bottom end of the water storage cylinder; the air outlet pipe is connected with the sealing cover and communicated with the water storage cylinder and used for discharging humidified oxygen; the safety valve is connected with the sealing cover and communicated with the water storage cylinder and is used for adjusting the oxygen pressure in the water storage cylinder.

In summary, the following technical problems exist in the prior art: because oxygen is transported to the mouth and nose when wearing the oxygenerator, and the uninterrupted circulation can not keep humidity, the mouth and nose of a user are dry and uncomfortable for a long time, and therefore, the oxygenerator with the humidifying function is provided.

Disclosure of Invention

The utility model aims to provide an oxygenerator with a humidifying function, so as to solve the problems in the background technology.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides an oxygenerator with humidification function, includes the oxygenerator main part, the breather pipe has been worn out to the inside of oxygenerator main part, and the one end of breather pipe is provided with the connector, the assembly shell is settled to outer wall one side of oxygenerator main part, and the inside top of assembly shell is fixed with the mounting panel, the inside below of assembly shell is provided with the water storage tank, and the bottom of water storage tank inlays and be equipped with the pump, the one end of pump is connected with the water pipe, and the axial outer wall of water pipe inlays and be equipped with atomizer, the circulation groove has been seted up to the inner wall of breather pipe, and the inside of circulation groove is fixed with the connecting block.

Preferably, the water storage tank is communicated with the assembly shell, and the assembly shell is fixedly connected with the oxygenerator main body.

Preferably, the atomizing nozzle is equally spaced about the axial outer wall of the water pipe, and the water pipe penetrates into the mounting plate.

Preferably, a flow guide block is arranged below the vent pipe, a heating plate is embedded on the outer wall of the flow guide block, a drainage groove is formed in the inner wall of the flow guide block, a drainage channel is arranged at the bottom end of the drainage groove, a drawing shell is arranged below the drainage channel, an active carbon layer is embedded on the inner wall of the drawing shell, a permanent magnet is embedded on one side of the outer wall of the drawing shell, and an electromagnet is arranged on one side of the permanent magnet.

Preferably, the drainage groove is communicated with the water storage tank through a drainage channel, and the drainage channel is fixedly connected with the drainage block.

Preferably, a sliding structure is formed between the drawing shell and the assembling shell, and the drawing shell is detachably connected with the activated carbon layer through bolts.

Preferably, the drawing shell is fixedly connected with the permanent magnet, and the permanent magnet is in magnetic attraction connection with the electromagnet.

The above description shows that the technical problems to be solved by the present utility model can be solved by the above technical solutions of the present utility model.

Meanwhile, through the technical scheme, the utility model has at least the following beneficial effects:

the vent pipe of the utility model simultaneously passes through the main body of the oxygenerator and the assembly shell, is convenient to connect with equipment such as an external oxygen mask and the like through the connector, is convenient to draw a water source of the water storage tank through the operation of the pump, is conveyed to the upper part of the vent pipe through the water pipe, is uniformly sprayed out to form fine particles through the atomizing nozzle, is contacted with oxygen through the circulation groove formed in the vent pipe, and avoids discomfort to a wearer caused by excessively dry oxygen, and the assembly shell is convenient to limit the spraying range through the mounting plate, so that water drops are prevented from being excessively dispersed and cannot be attached to the oxygen.

According to the utility model, redundant water drops flow to the drainage groove through the flow guide block and flow back to the water storage tank through the flow guide channel, so that the water storage tank is convenient to recycle and avoid waste, the sizes of the drainage groove and the flow guide channel are narrow, the phenomenon that air pressure is insufficient due to excessive dispersion in the process of oxygen flow is avoided, and when the water storage tank is in winter or cold weather, the ambient temperature is increased through heating by the heating plate, and the discomfort of a wearer caused by oxygen supercooling is avoided.

The active carbon layer embedded by the drawing shell is positioned on the water storage tank, so that the drop water drops can be filtered conveniently, the water source is kept clean, the purity of oxygen is prevented from being influenced, the active carbon layer is convenient to disassemble, assemble and replace by pulling the drawing shell to be separated from the assembly shell, the permanent magnet is embedded by the drawing shell, the electromagnet is embedded in the corresponding position of the assembly shell, and when the drawing shell penetrates into the assembly shell to be closed, the electromagnet is electrified to adsorb the permanent magnet, so that the drawing shell is prevented from being separated.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of a vent pipe according to the present utility model;

FIG. 4 is a schematic view of a flow guiding block according to the present utility model

Fig. 5 is a schematic view of a partial enlarged structure at a in fig. 2 according to the present utility model.

In the figure: 1. an oxygenerator body; 2. a vent pipe; 3. a connector; 4. a water storage tank; 5. a pump machine; 6. a water pipe; 7. a mounting plate; 8. an atomizing nozzle; 9. assembling a shell; 10. a flow channel; 11. a connecting block; 12. a flow guiding block; 13. a heating plate; 14. drainage grooves; 15. a drainage channel; 16. drawing the shell; 17. an activated carbon layer; 18. a permanent magnet; 19. an electromagnet.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Description of the preferred embodiments

As shown in fig. 1 and 2, the present utility model provides a technical solution: the utility model provides an oxygenerator with humidification function, including oxygenerator main part 1, the inside of oxygenerator main part 1 wears out and has breather pipe 2, the one end of breather pipe 2 is provided with connector 3, assembly shell 9 is settled to outer wall one side of oxygenerator main part 1, assembly shell 9's inside top is fixed with mounting panel 7, assembly shell 9's inside below is provided with water storage tank 4, pump 5 is inlayed to water storage tank 4's bottom, pump 5's one end is connected with through-water pipe 6, through-water pipe 6's axial outer wall inlays are equipped with atomizer 8, circulation groove 10 has been seted up to breather pipe 2's inner wall, circulation groove 10's inside is fixed with connecting block 11, water storage tank 4 and assembly shell 9 intercommunication each other, assembly shell 9 and oxygenerator main part 1 fixed connection, atomizer 8 is equidistant evenly distributed about the axial outer wall of through-water pipe 6, through-water pipe 6 runs through to mounting panel 7's inside, breather pipe 2 wears out oxygenerator main part 1 and assembly shell 9 simultaneously, be convenient for with external oxygen mask scheduling equipment connection, through pump 5 work is convenient for draw behind 4 water source through water pipe 6 to carry to 2 top, and through-water pipe 8 is equipped with atomizer 8, thereby avoid too little oxygen to be in the mist-spraying nozzle 10 to avoid the mist to be too difficult form of spraying with the oxygen to wear the exhaust pipe 10, thereby the mist-free from being connected with the exhaust pipe 10, can's air-free from being too small particle, the air-stream, can avoid the air-stop bead is too difficult to be connected with the exhaust pipe is connected with the exhaust pipe, and the exhaust through the exhaust pipe has the exhaust pipe device, and has the exhaust device.

Example two

The scheme in the first embodiment is further described below in conjunction with a specific working manner, and the details are described below:

as shown in fig. 1, fig. 2 and fig. 3, as a preferred embodiment, on the basis of the above-mentioned mode, further, the lower part of the ventilation pipe 2 is provided with a diversion block 12, the outer wall of the diversion block 12 is embedded with a heating plate 13, the inner wall of the diversion block 12 is provided with a diversion trench 14, the bottom end of the diversion trench 14 is provided with a drainage channel 15, the diversion trench 14 is communicated with the water storage tank 4 through the drainage channel 15, the drainage channel 15 is fixedly connected with the diversion block 12, redundant water drops flow to the diversion trench 14 through the diversion block 12 and flow back to the water storage tank 4 through the drainage channel 15, so that the water drops can be recycled conveniently to avoid waste, the sizes of the diversion trench 14 and the drainage channel 15 are narrower, the phenomenon that air pressure is insufficient due to excessive dispersion during oxygen flow is avoided, when the water drops are heated by the heating plate 13 in winter or cold weather, the ambient temperature is increased, and discomfort to a wearer due to oxygen supercooling is avoided.

As shown in fig. 1, fig. 2 and fig. 4, as a preferred embodiment, further, a pull shell 16 is arranged below the drainage channel 15 on the basis of the above mode, an activated carbon layer 17 is embedded in the inner wall of the pull shell 16, a permanent magnet 18 is embedded in one side of the outer wall of the pull shell 16, an electromagnet 19 is arranged on one side of the permanent magnet 18, a sliding structure is formed between the pull shell 16 and the assembly shell 9, the pull shell 16 is detachably connected with the activated carbon layer 17 through bolts, the pull shell 16 is fixedly connected with the permanent magnet 18, the permanent magnet 18 is magnetically attracted with the electromagnet 19, the activated carbon layer 17 embedded by the pull shell 16 is positioned on the water storage tank 4, so that the drop water drops are convenient to filter, the purity of oxygen is prevented from being influenced by the cleaning of a water source, the assembly shell 9 is convenient to disassemble, the activated carbon layer 17 is replaced by pulling the pull shell 16, the electromagnet 19 is embedded in a position corresponding to the assembly shell 9, and when the pull shell 16 is closed, the electromagnet 19 is electrified to adsorb the permanent magnet 18, and the pull shell 16 is prevented from being separated.

From the above, it can be seen that:

the utility model aims at the technical problems that: when the oxygenerator is worn, oxygen is conveyed to the mouth and the nose, and the uninterrupted circulation cannot keep humidity, so that the mouth and the nose of a user are dry and uncomfortable for a long time; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

the breather pipe 2 penetrates out of the oxygenerator main body 1 and penetrates through the assembly shell 9, the oxygenerator main body is convenient to connect with external devices such as a breathing mask and the like through the connected connector 3, the water storage tank 4 is arranged at the bottom end inside the assembly shell 9, the pump 5 works, the water source is drawn through a pipeline, the oxygenerator main body is conveyed to the upper inside of the assembly shell 9 through the water storage tank 6, the oxygenerator main body is sprayed out through the atomizing nozzle 8, the interior air of the assembly shell 9 is convenient to be filled with fine water bead particles, the assembly shell 9 is convenient to limit and spray the water bead direction through the fixed mounting plate 7 to avoid being excessively divergent, the water bead is aligned with the breather pipe 2, a plurality of groups of circulation grooves 10 are formed in the breather pipe 2, the inside of the circulation grooves 10 is welded with the connecting blocks 11, oxygen is convenient to contact with external water beads, meanwhile, the breather pipe 2 is kept stable, so that the oxygen contains humidity to avoid the mouth and nose of a wearer to be dried, the dropped water beads slide into the drainage groove 14 through the guide of the guide block 12, and slide down to the water storage tank 4 to circulate through the guide channel 15, the guide groove 14 and the guide channel 15, oxygen is prevented from being sprayed in the transmission process, the embedded 13 of the guide block 12 is convenient to heat the inside the assembly shell 9, the temperature is convenient to be excessively divergent in the limit and sprayed out of the water bead direction through the fixed mounting plate 7, the water bead direction is convenient to avoid being excessively divergent to be excessively divergent, the water bead blocks and difficult to be excessively divergent to be sprayed into the guide block 16, the guide block 16 is easy to be correspondingly to be sprayed into the air guide 16, the air guide 16 is easy to be provided with the air guide pad and is provided with a permanent magnet and is a permanent magnet and a magnetic magnet and a 16, the active carbon magnet is easy to be set and clean, and easy to be set and convenient to be provided with a carbon and easy to be provided with a and a carbon and a carbon magnet.

Through the arrangement, the utility model can solve the technical problems, and simultaneously realize the following technical effects:

according to the utility model, redundant water drops flow to the diversion trench 14 through the diversion block 12 and flow to the water storage tank 4 through the diversion channel 15, so that the water drops can be recycled conveniently to avoid waste, the diversion trench 14 and the diversion channel 15 are narrow in size, the phenomenon that air pressure is insufficient due to excessive dispersion in oxygen circulation is avoided, and when the water drops are in winter or cold weather, the water drops are heated by the heating plate 13 to raise the ambient temperature, so that discomfort of a wearer caused by oxygen supercooling is avoided;

the active carbon layer 17 embedded by the drawing shell 16 is positioned on the water storage tank 4, so that the dripping water drops can be filtered conveniently, the water source is kept clean, the purity of oxygen is prevented from being influenced, the active carbon layer 17 is convenient to disassemble, assemble and replace by pulling the drawing shell 16 to be separated from the assembling shell 9, the permanent magnet 18 is embedded by the drawing shell 16, the electromagnet 19 is embedded at the corresponding position of the assembling shell 9, and when the drawing shell 16 penetrates into the assembling shell 9 to be closed, the electromagnet 19 is electrified to adsorb the permanent magnet 18, so that the drawing shell 16 is prevented from being separated.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Oxygenerator with humidification function, a serial communication port, including oxygenerator main part (1), breather pipe (2) are worn out to the inside of oxygenerator main part (1), and the one end of breather pipe (2) is provided with connector (3), assembly shell (9) are settled to outer wall one side of oxygenerator main part (1), and the inside top of assembly shell (9) is fixed with mounting panel (7), the inside below of assembly shell (9) is provided with water storage tank (4), and the bottom of water storage tank (4) is inlayed and is equipped with pump (5), the one end of pump (5) is connected with water pipe (6), and the axial outer wall of water pipe (6) inlays and is equipped with atomizer (8), circulation groove (10) have been seted up to the inner wall of breather pipe (2), and the inside of circulation groove (10) is fixed with connecting block (11).

2. Oxygenerator with humidifying function according to claim 1, characterized in that the water reservoir (4) is interconnected with the assembly housing (9), and the assembly housing (9) is fixedly connected with the oxygenerator body (1).

3. Oxygenerator with humidifying function according to claim 1, characterized in that the atomizing nozzles (8) are equally distributed with respect to the axial outer wall of the water pipe (6), and the water pipe (6) penetrates into the mounting plate (7).

4. The oxygenerator with humidifying function according to claim 1, wherein a flow guiding block (12) is arranged below the ventilation pipe (2), a heating plate (13) is embedded on the outer wall of the flow guiding block (12), a flow guiding groove (14) is formed in the inner wall of the flow guiding block (12), a flow guiding channel (15) is arranged at the bottom end of the flow guiding groove (14), a drawing shell (16) is arranged below the flow guiding channel (15), an active carbon layer (17) is embedded on the inner wall of the drawing shell (16), a permanent magnet (18) is embedded on one side of the outer wall of the drawing shell (16), and an electromagnet (19) is arranged on one side of the permanent magnet (18).

5. The oxygenerator with humidifying function according to claim 4, wherein the drainage groove (14) is communicated with the water storage tank (4) through a drainage channel (15), and the drainage channel (15) is fixedly connected with the diversion block (12).

6. Oxygenerator with humidifying function according to claim 4, characterized in that a sliding structure is formed between the drawing shell (16) and the assembly shell (9), and the drawing shell (16) is detachably connected with the activated carbon layer (17) by means of bolts.

7. The oxygen generator with the humidifying function according to claim 4, wherein the drawing shell (16) is fixedly connected with the permanent magnet (18), and the permanent magnet (18) is in magnetic attraction connection with the electromagnet (19).