CN115259090A - Intelligent oxygen conditioner - Google Patents

Abstract

The invention provides an intelligent oxygen conditioner, which comprises an indoor host, wherein the input end of the indoor host is connected with an alternating current power supply, and the output end of the indoor host is electrically connected with a negative ion generator, a humidifier, a data display and an outdoor 40L oxygenerator; the indoor host is connected with the router through WIFI, and the router is connected with the server through a network. The invention can realize the optimal matching technology of the indoor main machine and the outdoor 40L oxygen generator.

Description

Intelligent oxygen conditioner

Technical Field

The invention mainly relates to the technical field of oxygen conditioners, in particular to an intelligent oxygen conditioner.

Background

The oxygen generator is a kind of machine for producing oxygen, and its principle is that it utilizes air separation technology, so that it can be extensively used in national economy.

At present, the domestic oxygen generators of 10 liters, 20 liters and the like lack a matching mechanism with an air compressor and an air compressor state information feedback and control interface in the oxygen production process.

Disclosure of Invention

The invention mainly provides an intelligent oxygen conditioner which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an intelligent oxygen conditioner comprises an indoor host, wherein the input end of the indoor host is connected with an alternating current power supply, and the output end of the indoor host is electrically connected with a negative ion generator, a humidifier, a data display and an outdoor 40L oxygen generator;

the indoor host is connected with the router through WIFI, and the router is connected with a server through a network;

the outdoor 40L oxygen generator comprises an oxygen generator main body connected with the indoor host through a pipeline, a dustproof shell sleeved outside the oxygen generator main body, and an air compressor arranged in the dustproof shell and far away from one end of the oxygen generator main body, wherein one side of the dustproof shell is provided with an air outlet mechanism connected with the air outlet end of the oxygen generator main body, one end of the oxygen generator main body is provided with an air inlet mechanism, and the air outlet end of the air inlet mechanism is connected with an air detector;

the air inlet end of the air compressor is connected with the air outlet end of the air inlet mechanism through an air pipe, and the air outlet end of the air compressor is connected with the air inlet end of the oxygen generator main body through a pipeline.

Further, the indoor host is connected with the anion generator, the humidifier and the outdoor 40L oxygen generator through an AC power supply.

Furthermore, the indoor main machine is in communication connection with the outdoor 40L oxygen generator, and the input end of the indoor main machine is connected with the output end of the outdoor 40L oxygen generator through an oxygen pipe.

Furthermore, the indoor host computer is in communication connection with the data display.

Furthermore, the indoor host is connected with an infrared remote controller through an infrared signal.

Furthermore, the air inlet mechanism comprises an air inlet pipe which penetrates through one end of the dustproof shell and is connected with the air inlet end of the air compressor, two filter sheets which are sequentially arranged in the air inlet pipe, and a slag discharging component which is arranged at the bottom end of the air inlet pipe.

Furthermore, the slag discharging component comprises a plurality of branch slag discharging pipes arranged on the lower surface of the air inlet pipe, and a main slag discharging pipe connected with one end, far away from the air inlet pipe, of each branch slag discharging pipe.

Furthermore, the filter disc is connected with the air inlet pipe in a meshed mode through threads, and a through hole is formed in the shell of the filter disc.

Furthermore, the air outlet mechanism comprises an air outlet pipe connected with the air outlet end of the oxygen generator main body and a sealing part arranged outside the air outlet pipe, wherein the sealing part comprises a push ring sleeved outside the air outlet pipe and an air storage cover sleeved outside the push ring and arranged on the outer surface of the oxygen generator main body.

Further, install first lateral flow pipe and second lateral flow pipe on the tracheal casing in proper order, first lateral flow pipe is kept away from tracheal one end extends to the inside of intake pipe.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the optimal matching technology of an indoor host machine with 10 liters and 20 liters and an outdoor 40L oxygen generator is realized through an AC power supply and an oxygen pipe.

And secondly, an air compressor state information feedback and control interface is realized through communication connection between the indoor host and the outdoor 40L oxygen generator.

Thirdly, the invention can realize the timely interaction of the signals of the oxygen generator and the whole set of equipment and the information interface, and the information acquisition and information transmission communication among the indoor host, the outdoor 40L oxygen generator, the negative ion generator, the humidifier, the data display and the infrared remote controller;

fourthly, the indoor main machine can increase the indoor oxygen amount, and meanwhile, the indoor main machine can be used for breathing of patients after being connected with the oxygen mask.

The invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic structural diagram of an outdoor 40L oxygen generator;

FIG. 3 is an isometric view of an outdoor 40L oxygenerator;

FIG. 4 is a schematic view of the internal structure of the dust-proof case;

FIG. 5 is a schematic structural view of an intake mechanism;

fig. 6 is a schematic structural diagram of the air outlet mechanism.

In the figure: 10. an indoor host; 20. an alternating current power supply; 30. an anion generator; 40. a humidifier; 50. an outdoor 40L oxygen generator; 51. an oxygen generator main body; 52. a dust-proof housing; 53. an air compressor; 531. an air tube; 5311. a first branch pipe; 5312. a second branch pipe; 54. an air intake mechanism; 541. an air inlet pipe; 542. a filter disc; 5421. a through hole; 543. a slag discharge part; 5431. a branch slag discharge pipe; 5432. a main slag discharge pipe; 55. an air outlet mechanism; 551. an air outlet pipe; 552. a sealing member; 5521. a push ring; 5522. an air outlet cover; 56. an air detector; 60. a router; 70. a server; 80. a data display; 90. an infrared remote controller.

Detailed Description

In order that the invention may be more fully understood, reference will now be made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration, various embodiments of the invention which may be practiced in different forms and not limited to the embodiments described herein, but on the contrary, the embodiments are provided so as to provide a more thorough and complete disclosure of the 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 be present, and 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, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of such term knowledge in the specification of the invention is for the purpose of describing particular embodiments and is not intended to be limiting of the invention, and the use of the term "and/or" herein includes any and all combinations of one or more of the associated listed items.

In an embodiment, referring to fig. 1 to 6, an intelligent oxygen conditioner includes an indoor host 10, an input end of the indoor host 10 is connected with an ac power supply 20, and an output end of the indoor host 10 is electrically connected with a negative ion generator 30, a humidifier 40, a data display 80, and an outdoor 40L oxygen generator 50;

the indoor host 10 is connected with a router 60 through WIFI, and the router 60 is connected with a server 70 through a network;

in this embodiment, the weight of the indoor main unit 10 is 80kg, the rated power of the whole unit is 3200W, wherein the power of the outdoor 40L oxygen generator 50 is 2800W, and the power of the indoor main unit 10 is 300W;

further, the size of the indoor unit 10 is 670 × 570 × 920mm.

Specifically, please refer to fig. 1 again, the indoor host 10 is connected to the anion generator 30, the humidifier 40 and the outdoor 40L oxygen generator 50 through an AC power supply;

in this embodiment, the indoor main unit 10 is in communication connection with the outdoor 40L oxygen generator 50, and an input end of the indoor main unit 10 is connected to an output end of the outdoor 40L oxygen generator 50 through an oxygen pipe;

further, the indoor host 10 is in communication connection with the data display 80;

further, the indoor unit 10 is connected to an infrared remote controller 90 through an infrared signal.

Referring to fig. 4 and 5, the air inlet mechanism 54 includes an air inlet tube 541 passing through one end of the dust-proof housing 52 and connected to an air inlet end of the air compressor 53, two filter sheets 542 sequentially installed inside the air inlet tube 541, and a slag discharging component 543 installed at a bottom end of the air inlet tube 541;

the slag discharging component 543 comprises a plurality of branch slag discharging pipes 5431 mounted on the lower surface of the air inlet pipe 541, and a main slag discharging pipe 5432 connected with one end of the plurality of branch slag discharging pipes 5431 far away from the air inlet pipe 541;

the filter 542 is engaged with the air inlet pipe 541 through threads, and a through hole 5421 is formed in a shell of the filter 542;

in the present embodiment, air enters the air compressor 53 through the air inlet pipe 541 for compression, and the air inlet pipe 541 filters the air through the filter 542;

further, waste residues accumulated inside the air inlet pipe 541 are discharged through the branch slag discharge pipe 5431, the waste residues discharged from the plurality of branch slag discharge pipes 5431 are received through the main slag discharge pipe 5432, and the waste residues are discharged after the valve body at the bottom end of the branch slag discharge pipe 5431 is opened;

further, the insertion rod is inserted through the through hole 5421, so that the insertion rod is inserted into the through hole 5421 of the filter 542 and then rotates the filter 542.

Referring to fig. 4 and 6, the air outlet mechanism 55 includes an air outlet pipe 551 connected to an air outlet end of the main body 51 of the oxygen generator, and a sealing member 552 disposed outside the air outlet pipe 551, where the sealing member 552 includes a push ring 5521 sleeved outside the air outlet pipe 551, and an air storage cover 5522 sleeved outside the push ring 5521 and mounted on an outer surface of the main body 51 of the oxygen generator;

a first branch pipe 5311 and a second branch pipe 5312 are sequentially installed on the shell of the air pipe 531, and one end of the first branch pipe 5311 far away from the air pipe 531 extends into the air inlet pipe 541;

it should be noted that, in the present embodiment, the oxygen generator main body 51 discharges oxygen through the air outlet tube 551, and after the air is filled into the air storage cover 5522, the pushing ring 5521 is pushed, so that the pushing ring 5521 pushes the flange on the air outlet tube 551, so that the air outlet tube 551 is attached to the sealing ring, and the sealing performance of the air outlet tube 551 is improved;

further, after the valve body on the first branch pipe 5311 is opened, air is delivered to the inside of the air inlet pipe 541 through the first branch pipe 5311, and after the valve body on the second branch pipe 5312 is opened, air is delivered to the inside of the air storage cover 5522 through the second branch pipe 5312.

The specific operation mode of the invention is as follows:

the indoor main machine 10 has a negative oxygen ion generating function through the negative ion generator 30, the indoor main machine 10 has an indoor humidifying function through the humidifier 40, the indoor main machine 10 has an oxygen washing and dispersing function through the outdoor 40L oxygen generator 50, and the indoor main machine 10 is controlled through the infrared remote controller 90;

air enters the air compressor 53 through the air inlet pipe 541 to be compressed, the compressed air enters the oxygen generator main body 51 to produce oxygen, in the process, the air in the air inlet pipe 541 is divided by the hose on the air inlet pipe 541, so that a part of air enters the air detector 56 after the air detector 56 is started, the air detector 56 is used for detecting the air to judge the air quality of outside air, the air detector 56 transmits an electric signal with the information to a controller connected with the air detector 56, and the controller transmits the information to the data display 80 so as to judge whether the window opening is needed by a user;

the air inlet pipe 541 filters air through a filter 542.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (10)

1. An intelligent oxygen conditioner is characterized by comprising an indoor host (10), wherein the input end of the indoor host (10) is connected with an alternating current power supply (20), and the output end of the indoor host (10) is electrically connected with a negative ion generator (30), a humidifier (40), a data display (80) and an outdoor 40L oxygen generator (50);

the indoor host (10) is connected with a router (60) through WIFI, and the router (60) is connected with a server (70) through a network;

the outdoor 40L oxygen generator (50) comprises an oxygen generator main body (51) connected with the indoor host (10) through a pipeline, a dustproof shell (52) sleeved outside the oxygen generator main body (51), and an air compressor (53) arranged inside the dustproof shell (52) and far away from one end of the oxygen generator main body (51), wherein an air outlet mechanism (55) connected with the air outlet end of the oxygen generator main body (51) is arranged on one side of the dustproof shell (52), an air inlet mechanism (54) is arranged at one end of the oxygen generator main body (51), and an air outlet end of the air inlet mechanism (54) is connected with an air detector (56);

the air inlet end of the air compressor (53) is connected with the air outlet end of the air inlet mechanism (54) through an air pipe (531), and the air outlet end of the air compressor is connected with the air inlet end of the oxygen generator main body (51) through a pipeline.

2. The intelligent oxygen conditioner as claimed in claim 1, wherein the indoor host (10) is connected with the anion generator (30), the humidifier (40) and the outdoor 40L oxygen generator (50) through AC power.

3. The intelligent oxygen conditioner as claimed in claim 1, wherein the indoor main unit (10) is in communication connection with the outdoor 40L oxygen generator (50), and an input end of the indoor main unit (10) is connected with an output end of the outdoor 40L oxygen generator (50) through an oxygen pipe.

4. The intelligent oxygen conditioner as claimed in claim 1, wherein the indoor host (10) is in communication connection with the data display (80).

5. The intelligent oxygen conditioner as claimed in claim 1, wherein the indoor host (10) is connected with an infrared remote controller (90) through infrared signals.

6. The intelligent oxygen conditioner as claimed in claim 1, wherein the air inlet mechanism (54) comprises an air inlet pipe (541) penetrating one end of the dust-proof housing (52) and connected with the air inlet end of the air compressor (53), two filter sheets (542) sequentially installed inside the air inlet pipe (541), and a slag discharge component (543) installed at the bottom end of the air inlet pipe (541).

7. The intelligent oxygen conditioner according to claim 6, wherein the slag discharge part (543) comprises a plurality of branch slag discharge pipes (5431) mounted on the lower surface of the air inlet pipe (541), and a main slag discharge pipe (5432) connected to one end of each branch slag discharge pipe (5431) far away from the air inlet pipe (541).

8. The intelligent oxygen conditioner as claimed in claim 6, wherein the filter (542) is engaged with the air inlet pipe (541) by a screw thread, and a through hole (5421) is formed on a housing of the filter (542).

9. The intelligent oxygen regulator according to claim 6, wherein the air outlet mechanism (55) comprises an air outlet pipe (551) connected to an air outlet end of the oxygen generator main body (51), and a sealing member (552) disposed outside the air outlet pipe (551), and the sealing member (552) comprises a push ring (5521) sleeved outside the air outlet pipe (551), and an air outlet cover (5522) sleeved outside the push ring (5521) and mounted on an outer surface of the oxygen generator main body (51).

10. The intelligent oxygen conditioner of claim 9, wherein a first branch pipe (5311) and a second branch pipe (5312) are sequentially mounted on the housing of the air pipe (531), and one end of the first branch pipe (5311) far away from the air pipe (531) extends to the inside of the air inlet pipe (541).

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