CN212559460U - Intelligent oxygen generator - Google Patents

Abstract

The utility model discloses an intelligence oxygenerator relates to oxygen generating equipment technical field, including casing, air cleaner, filtered air input tube, air compressor machine, air output tube, cooler, cooling gas output tube, molecular sieve device, oxygen output tube, the pure device of essence, waste gas output tube, silencer, the pure oxygen output tube of essence, humidifier, humidification oxygen output tube, output interface pipe, oxygen output automatically controlled valve, air supply pipe. The utility model relates to a scheme is applicable to the regulation and the replenishment of the indoor oxygen content of house, makes oxygenerator integral erection outdoor through the design of external complete machine and ozone generation device, avoids the noise transmission, uses the regulation and the replenishment of the indoor oxygen content of control with the cooperation of oxygen content detector simultaneously, can set up ozone generation device timing work and carry out the room air disinfection and purification after personnel leave home, is favorable to guaranteeing indoor oxygen content, ensures that the room air is clean.

Description

Intelligent oxygen generator

Technical Field

The utility model belongs to the technical field of oxygen generating equipment technique and specifically relates to an intelligence oxygenerator.

Background

At present, the oxygen generator is widely applied to daily life of people, the oxygen generator is generally applied to oxygen supplement working conditions under the condition of oxygen deficiency of people at present, the oxygen generator is rarely used for adjusting indoor oxygen content and supplementing the indoor oxygen content, and the oxygen generator does not have the functions of preparing and releasing ozone at present.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides an intelligent oxygen generator.

The utility model provides a technical scheme that its technical problem adopted is: an intelligent oxygen generator comprises a shell, an air filter, a filtered air input pipe, an air compressor, an air output pipe, a cooler, a cooling gas output pipe, a molecular sieve device, an oxygen output pipe, a refined device, a waste gas output pipe, a silencer, a refined oxygen output pipe, a humidifier, a humidifying oxygen output pipe, an output interface pipe, an oxygen output electric control valve, an air supply pipe, a cooling and drying device, a connecting pipe, an ozone generating device, an ozone output pipe, an air supply pump, an ozone conveying pipe, an ozone output electric control valve, an oxygen input electric control valve, a release pipe, an oxygen content detector and an air supply electric control valve, wherein the air filter is rigidly arranged at the lower right part of the inner wall of the shell, the head end of the filtered air input pipe is connected and arranged on the air filter, the tail end of the filtered air input pipe is connected and arranged on, the head end of the air output pipe is connected and mounted on the air compressor, the tail end of the air output pipe is connected and mounted on the cooler, the cooler is rigidly mounted on the inner wall of the lower end of the shell, the head end of the cooling gas output pipe is connected and mounted on the cooler, the tail end of the cooling gas output pipe is connected and mounted on the molecular sieve device, the molecular sieve device is rigidly mounted on the inner wall of the front end of the shell, the head end of the oxygen output pipe is connected and mounted on the essence device, the essence device is rigidly mounted on the inner wall of the lower end of the shell, the head end of the waste gas output pipe is connected and mounted on the essence device, the tail end of the waste gas output pipe is connected and mounted on the silencer, the silencer is rigidly mounted on the inner wall of the lower end of the shell, the, the humidifier is rigidly mounted on the inner wall of the upper end of the shell, the head end of the humidifying oxygen output pipe is connected and mounted on the humidifier, the tail end of the humidifying oxygen output pipe is connected and mounted on the cooling and drying device, the head end of the output interface pipe is connected and mounted on the position, close to the head end, of the humidifying oxygen output pipe, the tail end of the output interface pipe is connected and mounted on the position, close to the head end, of the air supply pipe, the cooling and drying device is rigidly mounted on the inner wall of the lower end of the shell, the connecting pipe is connected and mounted between the cooling and drying device and the ozone generating device, the ozone generating device is rigidly mounted on, the air feed pump is rigidly mounted on the inner wall of the left side of the shell, the head end of the ozone delivery pipe is connected and mounted on the air feed pump, the tail end of the ozone delivery pipe is connected and mounted at the head end of the air feed pipe, the ozone output electric control valve is mounted on the ozone delivery pipe, the head end of the release pipe is connected and mounted on the air feed pipe, the tail end of the release pipe is sealed, the oxygen content detector is mounted on an indoor ceiling, and the air feed electric control valve is mounted on the.

In the intelligent oxygen generator, the plurality of groups of the release pipes are uniformly distributed and connected along the axial direction of the air supply pipe and are arranged on the air supply pipe, the outer wall of each release pipe is provided with the release holes, and the release pipes are arranged on an indoor ceiling.

The beneficial effects of the utility model are that, the utility model provides a scheme is applicable to the regulation and the replenishment of the indoor oxygen content of house, makes oxygenerator integral erection in outdoor through the design of external complete machine and ozone generation device, avoids the noise transmission, uses the regulation and the replenishment of the indoor oxygen content of control simultaneously with the cooperation of oxygen content detector, can set up ozone generation device timing work and carry out the indoor air disinfection and purification after personnel leave the home, is favorable to guaranteeing indoor oxygen content, ensures that the indoor air is clean.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall internal mounting structure of the present invention;

fig. 3 is a schematic view of the arrangement and installation structure of the air supply pipes of the present invention.

In the figure, 1, a shell, 2, an air filter, 3, a filtered air input pipe, 4, an air compressor, 5, an air output pipe, 6, a cooler, 7, a cooling gas output pipe, 8, a molecular sieve device, 9, an oxygen output pipe, 10, a refined device, 11, an exhaust gas output pipe, 12, a silencer, 13, a refined oxygen output pipe, 14, a humidifier, 15, a humidifying oxygen output pipe, 16, an output interface pipe, 17, an oxygen output electric control valve, 18, an air supply pipe, 19, a cooling and drying device, 20, a connecting pipe, 21, an ozone generating device, 22, an ozone output pipe, 23, an air supply pump, 24, an ozone conveying pipe, 25, an ozone output electric control valve, 26, an oxygen input electric control valve, 27, a release pipe, 28, an oxygen content detector and 29, wherein the air supply valve is electrically connected with the air supply pipe.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the following provides a further description of the present invention with reference to the accompanying drawings, and obviously, the following described drawings are only one embodiment of the present invention, and for those skilled in the art, other embodiments can be obtained according to the drawings and the embodiment without any creative work, and all belong to the protection scope of the present invention.

An intelligent oxygen generator comprises a shell 1, an air filter 2, a filtered air input pipe 3, an air compressor 4, an air output pipe 5, a cooler 6, a cooling gas output pipe 7, a molecular sieve device 8, an oxygen output pipe 9, a refined device 10, a waste gas output pipe 11, a silencer 12, a refined oxygen output pipe 13, a humidifier 14, a humidified oxygen output pipe 15, an output interface pipe 16, an oxygen output electric control valve 17, an air supply pipe 18, a cooling and drying device 19, a connecting pipe 20, an ozone generating device 21, an ozone output pipe 22, an air supply pump 23, an ozone conveying pipe 24, an ozone output electric control valve 25, an oxygen input electric control valve 26, a release pipe 27, an oxygen content detector 28 and an air supply electric control valve 29, wherein the air filter 2 is rigidly mounted at the lower right part of the inner wall of the shell 1, the head end of the filtered air input pipe 3 is connected and mounted on, the tail end of the filtered air input pipe 3 is connected and installed on an air compressor 4, the air compressor 4 is rigidly installed on the inner wall of the right side of the shell 1, the head end of the air output pipe 5 is connected and installed on the air compressor 4, the tail end of the air output pipe 5 is connected and installed on the cooler 6, the cooler 6 is rigidly installed on the inner wall of the lower end of the shell 1, the head end of the cooling gas output pipe 7 is connected and installed on the cooler 6, the tail end of the cooling gas output pipe 7 is connected and installed on a molecular sieve device 8, the molecular sieve device 8 is rigidly installed on the inner wall of the front end of the shell 1, the head end of the oxygen output pipe 9 is connected and installed on a essence device 10, the essence device 10 is rigidly installed on the inner wall of the lower end of the shell 1, the head end of the waste gas output, the silencer 12 is rigidly mounted on the inner wall of the lower end of the shell 1, the head end of the refined oxygen output pipe 13 is connected and mounted on the refined device 10, the tail end of the refined oxygen output pipe 13 is connected and mounted on the humidifier 14, the humidifier 14 is rigidly mounted on the inner wall of the upper end of the shell 1, the head end of the humidified oxygen output pipe 15 is connected and mounted on the humidifier 14, the tail end of the humidified oxygen output pipe 15 is connected and mounted on the cooling and drying device 19, the head end of the output mouthpiece 16 is connected and mounted on the humidified oxygen output pipe 15 near the head end, the tail end of the output mouthpiece 16 is connected and mounted on the gas supply pipe 18 near the head end, the oxygen output electric control valve 17 is mounted on the output mouthpiece 16, the oxygen input electric control valve 26 is mounted at the middle position of the humidified oxygen output pipe 15, the, the connecting pipe 20 is connected and installed between the cooling and drying device 19 and the ozone generating device 21, the ozone generating device 21 is rigidly installed on the inner wall of the lower end of the shell 1, the head end of the ozone output pipe 22 is connected and installed on the ozone generating device 21, the tail end of the ozone output pipe 22 is connected and installed on the air supply pump 23, the air supply pump 23 is rigidly installed on the inner wall of the left side of the shell 1, the head end of the ozone delivery pipe 24 is connected and installed on the air supply pump 23, the tail end of the ozone delivery pipe 24 is connected and installed on the head end position of the air supply pipe 18, the ozone output electric control valve 25 is installed on the ozone delivery pipe 24, the head end of the release pipe 27 is connected and installed on the air supply pipe 18, the tail.

In the above intelligent oxygen generator, the plurality of groups of the release pipes 27 are uniformly distributed along the axial direction of the air supply pipe 18 and connected to the air supply pipe 18, the release holes are arranged on the outer wall of the release pipe 27, and the release pipe 27 is installed on the indoor ceiling.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (2)

1. An intelligent oxygen generator comprises a shell (1), an air filter (2), a filtered air input pipe (3), an air compressor (4), an air output pipe (5), a cooler (6), a cooling gas output pipe (7), a molecular sieve device (8), an oxygen output pipe (9), a pure device (10), a waste gas output pipe (11), a silencer (12), a pure oxygen output pipe (13), a humidifier (14), a humidifying oxygen output pipe (15), an output interface pipe (16), an oxygen output electric control valve (17), an air supply pipe (18), a cooling and drying device (19), a connecting pipe (20), an ozone generation device (21), an ozone output pipe (22), an air supply pump (23), an ozone delivery pipe (24), an ozone output electric control valve (25), an oxygen input electric control valve (26), a release pipe (27), an oxygen content detector (28), Air feed electric control valve (29), its characterized in that: air cleaner (2) rigid mount is in casing (1) inner wall right side lower part position, filtered air input pipe (3) head end connection is installed in air cleaner (2), filtered air input pipe (3) end connection is installed in air compressor machine (4), air compressor machine (4) rigid mount is in casing (1) right side inner wall, air output tube (5) head end connection is installed in air compressor machine (4), air output tube (5) end connection is installed in cooler (6), cooler (6) rigid mount is in casing (1) lower extreme inner wall, cooling gas output tube (7) head end connection is installed in cooler (6), cooling gas output tube (7) end connection is installed in molecular sieve device (8), molecular sieve device (8) rigid mount is in casing (1) front end inner wall, oxygen output tube (9) head end connection is installed in molecular sieve device (8), the tail end of the oxygen output pipe (9) is connected and installed on the essence device (10), the essence device (10) is rigidly installed on the inner wall of the lower end of the shell (1), the head end of the waste gas output pipe (11) is connected and installed on the essence device (10), the tail end of the waste gas output pipe (11) is connected and installed on the silencer (12), the silencer (12) is rigidly installed on the inner wall of the lower end of the shell (1), the head end of the essence oxygen output pipe (13) is connected and installed on the essence device (10), the tail end of the essence oxygen output pipe (13) is connected and installed on the humidifier (14), the humidifier (14) is rigidly installed on the inner wall of the upper end of the shell (1), the head end of the humidifying oxygen output pipe (15) is connected and installed on the humidifier (14), the tail end of the humidifying oxygen output pipe (15) is connected and installed on the cooling and drying device (19), the tail end of the output interface tube (16) is connected and installed at the position, close to the head end, of the air feed tube (18), the oxygen output electric control valve (17) is installed on the output interface tube (16), the oxygen input electric control valve (26) is installed at the middle position of the humidifying oxygen output tube (15), two ends of the air feed tube (18) are sealed, the cooling and drying device (19) is rigidly installed on the inner wall of the lower end of the shell (1), the connecting tube (20) is connected and installed between the cooling and drying device (19) and the ozone generating device (21), the ozone generating device (21) is rigidly installed on the inner wall of the lower end of the shell (1), the head end of the ozone output tube (22) is connected and installed on the ozone generating device (21), the tail end of the ozone output tube (22) is connected and installed on the air feed pump (23, ozone conveyer pipe (24) head end is connected and is installed in air feed pump (23), ozone conveyer pipe (24) end-to-end connection installs in blast pipe (18) head end position, ozone output electric control valve (25) are installed in ozone conveyer pipe (24), release pipe (27) head end is connected and is installed in blast pipe (18), release pipe (27) end is sealed, oxygen content detector (28) are installed in indoor ceiling, blast pipe (18) are installed in blast pipe (29).

2. The intelligent oxygen generator as claimed in claim 1, wherein the release pipes (27) are uniformly distributed and connected to the air supply pipe (18) along the axial direction of the air supply pipe (18) in groups, the outer wall of the release pipe (27) is provided with release holes, and the release pipe (27) is installed on an indoor ceiling.

Images